RISH Ducer IXX / VXX Series (TRMS/Average) Transducer for ... · Page 4 of 13 Version : 1 / 04 / XX...

Fig. 1. RISH Ducer I11 in housingE16 clipped onto a top-hat rail.

Fig. 2 RISH Ducer V11 in housingE16 screw hole mounting brackets pulled out.

www.rishabh.co.in Page 1 of 13 Version : 1 / 04 / XX / 0112 / B

Transducer for AC Current and AC Voltage

Data Sheet

RISH Ducer IXX / VXX Series (TRMS/Average) Transducer

for AC current / AC Voltage (Single or Dual Output)

Unique Features

State of the art products with SMT : Compact & reliable.

Well proven technology from Gossen Metrawatt Camille

Bauer, Germany / Switzerland.

Application

AC Current & AC Voltage Transducers series

Rish Ducer IXX / VXX

Meets requirements of International Standard IEC688 for

accuracy

Insulation level of 3.7kV/4kV.

Impulse withstand voltage 5 kV.

Higher load capacity : 750 Ohms at 20 mA.

True RMS models (I21/V21).

Self Powered models (I1X/V1X)

Very wide range of product to meet the needs of varied applications.

Current : I11 - Average type, Self Powered. (Class 0.5)

I12 - Average type, Self Powered

with dual range input (Class 0.5)

I21 - True RMS. (Class 0.5)

I22 - True RMS, (Class 0.2)

Voltage : V11 - Average type, Self Powered. (Class 0.5)

V21 - True RMS. (Class 0.5)

V22 - True RMS, (Class 0.2)

The RISH Ducer IXX / VXX measuring transducer is used to convert

a sine - wave or distorted AC current and AC Voltage into an

impressed The output signal is proportional to the output signal.

root - mean square value of the input current and Voltage.

Mounting : DIN rail or Panel mounting. Easy “onsite”

conversion.

Response time < 300 mS standard, < 50mS optional.

Mounting position : Any

Electrical isolation between all transducer connections.

Terminal connection : Electricians delight. Even suitable

for multistrand or solid wire connection. Large space for

lopping of wires.

Housing : Polycarbonate, Flammability class V-0 acc to

UL94, conforming to V0 grade of UL 94.

(Self extinguishing, non drip)

Accuracy class 0.5 as per IEC 688, (I22 & V22 class 0.2.)

Output short circuit & open circuit proof.

Option of SMPS supply for wide range of AC / DC

supply available.

Operating temperature - 10 to +55º C.

Storage temperature - 40 to +70º C.

Optional dual output (accuracy class 0.5 only)


•

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•

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•

•

•

•

•

•

•

•

•

•

•

•

•

Symbols and their meaning

Symbols Meaning

X Measuring input / Input variable

X0 Start value of input voltage

X1 Elbow of input voltage, see Fig. 6 and 7

X2 Final value of input voltage

Y Measuring output / Output variable

Y0 Start value of output variable

Y1 Elbow of output variable, see Fig. 6 and 7

Symbols Meaning


H Power supply

Hn Rated value of power supply

T Setting time

Tn Rated value of setting time

R Max. output burdenext

Rn Rated value of output burden

Mode of Operation

Layout and mode of Operation

I21

I22

Input signal X is galvanically separated from the mains network using a transformer. The following mathematical expression is then formed using a RMS value Computerleff=

w1T

xT

o

2i dt

Block DiagramStandard Transformation

Characteristics

Y2

Y0

X0 X2X

Y

V21

V22

Veff= w

1T

xT

o

2u dt

Following filtration by means of an active filter, the transformation properties of the measuring transducer aredetermined in the characteristics circuit. The o/p amplifier transforms the measuring signal into an impressed o/p signal Y. The electronic components are supplied with voltage H from the mains supply unit.

leff= w1T

xT

o

2 l dt YX

H

Fig. 1. Block Diagram

Input signal X is galvanically separated from the mains network using a voltage transformer.The following mathematical expression is then formed using a RMS value computer.

Following filtration by means of an active filter, the transformation properties of the measuring transducer are determined in the characteristics circuit. The o/p amplifier transforms the measuring signal into an impressed o/p signal Y. The electronic components are supplied with voltage H from the mains supply unit.

Ueff= w1T

xT

o

2 U dt YX

H


I11

&

V11

The Transducer comprises a transformer W, a rectifier unitG and the amplifier V. The measured variable I/U AC is isolated from the electronics by the transformer W, and is

rectified and a smoothed in the rectifier unit G. The o/p amplifier V amplifies the resultant signal and converts it

into the load-indepedent DC o/p signal A. The version with live-zero o/p has a 4mA constant current source to provide the zero setting. In the case of 2-wire connection the o/p increases from the zero setting of 4mA with an increase in measured value.The constant current source needs a supply voltage H between 12 and 30 V DC, which may be supply typically from the main installation, the receiving equipments or a separate power pack.

G V

VK H

W

Rext

I ~

U ~

-

~ I ~

U ~

G

-

~

V

A

W

Fig. 3.

Block Diagram

for transducer

with live-zero

output & 2-wire

connection.

Fig. 4.

Block Diagram for

transducer with

unipolar output.

A5 -

6 +

1

1A -3

5A -2

W G T

E


I12 The Transducer comprises a transformer W, a rectifier unit G and a low-pass filter T. The measured variable is isolated from the electronics by the transformer W, and isrectified and a smoothed in the rectifier unit G.

Fig. 6. Block DiagramLinear curve, characteristics

(X0 = 0; Y0 = 0)

Y2

Y0

X0 X2X

Y

Fig. 7. Block DiagramLinear curve, characteristics (X0 = 0; Y0 = 0.2 Y2 )

Y2

Y0

X0 X2X

Y

Fig. 8. Block DiagramLinear curve, characteristics (X0 = 0; Y0 = 0)

Note : For two output, independent sections of Fig 3 & 4are used.



General and Measuring Input (Specification available on request)

Parameters RISH

Ducer I21

RISH

Ducer I22

RISH

Ducer V21

RISH

Ducer V22

RISH

Ducer I12

RISH Ducer I11 & V11

(Single or Dual Output)

General

1 Measured

Quantity

AC Current

Sine or distorted waveforms

True RMS value measurement

AC Voltage

Sine or distorted waveforms

True RMS value measurement

Voltage

AC current or AC Voltage Sinusoidal

arithmetical mean measured, calibration to

rms with sine wave form (Average value)

2 Measured

Principle Logarithmic Rectifier method

Measuring

InputCurrent Current Current and Voltage

1 Nominal

Frequency

F N

50, 60 or

400 Hz

Current X2 : 1A X2 7.5 A Voltage X2 :

100 V X2 7.5 A

50, 60 Hz

2 Nominal

Input *

50, 60 or

400 Hz

50, 60 Hz 50, 60 Hz

Current :

1A & 5 A

Site

configurable

Current I 1A or 5AN

Voltage V N

100 / 3 / 110 / 150 /

240 / 415 / 440 V *

w

3 Re-calibration

of X2

Final value permanently set of

final value can be adjusted in

range.

0.5.X2 X2

--- --- Range adjustment

0.9...1.1. I resp. U (+10%) N

(Admissible alternation of full

scale output, variable sensitivity,

adjustable with potentionmeter)

N

4 Own

Consumption < 1 VA at X2 1 VA At nominal freq. Hz :

Full o/p

Value [mA]

I11

[VA]

V11

[VA]

1 0.8 0.8

5 1.8 1.210 2.2 1.520 2.5 1.8

Measured

Quantity

No. of

Appl.

Duration

of 1

Appln

Interval

between 2

successive

appln.

1.5 X IN Cont.. --- ---

2 X IN 10 10s 10 s.

10 X IN 5 3s 5 min

40 X IN 1 1s ---

1.5 X VN Cont.. --- ---

2 X VN 10 10s 10 s

4 X VN 1 2s ---

5 Overload

Capacity

Measured

Quantity

No.

of

Appl.

Duration

of 1

Appln

Interval

between 2

successive

appln.

2 X 2 --- Cont.. ---

10 X 2 5 3s 5 s.

1 1s 1 h

@50 X 2

X2 = Final value,@but max.250 A

* Other input available on request

Measured

Quantity

No.

of

Appl.

Duration

of 1

Appln

Interval

between 2

successive

appln.

1.2 X 2 --- Cont.. ---

1.5 X 2 10 10s 10 min

1.2 X INcontinuously

I11

[VA]

2.0

4.04.55

V11

[VA]

2.0

3.03.54

two output)Option (for

20 X I 5 1s 5 min

20 X 2 5 1s 5 s.

Measuring Output

ParameterSr.

No.

Output

Variable Y

1

Load

independent

DC current

output range

2

I21 I22 V21 V22 I12 I11 & V11 (Single or Dual Output)

Load-independent DC current or DC voltage

1 mA Y2 20 mA

DC depends on load Load - independent DC current I orA

DC voltage o/p V (not Superimposed)A

0...5 mA

0...10 mA

0...20mA

0...1/0...5/0...10 or 0...20 mA

(4...20mA refer cl. for 2 wire output)

Measuring Output

ParameterSr.

No.

O/p burden

with DC

current o/p

signal

3

DC voltage

o/p range

4

O/p burden

with DC

voltage o/p

signal

5

Current limit

under overload

6

Voltage

limit under

R = ext

7

Residual

ripple in o/p

signal

8

Response

time

9

Output

Standard

Ranges *

10

I21 I22 V21 V22 I12 I11 & V11 (Single or Dual Output)

0 R 15V/Y2

1V Y2 10 V

Y2 / 2mA R <

1.7 Y2 with current o/p

Approx. 20 mA with voltage o/p

40 V with Current o/p

1.7.Y2 with voltage o/p

5% p.p. at

setting time

0.5% p.p. at

setting time

5% p.p. + C 0.5% at

setting time 50 msec and C>1

5% p.p. at

5% p.p. at setting time 50

msec and C 1

setting time

300 msec and C > 1

300 ms standard,

50 ms optional

Current : 0-1mA/5mA/10mA/20mA/4-20mA

Voltage : 0-10V

R max.[K ] =

15 V/I AN

I = full o/p value

ext

[mA]

AN

R max.[K ] = 15 V/I [mA]ext AN

I = full o/p valueAN

10 V O/p V not superimposed : std range A

of V : 0 ... 10VA

Ext resistance 200 k /v100 K

AN3 X I 1.5 X I for current o/pAN

Approx. 30 mA for voltage

< 20 V < 24 V

1% p.p at

750 /20 mA

Current ripple 1% p.p.

< 2s < 300 ms

Current : 0...5 /

0...10 /

0...20 mA

Voltage : 0-10V

Current : 0...1/0...5/0...10 or 0...20 mA

Voltage : 0-10 V


50 msec

300 ms


Accuracy

Parameter

Reference Value

Basic Accuracy

(for std ranges)

I21 I22 V21 V22 I12

Output end value Y2

(IEC 688-1 / IS 12784)

Class 0.5 Class 0.2 Class 0.5 Class 0.5 Class 0.5Class 0.2

Input end value X2

Parameter

Ambient Temp

Input Variable

I21 I22 V21 V22 I12

0 23 C, ± 5 k

Reference Conditions

0 23 C, 1± C

0 0 23 C, 5 k±

Rated operating range0 to 100% for current measurement

20 to 100 % for voltage measurement

Frequency Fn 2%±

Distortion Factor --- < 0.5%

External Resistance

Current o/p

Voltage o/p

Rn = 15 V/Y2 + 1%

Rn = Y2/1 mA + 1%

Rext. Max - 1%

Rext. Min + 1%

0 - R (max.)

R (min.) to ¥ext

ext

I11 & V11(Single or Dual Output)


Parameter I21 I22 V21 V22 I12

Reference Conditions

Curve Shape Sine - Wave

Shape Factor 1.1107

Curve Shape

Warm-up Time

---Hn + 1% + 1% for 24 V DC with 4-20 mA output

5 min.



Influence Effects (maxima) accuracy Included In Basic Error

ParameterSr.

No.

Linearity Error

Frequency

1

2

3

I21 V21 I22 V22 I12 I11 & V11


< 0.1%± < ± 0.3%

---- ---- ---- ± ± 0.3% (Fn 2%)

Dependance on

External resistance

R ext max.d

Additional Error *

Ambient Temp1. Rated Operating

Range

Permitted

effect factor of

precision class

Rated Operating

Range

Permitted

effect factor of

precision class

0

+ 10 C...23 C

...40 C

0

0

Sine Waveform only

1 Usage group

0

0 0

...23 C ... 45 C

1

0

+ 0 c...23 C

...55 C

0

0

10 0

+ 10 C...23 C 0

...55 C

2

0 0

- 25 C...+ 55 C

± 0.5% 10K

Curve Shape of

Input

2. Rectangle 1:1

Cut-in sine wave

90 (for V21)0

1

2

Rectangle 1:1 1

45...55Hz

± 0.3%Frequency of input

Variable

3. 40...400 Hz 1

2

45. .65 Hz. 1 45...200Hz

± 0.5%

> 400...1000 Hz --- ---

± 0.1%± 0.5%± 0.1% ± 0.1%

(Single or Dual Output)

Power Supply

Parameter

Version with AC

Power packs

standard voltage :-

Rated operating

range of

frequency :

I21 I22 V21 V22 I12

--- ---

45...50...60...65 Hz

Rated Value

Hn

Rated Operating Voltage

AC 24 V

AC 110 V

AC 230 V

AC 400 V

22...26V

99...121V

207...253V

360...440V


Regulations

ParameterSr.

No.

Safety Standards1

Housing Protection2

Rated Insulation

Voltage

3

Contamination

Level

4

Over voltage

Category

5

Protection Class6

7

I21 I22 V21 V22 I12 I11 & V11 (Single or Dual Ouput)

Acc. To IEC 1010

Measuring input AC 300 V,

Power supply AC 300 V, DC 230V

Measuring output DC 40 V

2

III

II

IP 40 acc. To EN 60 529 Terminals IP 20

--- ---

--- ---

------

--- ---

Power Supply

Parameter I21 I22 V21 V22 I12

---

---

---

1.4 W resp. 2.7 VA

External Resistance

Current o/p

Voltage o/p

AC 4 VA at

H=Hn

DC 4 w

Version with

AC / DC

Power Packs

(Dc & 45 -- 400 Hz)

AC 3 VA at

H=Hn

DC 3 w

AC 4 VA at

H=Hn

DC 4 w

AC 3 VA at

H=Hn

DC 3 w

Rated Value

Un

Permissible

Variation

24...60 V

DC/AC DC - 15...+33%

AC + 15%85...230 V

DC/AC

Power consumption

--- ---DC Voltage

Supply

12-30 V

(only for 2-wire connection with

output 4 ...20 mA)



Parameter

Climatic Rating

I21 I22 V21 V22 I12

Climate Class 3Z acc. To VDI/VDE 3540

Environmental Condition

Sr.

No.

1

Operating Temperature-25 to +55 degree C

2

Storage Temperature -40 to +70 degree C3

Relative Humidity of

Annual Mean 75%4

Permissible Vibration 2 g acc. To EN 60 068-2-65

Shock 3 x 50 g

3 shocks each in 6 directions

6

-10 to +55

degree C-25 to +55 degree C

75% Standard Climate Rating

90% Enhanced Climate Rating



Regulations

ParameterSr.

No.

Protection Class6

Safe Isolation7

Impluse withstand

Voltage

Acc to

IEC 255-4 CI,III:

8

Test Voltage9

Product

Performance

10

I21 I22 V21 V22 I12 I11 & V11 (Single or Dual Ouput)

II

Acc. to IEC 1010 and DIN/VDE 106,

part 101

5 KV 1.2/ 50 sec, 0.5 Ws Common - mode

and differential mode between any terminals

3.7 KV 50 Hz/1 min. between electrically

isolated circuits.

Measuring output versus housing

0.5 kV/50 Hz/1 min.

IEC 688,IS 12784

--- ---

--- ---

--- 5 KV 1.2/50 sec, 0.5 Ws Common-

mode and differential mode between

any terminals

Measuring input versus

measuring output 3.7 kV,

50Hz, 1 min.

Measuring input versus

housing 3.7 Kv,50Hz,1 min

measuring output versus

housing 740V, 50 Hz, 1 min

4 kV/50 Hz/1 min

Parameter

Mechanical Design

I21 I22 V21 V22 I12 I11 & V11 (single and dual)

Housing 35 mm width (E8) or 70mm width (E16)

Installation Data

Sr.

No.

1

Material of Housing Glassfilled polycarbonate, flammability Class V-0 acc.

to UL 94, self extinguishing, non-dripping.

2

Mounting DIN rail mounting (35 x 15 mm or 35 x 7.5 mm) acc. To EN 50 022

OR

Directly onto a wall or panel using to pull-out screw hole brackets

(on site conversion possible)

3

Mounting Position Any4

Electrical Connection Screw-type terminals with indirect wire pressure, 22 for max. 2 x 2.5 mm or 1 x 6 mm2

5

Weight Approx. 0.5 Kg6 Approx. 0.4 Kg

Current & Voltage Transducer

With 2 wire connection

0 12 24 30

0

900

600

Ext

ern

al

resi

sta

nce

[ ]

A

ext

Fig . 9

Standard ranges of I = 4...20 mA

External resistance R --- dependent

on power supply H (12...30 V DC)

1) 2 Wire output with 4-20 mA, for I11 & V11 with 12...30V DC AUX :

H = Power Supply [V]

20mA

H[V] - 12VR max. [k ] =ext

Special Features (Optional)

E2 EN E3E1

A1

A3

A

E

Factor c (V21)

B) Suppressed Initial Range :

Fig. 11

Characteristic B

“Voltage magnifier in end range”.E1...E2 suppressed completely,E2...E3 main measuring range magnified

Response Time <50 ms for I21 / I22 / V21 / V22

Special Transformation Characteristics :

2)

3)

Linear Curve = 1BENT Curve

(the larger value applies)

x2

x1c =

1

1 x1x2

or c =

A) Bent Characteristics.

Fig. 10

0

0Input

Ou

tpu

t

X

Y



A3

A1E1 E3

E

A

A3

A1E1 E3

E

A

A3

A2

E1 E3E

A

C) Magnified Beginning or End of measuring range :

Characteristic A “Standard”Variable sensitivity and live zero.

Fig. 16Characteristic A “Standardand live zero. "

Fig. 15Characteristic A “Standard” Fig. 17

A3

A2

A1E1 E2 E3

E

A

Characteristic D “Main value magnificationin initial range”.

E1...E2 (main measuring range) magnified,E2...E3 (secondary measuring range) suppressed

Input Magnification Of Initial range.

Fig. 12

A3

A1E1 E2 E3

E

A

EN

End Value Magnified.

Characteristic C “Main value magnificationin end range”.E1...E2 (secondary measuring range) suppressed,E3...E3 (main measuring range) magnified.

Fig. 14

A3

A1E1 E2 E3

E

A

EN

Characteristic B "Current resp. Voltagemagnifier in end range”.E1...E2 suppressed completely,E2...E3 (main measuring range) magnified.

Fig. 13

End Value Magnified.

A3

A1E1 E3

E

A

A2

Fig. 18Characteristic A “Standardand variable sensitivity." E3 adjustable by max. + 5%or + 10%

Possible range of elbow X1/Y1Possible range of elbow X1/Y1

Y

X

Y2

Y1

Y0

X0 X1X2

Y

X

Y2Y1

Y0

X0 X1 X2

4) Transformation Characteristics (V21) :

5) Any other input / output / power supply

6) Dual Channel current Transducer

7) Dual output current Transducer.

8) Input Frequency (if other than 50 Hz)

Fig. 20

Bent curve,

characteristic

(X0 = 0 0.05 X2 < X1 < 0.9 X2

Y0 = 0.2 Y2 Y0 < Y1 < 0.9 Y2).

Fig. 19

Bent curve,

characteristic

(X0 = 0 0.05 X2 < X1 < 0.9 X2

Y0 = 0 Y0 < Y1 < 0.9 Y2).



Fig 22 :

for measuringRISHDucer V11 RISHDucer I11

as 2-wire converterwith 4.. 20 mA output.

RISHDucer I11for measuring

1 2 3 4~

AInput

- +

6 7 85

Output

1 2 3 4~

V

Input

- +

6 7 85

Output

1 2 3 4~

AInput

- +6 7 85

Rext

H

1 2 3 4~

VInput

- +6 7 85

Rext

H

RISHDucer V11,as 2-wire converterwith 4.. 20 mA output.

Electrical Connection

RISHDucer I11 Dual Outputfor measuring AC current with dual output

1 2 3 4~

AInput

10 11 129

5 6 7 8

14 15 1613

Fig 23 :Fig 21 : Fig 24 :

Fig 27 :

AC Current AC Voltage

~

- +

Output 1

- +

Output 2

RISHDucer V22 Dual Outputfor measuring AC voltagewith dual output

1 2 3 4~

VInput

10 11 129

5 6 7 8

14 15 1613

Fig 28 :

~

- +

Output 1

- +

Output 2

RISHDucer I11 Dual Outputfor measuring AC current with dual output

1 2 3 4~

AInput

10 11 129

5 6 7 8

14 15 1613

Fig 25 :

~

- +

RISHDucer V22 Dual Outputfor measuring AC voltagewith dual output

1 2 3 4~

VInput

10 11 129

5 6 7 8

14 15 1613

Fig 26 :

~

- + - +

Rext

H

- +

Rext

H

Rext

H

-

Rext

H

I11,V11

I12

Connection Terminals

Measuring input ~

~

5

6

Measuring Output +

-

1

2

Power supply ~/+

~ -/3

4

I21 / I22

Connection Terminals

Measuring input ~

~

Measuring Output +

-

Power supply ~ +/

~ -/

V21 / V22

Connection Connecting

Measuring input E 1A~ 1 and 3

Measuring input E 5A~ 1 and 2

Measuring output A 5 - and 6 +

terminals 5

6

1

2

3

4


I11 Dual Output V11 Dual Output

Power supply~ -/ 4

Power supply~ -/

~/+ 3 ~ +/

Measuring Output 1

- 2Measuring Output 1

-

+ 1 +

Measuring input ~

~

5

6Measuring input ~

~

Connection Terminals Connection Terminals

Measuring Output 2

- 12

+ 11 Measuring Output 2

-

+

4

3

2

1

5

6

12

11

126

12

5

5 6 7 8

1 2 3 4

13

0

Fig 27. Transducer with one output in housing E8 clipped onto a top hat rail (35 X 15 mm or 35 X 7.5 mm)

126

12

5

8765

4321

35

13

0

125

12

5

5 6 7 8

1 2 3 4

35

15

4

14

0

¯4

,5

6,5

12

19

Fig 29. Transducer with one output in housing E8 with the screw hole brackets pulled out for wall mounting.

125

125

70

154

140

¯4.5

6.5

12

19

161514131211109

87654321

Fig 30. Transducer with two output in housing E16 with the screw hole brackets pulled out for wall mounting.

126

125

70

130

Fig 28.Transducer with two output in housing E16 clipped onto atop hat rail (35 X

15 mm or 35 X

·

7.5 mm) acc. to EN 50022.acc. to EN 50022.

Dimensional Drawings

9 10 11 12 13 14 15 16

1 2 3 4 5 6 7 8

19 6.5

Specification & Ordering Information for TRMS Model

Note :

Please tick in appropriate box Also specify the ranges wherever necessary** other specifications on request. (Contact to factory)I12 model (Class 0.5)For I12 model 1A/5A input is fixed only specify output signal 0...5 mA, 0...10mA, 0...20mA, 0...10V

Features Selection

1

2

3

4

5

6

7

8

9

Measuring Transducer for AC current/Voltage

(RMS value measurement)Accuracy Class 0.5 0.2

Frequency of Input Current

Fn = 50 Hz

Fn = 60 Hz

Fn = 400 Hz

Final value of output signal **0...1mA, 5mA, 10mA, 20mA, 4...20mA0...10V

Linear Characteristics Bent (if applicable)

X0 = 0

Y0 = 0

X0 = 0

Y0 = 0.2.Y2

Re-calibration of X2

Final value permanently setFinal value can be adjusted

in range 0.5 X2 < X2

Response time 50ms

0.3s (standard)

Power SupplyAC 22 V...26V

AC 99V...121V

AC 108V...132V

AC 207V...253V

AC 360V...440V *

DC/AC 24V...60V

DC/AC 85V...230V

* > 300V; Phase -to-phase connection to a 3-phase supply only.

CurrentTransducer

VoltageTransducer

I21I22

V21V22

Specify range

Sr.No.

Final value of input voltage **

0...110/ 3... 500 V *

* >300 V; phase-to-phase connection to a 3-phase supply only.

0.05.X2 < X1 < 0.9 X2

Y0 < Y1 < 0.9 Y2

0.05.X2 < X1 < 0.9 X2

Y0 < Y1 < 0.9 Y2

Final Value of Input Current0...1A ... 7.5 A Not applicable

Not applicable

Not applicable

Specify range

Specify range

Not applicable

Specify value of X1 & Y1

Specify value of X1 & Y1

Specify value

Not applicable


Specification & Ordering Information for V / I model 11 11

Features Selection

1) Measuring Transducer for AC current/Voltage

Accuracy class 0.5

Current Voltage

I11 V 11

Sr.No.

Transducer

2) Measuring Range (Measuring Input Current ) **

0...1A, 0... 5A Specify range Not applicable

Transducer

RISHABH INSTRUMENTS PVT.LTD.F-31, MIDC, Satpur, Nashik-422 007,India.Tel.: +91 253 2202160, 2202202 Fax : +91 253 2351064E-mail : India :- [email protected] International :- [email protected] : www.rishabh.co.in

Specification & Ordering Information for V / I model 11 11

Features Selection Current VoltageSr.No.

Transducer

3) Output Signal 1 (measuring Output A)**

O...1mA, < 15 k

0...5 mA, < 3 k

0..10mA, < 1.5 k

0...20mA, < 750

4...20mA, 2 wire connection, R dependant on ext

power supply (12..30VDC)

0...10V, > 200 k /V

Rext

R

R

R

Rext

5) Special Feature

Without

With (Specify separately)

Note :

Please tick in appropriate box Also specify the ranges wherever necessary** other specifications on request. (Contact to factory)

Transducer

Specify Aux. supply volt DC

ext

ext

ext

4) Output Signal 2 (measuring Output A)**

O...1mA, < 15 k

0...5 mA, < 3 k

0..10mA, < 1.5 k

0...20mA, < 750

4...20mA, 2 wire connection, R dependant on ext

power supply (12..30VDC)

0...10V, > 200 k /V

Rext

R

R

R

Rext

Specify Aux. supply volt DC

ext

ext

ext


Fig. 1. transducer in housing E16 clipped onto a top-hat DIN rail.

RISH Ducer C11 Fig. 2. RISH Ducer C11 transducer in housing E16 screw hole mounting brackets pulled out.

www.rishabh.co.in Page 1 of 8 Version : 1 / 04 / XI / 0112 / B

Transducer for measuring phase angle (Power Factor)

Data Sheet

Phase Angle Transducer (Power Factor)RISH Ducer C11

Features / Benefits

Measuring inputs: Sine or distorted wave-forms of nominal

input current and nominal input voltage

Application

The transducer RISH Ducer C11 (Fig. 1 and 2) measures the

phase angle between current and voltage of a single or 3 phase

balanced network having a sine wave form.

Measuredvariable

Phase Angle

Nominal inputcurrent

0.01 to 10 A

Nominal inputvoltage

10 to 660 V

Measuring rangelimits

0 to 30 & 0...175° el± 15 to < ± 175° el

The output signal, in the form of a load independent DC current or

voltage, is proportional to the phase angle between the 2

measured quantities current and voltage.

The measuring range scales of the connected instruments, such

as indicators, recorders, controllers etc., are calibrated in cos

values of the angle.


•

Measuring output :

DC current signal ( load - independent ) or DC voltage

signal (not super-imposed)

•

Measuring principle : Measurement of the zero crossing

interval

•

Electric isolation between all transducer connection

circuits / Prevents interference voltages and currents being

transmitted

•

Narrow housing, 70 mm / Saves space and therefore costs•

Snaps onto a DIN rail or screws onto a wall or panel /

Adaptable to the circumstances at the place of installation

•

Screw terminals suitable for multistrand or solid wires /

Easy wiring without problems

•

Two isolated outputs (Optional)•

Electrical isolation between output 1 and output 2 is 500V•

Mode of Operation(Fig.3)

The input variables – current and voltage – are matched to the

internal instrument level via isolation transformers and led to an

RS flip-flop. This bistable element generates constant-amplitude

rectangular signals whose length corresponds to the time between

the rising zero axis crossings of the two input variables. Parasitic

zero axis crossings, due to superimposed ripple control frequencies

for example, are almost suppressed by a dead time (positive

feedback). The mean voltage of these rectangular waves is

therefore proportional to the phase angle and inherently

independent of the input frequency.

Measuring Input Power Supply Output

U~ I~ ~ + -

Technical Data

General

Measured quantity: Phase angle between current and voltage

Measuring principle: Measurement of the zero crossing interval

Measuring input E

Standard measuring

ranges 1 : 0.9–cap–1–ind–0.5

0.8–cap–1–ind–0

0.5–cap–1–ind–0.5

0.5–ind–0–cap–1–ind–0–cap–0.5

Nominal frequency f 2 N 50 or 60 Hz

Nominal input voltage

U 3 N

100/ 3, 110/ 3, 100, 110, 200, 230,

400 or 500 V

:

: w w

Nominal input current

I 4 N

1, 2 or 5 A:

Power consumption: < 0.1 VA per current path

U × 1 mA per voltage pathN

:

Sensitivity: < 0.05% of range end value:

180 120 80 0 60 120 180 0el

cap (lead) cap (lead)

0.5 0 0.51 0.5 0 0.5 1 cos j

ind (lag) ind (lag)

10.8 0.9

Overload capacity :

———

Measuredquantity

I UN N

Number of appli-cations

Durationof one

application

Interval betweentwo successive

applications

2 x IN

contin. ———

5 min.10 x IN

5 15 s

40 x IN

1 1 s ———

10 s2 x UN

10 10 s

1.5 x UN

contin. ——————

4 x UN

1 2 s ———

Standard ranges of UA

5 to 7

Measuring output A

Output signals: Load-independent DC voltage U

ORLoad-independent DC current IA

A

0...10 / 1...5 / –10...0...10 V

Load capacity 20 mA

External resistance

for one output

Rext min. [k ] >U [V]AN

20 mA

U = Full scale outputAN

For two outputs

Rext. [ k ] > 10 k / V

Standard ranges of IA

8 to 10

0...1/0...5/0...10/0...20/4...20 mA

–1...0...1/–2.5...0...2.5/–5...0...5/

–10...0...10/–20...0...20 mA

Burden voltage: ± 15 V for one output

Burden voltage: ± 12V for two outputs

External resistance

20 x IN

5 1 s 5 min.

Table 1 : Electromagnetic compatibility

Conducted interference from the instrument EN 55 011 Group 1, Class A

HF radiation from complete instrument EN 55 011 Group 1, Class A

Electrostatic discharge IEC 801-2 ± 4 kV contact, ± 8 kV air

HF field influence on instrument IEC 801-3 80 to 1000 MHz, 10 V/m, 80 % AM 1 kHz

Transient burst via connections IEC 801-4 ± 2 kV, 5/50 ns, 5 kHz, > 1 min. capacitively coupled

Transient surge on power supply IEC 801-5 ± 2 kV, 1.2/50 ms, symmetrical

± 4 kV, 1.2/50 s, asymmetricalm

HF interference via connections IEC 801-6 0.15 to 80 MHz: 10 V, 80% AM 1 kHz, source 150

The basic standards EN 50 081-2 and EN 50 082-2 were taken in account

The limits given in the standards mentioned are observed. During the interference test, occasional impairment of operating behaviour was

permitted, but no change of operating mode and no loss of data.


I = Full scale ValueAN

Voltage limit underRext =

Approx. 40 V

Current limit underoverload

Approx. 1.3 I with currentAN

Approx. 30 mA with voltage output

FSO variation: Approx. ± 2%

Ripple in output

current 11

2% p.p.

Response time < 300 ms

1 to 11 see section “Special features”

Rext max. [k ] <Burden voltage

I [mA]AN

± 1.0%

acc. to ANSI/IEEE

C 37.90-1978 2.5 kV, 150

1 MHz, 50 Hz :

Accuracy

Reference valueBasic accuracy Class 0.5Reference conditions

Output span

Ambient temperature 0

23 C, 5 K

Frequency f 10%N

Power supply U ± 15% (AC),

U –15 / +33% (DC)HN

HN

Influence effects (maximum values):

(included in basic error)

Linearity error ± 0.2% for one output

± 0.4% for two outputs

frequency influence f 5%N ± ± 0.05%Dependence on external resistance ( R max.)ext ± 0.05%

Power supply influence

U ± HN 10% ± 0.05%

(acc. to DIN/IEC 688-1)

Input current 0.8...1.2 IN

Input voltage 0.8...1.2 UN

Output burden 0...R max. with current output

Rext min. ...with voltage output

ext

± 0.2% / 10 K for one output

± 0.3% / 10 K for two outputs

Wave form Sine-wave

Additional errors (maximum values)Temperature influence

(–25...+55°C)

± 0.3% for one outputVoltage influence between

0.5 and 1.5 UN

::

:

:

:

:

:

:

:

:

:

:

:

:

: ± 0.5% for two outputs

± 0.3% for one outputCurrent influence between

0.4 and 1.5 IN

± 0.5 % for one output

± 0.7 % for two output

between

0.1 and 1.5 IN

± 0.5% for one output


Frequency influence

45 – 200 Hz

± 0.2%External field influence

0.5 mT

± 0.2%Power supply influence

U ± 20%HN

± 0.2%

Influence of common mode

voltage 220 V, 50 Hz or

10 V, 1 MHz

HF surge voltage influence

± 4.0%

acc. to IEC 255-4 Class III,

2.5 kV, 1 kV, 200

1 MHz, 400 Hz

:

:

:

:

:

:

:


Power Supply

24, 115, 120, 230 or 240 V, ± 20%,

42 to 70 Hz

Power input approx. 4 VA for one output

Power input approx. 8 VA for two outputs

AC voltage

12 13

24...90 VDC (24...60V for two outputs) or

90...240 VDC, –15 / +33%,

Power input approx. 4 W for one output

Power input approx. 8 W for two outputs

DC voltage :

:

85...230 VDC, –15 / +33% (for 2 output)

Storage temperature

Environmental conditions

Climate class 3Z acc. to VDI/VDE3540, but temperature continuously– 25 to +55°C.

Relative humidity 75% annualmean (application class HVE acc. to DIN 40 040)

Climate rating 14

0

– 40 to +70 Crange :

:



Regulations 2.5/1 kV, 1 MHz, 400 surges/s

acc. to IEC 255-4 Cl. III

HF surge compatibility

Acc. to IEC 348Electrical standards

IP 40 acc. to IEC 529Terminals IP 20

Housing protection

Test voltage :

:

:

:

Input versus OutputInput versus HousingOutput versus HousingOutput1 versus Output2

: : 4KV, 50Hz, 1min: 4KV, 50Hz, 1min: 4KV, 50Hz, 1min: 500V, 50Hz, 1min

Installation Data Mechanical design Housing type E16

Dimensions see section “Dimensional drawings” (Page 5)

Material of Housing Lexan 940 (polycarbonate),Flammability Class V-0 according to UL 94, self-extinguishing, non dripping, free of halogen

Mounting For snapping onto top-hat rail

(35 15 mm or 35 7.5 mm) acc. to EN 50 022 ORdirectly onto a wall or panel using the pull-out screw hole brackets

Mounting Position Any

Electrical connections Screw - type terminals with indirect wire 2 pressure,for max. 2 x 2.5 mm or 1 x 6 mm2

Weight Approx. 0.6 kg.:

:

:

:

:

:

Measuring range

1

Nature of special features

for power factor measurement deviating from standardmeasuring ranges (e.g. 0.8...cap, 1...ind...0.1)ORmeasuring range between 0...30 and 0...60°el resp.± 15 to < ± 60°elLimitations:Measuring ranges < 60°el:Additional error 0.5%

Nominal frequency 50 Hz

Residual ripple 2% p.p.Response time < 1 s

Nominal frequency fN

2 between 16 and 400 Hzapart from the standard ranges 50 or 60 HzLimitation at f > 100 Hz:N

Additional error 0.2%

Nominal input voltage UN

3 between 10 and 660 V, other than the standard

values 100/ 3 , 110/ 3 , 100, 110, 200, 230, 400

or 500 V.

Limitation:

Table : 1 : Special features

Limitations at 16 f < 50 Hz:N

possible only with measuring ranges

0...60 or > ± 60°elAdditional error 0.3%

Residual ripple 2% p.p.Response time < 2 s

w w




values 100/ 3 , 110/ 3 , 100, 110, 200, 230, 400

or 500 V.

Limitation:

at U > 500 V overload capacity 2000 V, 2 sN

Nominal input current IN

4 between 0.01 and 10 A, other than the standardvalues 1, 2 or 5 A

5 Unipolar load-independent DC voltage*

w w

Limitations at I > 5 A: Power consumption < 0.3 VA per current circuit

Overload capacity of current circuit2 I continuousN

10 I for 10 s maximum 5 times at 5 minute intervalsN

40I for 1 sN max. 250 A, once only

f ³ 40 HzN

Limitations at I > 8.3 AN

Reference conditions I 10 A

Output signal A

Ranges between 0...1 and 0...15 V, other than the standard range 0...10 V

N

E

20I for 1 s maximum 5 times at 5 minute intervalsN

Output signal A (continuation)6 Live-zero*

Ranges between 0.2...1 and 3...15 V, other than thestandard range 1...5 V* Limitation at U < 4 VAN

Additional error:Burden dependency

( Rext max). = 0.2%, reference conditions:

External resistance 2Rext min. ± 20%

7 Bipolar symmetrical load-independent DC voltage*

Residual ripple in output current

11 0.5% p.p. instead of 2% p.p.Limitations:possible only with nominal frequency 50 Hz andmeasuring ranges 0...60 or > ± 60°elResponse time < 1 s

Ranges between –1...0...1 and –15...0...15 V,other than the standard range –10...0...10 V

8 Unipolar load-independent DC currentRanges between 0...1 and 0...20 mA, other than thestandard range 0...1 / 0...5 / 0...10 and 0...20 mA

9 Live-zeroRanges between 1...5 and 4...20 mA, other than thestandard range 4...20 mA

10 Bipolar symmetrical load-independent DC currentRanges between–1...0...1 and –20...0...20 mA, other than the standardranges –1...0...1 / – 2.5...0...2.5 / – 5...0...5 /–10...0...10 and –20...0...20 mA

Power supply12 without separate power supply connection

Power supply from voltage input signal

( 24 V to 500 V, f 50 to 400 Hz) for one outputN

(> 24 V to 240 V, f > 50 to 400Hz) for two outputsN

Limitation:Reference conditions:

Input voltage U ± 15% With U 170 VN N

Impulse withstand voltage acc. to IEC 255-4, Cl. II:


1 kV, 1.2/50 s, 0.5 Ws oroverload capacity of the voltage input max. 680 V~, 2 sThe additional power taken from the input voltagesignal is approx. 4 VA

13 with AC voltageany voltage between 24 and 500 V for one output,& 24 and 240 V, ± 20%, 42 to 70 Hz. Power consumptionapprox. 4 VA for one output & 8 VA for two outputs.apart from the standard voltages 24, 115, 120, 230 & 240 V



Climatic rating14 Climate class 3Z acc. to VDI/VDE 3540, but temperature

continuously –25 to +55 °C.

Relative humidity 90% annual mean (applicationclass HVR acc. to DIN 40 040)

Electrical connections

Front

1

— +

5

9 10 11 12 13 14 15 16

2 3 4 6 7 8

— +

O/p1 O/p2

I

= Measuring output O/p1 & O/p2

= Power supply

Fig. 10. RISH Ducer C11 in housing E16 clipped onto a top hat rail

(3515 mm or 35 7.5 mm, acc. to EN 50 022). Fig. 11. RISH Ducer C11 in housing E16 with the screw hole brackets pulled out

for wall mounting.

12

5

13

0

126

12

5

70

13

0


9 10 11 12

1 2 3 4 5 6 7 8

13 14 15 16

14

0

125

15

4

4,5

6,5

12

19

12

51

25

70

9 10 11 12

1 2 3 4 5 6 7 8

13 14 15 16

U

— +

U

I = Measuring Inputs

Measuring Inputs

Application Terminal allocation Application Terminal allocation

Phase angle measurementin single-phase ACnetwork

Phase angle measurementin 3- or 4-wire3-phase networkU: L2 – L3I: L2Phase angle measurementin 3- or 4-wire3-phase networkU: L1 – L3I: L1Phase angle measurementin 3- or 4-wire3-phase networkU: L3 – L2I: L3

Phase angle measurementin 3- or 4-wire3-phase networkbalancedU: L1 – L2I: L1

Phase angle measurementin 3- or 4-wire3-phase networkU: L2 – L3I: L2Phase angle measurementin 3- or 4-wire3-phase networkU: L1 – L3I: L1

Application Note

– Current connection (e.g. in phase L1)

– Voltage connection (e.g. between phases L1 – L3)

For phase angle or power factor measurement in equally

loaded three- or four-wire 3-phase networks the following

data are needed for calibrating the transducer:

Current connectionin phase

Voltage connectionbetween phases

Vector diagrams

Connection diagram

Limitation*:Max. meas. range

L1

L1 - L2

Fig. 4

205 ... 0 ... 145° elcurrent lagging

L2

L2 - L3

Fig. 5

L3

L3 - L1

Fig. 6

L1

L1 - L3

Fig. 7

145 ... 0 ... 205° elcurrent leading

L2

L2 - L1

Fig. 8

L3

L3 - L2

Fig. 9

Specification and ordering information

3 . . . . . . . . .

1.Mechanical design

3) Housing E16

Order Code C11 —

Features, Selection *SCODE no-go

. 1 . . . . . .

2. Nominal frequency

1) 50 / 60 Hz

3. Application

A) Single-phase AC

B) 3- or 4-wire 3/4-phase balanced U: L1-L2/I: L1

C) 3- or 4-wire 3/4-phase balanced U: L2-L3/I: L2

D) 3- or 4-wire 3/4-phase balanced U: L3-L1/I: L3

E) 3- or 4-wire 3/4-phase balanced U: L1-L3/I: L1

F) 3- or 4-wire 3/4-phase balanced U: L2-L1/I: L2

G) 3- or 4-wire 3/4-phase balanced U: L3-L2/I: L3

B

C

. . A . . . . .

. . B . . . . .

. . C . . . . .

. . D . . . . .

. . E . . . . .

. . F . . . . .

. . G . . . . .

This feature selection “3. Application” and the later sections Application note”

and “Electrical connections” must be checked and specified with one another.

4. Nominal frequency 2

1) 50 Hz

2) 60 Hz

9) Non-standard [Hz]

16 to 400

Watch for restrictions/additional errors!

. . . 1 . . . .

. . . 2 . . . .

. . . 9 . . . .


5. Nominal input voltage (measuring input) 3

A) 100/ 3 V;

B) 110/ 3 V;

C) 100 V;

D) 110 V;

E) 200 V;

F) 230 V;

G) 400 V;

H) 500 V;

Z) Non-standard [V; V]:

10.00; to 660;

A . . . . . . .

B . . . . . . .

C . . . . . . .

D . . . . . . .

E . . . . . . .

F . . . . . . .

G . . . . . . .

H . . . . . . .

Z . . . . . . .

w

w

2 see section “Special features”

Order Code C11 —


1) 1 A;

2) 2 A;

3) 5 A;

9) Non-standard [A;A]:

0.01; to 10;

. 1 . . . . . .

. 2 . . . . . .

. 3 . . . . . .

. 9 . . . . . .

6. Nominal input current (measuring input) 4

For transformer connection add semicolon with primary /secondary current in A,e.g.500/1 (in line 1) or 6.67;1600/6.67 (in line 9, non-standard)show 2 decimal places

2) 0.9-cap-1-ind-0.53) 0.8-cap-1-ind-04) 0.5-cap-1-ind-0.55) 0.5-ind-0-cap-1-ind-0-cap-0.5Z) Non-standard [°el] e.g. 0.5-cap-1-ind-0 or 0…30 to 0…175, – 15…0…15 to – 175…0…175 Watch for restrictions/additional errors!

. . 2 . . . . .

. . 3 . . . . .

. . 4 . . . . .

. . 5 . . . . .

7. Measuring range 1

1) 0...10 V,2) 1... 5 V,3) – 10 ... 0...10 V,9) Non-standard [V] 0…1.00 to 0…15 5 0.2…1 to 3…15 6 – 1.00…0…1.00 to – 15…15 7

. . . 1 . . . .

. . . 2 . . . .

. . . 3 . . . .

. . . 9 . . . .

8. Output signal (measuring output) output 1

Continuation “8. Output signal” see next page!

1 , 3 to 7 see section “Special features”

Insert code figure in the 1st field on the next page!


With a 3 phase system show the input nominal voltage as aphase to phase voltage.For transformer connection add semicolon with primary /secondary voltage in V,e.g. 6600/110 (in line D) or 120 ;14400/120 (in line Z, non-standard)show 2 decimal places

8. Output signal (measuring output) output1 (continuation)

A) 0... 1 mA

B) 0... 5 mA

C) 0...10 mA

D) 0...20 mA

E) 4...20 mA

F) – 1 ... 0... 1 mA

G) – 2.5 ... 0... 2.5 mA

H) – 5 ... 0... 5 mA

J) – 10 ... 0...10 mA

K) – 20 ... 0...20 mA

Z) Non-standard [mA]

0...> 1.00 to 0...< 20 8

1...5 to < (4...20) 9

> (–1.00...0...1.00) to < (–20...0...20) 10

A . . . . . . .

B . . . . . . .

C . . . . . . .

D . . . . . . .

E . . . . . . .

F . . . . . . .

G . . . . . . .

H . . . . . . .

J . . . . . . .

K . . . . . . .

Z . . . . . . .

0) Internal from voltage measuring input

(24 to 500 V AC) 12

1) 24 V, 50/60 Hz

3) 115 V, 50/60 Hz

4) 120 V, 50/60 Hz

6) 230 V, 50/60 Hz

. 0 . . . . . .

. 1 . . . . . .

. 3 . . . . . .

. 4 . . . . . .

. 6 . . . . . .

9. Power supply

Order Code C11 —



7) 240 V, 50/60 Hz

9) Non-standard 50/60 Hz [V]

24 to 500 13

A) 24... 90 V DC, –15 / +33%

B) 90...240 V DC, –15 / +33%

C) 24...60 V DC, -15 / +33% (for 1 output)

E

D

. 7 . . . . . .

. 9 . . . . . .

. A . . . . . .

. B . . . . . .

. C . . . . . .


10. Special features

0) Without

1) With

. . 0 . . . . .

. . 1 . . . . .

Y

Without special features (line 0): Order code completeWith special feature (line 1): The features to be omitted must bemarked with / (slant line) in the order code until reaching the required feature.

11. Smaller residual ripple in measuring output 11

A) 0.5% p.p. instead of 2% p.p.Watch for response time and mutual dependence of residualripple/response time!

. . . A . . . .Y

12. Improved climatic rating (DIN 40 040) 14

A) Application class HVR instead of HVE (standard) . . . . A . . .Y

13. Output signal (measuring output) output 2

Same as Output signal (measuring output) output 1 in sr.no. 8 E

* Lines with letter(s) under “no-go” cannot be combined with preceding lines having the same letter under “SCODE”.

D) 85...230 V DC V DC, -15 / +33% (for 2 output) . G . . . . . .


Phase Angle Difference TransducerRISH Ducer C12

Fig. 1. transducer in housing E16 clipped onto a top-hat DIN rail.

RISH Ducer C12 Fig. 2. RISH Ducer C12 transducer in housing E16 screw hole mounting brackets pulled out.

www.rishabh.co.in Page 1 of 7 Version : 1 / 04 / XII / 0112 / B

Transducer for measuring phase angle difference

Data Sheet

Features / Benefits Measuring inputs: Sine or distorted wave-forms of nominal

input voltage

Application

The transducer RISH Ducer C12 (Fig. 1 and 2) converts the phase

angel difference of two synchronised supplies into an output signal

that can serve several receiving instruments such as indicators,

recorder, alarm units etc.

Measuredvariable

Phase Angle difference


10 to 660 V

Measuring rangelimits

± 60 and 175° el±


•

Measuring output :

DC current signal ( load - independent ) or DC voltage

signal

•

Measuring principle : Measurement of the zero crossing

interval

•

Electric isolation between all transducer connection

circuits/ Prevents interference voltages and currents being

transmitted

•

Narrow housing, 70 mm / Saves space and therefore costs•

Snaps onto a DIN rail or screws onto a wall or panel /

Adaptable to the circumstances at the place of installation

•

The device fulfils the protection requirements of the EMC

guidelines (89/336/EWG). The device bears the CE

symbol for EMC

•

Screw terminals suitable for multistrand or solid wires/

Easy wiring without problems

•

Mode of Operation (Fig.3)

The two input variable are matched to the internal instrument level via isolation transformers and led to a RS flip-flop. This bistable element generates constant amplitude rectangular Signals whole length corresponds to the time between the rising zero-axis crossing of the two input variables. Parasitic Zero-axis crossings,due to superimposed ripple control frequency for example, are almost suppressed by a dead time (positive feedback). The arithmetical mean voltage difference and is inherently independent of the input frequency. A following amplifier converts this difference into the desired output signal.

Technical Data

General

Measured quantity Phase angle between difference of two

Single phase balanced networks

Measuring principle Measurement of the zero crossing

interval

Measuring input U and U SG

measuring ranges 1

± 120°el

Nominal frequency f 2 N 50 or 60 Hz:

:

:

:

Nominal input voltage

U 3 N For both inputs

100/ 3, 110/ 3, 100, 110, 200, 230,

400 or 500 V

:w w

Wave form Sine - Wave:

Power consumption: Approx. U 1 mA per measuring inputN · :

Sensitivity: < 0.05% of measuring range end value:

Overload capacity :

Measuredquantity


Durationof one

application


applications

10 s2 x UN

10 10 s

1.5 x UN


4 x UN

1 2 s ———*

* But max 1.5 KV

Measuring output A

Output signals Load-independent DC voltage U


D (el.) = U - UG S

A

U Generator VoltageG

U Bus VoltageS

:

Standard ranges of UA

4 to 6 0...10/ 1...5 / -10...0...10 VLoad Capacity 20 mAExternal Resistance

U = Full output ValueAN

:

R ext min. [k ] >U [V]AN

20 mA

Voltage limit underRext =

Approx. 40 V

Current limit underoverload Approx. 1.3 I with currentAN


FSO variation: Approx. ± 2%

Ripple in output

current 10

2% p.p.



7 to 9 0...1/0...5/0...10/0...20/4...20 mA

–1...0...1/–2.5...0...2.5/–5...0...5/

–10...0...10/–20...0...20 mA

Burden voltage: ± 15 V

External Resistance

I = Full output value N

:

Rext max. [k ] <15V

I [AN mA]

Behavior of output Current difference operating States :

Generator Voltage

1Operating Stage

Bus Voltage Unipolar

Output

Bipolar

Leading (f = f )G S

> I / 2AN Pos.

2Missing Neg. < - IANNominal Value

Nom. Value > IAN > IAN

2Missing 2Missing Indefinite Indefinite 2Missing

1 With Power supply switched on2 e.g. switched off or fault condition



Accuracy

Reference value

Basic accuracy Class 0.5Reference conditions

Output span

Ambient temperature 023 C, 5 K

Frequency f 10%N


U –15 / +33% (DC)HN

HN


Input voltage 0.8...1.2 UN

Output burden 0...R max. with current output

Rext min. ...with voltage output

ext

Wave form Sine-wave

:

:

:

:

:

:

:

:

Influence effects (maximum values):


Linearity error ± 0.2% frequency influence f 5%N ± ± 0.05%Dependence on external resistance ( R max.)ext ± 0.05%


U ± HN 15% ± 0.05%

:

:

:

:

± 0.2% / 10 K

Additional errors (maximum values)

Temperature influence

(–25...+55°C) :


± 4.0%


2.5 kV, 1 kV, 200

1 MHz, 400 Hz

± 1.0%

acc. to ANSI/IEEE

C 37.90-1978 2.5 kV, 150

1 MHz, 50 Hz

± 0.3%

Voltage influence between

0.5 and 1.5 UN:

± 0.5%

Frequency influence

45 – 200 Hz

± 0.2%External field influence

0.5 mT

:

:

± 0.2%Power supply influence

U ± 20%HN

± 0.2%



10 V, 1 MHz

:

:

:

:

Power Supply

24, 115, 120, 230 or 240 V,

± 20%,42 to 70 Hz

Power input approx. 4 VA

AC voltage

11 12

24...90 or 24...90V,

–15 / +33%,

Power input approx. 4 W

DC voltage :

:




Electrostatic discharge IEC 801-2 ± 4 kV contact, ± 8 kV air

HF field influence on instrument IEC 801-3 80 to 1000 MHz, 10 V/m, 80 % AM 1 kHz

Transient burst via connections IEC 801-4 ± 2 kV, 5/50 ns, 5 kHz, > 1 min. capacitively coupled

Transient surge on power supply IEC 801-5 ± 2 kV, 1.2/50 ms, symmetrical

± 4 kV, 1.2/50 s, asymmetricalm

HF interference via connections IEC 801-6 0.15 to 80 MHz: 10 V, 80% AM 1 kHz, source 150


Storage temperature

Environmental conditionsClimate class 3Z acc. to VDI/VDE3540, but temperature continuously– 25 to +55°C.

Relative humidity 75% annualmean (application class HVE acc. to DIN 40 040)

Climate rating 13

0

– 40 to +70 Crange :

:


Regulations 2.5/1 kV, 1 MHz, 400 surges/s acc. to

IEC 255-4 Cl. III

HF surge compatibility



Housing protection

Test voltage :

:

:

:


: 4KV, 50Hz, 1min: 4KV, 50Hz, 1min: 4KV, 50Hz, 1min: 500V, 50Hz, 1min

The limits given in the standards mentioned are observed. During the interference test, occasional impairment of operating behaviour was permitted, but no change of operating mode and no loss of data. The device fulfils the protection requirements of the EMS guidelines (89/336/EWG). The device bears the CE symbol for EMS.


Installation Data Mechanical design Housing type E16

Dimensions see section “Dimensional drawings”

:

Material of Housing Lexan 940 (polycarbonate), Flammability Class V-0 according to UL 94, self-extinguishing, nondripping, free of halogen


Electrical connections Screw - type terminals with indirect wire 2 pressure, for max. 2 x 2.5 mm or

1 x 6 mm2


:

:


(35 15 mm or 35 7.5 mm) acc. to EN 50 022 ORdirectly onto a wall or panel using the pull-out screw hole brackets

:

:

Measuring range

1


between


± 60°el. and ± 175°el.buffer angle < ± 120 °el.


2 between 16 and 400 Hzapart from the standard ranges 50 or 60 HzLimitation at f > 100 Hz:N




values 100/ 3 , 110/ 3 , 100, 110, 200, 230, 400

or 500 V.

Limitation:

at U > 500 V overload capacity 2000 V, 2 sN

Table 2 : Special features

4 Unipolar load-independent DC voltage*

Limitations at 16 f < 50 Hz:N

possible only with measuring ranges > ± 60°elAdditional error 0.3%Response time < 2 sPower Supply derived from measuring input not possible

w w

Output signal A

Ranges between 0...1 and 0...15 V, other than the standard range 0...10 V

5 Live-zero*Ranges between 0.2...1 and 3...15 V, other than thestandard range 1...5 V* Limitation at U < 4 VAN

Additional error:Dependence on external resistance

( Rext max). = 0.2%, reference conditions:

External resistance 2Rext min. ± 20%

6 Bipolar symmetrical load-independent DC voltage*

Ranges between –1...0...1 and –15...0...15 V,other than the standard range –10...0...10 V

7 Unipolar load-independent DC current

Ranges between 0...1 and 0...20 mA, other than thestandard range 0...1 / 0...5 / 0...10 and 0...20 mA

8 Live-zero

Ranges between 1...5 and 4...20 mA, other than thestandard range 4...20 mA

9 Bipolar symmetrical load-independent DC current Ranges between–1...0...1 and –20...0...20 mA, other than the standardranges –1...0...1 / – 2.5...0...2.5 / – 5...0...5 /–10...0...10 and –20...0...20 mA


Residual ripple in output current

10 0.5% p.p. instead of 2% p.p.Limitations:possible only with nominal frequency 50 Hz Response time < 1 s(not suitable for synchronising operations )

Power supply

11 without separate power supply connectionPower supply from voltage input signal

( 24 V to 500 V, f 50 or 60 Hz) N

Limitation:Reference conditions:

Input voltage U ± 15% With U 170 VN N


1 kV, 1.2/50 s, 0.5 Ws oroverload capacity of the voltage input max. 680 V~, 2 sThe additional power taken from the input voltage signal is approx. 4 VA

12 with AC voltageany voltage between 24 and 500 V, ± 20%, 42 to 70 Hz. Power consumption approx. 4 VA apart from the standard voltages 24, 115, 120, 230 & 240 V

Climatic rating

13 Climate class 3Z acc. to VDI/VDE 3540, but temperaturecontinuously –25 to +55 °C.

Relative humidity 90% annual mean (application class HVR acc. to DIN 40 040)

Fig. 5. RISH Ducer C12 in housing E16 clipped onto a top hat rail

(3515 mm or 35 7.5 mm, acc. to EN 50 022).

Fig. 6. RISH Ducer C12 in housing E16 with the screw hole brackets

pulled out for wall mounting.

12

5

13

0

126

12

5

70

13

0


9 10 11 12

1 2 3 4 5 6 7 8

13 14 15 16

14

0

125

15

4

4,5

6,5

12

19

12

51

25

70

9 10 11 12

1 2 3 4 5 6 7 8

13 14 15 16


Front

1

— +

5

9 10 11 12 13 14 15 16

2 3 4 6 7 8

= Measuring output

= Power supply

(—) (+)

= Measuring Inputs, generator Voltage

UG US

(U1) (U2)

UG

US = Measuring Inputs, bus Voltage

1.Mechanical Design

Order Code C12 —


3) Housing E16 3 . . . . . . .

2. Measuring Mode

2) Phase angle difference . 2 . . . . . .

3. Application

A) Single-Phase Connection . . A . . . . .


1) 50 Hz

2) 60 Hz

. . . 1 . . . .

. . . 2 . . . .





Order Code C12 —


9) Non-standard [Hz]

16 to 400

Restriction : When F > 100 Hz, additional error 0.2%N

16 f < 50 HzN

. . . 9 . . . .

Possible only with measuring range > ± 60°el additional error 0.3%, response time < 2 S


A) 100/ 3 V;

B) 110/ 3 V;

C) 100 V;

D) 110 V;

E) 200 V;

F) 230 V;

G) 400 V;

H) 500 V;

Z) Non-standard [V; V]:

10.00 to 660;

. . . . A . . .

. . . . B . . .

. . . . C . . .

. . . . D . . .

. . . . E . . .

. . . . F . . .

. . . . G . . .

. . . . H . . .

. . . . Z . . .

. . . . . 0 . .

w

w

With a 3 phase system show the input nominal voltage as a phase to phase

voltage.

For transformer connection add semicolon with primary / secondary voltage in V,

e.g. 6600/110 (in line D) or

120 ;14400/120 (in line Z, non-standard)

show 2 decimal places

Generator and bus bar

6. Nominal input current0) Ommited

7. Measuring range 1

1) Phase angle difference

9) Non-standard [ ]

– 60…0…60 to – 175…0...175

Watch for restrictions / additional errors!

± 120°el.

°el

. . . . . . 1 .

. . . . . . 9 .

Order Code C12 —


8. Output signal (measuring output)

1) 0...10 V, Rext 500

2) 1... 5 V, Rext 250

3) – 10... 0...10 V, Rext 500

9)

1 . . . . . . .

2 . . . . . . .

3 . . . . . . .

9 . . . . . . .

A . . . . . . .

B . . . . . . .

C . . . . . . .

D . . . . . . .

E . . . . . . .

F . . . . . . .

G . . . . . . .

H . . . . . . .

J . . . . . . .

K . . . . . . .

Z . . . . . . .

Non-standard [V] 0…1.00 to 0…15 0.2…1 to 3…15 – 1.00…0…1.00 to – 15…15 6

0… 1 mA,

0… 5 mA,

0…10 mA,

0…20 mA,

4…20 mA,

– 1...0...1 mA,

– 2.5...0...2.5 mA,

– 5...0...5 mA,

– 10...0...10 mA,

– 20...0...20 mA,

A)

B)

C)

D)

E)

F)

G)

H)

J)

K)

Rext 15 k

Rext 3 k

Rext 1.5 k

Rext 750

Rext 750

Rext 15 k

Rext 6 k

Rext 3 k

Rext 1.5 k

Rext 750

4

5




Order Code C12 —


0) Internal from voltage measuring input

(24 to 500 V AC) 11

1) 24 V, 50/60 Hz

3) 115 V, 50/60 Hz

4) 120 V, 50/60 Hz

6) 230 V, 50/60 Hz

7) 240 V, 50/60 Hz

9) Non-standard 50/60 Hz [V]

24 to 500 12

A) 24... 90 V DC, –15 / +33%

B) 90...240 V DC, –15 / +33%

. 0 . . . . . .

. 1 . . . . . .

. 3 . . . . . .

. 4 . . . . . .

. 6 . . . . . .

. 7 . . . . . .

. 9 . . . . . .

. A . . . . . .

. B . . . . . .

9. Power supply

10. Special features0) Without1) With

. . 0 . . . . .

. . 1 . . . . .Y

Without special features (line 0): Order code complete.With special feature (line 1): The features to be omitted must be marked hereafter with / (slant line) in the order code until reaching the required feature.


A) 0.5% p.p. instead of 2% p.p.Restrictions:Possible only with nominal frequency 50 Hz, response time < 1 S(Not Suitable for synchronising operations)

. . . A . . . .

. . . . A . . .

Y

Y

Z) Non-standard [mA] 0...> 1.00 to 0...< 20 7 1...5 to < (4...20) 8 > (–1.00...0...1.00) to < (–20...0...20) 9


A) Application class HVR instead of HVE (standard)



For Measurement of AC Current or AC Voltage

Data Sheet

www.rishabh.co.in Page 1 of 7 Version : 1 / 04 / IV / 0112 / C

Fig. 1. RISH Ducer E13 clipped onto a top - hat rail.

Fig. 2. RISH Ducer E13 screw holemounting brackets pulled out

Transducer For Ac Current Or Ac Voltage With Different CharacteristicsRISH Ducer E13

Features / Benefits Up to 3 measuring inputs: AC currents or AC voltages sine

wave-form, calibration to arithmetical mean value measurement,

rms with sine wave form

Three measuring outputs: DC current signal (load-independent)

or DC voltage signal

Application

Measuring Variables Measuring Ranges

AC Currents 0 ... 0.01 to 0 ... 10 A

AC Voltages 0 ... 10 to 0 ... 750 V

Low power consumption / Smaller CT’s & VT’s can be used

Provision for either snapping the transducer onto top - hat rails or

securing it with screws to a wall or panel

Manufactured in SMD technology/compact & reliable

Screw terminals suitable for multistrand or thick solid wires.

Electric isolation between input / output and power supply (3.7 kV) /

personnel protection assured

Electric isolation between channels is 500V

The Transducer RISH Ducer E13 is used to convert a 3 sine wave

AC Voltage or AC Current (depending on types) into a (load

independent DC current or load independent DC Voltage) 3 output

signal. That can serve several receiving instruments such as

indicators, recorders, alarm units etc.


•

•

•

•

•

•

•

•

Overload capacity :

Measuring input E

General

Technical Data

Measuring Quantity AC current or AC voltage sinusoidalArithmetical mean measured, calibr-ation to rms with sine wave form

Measuring principle Active rectifier

Nominal frequency fN 1 50 or 60 Hz


( full range end value ) 1 / 1.2 / 5 or 6 A2


( full range end value )100/ 3 / 110 / 3 / 120 / 3 / 100 / 110

116.66 / 120 / 125 / 133.33 / 150 /

250 / 400 or 500 V3

Consumption < 0.2 VA per Current Circuit< 1 mA Voltage Circuitper

Sensitivity < 0.05 % of full range value

———

Measured

quantity

I UN N

Number

of appli-

cations

Duration

of one

application

Interval between

two successive

applications

2 x IN

continuously ———

5 min.10 x IN

5 15 s

40 x IN

1 1 s ———

10 s2 x UN

10 10 s

1.5 x UN ——————

4 x UN

1 2 s ———

20 x IN

5 1 s 5 min.

continuously

Nominal Values of IA

6

Measuring output A

Output Variable load-independent DC voltage UA

OR Load-independent DC current I

A

7

0…1, 0…5, 0…10, 0…20 or

4…20 mA

Burden voltage 15 V

Rext [k ] <15 V

IA [mA]

max.

I = End output current valueAN

Nominal Values of UA 0...10 / 1...5 VLoad capacity 20 mAExternal resistance

4

Rext [k ] >U

A [V]

20 mA

5

1 to 7 see “Table 2: Special features”

Output characteristic

E3E1A1

A3

A

E

A2

Fig. 4. Characteristic A“Standard”.

Fig. 5. Characteristic BStandard and live-zero”Condition: A2 = 0.2 A3

E3E1A1

A3

A

E

Layout & Mode of Operation

The measured variable I/U AC is isolated from the electronics by

the transformer W, and is rectified and smoothed in the rectifier

unit G following. The output amplifier V amplifies this quantity and

converts it into the load-independent DC output signal A.

With AC power supply the supply is processed by a mains

transformer with three isolated secondary windings.

Fig : Block diagram for a function unit

Voltage limit

under R =ext Approx. 40 V

Voltage limit underoverload

Approx. 1.3 x I at current outputAN

Approx. 30 mA at voltage output

Output current ripple 1% p.p.


8

Accuracy

Reference value:Basic accuracy: Class 0.5

Reference conditions

Output span

Ambient temperature 023 C, 5 K

Frequency f 2%N

Distortion factor < 0.2 %

Power supply U 15% (AC) HN

Output Voltage 0...15 VOutput current 0...20 mA

Influence effects (maxima)(included in basic error)

Linearity error 0.2%

frequency influence f 5%N 0.05%

Dependence on external resistance ( R max.)ext

0.05%

Power supply influence U HN 10%

0.05%


Pre-conditioning: 30 min. acc. to EN 60 688

Section 4.3, Table 2

Input 0…100%

External resistance : 0 – Rext max. for current outputRext. min. .... for voltage output

Additional errorsTemperature influence– 25…+ 55 °C)

0.5% / 10 K

Frequency influence45 – 65 Hz

0.5%

Frequency influenceStray field influence 0,5 mT

0.5%

0.5%Influence of common modevoltage 220V, 50Hz or10V, 1MHz

Power supplyAC voltage 110 or 230 V

Power input approx. 8 VA

For DC AUX : -15% / +33%For AUXAC : ±15%

85...230V AC/DC AUX

24...60V AC/DC AUX

Input VA Burden : 9VA (DC)10VA (AC)9VA (DC)


Storage temperature

Environmental conditionsClimate class 3Z acc. to VDI / VDE3540, but temperature continuously

0-25 to +55 C.Relative humidity < 75% annualmean (application class HVC acc.to DIN 40 040)

Climate rating

—

0-40 to +70 C


DIN /IEC 688- Part 1 Transducer for converting AC electrical quantities into DC electrical quantity.

Transducer for general applications

DIN 57410 Electrical Standards

DIN 57110 b Insulation Group: A (instrument), C (terminals)

EN 50022 For snapping into top hat rail.

Electromagnetic Compatibility Standards Acc. to EN 50081-2 And EN 50082-2

EN 55011 Conducted interference from the instrument Group 1, Class A Complies

EN 55011 HF radiation from the complete instrument Group 1, Class A Complies

IEC 801-2 Electrostatic Discharge on instruments ± 4 KV contact: Without

± 8 KV air influence

IEC 801-3 HF field influence on instruments 27…500MHz : 3 V/m, not Influence

modulated(ITU frequencies: 10 V/m) < 2%

IEC 801-4 Electrical Fast Transients/burst influence ± 2KV, 5/50 ns, 5KHz, Influence

power, supply lines asymmetrical, 2 min < 2%

IEC 801-4 Electrical Fast Transients/burst influence ± 1KV, 5/50 ns, 5KHz, 2 min. Without

power, input and output lines Capacitive coupled. influence

IEC 801-5 Surge immunity requirements coupled symmetrical ± 1KV Without

under power supply lines asymmetrical ± 2KV influence

Regulations Acc. to DIN 57 410Electrical standards

IP 40 acc. to IEC 529Housing protection

A ( Instrument )C ( Terminals )

Insulation group

acc. to DIN 57 110 b

3.7 kV / 50 Hz / 1min.between electrically insulated circuits. 0.5 kV, 50Hz, 1 min.between any two channels.

Test voltage

Installation Data Mechanical Drawing Carrying rail housing type E16

Dimensions see section "Dimensional drawing"

Material of Housing Lexan 940 (polycarbonate),Flammability Class V-0 accordingto UL 94, self-extinguishing,non-dripping, free of halogen

Mounting For snapping onto top - hat rail(35 x 15 mm or 35 x 7.5 mm ) acc.to EN 50 022

OR

Directly onto a wall or panel usingthe pull-out screw hole brackerts


Electrical connections Screw - type terminals with indirect 2wire presire, for max. 2 x 2.5 mm

or 1 x 6 mm

Weight Approx. 0.9 kg.


Front

1

— +

Fig. 6. RISH Ducer E13for AC current measurement.

Fig. 7. RISH E13for AC voltage measurement.

Ducer

5

9 10 11 12 13 14 15 16

2 3 4 6 7 8

— + — +

O/p1 O/p2 O/p3

IL1 IL2 IL3

1

— +

5

9 10 11 12 13 14 15 16

2 3 4 6 7 8

— + — +

O/p1 O/p2 O/p3

UL1 UL2 UL3

= Meas. input

= Meas. output

= Power supply


Fig. 9. RISH Ducer E13 in housing E16 clipped onto a top hat rail (35 x 15 mm or 35 x 7.5 mm) acc. to EN 50022

Fig.10. RISH Ducer E13 in housing E16 with the screw hole brackets pulled out for wall mounting.

12

5

13

0

126

12

5

70

13

0

9 10 11 12

1 2 3 4 5 6 7 8

13 14 15 16

14

0

125

15

4

¯4

,5

6,5

12

19

12

51

25

70

9 10 11 12

1 2 3 4 5 6 7 8

13 14 15 16



1


between 16 to 400 Hz, besides the standard

ranges 50 / 60 Hz


2 Between 0...0.01 to 0...10 A, besides the standard

ranges 0...1 / 0...1.2 / 0...5 and 0...6 A

With I > 5 A :N

Own consumption < 0.3 VA

Overload capacity : 15 A continuously

100 A for 10 s, max. 5 times at 5 minute intervals

250 A for 1 s, once only

Nominal frequency f 40 HzN

With I > 8.3 A :N

Reference conditions I 10 AE


3 Between 0...10 and 0...750 V, besides the standard ranges

0...100 / 3 / 0...110 / 3 / 0...120 / 3 / 0...100 / 0...110 /

0...116.66 / 0...120 / 0...125 / 0...133.33 / 0...150 /

0...250 / 0...400 and 0...500 V

Restrictions :With U > 500 V :Overload capacity 2000 V, 2 s

N

Output signal A (measuring output A)

4 Load-independent DC voltage unipolar

w w w


Ranges between 0...1 and 0...15 V, besides the

standard range 0...10 V

5 Live-zero

Ranges between 0.2...1 and 3...15 V, besides the

standard range 1...5 V

Output signal A (measuring output A)

6 Load-independent DC voltage unipolar

Ranges between 0...1 and 0...20 mA, besides the

standard ranges 0...1/0...5/0...10 and 0...20 mA

7 Live-zero

Ranges between 1..5 and 4...20 mA, besides the

standard range 4...20 mA

Restrictions :

3 . . . . . . . . .

1.Mechanical design

3) Housing E16

Order Code E-13 —


. . 1 . . . . . . .


1) 50 / 60 Hz

. . 9 . . . . . . .2) non-standard [Hz]

> 16 to 400 1

3. Input E1 (measuring input E)

1) 0 ... 1 A

2) 0 ... 1.2 A

3) 0 ... 5 A

4) 0 ... 6 A

9) Non-standard

0...0.01 to 0...10 A 2

[A]

A

A

A

A

A

B

B

B

B

B

. . . 1 . . . . . .

. . . 2 . . . . . .

. . . 3 . . . . . .

. . . 4 . . . . . .

. . . 9 . . . . . .

A) 0...100 / 3 V

B) 0...110 / 3 V

C) 0…120 / 3 V

D) 0...100 V

E) 0...110 V

F) 0...116.66 V

G) 0...120 V

H) 0...125 V

J) 0...133.33 V

K) 0...150 V

L) 0...250 V

M) 0... 400 V

N) 0... 500 V

Z) Not-standard [V]

0...10.00 to 0...750 V 3

B

B

B

B

B

B

B

B

B

B

B

B

B

B

A

A

A

A

A

A

A

A

A

A

A

A

A

A

. . . A . . . . . .

. . . B . . . . . .

. . . C . . . . . .

. . . D . . . . . .

. . . E . . . . . .

. . . F . . . . . .

. . . G . . . . . .

. . . H . . . . . .

. . . J . . . . . .

. . . K . . . . . .

. . . L . . . . . .

. . . M . . . . . .

. . . N . . . . . .

. . . Z . . . . . .

w

w

w

1) 0…1 A

2) 0...1.2 A

3) 0...5 A

4) 0...6 A

9) Non-standard 2 [A]

0...0.01 to 0...10 A

A

A

A

A

A

B

B

B

B

B

. . . . 1 . . . . .

. . . . 2 . . . . .

. . . . 3 . . . . .

. . . . 4 . . . . .

. . . . 9 . . . . .

4. Input E2 (measuring input E)

A) 0...100 / 3 V

B) 0...110 / 3 V

C) 0…120/ 3 V

D) 0...100 V

E) 0...110 V

F) 0…116.66 V

G) 0...120 V

B

B

B

B

B

B

B

A

A

A

A

A

A

A

. . . . A . . . . .

. . . . B . . . . .

. . . . C . . . . .

. . . . D . . . . .

. . . . E . . . . .

. . . . F . . . . .

. . . . G . . . . .

w

w

w

1 , 2 and 3 see “Table 1: Special features”

Specification and Ordering Information


H) 0...125 V

J) 0…133.33 V

K) 0...150 V

L) 0…250 V

M) 0...400 V

N) 0…500 V

Z) Non-standard [A]

0...10.00 to 0...750 V 3

B

B

B

B

B

B

B

A

A

A

A

A

A

A

. . . . H . . . . .

. . . . J . . . . .

. . . . K . . . . .

. . . . L . . . . .

. . . . M . . . . .

. . . . N . . . . .

. . . . Z . . . . .

Order Code E-13 —



5. Input E3 ( Measuring input E)

1) 0...1 A

2) 0...1.2 A

3) 0...5 A

4) 0...6 A

9) Non-standard [A]

0...0.01 to 0...10 2

A

A

A

A

A

B

B

B

B

B

. . . . . 1 . . . .

. . . . . 2 . . . .

. . . . . 3 . . . .

. . . . . 4 . . . .

. . . . . 9 . . . .

A) 0...100/ 3 V

B) 0...110/ 3 V

C) 0…120/ 3 V

D) 0...100 V

E) 0...110 V

F) 0…116.66 V

G) 0…120 V

H) 0…125 V

J) 0…133.33 V

K) 0…150 V

L) 0...250 V

M) 0…400 V

N) 0...500 V

Z) Not-standard [V]

0...10.00 to 0...750 3

B

B

B

B

B

B

B

B

B

B

B

B

B

B

A

A

A

A

A

A

A

A

A

A

A

A

A

A

. . . . . A . . . .

. . . . . B . . . .

. . . . . C . . . .

. . . . . D . . . .

. . . . . E . . . .

. . . . . F . . . .

. . . . . G . . . .

. . . . . H . . . .

. . . . . J . . . .

. . . . . K . . . .

. . . . . L . . . .

. . . . . M . . . .

. . . . . N . . . .

. . . . . Z . . . .

w

w

w

6. Output signal 1 (measuring output)

1) 0...10 V, Rext 500

2) 1… 5 V, Rext 250

9) Non-standard 0 …1.00 to 0…15 4 [V]

0.2…1 to 3…15 5

. . . . . . 1 . . .

. . . . . . 2 . . .

. . . . . . 9 . . .

A) 0… 1 mA, R 15 k

B) 0… 5 mA, R 3 k

C) 0…10 mA, R 1.5 k

D) 0…20 mA, R 750

E) 4…20 mA, R 750

Z) Non-standard 0…> 1.00 to 0…< 20 6 [mA]

1…5 to < (4…20) 7

ext

ext

ext

ext

ext

. . . . . . A . . .

. . . . . . B . . .

. . . . . . C . . .

. . . . . . D . . .

. . . . . . E . . .

. . . . . . Z . . .



1) 0...10 V, Rext 500

2) 1… 5 V, Rext 250

9) Non-standard 0 …1.00 to 0…15 4 [V]

0.2…1 to 3…15 5

. . . . . . . 1 . .

. . . . . . . 2 . .

. . . . . . . 9 . .

A) 0… 1 mA, R 15 k

B) 0… 5 mA, R 3 k

C) 0…10 mA, R 1.5 k

D) 0…20 mA, R 750

E) 4…20 mA, R 750


1…5 to < (4…20) 7

ext

ext

ext

ext

ext

. . . . . . . A . .

. . . . . . . B . .

. . . . . . . C . .

. . . . . . . D . .

. . . . . . . E . .

. . . . . . . Z . .


1) 0...10 V, Rext 500

2) 1… 5 V, Rext 250

9) Non-standard 0 …1.00 to 0…15 4 [V]

0.2…1 to 3…15 5

. . . . . . . . 1 .

. . . . . . . . 2 .

. . . . . . . . 9 .

A) 0… 1 mA, R 15 k

B) 0… 5 mA, R 3 k

ext

ext

. . . . . . . . A .

. . . . . . . . B .

Order Code E-13 —



C) 0…10 mA, R 1.5 k

D) 0…20 mA, R 750

E) 4…20 mA, R 750


1…5 to < (4…20) 7

ext

ext

ext

. . . . . . . . C .

. . . . . . . . D .

. . . . . . . . E .

. . . . . . . . Z .

9. Power supply

1) 110 V, 50/60 Hz

2) 230 V, 50/60 Hz

. . . . . . . . . 1

. . . . . . . . . 2


3) 24...60 V AC/DC

4) 85...230 V AC/DC

. . . . . . . . . 3

. . . . . . . . . 4


www.rishabh.co.in Page 1 of 9 Version : 1 / 04 / VI / 0112 / B

Transducer for AC Current and AC voltage

Data Sheet

RISH Ducer E15 - With One or Two Output

AC current or AC voltage with different characteristics

(In E16 housing)

Fig. 1 RISH Ducer E15 transducerwith two output.

Fig. 2 RISH Ducer E15 transducer

(In E8 housing)with one output.

Features / Benefits

Application


The RISH Ducer E15 transducer ( Fig. 1 and 2 ) is used where a sinewave AC current or voltage is to be converted into a DC signal proportional to the measured value (load-independent current or voltage).

The transducer gives linear output proportional to the measured input (refer fig. 3 and 4 for output characteristics).

Depending on the version, part of the measuring range of interest may be amplified at the beginning or end (voltage magnifier).The section of no or minor interest is suppressed (refer fig. 7 to 9 for output characteristics).

A live zero output signal is possible with all versions (refer fig. 5 and 6 for output characteristics).

•

•

•

•

•

•

•

•

•

Different characteristics / Choice of the most suitable version according to application

Narrow housing, saves space and therefore cost

Provision for either snapping the transducer onto top - hat rails or securing it with screw to a wall or panel

Manufactured in SMD technology / Compact and reliable

Electric isolation between input/output and power supply (4 kV) / Personal procreation assured

Screw terminals suitable for multistrand or thick solid wires

Two isolated output ( Optional ) in E16 housing

Electric isolation between output 1 and output 2 is 4KV for 1 min.

Applicable standards : DIN / IEC 60688-1 / IS 12784

Technical DataGeneral

Measured quantity

Measured principle

AC current or AC voltage sinusoidal

Arithmetical mean measured,

calibration to rms with sine wave form

Active rectifier

:

:

Measuring input E

Nominal frequency f N 1 50 or 60 Hz

Nominal input current I N

(measuring range endvalue)

1 / 1.2 / 5 or 6 A

Own consumption < 0.2 VA at current transducer

< 1 mA at voltage transducer for one

output

< 2 mA at voltage transducer for two

outputs

Nominal input voltage U N

(measuring range endvalue)

100/ 3 / 110/ 3 / 100 / 110 / 116.66

120/ 3 / 120 / 125 / 133.33 / 150 /

250 / 400 or 500 V 3 4 5

2 4 5

Response sensitivity < 0.05% of full range value

:

:

:

:

:

w

measuring output A

Output variable Load - independent DC voltage U

OR Load - independent DC current I

A

A

Standard ranges of U A 0...10 / 1 ... 5 V

Load capacity 20 mA

External resistance

Rext

[kW] U

A [V]

20 mA

6 7

:

:

2 x I contin. ———N

10 x I 5 15 s

40 x I 1 1 s ———

1.5 x U contin. ——— ———

4 x U 1 2 s ———

———

5 min.N

20 x I 5 1 s 5 min.N

N

N

2 x U 10 10s 10 sN

N

MeasuredquantityI UN N

Numberof applications

Durationof oneapplication

Interval betweentwo successiveapplications

Overload capacity :

Rext

max. £[kW]

IAN

= Full output value

£

15 V

I [mA]AN

Standard ranges of I A 0...10 / 0 ... 5 / 0 ... 10 / 0... 20 /

4...20 mA

Burden voltage 15 V

External resistance

8 9

Voltage limit underRext = ¥ Approx. 40 V

Current limit under overload Approx. 1.3 x I at current output

Approx. 30 mA at voltage output

AN

Span adjustment Approx. ± 2%

Output current ripple 10 1% p.p.


:

:

:

:

:

:


E3E1A1A3

A

E

Fig. 3. Characteristic A"Standard".

E3E1A1

A3

A

E

Fig. 4. Characteristic A "Standard and variable sensitivity".E3 adjustable by max. 5% or 10%

E3E1A1

A3

A

E

A2

Fig. 5. Characteristic A"Standard and live zero".Condition : A2 = 0.2 A3

E3E1A1

A3

A

E

A2

Fig. 6. Characteristic A "Standard &variable sensitivity and live zero".E3 adjustable by max. 5% or 10%Condition : A2 = 0.2 A3

³

UA = Full output value

w

w

E3E2E1A1

A3

A

E

A2

A2 — A1A3 — A1

0.95 E2E3

£

E3ENE2E1A1

A3

A

EE3ENE2E1

A1

A3

A

E

A2

Fig. 7. Characteristic B"Current resp. voltage magnifier inend range".E1...E2 suppressed completelyE2...E3 (main measuring range) magnified

Condition : = 1.22...1.66

Fig. 8. Characteristic C "main valuemagnification in end range".E1...E2(secondary measuring range) suppressed E2...E3 (main measuring range) magnified

Condition : = 1.22...1.66E3E2

or, if power supply derived fromvoltage measuring input :

E3E2

= 1.22...1.35

E3E2

A2 = (0.1 to 0.25) A3

= 0.025* to 0.5 and 1.05 . >E2E3

A2 — A1

A3 — A1

E2E3

Fig. 9. Characteristic D "Main value magnification in initial range".

E1 ... E2 ( main measuring range ) magnified,

E2 ... E3 ( secondary measuring range ) suppressed

Conditions :

A2 = (0.4 to 0.8) A3

* between 0.025 and 0.05 reduced accuracy

Accuracy

(acc. to DIN/IEC 688 - 1)

Reference value Output span

Exceptions :

Characteristics B and C, Input end

value

:

Influence effects (maxima)

(include basic error)

Frequency influencef 5% N 0.05 %

Linearity error 0.2 %:

:

Basic accuracy Class 0.5 / Class 0.2



23 C ± 5 C0

Frequency f 2%± N

Distortion factor < 0.2%

Power supply UHN

U - 15 / +33% (DC) HN

± 15% AC

Output burden 0...Rext

R min. ... at voltage output ext

max. at current output

¥

Output voltage 0...15 V

Output Current 0...20 mA

:

:

:

:

:

:

:

:

Dependence on externalresistance (DR max.)ext 0.05 %

to see section "Special features"1 2

:

Additional errors

Temperature influence 0( - 25 ... +55 C) 0.5 % / 10K

Frequency influence 45 - 65 Hz 0.5 %

Stray field influence 0.5 mT 0.5 % Power supplyinfluence U ± 20%HN 0.2 %

Influence of common modevoltage 220 V, 50 Hz or10 V, 1 MHz 0.5 %

Power supply influence U 15%HN 0.05 %


Climatic rating Climate class 3Z acc. to VDI/VDE

3540, but temperature continuously0-25 to +55 C

Relative humidity 75% annual

mean (application class HVE acc.

to DIN 40 040)

Storage temperature -40 to +700 C


Power supplyAC voltage 24, 115, 120, 127, 230, or 240 V,

15%, 50 / 60 Hz

Power input approx. 5VA for one o/p

Power input approx. 8VA for two o/p

11 12

DC voltage For one output :- 24, 48, 60, 110V,

power input approx. 5 W

For two output :- 24-60V, 85-230V

AC/DC

AC : +/- 15%, 50 / 60 Hz

DC : -15 / +33%,

Power input approx. 8W / 8VA.

24-60V, 85-230V AC/DC

AC : +/- 15%, 50 / 60 Hz

DC : -15 / +33%,


(35 X 15 mm or 35 X 7.5 mm) acc.

to EN 50 022

OR

Directly onto a wall or panel using

the pull - out screw hole brackets


Electrical connection Screw - type terminals with

indirect wire pressure, for max.2

2 X 2.5 mm or 1 X 6 mm2

Weight Approx. 0.45 kg for one output

Approx. 0.7 kg for two outputs


Regulations

Impulse withstand voltage acc. to IEC 255-4, CI. III

5 kV, 1.2 / 50 ms, 0.5 Ws

Common-mode and differential -

mode between any terminals

Electrical standards Acc. to DIN 57 410

Housing protection IP 40 acc. to IEC 529

Terminals IP 20

Insulation group acc. to DIN 57 110 b A (instrument)

C (terminals)

Test voltage

Input versus Output 4KV, 50Hz, 1min

Output 1 versus Output 2 4KV, 50Hz, 1min

Input versus Housing 4KV, 50Hz, 1min

Output versus Housing 4KV, 50Hz, 1min

Installation Data

Mechanical design Carrying rail housing type E8 / E16

Dimentions see section "Dimention-

al drawing"

Material of housing Lexan 940 (polycarbonate),

Flammability class V-0 according to

UL 94, self-extinguishing, non -

dripping, free of halogen

Conducted interference from theinstrument

EN 55 011 Group 1, Class A Complies

HF radiation from completeinstrument

EN 55 011 Group 1, Class A Complies

Electrostatic discharge on instrument IEC 801 - 2 ± 4 kV contact

8 kV air±

Without influence

HF field influence on instruments IEC 801 - 3 27 ... 500 MHz : 3V/m, not modulated

(ITU frequencies : 10 V/m)

influence < 2%

Electrical fast transient/burstinfluence power, supply lines

IEC 801 - 4 2 kV, 5/50 ns, 5 kHz, asymmetrical 2 min. ± influence < 2%

Electrical fast transient/burstinfluence inputs and output lines

IEC 801 - 4 1 kV, 5/50 ns, 5 kHz, 2 min. capacitive coupled ± Without influence

Surge Immunity Requirements coupled on the power supply lines

IEC 801 - 5 Symmetrical 1 kV±

asymmetrical 2 kV ±

Without influence


The basic standards EN 50 081-2 and EN 50 082-2 were taken

in account.

Special features

Nominal frequency f N

between 16 to 400 Hz, besides the standard ranges 50/60 Hz1

Restrictions :With f < 40 Hz :Power supply derived from measuring input not possibleOutput current ripple < 0.5% p.p. not possible Response time < 800 ms

N

Nominal input current I N

between 0...0.01 to 0...10 A, besides the standard ranges 0...1/ 0...1.2 / 0...5 and 0...6 A

2

Restrictions :With I > 5 A :Own consumption < 0.3 VAOverload capacity : 15 A continuously 100 A for 10 s, max. 5 times at 5 minute intervals 250 A for 1 s,once only Nominal frequency f 40 HzN

With I > 8.3 A :N

Reference conditions I 10 AE

N

Nominal input voltage U N

between 0...10 and 0... 750 V, besides the standard ranges 0...100/ 3 / 0...110 / 3 / 0...120 / 3 / 0...100 / 0...110 / 0...166.66 / 0 ... 120 / 0...125 / 0...133.33 / 0...150 / 0...250 / 0...400 and 0...500 V

3

Restrictions :With U 500 V :>Overload capacity 2000 V, 2 s

N

w w

Nature of Special features

Measuring range adjustable

( Admissible alteration of full scale output , variable sensitivity,adjustable with potentiometer )

4

Restrictions :Possible only with characteristic A, Figs. 4 and 6

Adjusting range : 0.95 ... 1.05 x I resp. U ( 5% )± 0.9...1.1 x I resp. U ( 10% )±N N

N N

Two measuring ranges ( for measuring input E )

Current between 0...0.01 to 0...10 Avoltage between 0...10 to 750 V0...I1 : I2 or U1 : U2 > 1.053 to 2

5

www

Front

5 6 7 8

1 2 3 4

(—) (+)

5 6 7 8

1 2 3 4

— +

(—) (+)

= Meas. input

= Meas. output

= Power supply


Fig. 10. RISH Ducer E 15 one output for AC current measurement.

Fig. 11. RISH Ducer E 15 one output for AC voltage measurement.

Front

9 10 11 12

1 2 3 4

(—) (+)

= Meas. input

= Meas. output

= Power supply

13 14 1516

5 6 7 8

(—) (+)

9 10 11 12 13 14 1516

1 2 3 4 5 6 7 8

O/p1 O/p2 O/p1 O/p2

Fig. 12. RISH Ducer E 15 two output for AC current measurement.

Fig. 13. RISH Ducer E 15 two output for AC voltage measurement.

— +

— + — + — + — +

Output signal A ( measuring output A ) output 1 & output 2

Load - independent DC voltage unipolar Ranges between 0...1 and 0...15 V, besides the standardrange 0...10 V

6

Live - zeroRanges between 0.2...1 and 3...15 V, besides the standardrange 1...5 V

7

Load - independent DC current unipolarRanges between 0...1 and 0...20 mA, besides the standardranges 0...1/0...5/0...10 and 0...20 mA

8

Live - zeroRanges between 1...5 and 4...20 mA, besides the standardrange 4...20 mA

9

Smaller residual ripple in measuring output

£ 0.5 % p.p. instead of 1% p.p.£10

Restriction :Response time approx. 800 ms instead of < 300 ms ( for nominal frequency f < 50 Hz not possible )N

without seperate power supply connection Internal from voltage measuring input( 24 V EN 380 V, f ££ > 40 Hz ) for one outputs.N

( 24 V EN 240 V, f ££ > 40 Hz ) for two outputs.N

11

With AC voltage any voltage between 24 to 380 V, 15%, for one output & 24±to 240 V, 15%, for two outputs 50/60 Hz±Power consumption approx. 5 VA for one output,Power consumption approx. 8 VA for one output,besides the standard voltages : 24, 115, 120, 127, 230, or 240 V

12

Restriction :Possible only with characteristic BWith U ³ 170 V : N

Impulse withstand voltage acc. to IEC 255 - 4, CI. II : 1kV, 1.2/50 ms, 0.5 Ws or overload capacity of the voltage inputmax. 680 V , 2 s The additional power taken from the input voltage signal is approx. 5 VA for one output & 8 VA for two outputs

R

Climate class 3Z acc. to VDI / VDE 3540, but temperature 0

continuously - 25 to +55 C.Relative humidity 90% annual mean ( Application class HVR acc. to DIN 40 040 )

13 Improved climate rating

Power supply

Nature of Special features


Restrictions :Possible only with characteristic A, Figs. 3, 4, 5 or 6

3

2

1

1st range (higher)

2nd range (lower)

In each case the selected rangeis achieved by the change of a jumper

126

12

5

5 6 7 8

1 2 3 4

13

0

Fig. 14. RISH Ducer E15 one output in housing E8 clipped onto a top hat rail (35 X 15 mm or 35 X 7.5 mm)

126

12

5

8765

4321

35

13

0

125

12

5

5 6 7 8

1 2 3 4

35

15

4

14

0

¯4

,5

6,5

12

19

Fig. 15. RISH Ducer E15 one output in housing E8 with the

screw hole brackets pulled out for wall mounting.

125

125

70

154

140

¯4.5

6.5

12

19

1 61 51 41 31 21 11 09

87654321

Fig. 17. RISH Ducer E15 two output in housing E16 with the screw

hole brackets pulled out for wall mounting.

126

125

70

130

Fig. 16. E15 two output in housing E16 clipped onto aRISH Ducer top hat rail (35 X

15 mm or 35 X

·



9 10 11 12 13 14 15 16

1 2 3 4 5 6 7 8

19 6.5

Table 2: Specification and ordering information

Order Code E15 —


1. Mechanical design

3) Carrying rail housing E8

4) Carrying rail housing E16

J 3 . . . . . . .

K 4 . . . . . . .

2. Output characteristics

A) Characteristics A

"Standard" see Fig. 3

G . A . . . . . .

"Standard and variable sensitivity", see Fig. 4

Note feature 9 "Measuring range adjustable" line A or B

"Standard and Live-Zero", see Fig. 5

Note feature 5 "Output signal" line 2, 9, E or Z

"Standard, Live-Zero", see Fig. 6

Note feature 9 "Measuring range adjustable" line A or B and

"Output signal" line 2, 9, E or Z

variable sensitivity and


(All dimension are in mm)

1 see section "Special features"

Order Code E15 —


B) Characteristics B

"Current resp. voltage magnifier in end range" see Fig. 7

A . B . . . . . .

C) Characteristics C

"Main value magnification in end range" see Fig. 8

AB . C . . . . . .

D) Characteristics D

"Main value magnification in initial range" see Fig. 9

AB . D . . . . . .

The selection feature 2 "Output characteristic" and feature 4 "Measuring

range" as well as feature 5 "Output signal" to be determined together.

In the section "Output characteristic" conditions laid down in Figs. 3 to 9

should be noted


1) 50 / 60 Hz

. . 1 . . . . .

9) Non - standard [Hz]

16 to 400

. . 9 . . . . .

>

4. Measuring range ( measuring input E )

1) 0 ... 1 A 1 . . . . . . .C A

2) 0 ... 1.2 A 2 . . . . . . .C A

3) 0 ... 5 A 3 . . . . . . .C A

4) 0 ... 6 A 4 . . . . . . .C A

1


9) Non - standard [A]

0 ... 0.01 to 0 ... 10

C 9 . . . . . . .

A) 0 ... 100 / 3 V D A

B) 0 ... 110 / 3 V D A

C) 0 ... 120 / 3 V D A

D) 0 ... 100 V D A

E) 0 ... 110 V D A

A . . . . . . .

B . . . . . . .

C . . . . . . .

D . . . . . . .

E . . . . . . .

F) 0 ... 116.66 V D A F . . . . . . .

G) 0 ... 120 V D A G . . . . . . .

H) 0 ... 125 V D A H . . . . . . .

J) 0 ... 133.33 V D A J . . . . . . .

K) 0 ... 150 V D A K . . . . . . .

L) 0 ... 250 V D A L . . . . . . .

M) 0 ... 400 V D A M . . . . . . .

N) 0 ... 500 V DF A N . . . . . . .

Z)

0 ... 10.00 to 0 ... 750

Non - standard [V] Z . . . . . . .

2

3

Lines 1 to 9 and A to Z :

Measuring range for characteristics A, Figs. 3, 4, 5, and 6

Lines 9 to Z :

Measuring range for characteristics B, C and D, Figs. 7, 8 and 9

Specify range (E1 ... E2 ... E3)

e.g. with characteristic B 90 ... 110 V

e.g. with characteristic C 0... 90 ... 120 V

e.g. with characteristic D 0... 10 ... 100 V

Order Code E15 —

Features, Selection *SCODE Insert code

figure inthe 1st fieldof the nextpage!

no-go

5. Output signal ( measuring output A ) Output 1

1) 0 ... 10 V, R 500 Wext H K>

2) 0 ... 5 V, R 250 Wext B . 2 . . . . . .>

9) Non - standard [V] 0 ... 1.00 to 0 ... 15 0.2 ... 1 to 3 ... 15

E B . 9 . . . . . .

Lines 1 and 9 :Output signal for characteristics A, Figs. 3 and 4 and characteristics B, Figs. 7

Lines 2 to 9 :Output signals for characteristics C and D, Figs. 8 and 9Specify range (A1 ... A2 ... A3)e.g. with characteristic C 0... 2 ... 20 V e.g. with characteristic D 0... 16 ... 20 V

. 1 . . . . . .

2 , 3 , 6 , and 7 see section "special features"

6

7


A) 0 ... 1 mA, R 15 kWext £ B A . . . . . . .

B) 0 ... 5 mA, R 3 kWext £ B B . . . . . . .

C) 0 ... 10 mA, R 1.5 kWext £ B C . . . . . . .

D) 0 ... 20 mA, R 750Wext £ B D . . . . . . .

E) 4 ... 20 mA, R 750Wext £ E B E . . . . . . .

Z)

0 ... > 1.00 to 0 ... < 20 8

1 ... 5 to < (4...20) 9

Non - standard [A] B Z . . . . . . .

5. Output signal ( measuring output A ) (continuation)

Lines A to D and Z :Output signals for characteristics A, Figs. 3 and 4and characteristic B, Fig. 7 Lines E and Z :Output signals for characteristics C and D, figs. 8 and 9Specify range (A1... A2.... A3)e.g. with characteristics C 0... 2... 20 mAe.g. with characteristics D 0... 16...20 mA

0) Internal from voltage measuring input BCEFG . 0 . . . . . .

6. Power Supply 11

1) 24 V, 50/60 Hz . 1 . . . . . .

3) 115 V, 50/60 Hz . 3 . . . . . .

4) 120 V, 50/60 Hz . 4 . . . . . .

5) 127 V, 50/60 Hz . 5 . . . . . .

7) 230 V, 50/60 Hz . 7 . . . . . .

8) 240 V, 50/60 Hz . 8 . . . . . .

9)

> 24 to 380 12

Non - standard 50/60 Hz [V] . 9 . . . . . .

A) 24 V DC, - 15...+33% I . A . . . . . .

B) 48 V DC, - 15...+33% . B . . . . . .I

C) 60 V DC, - 15...+33% . C . . . . . .I

D) 110 V DC, - 15...+33% . D . . . . . .I

Line 0 : For AC > 40 Hz and characteristics B only, Fig. 7

F) 24... 60 V AC / DC, DC: - 15...+33%, AC: +/- 15% . F . . . . . .H

G) 85... 230 V AC / DC, DC: - 15...+33%, AC: +/- 15% . G . . . . . .H

Order Code E15 —


7. Special features

0) Without . . 0 . . . . .

1) With . . 1 . . . . .

Y

Without Special features (line 0) : Order code complete.

With special features (line 1) : The features to be omitted must be

marked hereafter with / (slant line) in order code until reaching the

required feature

A)

Response time approx. 800ms (for current signals only)

£ £ 0.5% p.p. instead of 1% p.p. Y . . . A . . . .


9. Measuring range adjustable 4

A) E3 by max. - 5%, characteristic A, Figs. 4 and 6 AY . . . . A . . .

B) E3 by max. - 10%, characteristic A, Figs. 4 and 6 AY

ADY

. . . . B . . .

9 . . . . . . .

10. Two measuring ranges (fo measuring input E) 5

9)

for AC current [A]

0...0.01 to 0...10

Second measuring range

ACY Z . . . . . . .Z)

for AC Voltage [V]

0...10.00 to 0...750

Second measuring range

Lines 9 and Z :

Possible only with characteristics A, Figs. 3, 4, 5 or 6

Condition :First meas. range

Second meas. range> 1.053 to 2£

11. Improved climate rating (DIN 40 040) 13

A) Application class HVR instead of HVR (standard) Y . A . . . . . .

12. Output Signal (Measuring output B) Output 2

Same as output signal (Measuring output A) output 1 in Sr. No. 5 J . A . . . . . .I

8 to 9 and 11 to 12 see section "Special features"

* Line with letter(s) under "no-go" cannot be combined with preceding lines having the same letter under "SCODE"

4 , 5 , 10 and 13 see section "Special features"



Data Sheet

RISH Ducer F11 / F12 Transducer for measuring Frequency

www.rishabh.co.in Page 1 of 5 Version:1/04/II/0112/ C

Transducer for measuring Frequency

RISH Ducer F11 in housing

E8 clipped onto a top-hat rail.

RISH Ducer F12 in housing

E8 clipped onto a top-hat rail.

F12

0. I 2 I

Technical Data

Measured quantity : Frequency

Measuring Ranges : 45 - 55 Hz, 55-65 Hz,

45 - 65 Hz, 360 - 440 Hz

Nominal Voltage : 63.5 V, 100 V, 110 V, 120 V,

220 V, 230 V, 240 V, 380 V,

400 V, 415 V, 440 V & 480 V

Own Consumption : < 2VA for one output transducer

< 5VA for two output transducer

Overload Capacity : 1.2 X rated voltage continuously

1.5 X rated voltage for 10 sec.

Measuring input X

Measuring output Y

Output Y

No of Analog Outputs one or two One only

: Load independent DC Current ORLoad independent DC Voltage

Standard Ranges : 0/1 mA in to 0-10 K Ohms,

> 200 KW / V

Current Output Protection : Fully protected against open &

short circuited output

Voltage Output Protection : Fully protected against open

circuit output

0/5 mA in to 0-1 K Ohms,

0/20 mA in to 0-500 Ohms,


0/5V, 0/10V external resistance

One output Transducer : Output Current - < 0.5 %

Response Time : < 400 ms

Two output Transducer : Output Current - < 0.5 %

Response Time : < 800 ms

Residual Ripple

F11 F12

45 - 55 Hz, 55-65 Hz,

45 - 65 Hz, 360 - 440 Hz

63.5 V, 100 V, 110 V, 120 V,

220 V, 230 V, 240 V, 380 V,

400 V, 415 V, 440 V & 480 V

< 2VA for one output transducer

1.2 X rated voltage continuously

1.5 X rated voltage for 10 sec.

Load independent DC Current ORLoad independent DC Voltage


> 200 KW / V

Fully protected against open &

short circuited output

Fully protected against open

circuit output




0/5V, 0/10V external resistance

Output Current - < 0.2 %

< 400 ms

Symbols Meaning


X Measuring input / Input variable

X0 Start value of input voltage

X2 Final value of input voltage

Y Measuring output / Output variable


Y2 Final value of output variable

Yi Output actual value

Ys Rated Output

YX

H

a b c d

n

Application


The RISH Ducer F11 / F12 measuring transducer is used for frequency measurement. The output signal is proportional to measured frequency and is either a load - independent DC current or a load - independent DC voltage.

nMeasuring output : DC current signal or DC voltage signal (Load-independent) directly proportional to the change of input within a specified span.

nElectrical isolation between all transducer connection circuits / prevents interference voltages and currents being transmitted.

nNarrow housing, 35 mm /saves space and therefore cost.nProvision for either snapping the transducer onto top-hat rails or

securing it with screws to a wall or panel.nTwo isolated outputs ( Optional)nElectric isolation between output 1 and output 2 is 500V

Input signal X is galvanically separated from the mains network using a voltage transformer (a). The input signal is given to frequency to voltage converter (b) which is then filtered (c) and amplified (d). The power module (n) connected either to an AC or DC voltage source, supplies the transducer with the required power supply.

Features / Benefits

Mode of Operation


Technical Data

F11 F12

Accuracy

Reference value : Measuring Span f

Basic Accuracy : Class 0.5 of output end value

D

Influence effects (maxima):

Influence quantity Rated operating range

Operating Temperature

Reference condition

Ambient Temperature : 23°C, 5 K±

Load Resistance for

a) Current output : Rn = 5V / Y2 1%

b) Voltage output : Rn = 2 kW 1%

Power Supply :

±

±

± 1%

Warm - up time : > 20 min

Load Resistance

Current :0...5V/Y2...10V/Y2

0 C... 23 C...55 C° ° °

Allowed influence

effect as percentage

of class Index

200%

Voltage :1 kW - (5V, 10V DC)

50%

Power SupplyRated Value

Rated OperatingRange

AC 24 VAC 110 VAC 120 VAC 230 VAC 380 V

22 .... 26 V 99 .... 121 V108 .... 132 V207 .... 253 V360 .... 440 V

Rated operating range

of frequency : 45 … 50 … 60 … 65 Hz

Power consumption : £ 4 VA at rated

8VA at for Two Output Transducer

Version with

for One Output

Transducer

£

AC/DC power pack

DC and 45 ... 400Hz : Rated VoltageUN

Permissible variation

24 .... 60 VDC / AC

85 .... 230 VDC / AC

DC - 15 ... + 33%AC + 15%

Power consumption : < 4 VA /4W for one output transducer

< 8 VA /8W for two output transducer

Self power version available

Measuring Span f

Class 0.2 of output end value

D

23°C, 2 K±

Rn = 5V / Y2 1%

Rn = 2 kW 1%

±

±

± 1%

> 15 min

45 … 50 … 60 … 65 Hz

£ 4 VA at rated for One Output

Transducer

--do–

--do–

--do–

Environmental Condition

Climatic Rating : Climatic class 3Z acc. to

VDI/VDE 3540

Storage Temperature :

Humidity range : Up to 75 % RH

-20°C to +70°C

Operating Temperature : 0°C to + 60°C

Climatic class 3Z acc. to

VDI/VDE 3540

Up to 75 % RH

-20°C to +70°C

0°C to + 60°C


Installation DataMechanical design Housing E8 / E16

Dimensions see Section“Dimensional drawings”

Material of housing Lexan 940 (polycarbonate),flammability Class 0 acc. toUL 94, self - extinguishing, non -dripping, free of halogen

Electrical Connections

Connection One Output Transducer E8 Housing

Measuring Input 5

6

Measuring output 112

Measuring output 2

Power Supply 34

R

R

+-

R, +R, -

9

10

12

11

12

34

Terminals

Two Output Transducer E8 Housing (AC Aux.)

Two Output Transducer E16 Housing (AC/DC Aux.)

7

8

43

6

5

12

+

-

R

R

+-

R, +R, -

+

-

R

R

+-

R

R

N/A


126

12

5

5 6 7 8

1 2 3 4

13

0

Fig. 14. RISH Ducer F11 one output in housing E8 clipped onto a top hat rail (35 X 15 mm or 35 X 7.5 mm)

126

12

5

8765

4321

35

13

0

125

12

5

5 6 7 8

1 2 3 4

35

15

4

14

0

¯4

,5

6,5

12

19

Fig. 15. RISH Ducer F11 one output in housing E8 with the screw hole brackets pulled out for wall mounting.

125

125

70

154

140

¯4.5

6.5

12

19

1 61 51 41 31 21 11 09

87654321

Fig. 17. RISH Ducer F11 two output in housing E16 with the screw hole brackets pulled out for wall mounting.

126

125

70

130

Fig. 16. F11 two output in housing E16 clipped onto aRISH Ducer top hat rail (35 X

15 mm or 35 X

·


9 10 11 12 13 14 15 16

1 2 3 4 5 6 7 8

19 6.5

Mounting For rail or well mountingMounting position AnyElectrical connection Screw - type terminals with

indirect wire pressure, for max.2 2

2 X 2.5 mm or 1 X 6 mmWeight Approx. < 450 gm

2 2Cross - selection of wire < 1 X 6 mm or< 2 X 2.5 mm

RISHABH INSTRUMENTS PVT.LTD.F-31, MIDC, Satpur, Nashik-422 007,India.Tel.: +91 253 2202160, 2202202 Fax : +91 253 2351064E-mail : India :- [email protected] International :- [email protected]


Ordering Information

DESCRIPTION MARKING

Measuring transducer for Frequency F11/F12

Nominal Input Voltage

V963.5 V, 100 V, 110 V, 120 V, 220 V, 230 V, 240 V,380 V, 400 V, 415 V, 440 V and 480 V

Input Voltage > 300 V ; phase - to - phase connection to a three - phase supply only

Measuring Range

45 - 55 Hz 55 - 65 Hz, 45 - 65 Hz, 360 - 440 Hz

F1F2F3F4

1Final value of output signal 1mA X Y2 20 mA1V Y2 10 V

££££

A91A92

Power Supply

AC 22 V ... 26 VAC 99 V ... 121 VAC 180 V ... 253 VAC 360 V ... 440 V *

H1H2H3H4H5

45 ... 50 ..60 ...65 Hz

DC / AC 24 V ... 60 VDC / AC 85 V ...230 VDC and

45 ... 400 Hz

* > 300 V ; phase - to - phase connectionto a three - phase supply only

H7H8

1 Two Analog Outputs Applicable in F11 only

Programmable Multi-transducer(LONBUS Communication)

Data Sheet

www.rishabh.co.in Page 1 of 14 Version : 1/04/IX/1201/B

®RISH Ducer M 00 ( LONWORKS Interface )

Programmable multi-transducer

Fig. 1

I1

I2

I3

L1

L2

L3N

UH

1 2

4 5 83

6

10

7

9®

LONWORKSinterface

Servicepin

LED


Application

RISH Ducer M00 (Fig. 1) is a programmable transducer with a ®LONWORKS Interface that simultaneously measures several

variables of a heavy-current power system.®The device conforms to the LONMARK interoperability guidelines,

Version 3.0. The measured variables are transferred by means of standard network variable types (SNVT) and are available at the LON interface.The device is programmed using the LONTALK® file transfer protocol. The transducers are also equipped with an RS 232 serial interface to which a PC with the corresponding software can be connected for programming or accessing and executing useful ancillary functions.The usual methods of connection, the rated values of the input variables and the type of internal energy meter are the main parameters that can be programmed.The ancillary functions include a power system check, a facility forprinting rating labels and provision for reading and setting the energy meter.The transducer fulfils all the essential requirements and regulationsconcerning electromagnetic compatibility (EMC) and safety (IEC 1010 resp. EN 61 010). It was developed and is manufactured and tested in strict accordance with the quality assurance standard ISO 9001.

● Transfer of data via a LON interface with an FTT-10A transceiver ®and LONTALK protocol

● Simultaneous measurement of several variables of a heavy-current power system / full supervision of an asymmetrically loaded four-wire power system, rated current 1 to 6 A, rated voltage 57 to 400 (phase to neutral) or 100 to 693 V (phase-to-phase)

Measured variables Output Types

2 analogue outputs and 4 digital outputs M 24or4 analogue outputs

Current, voltage (rms), & 2 digital outputs M 42active/reactive/apparent see Data Sheet

power cosj, sinj, power M 24/42-1 factor RMS value of the 4 analogue outputs current with wire setting & bus interface range (bimetal measuring RS 485 (MODBUS) M 40 function) Slave pointer see Data Sheet function for the M 40-1 measurement of the RMSvalue IB Without analogueFrequency outputs, with busAverage value of the interface RS 485currents with sign of the (MODBUS) see Data M 01 active power Sheet M 01-1 (power system only) PROFIBUS DP see

● For all heavy-current power systems variables

● Input voltage up to 693 V (phase-to-phase)

● High accuracy: U/I/P 0.2% (under reference conditions)

● Up to 4 integrated energy meter, storage every each 203 s, storage for: 20 years

● Windows software with password protection for programming, data analysis, power system status simulation, acquisition of meter data and making settings

● AC/DC power supply / universal

● Provision for either snapping the transducer onto top-hat rails or securing it with screws to a wall or panel

Features / Benefits

1 = Input transformer2 = Multiplexer3 = Latching stage4 = A/D and D/A converter5 = Microprocessor6 = Programming interface RS-232 (electrically insulated)7 = Power supply8 = NEURON® Chip9 = FTT-1010 = Service pin

Fig. 2. Block diagram.

Symbols

Symbols Meaning

X Measured variable

X0 Lower limit of the measured variable

X1 Break point of the measured variable

X2 Upper limit of the measured variable

U Input voltage

Ur Rated value of the input voltage

U 12 Phase-to-phase voltageL1 – L2



U1N Phase-to-neutral voltageL1 – N



UM Average value of the voltages(U1N + U2N + U3N) / 3

I Input current

I1 AC current L1

I2 AC current L2

I3 AC current L3

Ir Rated value of the input current

IM Average value of the currents (I1 + I2 + I3) / 3

P3 Active power phase 3(phase-to-neutral L3 – N)

Q Reactive power of the systemQ = Q1 + Q2 + Q3

Q1 Reactive power phase 1(phase-to-neutral L1 – N)



S Apparent power of the system

S = √ I12 + I

22 + I

32 · √ U

12 + U

22 + U

32

S1 Apparent power phase 1(phase-to-neutral L1 – N)



Sr Rated value of the apparent power of the system

PF Active power factor cos j = P/S

PF1 Active power factor phase 1 P1/S1



QF Reactive power factor sin j = Q/S

QF1 Reactive power factor phase 1 Q1/S1



LF Power factor of the systemLF = sgnQ · (1 – |PF|)

LF1 Power factor phase 1sgnQ1 · (1 – |PF 1|)



H Power supply

Hn Rated value of the power supply


Symbols Meaning

IMS Average value of the currents and sign of theactive power (P)

IB RMS value of the current with wire setting range(bimetal measuring function)

BS Slave pointer function for the measurement ofthe RMS value IB

j Phase-shift between current and voltage

F Frequency of the input variable

P Active power of the system P = P1 + P2 + P3



Technical data

InputsInput variables see Tables 3 and 4Measuring ranges see Tables 3 and 4Waveform SinusoidalRated frequency 50…60 Hz; 16 2/3 Hz

2Consumption Voltage circuit: ≤ U / 400 kΩ

Condition:Characteristic XH01 … XH10

Current circuit: ≤ 0.3 VA · I/5 A

Continuous thermal ratings of inputs

Current circuit 10 A 400 Vsingle-phaseAC system

693 Vthree-phase system

Voltage circuit 480 V single-phase AC system

831 V three-phase system

Short-time thermal rating of inputs

Input Number of Duration Intervalvariable inputs of between two

overload overloads

Current circuit 400 V single-phase AC system


100 A 5 3 s 5 min.

250 A 1 1 s 1 hour

Voltage circuit 1 A, 2 A, 5 A

Single-phaseAC system600 VH

intern: 1.5 Ur 10 10 s 10 s

Three-phasesystem1040 VH

intern: 1.5 Ur 10 10 s 10 s

1615 17

®LONWORKS InterfaceStandard program ID 80 00 36 15 03 04 04 01Network protocol LONTALK®

Transmission medium Echelon FTT-10A transceiver, transformer coupled, reverse polarity protected,twisted 2-wire cable

Transmission speed 78 kBit/sNode within a subnet 127Subnet 255Number of nodesper network Max. 32,385Bus termination ExternalTerminals Screw terminals, terminals 15

and 16LONWORKS®

Interface

LONWORKS , LONTALK and NEURON are registered trademarks of theEchelon Corporation.

95

6 1

CTSRTSDSR

GNDDTRTXDRXD

DC – 15 … + 33%AC ± 10%

Rated voltage U TN

olerance

24 … 60 V DC/AC

85 … 230 V DC/AC

Consumption ≤ 9 W resp. ≤ 10 VA


System responseAccuracy class 0.2 resp. 0.4 at applications

with phase-shiftEnergy meter 1.0 acc. to IEC 1036

(0.1 Ir ≤ I ≤ 1.5 Ir)Duration of themeasurement cycle Depending on measured

variable and programmingResponse time 1 … 2 times the measurement

cycle

Reference conditionsAmbient temperature 15 … 30 °CInput variable Rated useful rangePower supply H = Hn ± 1%Active/reactive factor cosj = 1 resp. sinj = 1Frequency 50 … 60 Hz, 16 2/3 HzWaveform Sinusoidal, form factor 1.1107Miscellaneous EN 60 688

Influencing quantities and permissible variationsAcc. to EN 60 688

Power supplyAC voltage 100, 110, 230, 400, 500 or

693 V, ± 10%, 45 to 65 HzPower consumption approx. 10 VA

AC/DC power pack (DC and 50 … 60 Hz)Table 2: Rated voltages and tolerances

Programming connector on transducerInterface RS 232 CDSUB socket 9-pin

The interface is electrically insulated from all other circuits.

Ambient conditionsVariations due to ambienttemperature ± 0.2% / 10 KNominal range of usefor temperature 0…15…30…45°C

(usage group II)Operating temperature – 10 to + 55 °CStorage temperature – 40 to + 85 °CAnnual mean

relative humidity ≤ 75%Altitude 2000 m max.Indoor use statement

Applicable standards and regulations

EN 60 688 Electrical measuring transducers for converting AC electrical variables into analogue and digital signals

IEC 1010 orEN 61 010 Safety regulations for electrical measuring,

control and laboratory equipmentEN 60529 Protection types by case (code IP)IEC 255-4 Part E5 High-frequency interference test (solidstate

relays only)IEC1000-4-2,3,4,6 Electromagnetic compatibility for industrial

process measurement and control equipment

VDI/VDE 3540,

page 2 Reliability of measuring and control equipment (classification of climates)

DIN 40 110 AC quantitiesDIN 43 807 Terminal markingsIEC 68 /2-6 Basic environmental testing procedures,

vibration, sinusoidalEN 55011 Electromagnetic compatibility of data

processing and telecommunication equipmentLimits and measuring principles for radio interference and information equipment

IEC 1036 Solid state AC watt hour meters for active power (Classes 1 and 2)

DIN 43864 Current interface for the transmission of impulses between impulse encoder counter and tarif meter

UL 94 Tests for flammability of plastic materialsfor parts in devices and appliances

®LONMARK Interoperability guidelines, Version 3.0

SafetyProtection class IIEnclosure protection IP 40, housing

IP 20, terminalsInstallation category IIIInsulation test Input voltage: AC 400 V

Input current: AC 400 VOutput: DC 40 VPower supply: AC 400 V

DC 230 VSurge test 5 kV; 1,2/50 ms; 0,5 WsTest voltages 50 Hz, 1 min. according to

DIN EN 61 010-15550 V, inputs versus all other circuits as well as outer surface3250 V, input circuits versus each other3700 V, power supply versus outputs and SCI as well as outer surface490 V, outputs and SCI versus each other and versus outer surface

Vibration withstand(tested according to DIN EN 60 068-2-6)Acceleration ± 2 gFrequency range 10 … 150 … 10 Hz, rate of

frequencysweep: 1 octave/minute

Number of cycles 10 in each of the three axesResult No faults occurred, no loss of

accuracy and no problems with the snap fastener

Installation dataHousing Housing T24

See Section “Dimensioned drawings”

Housing material Lexan 940 (polycarbonate),flammability class V-0 acc. to UL 94, self-extinguishing, non-dripping, free of halogen

Mounting For snapping onto top-hat rail(35 × 15 mm or 35 × 7.5 mm) acc. to EN 50 022 ordirectly onto a wall or panel using the pull-out screw hole brackets

Orientation AnyWeight With supply transformer

approx. 1.1 kgWith AC/DC power packapprox. 0.7 kg


Terminals

Type Screw terminals with wire guards

2Max. wire gauge ≤ 4.0 mm single wire or

22 × 2.5 mm fine wire

Table 1: Standard network variable types (according to application)

Symbols Meaning Application (see Table 4)A11 … A16 A34 A24 / A44

U Input voltage ●

U12 Phase-to-phase voltage –– ● ●L1 – L2

U23 Phase-to-phase voltage –– ● ●L2 – L3

U31 Phase-to-phase voltage ● ●L3 – L1

U1N Phase-to-neutral voltage –– –– ●L1 – N



UM Average value of the voltages –– –– ●

I Input current ●

I1 AC current L1 –– ● ●



IM Average value of the currents –– ● ●

IMS Average value of the currents and sign of –– ● ●the active power

IB RMS value of the current with wire setting range ●(bimetal measuring function)

IB1 RMS value of the current with wire setting range –– ● ●(bimetal measuring function), phase 1



BS Slave pointer function for the measurement of ●the RMS value IB

BS1 Slave pointer function for the measurement of –– ● ●the RMS value IB, phase 1



F Frequency of the input variable ● ● ●

P Active power of the system ● ● ●

P1 Active power phase 1 –– –– ● (phase-to-neutral L1 – N)

Symbols Meaning Application (see Table 4)A11 … A16 A34 A24 / A44

Continuation of Table 1:

P2 Active power phase 2 –– –– ●(phase-to-neutral L2 – N)

P3 Active power phase 3 –– –– ●(phase-to-neutral L3 – N)

PF Active power factor cos j = P/S ● ● ●

PF1 Active power factor phase 1, P1/S1 –– –– ●



Q Reactive power of the system ● ● ●

Q1 Reactive power phase 1 –– –– ●(phase-to-neutral L1 – N)



S Apparent power of the system ● ● ●

S1 Apparent power phase 1 –– –– ●(phase-to-neutral L1 – N)



LF Power factor of the system ● ● ●

LF1 Power factor phase 1 –– –– ●



QF Reactive power factor sinj = Q/S ● ● ●

QF1 Reactive power factor phase 1, Q1/S1 –– –– ●



EA Energy meter 1 ● ● ●

● ● ●

● ● ●

● ● ●

EB Energy meter 2

EC Energy meter 3

ED Energy meter 4

Where c.t’s and/or v.t’s are used for measurement, the values are referred to the primaries of the transformers.

Variables

– Energy meter reset– Maximum value pointer reset


Table 4: Programming

DESCRIPTION ApplicationA11 … A16 A34 A24 / A44

1. Application (system)

Single-phase AC A11 ––– –––

3-wire, 3-phase symmetric load, phase-shift U: L1-L2, I: L1* A12 ––– –––

3-wire, 3-phase symmetric load A13 ––– –––




3-wire, 3-phase asymmetric load ––– A34 –––

4-wire, 3-phase asymmetric load ––– ––– A44

4-wire, 3-phase asymmetric load, open Y ––– ––– A24

2. Input voltage

Rated value Ur = 57.7 V U01 ––– –––


Rated value Ur = 100 V U03 ––– –––




Rated value Ur [V] U91 ––– –––

Rated value Ur = 100 V U21 U21 U21






Rated value Ur [V] U93 U93 U93

Lines U01 to U06 and U91: Only for single phase AC current or4-wire, 3-phase symmetric load

Line U91: Ur [V] 57 to 400

Line U93: Ur [V] > 100 to 693

* Accuracy class 0.4Table 4 continued on next page!


Basic programming

A version of the M00 transducer with a basic programis also available which is recommended if the programming

data are unknown at the time of ordering (see “Table 3: Orderinginformation», Feature 6).

Basic programming Marking

Appllication: 4-wire, 3-phase system, asymmetric load (NPS) A 44

Input voltage: Design value Ur = 100 V U 21

Input current: Design value Ir = 2 A V 2without specification of primary rating W 0

Energy meter 1: P System (incoming) EA 58

Energy meter 2: Q System (inductive) FA 62

Energy meter 3: P1 L1 (incoming) GA 59

Energy meter 4: I1 L1 HA 51


Continuation “Table 4: Programming”


3. Input current

Rated value Ir = 1 A V1 V1 V1



Rated value Ir > 1 to 6 [A] V9 V9 V9

4. Primary rating (primary transformer)

Without specification of primary rating W0 W0 W0

CT = A / Ir A VT = kV / Ur V W9 W9 W9

Line W9: Specify transformer ratio prim. 1000 A; 33 kV

5. Energy meter 1

Not used EA00 EA00 EA00

I System [Wh] EA50 ––– –––

I1 L1 [Wh] ––– EA51 EA51

I2 L2 [Wh] ––– EA52 EA52

I3 L3 [Wh] ––– EA53 EA53

S System [Wh] EA54 EA54 EA54

S1 L1 [Wh] ––– ––– EA55

S2 L2 [Wh] ––– ––– EA56

S3 L3 [Wh] ––– ––– EA57

P System (incoming) [Wh] EA58 EA58 EA58

P1 L1 (incoming) [Wh] ––– ––– EA59



Q System (inductive) [Wh] EA62 EA62 EA62

Q1 L1 (inductive) [Wh] ––– ––– EA63



P System (outgoing) [Wh] EA66 EA66 EA66

P1 L1 (outgoing) [Wh] ––– ––– EA67



Q System (capacitive) [Wh] EA70 EA70 EA70

Q1 L1 (capacitive) [Wh] ––– ––– EA71



6. Energy meter 2

Same as energy meter 1, but markings start with a FA .. FA .. FA ..capital F

7. Energy meter 3

Same as energy meter 1, but markings start with a GA .. GA .. GA ..capital G

8. Energy meter 4

Same as energy meter 1, but markings start with a HA .. HA .. HA ..capital H

Note: The energy reading is referred to the power P = I · Up for I, respectively I1 · Up for I1, I2 · Up for I2 and I3 · Up for I3 whereUp = the primary rated voltage or the secondary rated voltage if there is no v.t..


2221201918171615

87654321

26252423

1413119

(–)(+)

LONWORKS®

Interface

UL2UL1UL1 UL3

IL1 IL2 IL3

N

RS 232

Function Connection

IL2 4 / 6IL3 7 / 9

AC voltage UL1 2UL2 5UL3 8N 11

1516

2324

2526

Power supply AC ~ 13~ 14

DC + 13– 14

Measuring input

System /application Terminals

L1

N

11 31

L1

N

k l

K L

2 11 31

L1

N

v

V

u

Uk l

K L

2 11 312

Single-phaseAC system

Front

IL1 IL2 IL3

Measuring input

LONWORKS® Interface

Signal

Service pin

Signal Servicepin

If power supply is taken from the measured voltageinternal connections are as follow:

Application (system) Internal connectionTerminal / System

Single-phase AC current 2 / 11 (L1 – N)

4-wire 3-phase 2 / 11 (L1 – N)symmetric load

All other (apart from 2 / 5 (L1 – L2)A15 / A16 / A24)

Find and Signal (terminals 23 and 24)By polling the LONWORKS® network, it is possible todetermine the neuron ID’s of the various devicesconnected. A signal prompts the particular device toidentify itself. A LED (e.g. HLMP, Order No. 970 881)connected to terminals 23 and 24 flashes briefly.

Service-Pin (terminals 25 and 26)A device is made to send its Neuron ID by short-circuiting terminals 25 and 26.



Measuring inputs


L1

5 31

L1

k l

K L

2 5 31

L1

v

V

u

Uk l

K L

2 5 312

L2

L3

L2

L3

L2

L3

L1

2 31

L1

k l

K L

8 2 31

L1

v

V

u

U

k l

K L

8 2 318

L2

L3

L2

L3

L2

L3

3-wire3-phasesymmetricloadphase-shiftU: L1 – L2I: L1

3-wire3-phasesymmetricloadphase-shiftU: L3 – L1I: L1

L1

L2

L3

5 182 3

L1

L2

L3

k l

K L

5 182 3

L1

L2

L3

u

U

v

V

v

V

u

Uk l

K L

5 182 3

3-wire3-phasesymmetricloadI: L1

Connect the voltage according to the following table for current measurement in L2 or L3:

Current transf. Terminals 2 5 8

L2 1 3 L2 L3 L1

L3 1 3 L3 L1 L2


Current transf. Terminals 2 5

L2 1 3 L2 L3

L3 1 3 L3 L1



L2 1 3 L1 L2

L3 1 3 L2 L3


Measuring inputs


3-wire3-phaseasymmetricload


3-wire3-phasesymmetricloadphase-shiftU: L2 – L3I: L1 Connect the voltage according to the following table for current measurement in L2 or L3:


L2 1 3 L3 L1

L3 1 3 L1 L2



L2 1 3 L2 N

L3 1 3 L3 N

L1

L2

L3

k l

K L k l

K L

xxx

uuu

XXX

UU U

5 182 3 7 9

L1

L2

L3

u

U

v

V

v

V

u

Uk l

K L k l

K L

5 182 3 7 9

L1

L2

L3

5 182 3 7 9

L1

L2

L3

k l

K L k l

K L

5 182 3 7 9

L1

N

11 312

L2

L3

L1

N

k l

K L

2 11 31

L2

L3

L1

v

V

u

Uk l

K L

2 11 31

N

L2

L3

L1

8 315

L2

L3

L1

k l

K L

5 8 31

L2

L3

L1

v

V

u

U

k l

K L

5 8 31

L2

L3

–180 –90 0 90 180

outgoing

Output

ϕ

incomingoutgoing

ind.ind. iinndd.. cap.cap.

LF

QFPF

Fig. 3. Active power PF ––––, reactive power QF ------,power factor LF – - – - –.

Measuring inputs



4-wire3-phaseasymmetricload,Open Yconnection

L1

L2

L3

N

5 1182 1 3 4 6 7 9

L1

L2

L3

k l

K L

k l

K L

k l

K L

N

5 1182 1 3 4 6 7 9

L1

L2

L3

k l

K L

k l

K L

k l

K L

N

xxx

uuu

XXX

UU U

5 1182 1 3 4 6 7 9

3 single-pole insulated voltage transformersin high-voltage system

L1

L2

L3

k l

K L

k l

K L

k l

K L

N

82 1 3 4 6 7 911

L1

L2

L3

kl

K L

k l

K L

k l

K L

xx

uu

X

U

2 431 5 6 7 8 9 11

X

U

L

Low-voltage system2 single-pole insulated voltage transformersin high-voltage system

N

Relationship between PF, QF and LF


Table 3: Ordering information

DESCRIPTION MARKING


Housing T24 for rail and wall mounting M00 - 1

2. Rated frequency

1) 50 Hz (60 Hz possible without additional error; 16 2/3 Hz, additional error 1.25 · c) 1


3) 16 2/3 Hz (not re-programming by user, 50/60 Hz possible, but with additional error 1.25 · c) 3

3. Power supply

Nominal range

1) AC 90 … 110 V Hn = 100 V 1

2) AC 99 … 121 V Hn = 110 V 2

3) AC 207 … 253 V Hn = 230 V 3

4) AC 360 … 440 V Hn = 400 V 4

5) AC 450 … 550 V Hn = 500 V 5

6) AC 623 … 762 V Hn = 693 V 6

7) DC/AC 24 … 60 V 7

8) DC/AC 85 … 230 V 8


Dimensioned drawings

Fig. 4. RISH Ducer M 00 in housing T24 clipped onto a top-hat rail(35×15 mm or 35×7.5 mm, acc. to EN 50 022).

Fig. 5. RISH Duce M 00 in housing T24, screw hole mountingbrackets pulled out.

1 2 3 4 5 6 7 8 911 13 14

15 16 17 18 19 20 21 22 23 24 25 26

15

0

15

7

12487.5

1 2 3 4 5 6 7 8 911 13 14

15 16 17 18 19 20 21 22 23 24 25 26

150

123.487.5

165

6.5

Ø.5

4

12

19

181

Table 5: Accessories

Description

Programming cable

Configuration software for RISH Ducer M 24, 40, 42,RISH Ducer M 00, 01Windows 3.1x, 95, 98, NT and 2000on CD in English

Operating Instructions M 00-1

Table 3 continued on next page!

All Dimensions are in mm

Version : 1/04/IX/1201/B


www.rishabh.co.in Page 14 of 14

Continuation “Table 3: Ordering information”

DESCRIPTION MARKING

5. Test certificate

0) None supplied 0

1) Supplied 1

6. Programming

0) Basic 0

9) According to specification 9

Line 0: Not available if the power supply is taken from the voltage input

Line 9: All the programming data must be entered on Form W 2388 e (see appendix) and the formmust be included with the order, if the primary values of the measured variables or meterreadings have to be transferred.

4. Power supply connection

1) External (standard) 1

2) Internal from voltage input (not allowed for CSA) 2

Line 2: Not available for rated frequency 16 2/3 Hz and applications A15 / A16 / A24

Caution: The power supply voltage must agree with the input voltage (Table 4)!

Programmable Multi-transducer(MODBUS Rs485 Communication)

Data Sheet


RISH Ducer M01 ( RS 485 interface )

Programmable multi-transducer

Fig.1

1 = Input transformer2 = Multiplexer3 = Latching stage4 = A/D converter5 = Microprocessor

6 = Electrical insulation7 = Programming interface RS-2328 = Bus RS 485 (MODBUS)9 = Power supply


OutputMeasured variables Types

Ducer M01

Ducer M40

Current, Voltage (rms),

active/reactive/apparent power

Cos, sin, power factor

RMS value of the current with

wire setting range (bimetal

measuring function)

Slave pointer function for the

measurement of the RMS

value IB

Frequency

Average value of the currents

with sign of the active power

(power symbol only)

4 analogue and bus interfaceRS 485 (MODBUS)

Ducer M24

Data bus LONsee Data SheetM00

Ducer M42

Without analogueoutputs, with businterface RS 485(MODBUS)

Ducer M00

2 analogue and 4 digital outputsor4 analogue and 2 digital outputssee Data sheet


Application

for the measurement of electrical variables in heavy current power systemsRISH Ducer M01 (Fig. 1) is a programmable transducer with RS

® 485 bus interface (MODBUS) . It supervises several parameter of an electrical power system simultaneously.The RS 485 interface enables the user to determine the number variables to be supervised (up to the maximum available). The levels of all internal counters that have been configured (max. 4) can also viewed. Provision is made for programming the RISH Ducer M01 via the bus. A standard EIA 485 interface can be used.The transducers are also equipped with an RS 232 serial interface to which a PC with the corresponding software can be connected for programming or accessing and executing useful ancillary functions.This interface is needed for bus operation to configure the deviceaddress, the Baud rate and possibly increasing the message

®waiting time (if the master is too slow) defined in the MODBUS protocol.The usual methods of connection, the types of measured variables,their ratings and the type of internal energy/metering are the mainparameters that can be programmed.The ancillary functions include a power system check and a facility for printing nameplates.The transducer fulfils all the essential requirements and regulations concerning electromagnetic compatibility (EMC) and safety (IEC 1010 resp. EN 61 010). It was developed and is manufactured and tested in strict accordance with the quality assurance standard ISO 9001.

Features

• Simultaneous measurement of several variables of a heavy-current power system / full supervision of an asymmetrically loaded four-wire power system, rated current 1 to 6 A, rated voltage 57 to 400V (phase to neutral) or 100 to 693V (phase-to-phase)

• For all heavy-current power system variables

• Input voltage up to 693 V (phase-to-phase)

• Universal analogue outputs (programmable)®• Transfer of data via MODBUS interface

• High accuracy: U/I 0.2%, (under reference conditions)

• Universal digital outputs (meter transmitter, limits)

• 4 integrated energy meters, storage every each 203 s, storage for : 20 years

• Windows software with password protection for programming, data analysis, power system status simulation, acquisition of meter data and making settings

• DC-, AC- power pack with wide power supply tolerance /universal Provision for either snapping the transducer onto top - hat rails or securing it with screws to a wall or panel

The RS 485 interface of the M01 is galvanically isolated from all other circuits. For an optimal data transmission the devices are connected via a 3 - wire cable, consisting of a twisted pair cable (for data lines) and a shield. There is no termination required. A shield both prevents the coupling of external noise to the bus and limits emissions from the bus. The shield must be connected to solid ground.

You can connect up to 32 members to the bus (including master).

Basically devices of different manufacturers can be connected to ®the bus, if they use the standard MODBUS protocol. Devices

without galvanically isolated bus interface are not allowed to be connected to the shield.

The optimal topology for the bus is the daisy chain connection

from node 1 to node 2 to node n. The bus must form a single

continuous path, & the nodes in the middle of the bus must have short stubs. Longer stubs would have a negative impact on signal quality (reflection at the end). A star or even ring topology is not allowed.

Fig. 4

Slave 1

Master

RISH Ducer M 40

26

25

24

23Tx+/Rx+

GND

Tx-/Rx-

26

25

24

23Tx+/Rx+

GND

Tx-/Rx-

RISH Ducer M 40

2z

2d

6z

6dTx+/Rx+

GND

Tx-/Rx-

Tx+/Rx+

GND

Tx-/Rx-Slave 2

RISH Ducer M 01

26

25

24

23Tx+/Rx+

GND

Tx-/Rx-

GNDSlave n

+ 5 V

Built-in RS485 interface car d

Signal GND

Data Out A

Data Out B

Data In A

Data In B

Handshake Out A

Handshake Out B

Handshake In A

Handshake In B

PC with interface 13601 of W & T

5

1

6

2

7

3

8

4

9

With converter RS232/RS485

GND Signal GND

Din Data Out A

Dout Data Out B

Data In A

Data in B

Handshake Out A

Handshake Out B

Handshake In A

Handshake In B

PC

5

1

6

2

7

3

8

4

9

GND

TxD

RxD

DTR

DSR

RTS

CTS

5

3

2

4

6

7

8

Interface 86201 of W & T

There is no bus termination required due to low data rate. If you got problems when using long cables you can terminate the bus at both ends with the characteristic impedance of the cable (normally about 120 W). Interface convertors RS232 Û RS485 or RS564 interface cards often have a built-in termination network which can be connected to the bus. The second impedance then can be connected directly between the bus terminals of the device far most.

P3 Active power phase 3 (phase-to-neutral L3 - N)

P Active power of the system P=P1+P2 + P3




Fig. 4 shows the connection of transducers M01 to the MODBUS. The RS 485 interface can be realized by means of PC built - in interface cards or interface converters. Both is shown using i.e. the interfaces 13601 and 86201 of W & T (Wiesemann & Theis GmbH). They are configured for a 2-wire application with automatic control of data direction. These interfaces provide a galvanical isolation and a built-in termination network.

Important:

- Each device connected to the bus must have a unique address

- All devices must be adjusted to the same baudrate.


Symbols Meaning

X Measured variable




Y Output variable

Y0 Lower limit of the output variable

Y1 Break point of the output variable

Y2 Upper limit of the output variable

U Input voltage


U 12 Phase-to-phase voltage L1 - L2



U1N Phase-to-neutral voltage L1 - N



UM Average value of the voltages

(U1N + U2N + U3N) / 3

I Input current

I1 AC current L1

I2 AC current L2

I3 AC current L3


IM Average value of the currents (I1+ I2 + I3) / 3

IMS Average value of the currents and sign of the active

power (P)

IB RMS value of the current with wire setting range

(bimetal measuring function)

IBT Response time for IB

BS Slave pointer function for the measurement of the

RMS value IB

BST Response time for BS

Phase-shift between current and voltage


Fn Rated frequency

Symbols Meaning

Q Reactive power of the system Q = Q1+ Q2 + Q3

Q1 Reactive power phase 1 (phase-to-neutral L1-N)




S1 Apparent power phase 1

(phase-to-neutral L1-N)






PF Active power factor cos =P/S

PF1 Active power factor phase1 P1/S1



QF Reactive power factor sin j =Q/S

QF1 Reactive power factor phase1 Q1/S1



LF Power factor of the system

LF = sgnQ (1- PF )

LF1 Power factor phase 1

sgnQ1 (1 - PF1 )


sgnQ2 (1 - PF2 )


sgnQ3 (1 - PF3 )

H Power supply


CT c.t. ratio

VT v.t. ratio

2 2 2 2 2 2S = I + I + I U + U + U1 2 3 1 2 3

Technical Data

Input

Input variables see Table 3 and 4Measuring ranges see Table 3 and 4Waveform SinusoidalRated frequency 50...60 Hz; 16 2/3 Hz

2Own consumption [VA] Voltage circuit: £ U / 400 k OHMCondition:Characteristic XH 01...XH10Current circuit: £ I2 0.01 OHM

Current circuit


10A 400 V single-phase AC system 693 V three-phase system

Voltage circuit 480V single-phase AC system831V three-phase system

Rated voltage UN Tolerance

24 ... 60 V DC/AC

85 ... 230 V DC/AC

DC -15 ... + 33%AC +10%


Programming connector on transducerInterface: RS 232 CDSUB socket: 9-pin

GNDCTS DTRRTS TXDDSR RXD

The interface is electrically insulatedfromall other circuits

Ambient conditionsVariations due to ambienttemperature: ± 0.1% / 10 K

0Nominal range of use 0... 15...30...45 C (usage group II)for temperature

0Storage temperature - 40 to + 85 CAnnual meanrelative humidity £ 75%


IEC 688 or

DIN EN 60 688 Electrical measuring transducers for

converting AC electrical variables into

analogue and digital signals

IEC 1010 or

EN 61 010 Safety regulations for electrical measuring,

control and laboratory equipment

IEC 529 or

EN 60 529 Protection types by case (code IP)

IEC 255-4 Part E5 High-frequency disturbance test

(static relays only)

IEC 1000-4-2/-3/-4/-6 Electromagnetic compatibility for industrial-

process measurement and control

equipment

EN 55 011 Electromagnetic compatibility of data

processing and telecommunication

equipment Limits and measuring principles

for radio interference and information

equipment

Input

variable




Number of

inputs

Durationofoverload

Intervallbetween twooverloads

100 A 5 3 s 5 min.

250 A 1 1 s 1 hour


Single-phase

AC system

600 V

H : 1.5 Urintern10 10 s 10 min.

Three-phase

system

1040 V

H : 1.5 Urintern10 10 s 10 s

® MODBUS (Bus interface RS-485)Terminals Screw terminals, terminals

23, 24, 25 and 26Connecting cable Screened twisted pairMax. distance Approx. 1200 m (approx. 4000 ft.)Baudrate 1200 … 9600 Bd (programmable)Number of busstations 32 (including master)Dummy load Not required

® MODBUS is a registered trademark of the Schneider Automation Inc.

System responseAccuracy class 0.2 resp. 0.4 at applications with

phase-shiftDuration of themeasurement cycle Approx. 0.5 to 1.2 s at 50 Hz,

depending on measured variableand programming

Response time 1 … 2 times the measurement cycle

Reference conditions0Ambient temperature 15...30 C

Pre-conditioning 30 min. acc. to DIN EN 60 688Input variable Rated useful rangePower supply H =Hn + 1%Active/reactive factor cos f=1 resp. sin f = 1Frequency 50 ... 60 Hz, 16 2/3 HzWaveform Sinusoidal, form factor 1.1107Output load DC current output:Miscellaneous EN 60 688

Influencing quantities and permissible variationsAcc. to EN 60 688

Power Supply

DC-, AC - power pack (DC and 50 ... 60 Hz)Table 1: Rated voltages and tolerances

IEC 68-2-1/-2/-3/-6/-27

or

EN 60 068-2-1/-2/-3/

-1 Cold, -2 Dry heat,

-3 Damp heat, -6 Vibration,

-27 Shock

DIN 40 110 AC quantities

DIN 43 807 Terminal markings

IEC 1036 Alternating current static watt-hour meters

for active energy (classes 1and 2)

DIN 43 864 Current interface for the transmission of

impulses between impulse encoder counter

and tarif meter

UL 94 Tests for flammability of plastic materials for

parts in devices and appliances


Ambient tests-6/-27



SafetyProtection class II (protection isolated, EN 61 010-1)Enclosure protection IP 40, housing

IP 20, terminalsOvervoltage category IIIInsulation test(versus earth) Input voltage: AC 400 V

Input Current: AC 400 VRS 485: DC 40 VPower supply: AC 400 V

DC 230 VSurge test : 5 kV; 1.2/50 ms; 0.5 Ws

Test voltages 50 Hz, 1 min. according toEN 61 010-15550 V, inputs versus all other circuitsas well as outer surface3250 V, input circuits versus eachother3700 V, power supply versus RS 485and SCI as well as outer surface490 V, RS 485 versus SCI as well asouter surface

Ambient testsEN 60 068-2-6 VibrationAcceleration + 2 gfrequency 3 X 50 g

3 shocks each in 6 directionsAcceleration Cold, dry heat, damp heat

Installation dataHousing Housing T24

See Section "Dimensioned drawings”:Housing material Lexan 940 (polycarbonate),

flammability class V-0 acc. to UL 94,self-extinguishing, non-dripping, freeof halogen

Mounting For snapping onto top-hat rail(35X15 mm or 35X7.5 mm) acc. toEN 50 022ordirectly onto a wall or panel usingthe pull-out screw hole brackets

Orientation AnyWeight approx. 0.7 kg

TerminalsType Screw terminals with wire guards

2Max. wire gauge: £ 4.0 mm single wire or22 X 2.5 mm fine wire

Table 2: RishDucer MXX, standard version

The versions of the transducer below programmed with the basic configuration are available ex stock. It is only necessary to quote the

Description / Basic programming Marking

1. Mechanical design: Housing T24 for rail and wall mounting

2. Rated input frequency: 50 Hz

3. Power supply: 24… 60 V DC, AC

85…230 V DC, AC

4. Power supply connection: External connection (standard)

5. Test certificate: None supplied

6. Configuration: Programmed basic configuration

See Table 4: “Ordering information”

1. Application (system): 4-wire, 3-phase system, asymmetric load

Basic configuration

2. Input voltage: Design value Ur = 400 V

3. Input current: Design value Ir = 5 A

M01 - 1

1

7

8

1

0

0

4. Primary rating: Without specification of primary rating5. Energy meter 1: Not used6. Energy meter 2: Not used

7. Energy meter 3: Not used

8. Energy meter 4: Not used

A 44

U 21

V 2

W 0

EA 00

FA 00

GA 00

HA 00

See Table 3: “Programming”

Order No.



Description / Basic programmingApplication

A34 A24 / A44A11 … A16

(system)

Single-phase AC

3-wire, 3-phase symmetric load, phase-shift U: L1-L2, I: L1 *

3-wire, 3-phase symmetric load




3-wire, 3-phase asymmetric load

4-wire, 3-phase asymmetric load

4-wire, 3-phase asymmetric load, open-Y

A11 ––– –––

A12 ––– –––

A13 ––– –––

A14 ––– –––

A15 ––– –––

A16 ––– –––

––– A34 –––

––– ––– A44

––– ––– A24



A34 A24 / A44A11 … A16

Rated value Ur = 57.7 V

Rated value Ur = 63.5 V

Rated value Ur = 100 V




Rated value Ur [V]







Rated value Ur [V]

Lines U01 to U06: Only for single phase AC current or


Line U91: Ur [V] 57 to 400

Line U93: Ur [V] > 100 to 693

U01 ––– –––

U02 ––– –––

U03 ––– –––

U04 ––– –––

U05 ––– –––

U06 ––– –––

U91 ––– –––

U21 U21 U21

U22 U22 U22

U23 U23 U23

U24 U24 U24

U25 U25 U25

U26 U26 U26

U93 U93 U93

Rated value Ir = 1 A V1



Rated value Ir > 1 to 6 [A]

V1 V1

V2 V2

V3 V3

V9 V9 V9

Without specification of primary rating

VT = kV CT = A

Line W9: Specify transformer ratio primary, e.g. 33 kV, 1000 A

The secondary ratings must correspond to the rated input

voltage and current specified for feature 2, respectively 3.

W0 W0 W0

W9 W9 W9

Not used EA00 EA00 E 00A

EA50 ––– –––––– EA51 EA51––– EA52 EA52––– EA53 EA53

I System [Ah]I1 L1 [Ah]I2 L2 [Ah]I3 L3 [Ah]

EA54 EA54 EA54––– ––– EA55––– ––– EA56––– ––– EA57

S System [VAh]S1 L1 [VAh]S2 L2 [VAh]S3 L3 [VAh]

EA58 EA58 EA58––– ––– EA59––– ––– EA60––– ––– Ea61

P System (incoming) [Wh]P1 L1 (incoming) [Wh]P2 L2 (incoming) [Wh]P3 L3 (incoming) [Wh]

Continuation “5. Energy Meter 1” see next page!



A34 A24 / A44A11 … A16

EA62 EA62 EA62––– ––– EA63––– ––– EA64––– ––– EA65

Q System (inductive) [Varh]Q1 L1 (inductive) [Varh]Q2 L2 (inductive) [Varh]Q3 L3 (inductive) [Varh]


EA66 EA66 EA66––– ––– EA67––– ––– EA68––– ––– Ea69

P System (outgoing) [Wh]P1 L1 (outgoing) [Wh]P2 L2 (outgoing) [Wh]P3 L3 (outgoing) [Wh]

EA70 EA70 EA70––– ––– EA71––– ––– EA72––– ––– EA73

Q System (capacitive) [Varh]Q1 L1 (capacitive) [Varh]Q2 L2 (capacitive) [Varh]Q3 L3 (capacitive) [Varh]

FA .. FA .. FA .. Same as energy meter 1, but markings start with a capital F

GA .. GA .. GA .. Same as energy meter 1, but markings start with a capital G

HA .. HA .. HA .. Same as energy meter 1, but markings start with a capital H


2221201918171615

87654321

26252423

1413119

+ GND–Tx/Rx

UL2UL1UL1 UL3

IL1 IL2 IL3

N

RS 232

Front

IL1 IL2 IL3

Measuring input

RS 485

Function Connect.Measuring input AC current IL1 1 / 3

IL2 4 / 6IL3 7 / 9

AC voltage UL1 2UL2 5UL3 8N 11

RS 485 Tx + / Rx + 23(MODBUS) Tx – / Rx – 24

GND 2526

Power supply AC ~ 13~ 14

DC + 13– 14

If power supply is taken from the measured voltageinternal connections are as follows:







Measuring input

System / application Terminals

L1

N

11 31

L1

N

k l

K L

2 11 31

L1

v

N

V

u

Uk l

K L

2 11 312


L1

L2

L3

5 182 3

L1

L2

L3

k l

K L

5 182 3

L1

L2

L3

u

U

v

V

v

V

u

Uk l

K L

5 182 3




L2 1 3 L2 L3 L1

L3 1 3 L3 L1 L2

L1

5 31

L1

k l

K L

2 5 31

L1

v

V

u

Uk l

K L

2 5 312

L2

L3

L2

L3

L2

L3

3-wire3-phasesymmetricloadPhase shiftU: L1 – L2I: L1 Connect the voltage according to the following table for current measurement in L2 or L3:


L2 1 3 L2 L3

L3 1 3 L3 L1

L1

2 31

L1

k l

K L

8 2 31

L1

v

V

u

U

k l

K L

8 2 318

L2

L3

L2

L3

L2

L3

3-wire3-phasesymmetricloadPhase shiftU: L3 – L1I: L1 Connect the voltage according to the following table for current measurement in L2 or L3:


L2 1 3 L1 L2

L3 1 3 L2 L3


Measuring input



L1

L2

L3

5 182 3 7 9

L1

L2

L3

k l

K L k l

K L

5 182 3 7 9

L1

L2

L3

u

U

v

V

v

V

u

Uk l

K L k l

K L

5 182 3 7 9

L1

L2

L3

k l

K L k l

K L

xxx

uuu

XXX

UU U

5 182 3 7 9

L1

N

11 31

L1

N

k l

K L

2 11 31

L1

v

V

u

Uk l

K L

2 11 312

L2

L3

L2

L3

N

L2

L3


L1

8 31

L1

k l

K L

5 8 31

L1

v

V

u

U

k l

K L

5 8 315

L2

L3

L2

L3

L2

L3

3-wire3-phasesymmetricloadPhase-shiftU: L2 – L3I: L1 Connect the voltage according to the following table for current measurement in L2 or L3:


L2 1 3 L3 L1

L3 1 3 L1 L2



L2 1 3 L2 N

L3 1 3 L3 N

Measuring input



L1

L2

L3

N

5 1182 1 3 4 6 7 9

L1

L2

L3

k l

K L

k l

K L

k l

K L

N

5 1182 1 3 4 6 7 9

L1

L2

L3

k l

K L

k l

K L

k l

K L

N

xxx

uuu

XXX

UU U

5 1182 1 3 4 6 7 9


4-wire3-phaseasymmetricload,Open Yconnection

L1

L2

L3

k l

K L

k l

K L

k l

K L

N

82 1 3 4 6 7 911

L1

L2

L3

kl

K L

k l

K L

k l

K L

xx

uu

X

U

2 431 5 6 7 8 9 11

X

U

L


N


–180 –90 0 90 180

outgoing

Output

incomingoutgoing

ind.ind. iinndd.. cap.cap.

LF

QFPF



Fig. 5. RISH Ducer M01 in housing T24 clipped onto a top-hat rail

(35 X 15 mm or 35 X 7.5 mm, acc. to EN 50 022).

Table 4: Accessories and spare parts

Description

Programming cable Configuration software Ducer M01

for RISH Ducer M24, M40, M42,RISH Ducer , M00 and M01Windows 3.1x, 95, 98,on CD

Operating Instructions in English

Dimensional Drawing

Fig. 6. RISH Ducer M01 in housing T24, screw hole mounting brackets pulled out.

1 2 3 4 5 6 7 8 9 111314

1516171819202122232425261

50

15

7

12487,5

1 2 3 4 5 6 7 8 9 111314

15

0

123,487,5

16

5

6,5

Ø

4,5

12

19

18

1

151617181920212223242526

Standard accessories

1 Operating Instructions for RISH Ducer M 01 in English

1 Interface definition RISH Ducer M01: English


Ordering Information (Table 5)

DESCRIPTION MARKING


Housing T24 for rail and wall mounting M01 - 1

2. Rated input frequency

1) 50 Hz (60 Hz possible without additional error; 16 2/3 Hz, additional error 1.25) 1

2) 60 Hz (50 Hz possible without additional error; 16 2/3 Hz, additional error 1.25) 2

3) 16 2/3 Hz (not re-programming by user, 50/60 Hz possible, but with additional error 1.25) 3

3. Power supply

7) Nominal range 24 … 60 V DC, AC 7

8) Nominal range 85 … 230 V DC, AC 8



2) Internal from measuring input 2

Line 2: Not available for rated frequency 16 2/3 Hz and applications A15 / A16 / A24 (see Table 4)

Caution: The power supply voltage must agree with the input voltage (Table 4)!

5. Test certificate

0) None supplied 0

E) With test certificate in English E

6. Configuration

0) Basic configuration, programmed 0

9) Programmed acc. to specification 9

Line 0: Not available if the power supply is taken from the measuring input

Line 9: All the programming data must be entered on Form W 2408e and the form mustbe included with the order.




Transducer for Activeor Reactive Power

Data Sheet

www.rishabh.co.in Page 1 of 11 Version : 1 / 04 / X / 0112 / C

Transducer for Active or Reactive Power

RISH Ducer P11

Fig. 1. RISH Ducer P11 transducer in housing E16clipped onto a top-hat DIN rail.

Fig. 2. P11 transducer in housing E16 screw hole mounting brackets pulled out.

RISH Ducer

Response time < 300 ms:

Current limit underoverload

Approx. 1.3 Ix with currentAN


:

Span adjustment Approx. ± 2%

Ripple in output

current 18 £ 1% p.p.

:

:

Features / Benefits

Measuring inputs : Sine or distorted wave - forms of

nominal input currents and nominal input voltages

Measuring output:

DC current signal (load-independent) or DC voltage

signal (load-independent)

Application

Measuring principle : TDM system (Time Division

1/2/3 wattmeter method

Narrow housing, 70 mm / Saves space and therefore

costs

Snaps onto a DIN rail or screws onto a wall or panel/

Adaptable to the circumstances at the place of

installation

Manufactured in SMD technology / Compact and

reliable

Screw terminals suitable for multistrand or solid

wires / Easy wiring without problems

The transducer (Figs. 1 and 2) converts to active

or reactive power of a single-phase AC or three-phase system with

balanced or unbalanced loads. The output signal is proportional to

the measured value of the active or reactive power and is either a

load-independent DC current or a load-independent DC voltage.

RISH Ducer

Measured variable

Power

Nominal inputcurrent

0.01 to 10 A


10 to 660 V

Two isolated outputs ( Optional)

Input and output are electrically isolated from each other. The

output is ungrounded, short and open-circuit proof and may be

operated for any length of time in the open and shorted states.

The output signal is limited to approx. 1.3 x I .AN

The unit is designed to withstand impulse voltages to IEC and

ANSI/IEEE regulations.

Electric isolation between output 1 and output 2 is

500V.

Multipexing - pulse duration modulation)


•

•

•

•

•

•

•

•

•

•

Technical Data General

Measured quantity Active power, reactive power

Admissible measuring range

end values (calibration

factor c) 1 to 6

³ 0.75 to 1.3 · U · IN

(single-phase AC power)

0.75 to 1.3 · 3 · U · I

(three-phase power)

N

³ N Nw

Calculation of “c” in a single -

phase system:

C =unipolar range end value

U · IN N

Measuring principle Time-Division-Multiplication (pulse

duration modulation) all-electronic,

input and output isolated

:

:

:

Calculation of “c” in a three-phase

system:

C =unipolar range end value

U · IN 3N w

When input connections are via a transformer, the primary values of UN

and I should be used in the calculation.N

Measuring input E

Nominal frequency f 7 N


8


Own consumption

Sensitivity

50 or 60 Hz

230, 400 or 500 V

w100/ 3 , 110/ 3 , 100, 110, 200,w

1, 2 or 5 A

< 0.1 VA per current circuit

U · 1 mA per voltage circuitN

< 0.05% of range end value

:

:

:

:

:

Overload capacity :

Measuredquantity

I UN N


Durationof one

application


applications——— 2 x I

Ncontin. ———

5 min.10 x IN

5 15 s

10 s2 x UN

10 10 s

1.5 x UN


4 x UN

1 2 s ———

* But max. 250 A

40 x IN

1 1 s ——— *

5 min.20 x I 5 1 sN

Standard ranges

of U 10 to 13A

Measuring output A

Output signals: Load-independent DC voltage U


A

0...10 / 1...5 / –10...0...10 V

Load capacity 20 mA

External resistance

for one output

Rext min. [kW] > for one outputU [V]A

20 mA

Rext [kW] > 10kW / V for two output

:

:


14 to 16

0...1/0...5/0...10/0...20/4...20 mA

–1...0...1/–2.5...0...2.5/–5...0...5/

–10...0...10/–20...0...20 mA

Burden voltage: ± 15 V for 1 output

Rext max. [kW] £Burden voltage

I [mA]AN

I = Full output valueAN

Burden voltage: ± 12V for 2 outputs

External resistance

Voltage limit underRext = ¥

Approx. 40 V

:

:

:




Typical examples

Characteristic ‘A’Input E1...ENOutput A1...AN

Characteristic ‘D’Input E1...EN ± 10%Output A1...AN

Variable sensitivity

Characteristic ‘E’Input E1...0...ENOutput A1...0...AN

Characteristic ‘F’Input E1...ENOutput A1...AN

Accuracy

Reference value

Basic accuracy Class 0.5


Output span


23 C, 5 K±

Frequency f 10%N ±


U –15 / +33% (DC)HN

HN


Input current 0...120% I · cN

Input voltage 0...120% UN

External resistance 0...R max. with current output

R min. ...¥ with voltage output

ext

ext

:

:

:

:

:

:

:

:

Exception:

Characteristic ‘E’ : The largest of

the 2 unipolar output levels

Characteristic ‘B’ : The output

according to characteristic ‘H’

Power factor cosj 0...1...0:

Distortion factor < 10%:

Influence effects (maxima):


Linearity error ± 0.2% for one output


frequency influence f 5%N ± ± 0.05%

Dependence on external resistance ( R max.)ext D ± 0.05%

Power supply influence U ± HN 10% ± 0.05%

:

:

:

:

(current, voltage, cos f)

+AAN

A1

ENE1

+E

+AAN

A1

ENE1

+AAN

EN

A1=0.2 x AN

E1

+E

+AAN

EN

A1

E1

+E

Input E1...ENOutput A1...AN

Characteristic ‘B’

Given better resolution at top of range

Input E1...ENOutput A1...AN

Characteristic ‘C’

Live-zero output signal

+AAN

EN

-E

0

+EE1

A1-A

+AAN

EN

-E A1 +E

E1

-A

Characteristic ‘G’Input E1...ENOutput A1...AN

Live-zero output signal

Characteristic ‘H’Input E1...ENOutput A1...AN

+AAN

A1=0.2 x AN

EN

-E A1 +E

E1

-A

+AAN

EN

-E +E

E1

-A

± 0.2% / 10 K for one output

± 0.3% / 10 K for two outputs

Additional errors

Temperature influence

(–25...+55°C)

± 0.5% Frequency influence45 – 65 Hz

± 0.2%



10 V, 1 MHz


:

:

:

± 4.0%


2.5 kV, 1 kV, 200 W

1 MHz, 400 Hz

± 1.0%

acc. to ANSI/IEEE

C 37.90-1978 2.5 kV, 150 W

1 MHz, 50 Hz

:

:

Stray field influence 0.5 mT ± 0.2%:

± 0.2%


U ± 20%HN:


Power Supply

24, 115, 120, 230 or 240 V, ± 15%,

42 to 70 Hz

AC voltage

19 and 20

:

Power consumption approx.

5VA : 1 output

Power consumption approx.

8VA : 2 output

24...90 VDC : (for 1 output)


DC voltage :



Power approx.consumption

5W : 1 output

Power approx.consumption

8W : 2 output

Note :For self powered transducer, the input VA burden £ 8.2 VA

Storage temperature


Climate class 3Z acc. to VDI/VDE 3540Climate rating

0– 40 to +70 Crange :

:


– 25 to + 55 COperating temperature :

£ 75%

Relative humidity of

annual mean 21 :

0




Electrostatic discharge IEC 1000-4-2 Direct: ± 8 kV air

Indirect: ± 4 kV contact

HF field influence on instrument IEC 1000-4-3 80 MHz … 1000 MHz: 10 V/m, 80% AM 1 kHz

(ITU frequencies, 3 V/m)

Transient burst via connections IEC 1000-4-4 ± 2 kV, 5/50 ns, 5 kHz, > 2 min.

capacitively coupled

Transient surge on power supply IEC 1000-4-5 ± 2 kV, 1.2/50 msec, symmetrical

± 4 kV, 1.2/50 , asymmetricalmsec

HF interference via connections IEC 1000-4-6 0.15 to 80 MHz: 10 V, 80% AM 1 kHz

(ITU frequencies, 3 V) source 150 W


Regulations



Housing protection


Test voltage :

:

:

A (instrument)C (terminals)

Insulation group acc. to DIN 57 110 b: :

: 4KV, 50Hz, 1min: 4KV, 50Hz, 1min: 4KV, 50Hz, 1min: 500V, 50Hz, 1min

Installation Data

Mechanical design Housing type E16Dimensions see section “Dimensional drawings”

Material of Housing Lexan 940 (polycarbonate),Flammability Class V-0 according to UL 94, self-extinguishing, nondripping, free of halogen


(35 15 mm or 35 x 7.5 mm) acc. to EN 50 022 ORdirectly onto a wall or panel using the pull-out screw hole brackets

x


Electrical connections Screw - type terminals with indirect wire 2 pressure,for max. 2 x 2.5 mm or 1 x 6 mm 2


:

:

:

:

:

Admissible measuring range end value

1


Calibration factor ³ 0.25 to 0.74Limitation: Class 1, linearity error ± 0.4%

2 Calibration factor 1.3 to 1.5Limitation: Class 1, linearity error ± 0.4%

³


7 between 16 2/3 Hz and 500 Hz, other than the standardfrequencies 50 or 60 Hz


Limitation:Class 1, linearity error ± 0.4%With frequency < 40 Hz:Response time < 800 ms, I £ 5 AN

Residual ripple < 2% p.p.

3 Zero displacement10 to 125% in positive or negative direction

4 Variable sensitivity ± 5% of full scale value

5 Variable sensitivity ± 10% of full scale valueLimitation: Class 1 (not possible with zero displacement orlive-zero output)

6 Two calibration factors(c min. 0.25; c max. 1.5)Limitation: The sensitivity ratio should not exceed 1 : 2.Circuit change is achieved by soldering a wire link on the PCB.

CharacteristicInput E1…ENOutput A1…ANinterchangeable sensitivity

1 £ k 2£

Example: 1. Measuring range: 0...10 MW

3 x 50 000 / 100 V

2 100 / 5 A c1 = 1.154 Output 0...20 mA 2. Measuring range: 0...5 MW c2 = 0.577 Output 0...20 mA

x

8 between 10 and 660 V, other than the standard values100/ 3, 110/ 3, 100, 110, 200, 230, 400 or 500 V.

Nominal Input Voltage UN

Limitation:with U > 500 V overload capacity 2000 V, 2 sN

ww



9 between 0.01 and 10 A, other than the standard values1, 2 or 5 A, Limitations :

Power consumption < 0.3 VA per current circuitOverload capacity of current circuits

2 I continuous

10 I for 10 s, max. 5 times at 5 min. intervals

40 I for 1 s, max. 250 A, once only

f ³ 40 Hz

- with I > 8.3 AN

E

x N

x N

x N

N

With I > 5 AN

Reference conditions I £ 10 A

Output signal A

10 Unipolar load-independent DC voltage*Ranges between 0...1 and 0...15 V, other than the standardrange 0...10 V

11 Bipolar symmetrical load-independent DC voltage*Ranges between -1...0...1 and -15...0...15 V, other than

– UA

min. – 1.0 V

+ UA

min. + 1 V

U total A

min. 2 Vmax. – 15 V m . + 15 Vax m . 30 Vax

13 Live-zero*Ranges between 0.2...1 and 3...15 V, other than the standard range 1...5 V* Limitation: U < 4 VAN

Additional error:

Burden dependency D R max. = 0.2%

Reference condition: external resistance 2 Rx min. ± 20%ext

ext

14 Unipolar load-independent DC currentRanges between 0...1 and 0...20 mA, other than the standard

ranges 0...1 / 0...5 / 0...10 and 0...20 mA

15 Bipolar symmetrical load-independent DC currentRanges between – 1.0...0...1.0 and – 20...0...20 mA, otherthan the standard ranges – 1...0...1 / – 2.5...0...2.5/– 5...0...5 / – 10...0...10 and – 20...0...20 mA

16 Bipolar asymmetrical load-independent DC current ranges

– IA

min. – 1.0 mA

+ IA

min. + 1 mA

I total A

min. 2 mAm . – 20 ax mA m . + 20 ax mA m . 40 mAax

17 Live-zeroRanges between 1...5 and 4...20 mA, other than the standard range 4...20 mA

the standard voltage ranges -10...0...10V.

Bipolar asymmetrical load-independent DC voltage ranges12

Power supply

19 with AC voltageany voltage between 24 and 500 V, for one output &for two outputs apart from the standard voltages24, 115, 120, 230 and 240 VPower consumption approx. 5VA for one output & 8VA24 and 240 for two outputs, ± 15%, 42 to 70 Hz

18 Residual ripple in output current ( for one output )

£ 0.5% p.p. instead of < 1% p.p.Limitation: Response time < 800 ms instead of < 300 ms(not possible for nominal frequency < 50 Hz )

+AAN

EN

A1

E1

+E


20 without separate power supply connectionPower supply from voltage input signal * )*

(24 V H 500 V, f 50 or 60 Hz for one output)N

Limitation:Reference condition: input voltage U ± 15%N

Overload capacity of the input1.2 · U continuousN

1.5 · U 1 s

With U ³ 170 V


1 kV, 1.2/50 ms, 0.5 Ws or overload capacity of the voltageinput max. 680 V~, 2 s

The additional power taken from the input voltage signal isapprox. 5 VA* Standard connection between:*L1 and N with single phase AC current andOpen-Y connection.Others between L1 and L2

(24 V £ H 240 V, f = 50 or 60 Hz for two output)

££

N

N

£ N

Climatic rating

21 Climate class 3Z acc. to VDI / VDE 3540, but temperaturecontinuously – 25 to + 55°C.

Relative humidity 90% annual mean (application class HVR acc. to DIN 40 040)

£




= Measuring output O/p1 & O/p2

= Power supply

U , U ,UL1 L2 L3

= Measuring Inputs

Measuring Inputs

Application Terminal allocation

I , I ,IL1 L2 L3

N}

Front

1

— +

5

9 10 11 12 13 14 15 16

2 3 4 6 7 8

O/p1

(—) (+)UL1UL2UL3 N ~ ~

— +

O/p2IL1 IL1 IL2 IL2 IL3 IL3

Active or reactivepower measurementin single-phaseAC network

VU

u v

L1

N

9 10 1 2

L1

N

9 10 1 2

L1

N

9 10 1 2

LK

k l

Active power measurementin 3-wire 3-phase network balanced load

VU

u v

VU

u v

LK

k l

LK

k l

L1

L2

L3

L1

L2

L3

L1

L2

L3

9 10 11 1 2 9 10 11 1 2 9 10 11 1 2

Active or reactive power measurement in 3-wire 3-phase networkbalanced load

Phase shiftU: L1-L3I: L1

L1

L2

L3

L1

L2

L3

L1

L2

L3

9 10 1 2 9 10 1 2 9 10 1 2

VU

u v

LK

k l

LK

k l

Reactive power measurementin 3-wire 3-phase networkbalanced load

10 11 1 2 10 11 1 2 10 11 1 2

VU

u v

LK

k l

L1

L2

L3

L1

L2

L3

L1

L2

L3

LK

k l

Note : Terminal 15 & 16 not to be usedfor self powered transducer


Measuring Inputs

Application Terminal allocation

Active or reactivepower measurementin 3-wire 3-phasenetwork balanced load

Active or reactivepower measurementin 3-wire 3-phasenetworkunbalanced load

Active powermeasurementin 4-wire 3-phasenetworkunbalanced load

Phase shiftU: L1-L2I: L1

Active or reactivepower measurementin 4-wire 3-phasenetworkunbalanced load(special circuit)

3 single-pole insulated voltage transformerin the high-voltage system

3 single-pole insulated voltage transformer in the high-voltage system

9

K L

k l

10 1 2 9 10 1 2 9 10 1 2

L1

L2

L3

L1

L2

L3

L1

L2

L3

u

U V

v

K L

k l

9 10 11 1 2 5 6

L1

L2

L3

L1

L2

L3

L1

L2

L3

9 10 11 1 2 5 6 9 10 11 1 2 5 6

K L

k l

K L

k l

u

U V

v

VU

u v

K L

k l

K L

k l

9 10 11 12 1 2 3 4 5 6 9 10 11 12 1 2 3 4 5 6

K L

k l

K L

k l

K L

k l

9 10 1112 1 2 3 4 5 6

K L

k l

K L

k l

K L

k l

L1

L2

L3

N

L1

L2

L3

N

L1

L2

L3

N

9 1112 1 2 3 4 5 6

K L

k l

K L

k l

K L

k l

VU

u v

VU

vu

L1

L2

L3

N

L1

L2

L3

N

9 1110 1 2 3 4 5 6

K L

k l

K L

k l

K L

k l

L1

L2

L3

N

K L

k l

K L

k l

K L

k l

9 1110 1 2 3 4 5 6

u u u

x x x

XXX

U U U

u u u

x x x

XXX

U U U


Active or reactivepower measurementin 4-wire 3-phasenetworkunbalanced load(special circuit) (Delta connection using 2 VT‘s L1 – N and L3 – N,

Open-Y connection)

9 12 11 1 2 3 4 5 6

L1

L2

L3

N

u

U V

v u v

U V

K L

K L

K L

k lk l

k l

Fig. 3. RISH Ducer P11 in housing E16 clipped onto a top hat rail (35 15 mm or 35 x 7.5 mm, acc. to EN 50 022).x

Fig. 4. P11 in housing E16 with the screw hole brackets pulled out for wall mounting.

RISH Ducer

12

5

13

0

126

12

5

70

13

0


9 10 11 12

1 2 3 4 5 6 7 8

13 14 15 16

14

0

125

15

4

4,5

6,5

12

19

12

51

25

70

9 10 11 12

1 2 3 4 5 6 7 8

13 14 15 16


3 . . . . . . . 1.Mechanical design

3) Housing E16

Order Code P11 —


2. Measuring mode

4) Active power P

5) Reactive power Q

B

C . 4 . . . . . .

. 5 . . . . . .

1 Ph

3 Ph 3W

3 Ph 3W

3 Ph 4W

----

Balanced Load

Unbalanced Load

Unbalanced Load

1 Element / One Wattmeter

2 Element / Two Wattmeter

3 Element / Three Wattmeter

1 Element / One Wattmeter

PD

PDU

PDN

PE

QD

QDU

QDN

QE

Types

Types of Power Transducer Nomenclatures

System Power MeasurementMethod

ModelsActive Reactive

P - Active Power , Q - Reactive Power


3. Application

A) Single-phase AC

B) 3-wire 3-phase balanced load

C) 3-wire 3-phase balanced load, phase shift U: L1-L3, I: L1

D) 3-wire 3-phase balanced load, phase shift U: L1-L2, I: L1

E) 3-wire 3-phase unbalanced load

F) 4-wire 3-phase unbalanced load

G) 4-wire 3-phase unbalanced load, open-Y

A . . . . . . .

B . . . . . . .

C . . . . . . .

D . . . . . . .

E . . . . . . .

F . . . . . . .

G . . . . . . .

1) 50 Hz

2) 60 Hz

9) Non - standard [Hz]

³ 16.67 to 500

. 1 . . . . . .

. 2 . . . . . .

. 9 . . . . . .


F

G

H

H

I

J

J

Restriction: Class 1.0, linearity error ± 0.4%

With frequency < 40 Hz : response time < 800 ms, I £ 5AN

residual ripple < 2% p.p.

Order Code P11 —


A) 100/ 3 V;

B) 110/ 3 V;

C) 100 V;

D) 110 V;

E) 200 V;

F) 230 V;

G) 400 V;

H) 500 V;

Z) Non-standard [V;V]

³ 10.00; to 660;

. . A . . . . .

. . B . . . . .

. . C . . . . .

. . D . . . . .

. . E . . . . .

. . F . . . . .

. . G . . . . .

. . H . . . . .

. . Z . . . . .


7 to 9 see Section “Special features”

w

w

GHIJ

GHIJ

With a 3 phase system the nominal input voltage to be shown as

phase to phase voltage.

For transformer connection add semicolon with primary/secondary

voltage in V,

e.g. 6600/110 (in line D) or

120;14400/120 (in line Z, non-standard).

For uneven values show 2 positions after the comma

1) 1 A;

2) 2 A;

3) 5 A;

9) Non - standard [A;A]

³ 0.01; to 10;

. . . 1 . . . .

. . . 2 . . . .

. . . 3 . . . .

. . . 9 . . . .

6. Nominal input current (measuring input) 9

For transformer connection add semicolon with primary/secondary

current in A,

e.g. 500/1 (in line 1) or

6.67;1600/6.67 (in line 9, non-standard).

For uneven values show 2 positions after the comma


7. Measuring range P 6

0) Not provided for active power measurement

9) Measuring range P

0 . . . . . . .

9 . . . . . . .

0) cP does not apply

1) Calibration factor cP ³ 0.75 to 1.3; Class 0.5

2) Calibration factor cP 0.25 to 0.74; Class 1.0

3) Calibration factor cP > 1.3 to 1.5; Class 1.0

9) Calibration factor cP1/cP2

Limit cP ³ 0.25 to 1.5; cP1:cP2 > 1 to £ 2

³

. 0 . . . . . .

. 1 . . . . . .

. 2 . . . . . .

. 3 . . . . . .

. 9 . . . . . .

8. Calibration P 1 2

Specify measuring range in W, kW or MW; attention to the calibration

factor. E.g. 0...1000 W, –40...0...40 kW, 0...100 MW.

For 2 measuring ranges (see also Section “Technical data”) select the

highest range and the second range to be shown in feature 18

D

E

D

E

E

E

E

T

T

T

U

Calculation of the calibration factor c see Section “Technical data”.

For 2 measuring ranges specify both calibration factors in line 9

9. Measuring range Q 6

0) Not provided for reactive power measurement

9) Measuring range Q

. . 0 . . . . .

. . 9 . . . . .

Y

Specify measuring range in Var, kVar, MVar; attention do calibrationfactor! E.g. 0...1000 Var, –40...0...40 kVar, 0...100 MVar.For 2 measuring ranges (see also Section “Technical data”) select thehighest range and the second range to be shown in feature 19 (Page 12)

1 2 and 6 see Section “Special features”

0) cQ does not apply

1) Calibration factor cQ 0.75 to 1.3; Class 0.5

2) Calibration factor cQ 0.25 to 0.74; Class 1.0

3) Calibration factor cQ > 1.3 to 1.5; Class 1.0

9) Calibration factor cQ1/cQ2

Limit cQ 0.25 to 1.5; cQ1:cQ2 > 1 to £ 2

³

³

³

. . . 0 . . . .

. . . 1 . . . .

. . . 2 . . . .

. . . 3 . . . .

. . . 9 . . . .

10. Calibration Q 1 2

D

E

E

E

E

T

T

T

U

Calculation of the calibration factor c see Section “Technical data”.

For 2 measuring ranges specify both calibration factors in line 9


Order Code P11 —


11. Output signal P (measuring output 1)

0) Output P does not apply

1) 0...10 V

2) 1... 5 V

3) – 10... 0...10 V .

9) Non-standard [V]

A) 0... 1 mA .

B) 0... 5 mA .

C) 0...10 mA .

D) 0...20 mA .

E) 4...20 mA .

F) – 1 ... 0... 1 mA .

G) – 2.5... 0... 2.5 mA .

H) – 5 ... 0... 5 mA .

J) – 10 ... 0...10 mA .

K) – 20 ... 0...20 mA .


0 . . . . . . .

1 . . . . . . .

2 . . . . . . .

3 . . . . . . .

9 . . . . . . .

A . . . . . . .

B . . . . . . .

C . . . . . . .

D . . . . . . .

E . . . . . . .

F . . . . . . .

G . . . . . . .

H . . . . . . .

J . . . . . . .

K . . . . . . .

Z . . . . . . .

Line 9: 0...1.00 to 0...15 10 0.2...1 to 3...15 13 –1.00...0...1.00 to –15...0...15 11 bipolar asymmetrical

||Umax|| ³ 1 to 15 V 12

D

E

E

E

E

E

E

E

E

E

E

E

E

E

E

E

Line Z: 0...> 1.00 to 0...< 20 14 1...5 to < (4...20) 17 > (–1.00...0...1.00) to < (–20...0...20) 15 bipolar asymmetrical

||I || ³ 1 to 20 mA 16max

12. Output signal Q (measuring output 1)

0) Output P does not apply

1) 0...10 V

2) 1... 5 V

3) – 10... 0...10 V .

9) Non-standard [V]

A) 0... 1 mA .

B) 0... 5 mA .

C) 0...10 mA .

D) 0...20 mA .

E) 4...20 mA .

F) – 1 ... 0... 1 mA .

G) – 2.5... 0... 2.5 mA .

H) – 5 ... 0... 5 mA .

J) – 10 ... 0...10 mA .

K) – 20 ... 0...20 mA .


0 . . . . . . .

1 . . . . . . .

2 . . . . . . .

3 . . . . . . .

9 . . . . . . .

A . . . . . . .

B . . . . . . .

C . . . . . . .

D . . . . . . .

E . . . . . . .

F . . . . . . .

G . . . . . . .

H . . . . . . .

J . . . . . . .

K . . . . . . .

Z . . . . . . .

E

D

D

D

D

D

D

D

D

D

D

D

D

D

D

D

L

N

N

L

N

N

Lines 9 and Z:Limit values for non-standard signals see feature 11


Order Code P11 —


13. Power supply0) Internal from voltage measuring input (³ 24 to 500 V AC) 20

1) 24 V, 50/60 Hz

3) 115 V, 50/60 Hz

4) 120 V, 50/60 Hz

6) 230 V, 50/60 Hz

7) 240 V, 50/60 Hz

9) Non-standard 50/60 Hz [V] > 24 to 500 19

A) 24... 90 V DC, –15/+33%

B) 90...240 V DC, –15/+33%

C) 24...60 V DC, -15 / +33% (for 2 output)

0 . . . . . . .

1 . . . . . . .

3 . . . . . . .

4 . . . . . . .

6 . . . . . . .

7 . . . . . . .

9 . . . . . . .

A . . . . . . .

B . . . . . . .

C . . . . . . .KL

M

14. Special features0) Without

1) With

. 0 . . . . . .

. 1 . . . . . .

Without special features (line 0): Order Code complete.With special feature (line 1): The features to be omitted must be markedhereafter with / (slant line) in the order code until reaching the requiredfeature

15. Zero displacement 3

A) Zero displacement, P-output

B) Zero displacement, Q-output

. . A . . . . .

. . B . . . . .

10 to 125% in positive or negative direction,e.g. –20...0...20 MW into 0...10 mA or 4...20 mA


A) £ 0.5% p.p. instead of < 1% p.p. Restriction: Time response < 800 ms instead of < 300 ms (not possible for nominal frequencies < 50 Hz) (for current signals only)

. . . A . . . .

17. Measuring range adjustable (variable sensitivity) 4 5

A) Approx. ± 5%

B) Approx. ± 10%

. . . . A . . .

. . . . B . . .

Restriction: Accuracy class 1.0.Not possible with zero displacement or live-zero output

18. Second measuring range P 6

Z) Measuring range Specify measuring range in W, kW or MW. Specify calibration factor in feature 8, line 9 (Page 9)

. . . . . Z . .

19. Second measuring range Q 6

Z) Measuring range Specify measuring range in Var, kVar or MVar. Specify calibration factor in feature 10, line 9 (Page 9)

. . . . . . Z .


A) Application class HVR instead of HVE (standard) . . . . . . . A

21.Output Signal P or Q (measuring output 2)

Refer Sr. No. 11 or 12


Y

N

N

EY

DY

Y

NY

NY

ETY

DTY

Y

M

D) 85...230 V DC, -15 / +33% (for 2 output) D . . . . . . .KM


P12O TRANSDUCER OF IMPULSES, REVOLUTIONS, FREQUENCY WITH ANALOG , RELAY AND RS-485 DIGITAL OUTPUTS

GALVANIC ISOLATION:

PD14Sup.

INPUTSInput signal parameters

• amplitude: 1 .. 253 V,• inac ve state: 0 .. 0.8 V,• transient state: 0.8 .. 1 V,• maximal signal frequency: 3 kHz

Input type RangeMinimal sub-

range with class preserva on

Error (iv - indicated value

mv - upper limit of the measuring sub-range)

Accuracy class

Impulse counter 0 .. 99999 25 0.01 % mv 0.2

Rev-counter 0 .. 99999 rev 25 obr 0.01 % mv 0.2

Work me counter 0 .. 99999 h 25 h 2 s/ 24 h 0.2

Frequency 0.1 .. 99.99 Hz 2 Hz 0.01 % mv 0.2

Frequency 100.0 .. 3000.0 Hz 0.02 % iv 0.2

Rota onal speed 0 .. 10000 rev/min 120 obr/min 0.02 % mv 0.2

Rota onal speed 10000 .. 99999 rev/min 0.01 % iv 0.2

Period 0.3 .. 999.99 ms 20 ms 0.01 % mv 0.2

Period 1.0000 .. 9.9999 s 0.02 % mv 0.2

Long period > 10 s 0.5 .. 99999 s 25 s 0.0001 % mv 0.2

Control input (start, stop, erase) - voltageless transoptor- galvanic isola on - range of added voltages: 5 .. 24 V d.c.

EXAMPLE OF APPLICATION

INPUTS:

Hz

OUTPUTS:

0/4...20 mA 0...10 V

RS485

2x

FEATURES:

21 pointscharact. Password

protection

CompatiblePD14

PD11program

RJ-11connector

o

OUTPUTSOutput type Proper es Remarks

Analog 0/4 .. 20 mAresolu on: 0.025%, maximal response me: 100 ms load resistance < 500

Analog 0 .. 10 Vresolu on: 0.025%, maximal response me: 100 ms load resistance > 500

Relay voltageless NO contacts (normally open)load capacity:- voltage 250 V a.c., 150 V d.c.,- current 5 A for: 30 V d.c. or 250 V a.c.

Supply 24 V 30 mAdes ned to supply sensors or to input ac va on: start, stop, erase

Measurement of impulses and conversion into the analog form stored in the recorder and into the digital form wirelessly transmi ed to the panel for the visualiza on of results.

+- U

• Co-opera on with switches, magne c a achments, impulse outputs of OC, npn, pnp type, a.c. voltages, NK reed relay transmi ers (op on), optoelectronic transmi ers (op on).• Easy to confi gure through the PD11 program.• Inputs: start, stop, erase.• Impulse coun ng upwards and downwards.• Digital fi lter of input signals.• Mathema c func ons: mul plica on, division.• Storage of minimal and maximal values• Analog output.• RS-485 Modbus digital interface.• 2 alarm relays.

rad

io

Sta

rt

Sto

p/E

rase

Impulses

Flow meter(out: npn, pnp, OC ...)

P12O -transducer,

Impulse counterP

Alarms

RS-485Modbus

Wireless transmission -SM7

Operator panel - MT058

4 - 20 mA

KD7 Screen recorder

Contact Details:

Rishabh Instruments Pvt LtdF-31, MIDC, SatpurNashik-422007INDIA

Phone:+91 253 2202028

[email protected]@rishabh.co.in

www.rishabh.co.in

http://www.pdfill.com

SEE ALSO:

Contact Details:

Rishabh Instruments Pvt LtdF-31, MIDC, SatpurNashik-422007INDIA

Phone:+91 253 2202028

[email protected]@rishabh.co.in

www.rishabh.co.in

KD7 recorder.

OUR OFFER

EXTERNAL FEATURESReadout fi eld (P12O-2) display: LCD 2 x 8 indica on range: -99999 .. 99999

Overall dimensions 45 100 120 mmWeight < 0.3 kgProtec on grade IP40Fixing on a 35 mm DIN rail

SAFETY AND COMPATIBILITY REQUIREMENTS

Electromagne c compa bilitynoise immunity acc. to EN 61000-6-2noise emissions acc. to EN 61000-6-4

Isola on between circuits basic

acc. to EN 61010-1Pollu on level 2Installa on category IIIMaximal phase-to-earth voltage 600 V

RATED OPERATION CONDITIONS

Supply voltage85 .. 230 .. 253 V a.c./d.c. or20 .. 24 .. 50 V a.c./d.c. (40 .. 50/60 .. 440 Hz)

input power 5 VA

Temperature ambient: -25...23...55°C storage: -25...85°CHumidity < 95% inadmissible condensa onOpera ng posi on anyConversion me min 100 ms

CONNECTION DIAGRAMS

ORDERING

PD10 converter (RS-485/USB).

P12O - X XX X X X XX XKind of transducer:without display 1with display 2Input signal1):write the code of the input signal from the table 1Output signal:voltage: 0...10V 1current: 0...20mA 2current: 4...20mA 3current: 0...5 mA 4as per order2) XSupply:85...253 V d.c./a.c. 120...50 V d.c./a.c. 2Kind of terminals:socket-plug with screw connec ons 0as per order3) XVersion:standard 00custom-made2) XXAcceptance tests:without extra quality requirements 8with an extra quality inspec on cer fi cate 7according to customer’s request2) X

1) The transducer has a universal input. One must give in the order, the code of the input signal which has to be programmed (see table 1).2) A er agreeing with the manufacturer.3) Possible version with self-locking sockets.

Order example:

The code P12O-2-04-3-1-0-00-8 means transducer of P12O type, with a display, programmed by the manufacturer on the input range: 0.3 ... 9999 ms, analog current output signal: 4 ... 20 mA, supply: 85 ... 253 V a.c./d.c., socket-plug with screw connec on, standard version, without extra quality requirements.

P12O-19A

Programmable meters with

mul color bargraphs - NA5 and NA6.

Digital displays for outdoor applica ons

- DN.

DIGITAL INTERFACEType of interface Proper es

RS-485 Modbus

Modes: ASCII (8N1, 7E1, 7O1) and RTU (8N2, 8E1, 8O1, 8N1); baud rate: 2400, 4800, 9600 bit/s maximal response me: 300 ms

RS-232programmer socket; baud rate 9600 bit/s

FEATURESTransducer memory 750 samplesMinimal recording interval 1 sec

Addi onal error from ambient tempe-rature changes

+/- (0.1% of the range/ 10 K)

Passwordpassword protec on against unwanted change of parameters

P12O

16

+

+ + + +

-

- -

15149 10 1311 12

8761 2 53 4

A1 A2

Supply

Alarm

outputs

Analogue

output24

Vd.c

.,

30

mA

puls

ein

put

sta

rt/s

top

reset

B

RS-485

A

Input signal 1): Input signal code

impulse counter: 0...99999 00frequency: 0.1...3000 Hz 01rev. counter: 0...99999 obr 02rota onal speed: 0.99999 obr/min 03period: 0.3...9999 ms 04long period >10s: 0...99999 s 05working me counter: 0...99999 h 06as per order2) XX

Table 1

P12O TRANSDUCER OF IMPULSES, REVOLUTIONS, FREQUENCY WITH ANALOG , RELAY AND RS-485 DIGITAL OUTPUTS

The transducer preserves its class when the measuring range decreases (see: minimal sub ranges at class preserva on in the catalog card). In the P12O-1 transducer, beside the basic range, one must give the required sub-range in remarks. In case, when the given sub-range is less than the sub-range given in the catalogue card, one must write the input signal: XX on the order

For more informa on about

products please visit our website:

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RISHABH

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P18 TEMPERATURE AND HUMIDITY TRANSDUCER P18L TEMPERATURE OR HUMIDITY TRANSDUCER

GALVANIC ISOLATION:

INPUTS

Input type Measuring range Error

Temperature -30 .. -20 .. 60 .. 80oC +/- 0.5%

Rela ve humidity 0 .. 100% +/- 2% for RH = 10 .. 90%+/- 3% for RH in the remaining range

EXAMPLE OF APPLICATION

• Built-in temperature and humidity sensor.• Calcula on of selected physical quan es (dew-point temperature, absolute humidity) – (only P18).• 2 analog outputs 0/4…20 mA or 0…10 V (P18 op on).• Supply from current loop (P18L).• Standard d.c. current or d.c. voltage output signal (only P18).• Storage of measured and calculated maximum and minimum values (only P18).

INPUT:

o

C

OUTPUTS:

4...20

Am

0..10V

OUTPUTSOutput type Admissible load resistance Remarks

4 .. 20 mARload 100 for P18

Rload 500 P18L

0 .. 10 V Rload k only P18

Measurement and recor-ding of temperature and humidity.

FEATURES:

Linearcharac.

Program

LPConfig

MODBUS

RS485

DIGITAL INTERFACEInterface type Transmission mode Baud rate

RS-485 Modbus RTU 8N1, 8N2, 8E1, 8O1 4,8; 9,6; 19,2; 38,4; 57,6 kbit/s

EXTERNAL FEATURESOverall dimensions 38 58 118 mmWeight 125 gProtec on grade ensured by the casing: IP65Fixing on a wall

RATED OPERATING CONDITIONS

Supply voltageP18 9 .. 24 V d.c./a.c input power 2 VA

P18L 19 .. 30 V d.c. input power 1.5 VATemperature ambient: -20...23...60°CHumidity < 95% inadmissible condensa on

Opera ng posi onany in applica on not exposed to water contactsensor chamber towards the earth in applica on exposed to water contact

Prehea ng me 15 minutes

Air fl ow rate 0.4 m/s

RS485

only P18

only P18L

only P18

Hall 1

Contact Details:

Rishabh Instruments Pvt LtdF-31, MIDC, Satpur

Nashik-422007INDIA

Phone:+91 253 2202028

[email protected]

[email protected]

www.rishabh.co.in


Contact Details:

Rishabh Instruments Pvt LtdF-31, MIDC, Satpur

Nashik-422007INDIA

Phone:+91 253 2202028

[email protected]

[email protected]

www.rishabh.co.in

SEE ALSO:

KD7 recorder.

OUR OFFER

SAFETY AND COMPATIBILITY REQUIREMENTS

Electromagne c compa bilitynoise immunity acc. to EN 61000-6-2noise emissions acc. to EN 61000-6-4

Isola on between circuits basic

acc. to EN 61010-1Pollu on level 2Installa on category IIIMaximal phase-to-earth opera ng voltage 50 V

Al tude a.s.l. < 2000 m

ORDERING

Interface converter USB/RS-485 - PD10.

* A er agreeing with the manufacturer.

P18-19BP18L-19

so ware.

Tricolour digital display for outdoor

applica on-DL21.

For more informa on about

products please visit our website:

P18 - X XX XAnalog outputs: without analog outputs 0current output 4...20 mA 1voltage output 0...10 V 2Version:standard 00non standard se ng NScustom-made* XXAcceptance tests:without extra quality requirements 8with an extra quality inspec on cer fi cate 7according to customer’s request * X

P18L - XX XVersion:standard 00non standard se ngs NScustom-made* XXAcceptance tests:without extra quality requirements 8with an extra quality inspec on cer fi cate 7according to customer’s request* X

CONNECTION DIAGRAM

Transducer without

analog outputs

Transducer with current

outputs

Transducer with voltage

outputs

Fig. 1 Connec on way of electric signals – P18.

Fig. 2 Connec on way of electric signals – P18L

ORDER EXAMPLE:The code: P18 - 1 - 00 - 8 means: temperature and humidity transducer of P18 type, with a current analog output: 4…20 mA, standard version,without extra quality requirements.If required, one must addi onally order a sensor protec on shield acc. to the table 1, eg. shield 08744-490-014 means a fi lter made of sintered bronze.

ORDER EXAMPLE:

The code: P18L - 00 - 8 means: temperature and humidity transducer of P18L type, standard version, without extra quality requirements. If required, one must addi onally order a sensor protec on shield acc. to the table 1, eg. shield 08744-490-016 means a membrane fi lter.

* - A er agreeing with the manufacturer.

Order code Design Name Construc on Features Typical applica on

0874-490-016

Membrane fi lter

Casing made of PCV,membrane of tefl on.laminated by a fi lm.Pore size: 1 μm

Mean fi ltra on eff ect.Maximal temp.: up to 80 oC Response me: t10/90:15 s

Building automa on.In rooms with low pollu on.

0874-490-015Filter made of

tefl onSintered tefl on.Pore size: 50 μm

High chemical resistanceMaximal temp.: up to 180 oC Response me: t10/90:14 s

Drying process in chemical applica- ons.

0874-490-014Filter made of sintered

bronze

Sintered bronze.Pore size: 60 μm

High mechanical resistance.To co-operate in high pollu on

environments.Applied at small air humidityResponse me: t10/90:10 s

Agricultural applica ons.

Table 1

P18 TEMPERATURE AND HUMIDITY TRANSDUCER P18L TEMPERATURE OR HUMIDITY TRANSDUCER

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RISHABH - -PROCESS



Version: L 30/05/13

Application :

Salient Features :

Fully onsite programmable input range.

Available in Single or Dual output type.

Onsite selectable output type.(DC current / DC voltage)

Accuracy class 0.2 ( IEC / EN 60688).

Seven Segment LCD Display.

Rs485(Modbus) Communication.

Wide Auxiliary power supply. Accept any input between 60V-300V AC/DC or 24V-60V AC/DC.

Output Response Time < 300 ms.

Fast and easy installation on DIN RAIL or onto a wall or in a panel using optional screw hole bracket.

Connection Terminal : Conventional Screw type.

Display Module(Optional):Optional 7 segment LCD display with backlit & keypad. For displaying measured parameters & onsite configuration of Input/output

Rs485 Communication(Optional):Optional RS485 communication is available.For reading measured parameters & onsite configuration of input/output.

Product Features:

Measuring Input: Sine wave or distorted wave form of nominal input voltage with fundamental wave.

Analog Output (Single or dual): Isolated analog output which can be set onsite to either voltage or current output.

Accuracy:Output signal accuracy Class 0.2 as per International Standard IEC / EN 60688.

Programmable Input/Output:The Transducer can be programmed onsite using front key & display or through programming port (COM) or through RS 485.

LED Indication:LED indication for power on and output type. (Current output : Red LED, Voltage output : Green LED).

Symbols and their meaning:

X Input Frequency

X0 Start value of input

X1 Elbow value of input

X2 End value of input

Y Output DC Voltage / DC Current

Y0 Start value of output DC

Voltage / DC Current

Y1 Elbow value of output DC


Y2 End value of output DC


RN Rated value of output burden

UN Nominal input voltage

The RISH CON - Hz transducer is used for frequency measurement. The output signal is proportional to measured frequency and is either load independent DC Current or load independent DC Voltage.

FREQUENCY TRANSDUCER

RISH CON - Hz

Subject to change without Notice

Page 1 of 8

Fig. 1 RISH CON - Hz


Technical Specifications:

RISH Ducer FT25 Transducer for Frequency

Measuring Input X

Frequency Transducer (RISH CON - Hz ):

Measuring Ranges 45Hz to 55Hz, 48Hz to 52Hz, 55Hz to 65Hz, 45Hz to 65Hz (min span 4Hz) Nominal input Voltage(UN ) 57V ≤ UN ≤ 500 V

Nominal input Voltage burden < 0.6 VA max

Overload Capacity: 1. N continuously,2 *U 2 *U 1 second, repeated 10 times at 10 intervals N for minute ( maximum 300V with power supply powered from measuring input).

Measuring Output Y( Single or Optional Dual):

Output type Load independent DC Voltage , DC Current onsite selectable through DIP switches.

Load independent DC output 0…20mA / 4…20mA OR 0…10V.

Output burden with DC current output 0 ≤ R ≤ 15V/Y2 Signal

Output burden with DC voltage output Y2/(2 mA) ≤ R ≤ ∞ Signal

Current limit under overload R=0 ≤ 1.25 * Y2 with current output ≤ 100 mA with Voltage output

Voltage limit under R=∞ < 1.25 * Y2 with voltage output ≤ 30 V with current output

Residual Ripple in Output signal ≤ 1% pk-pk Response Time 300 ms

Auxiliary Power Supply:

AC/DC Auxiliary Supply 60V… 300 VAC-DC ± 5% or 24V... 60VAC-DC ± 10%AC Auxiliary supply frequency range 40 to 65 Hz Auxiliary supply consumption


RISH CON - Hz


Page 2 of 8Version: L 30/05/13

< 8VA for Single output< 10VA for Dual output60V...300 VAC-DC

24V...60 VAC-DC < 5 VA for Single output< 6 VA for Dual output



RISH CON - Hz


Accuracy :( Acc. to IEC / EN 60688)

Reference Value Output end Value Y2 (Voltage or Current)

Basic Accuracy 0.2*C

Factor C (The highest value applies )if calculated C is less than 1,then C=1 applies

Reference conditions for Accuracy :Ambient temperature 23°C +/- 1°CPre-conditioning 30 min acc. to IEC / EN 60688Input Variable Rated Voltage / Rated Current Input waveform Sinusoidal, Form Factor 1.1107Input signal frequency 50 or 60HzAuxiliary supply voltage At nominal rangeOutput Load Rn = 7.5 V / Y2 ± 1% With DC current output signal Rn = Y2 / 1 mA ± 1% With DC voltage output signalMiscellaneous Acc. to IEC / EN 60688Additional error:Temperature influence ±0.2% /10°CInfluence of Variations: As per IEC / EN 60688 standard.Output Stability < 30 min

Output Characteristics:Example of setting with Linear Characteristics : Example of setting with bent Characteristics :

X0 = Start value of input Y0 = Start value of output

X1 = Elbow value of input Y1 = Elbow value of output

X2 = End value of input Y2 = End value of output

Note: End value(Y2) of output cannot be changed onsite.

C=Y1 - Y0 X2X1 - X0 Y2

or C=1

C=

Y1Y2X1X2

1

1or C=1

Y0Y2X0X2

1

1or C=1C=

Linear characteristics:

Bent characteristics:

Y

XY0

X0

Y2

X2

Y

XY0

X0

Y2

X2

Y

XY0

X0

Y2

X2

YY Y

XY0

X0

Y2

X2

Y1

X1 X1

Y1


For X0 < X < X1:

For X1 < X < X2:


RISH Master 3425 Digital Multifunction Instrument FREQUENCY TRANSDUCER

RISH CON - Hz


Safety:

Protection Class II (Protection Isolated, EN 61010)Protection IP 40, housing according to EN 60 529 IP 20 ,terminal according to EN 60 529

Pollution degree 2

Installation Category III

Insulation Voltage 50Hz,1min. ( EN 61010-1) 5500V, Input versus outer surface 3700V, Input versus all other circuits 3700V, Auxiliary supply versus outer surface and output 490V, Output versus output versus each other versus outer surface.

Installation Data:

Mechanical Housing Lexan 940 (polycarbonate) Flammability Class V-0 acc. to UL 94, self extinguishing, non dripping, free of halogenMounting position Rail mounting / wall mounting

Weight Approx. 0.4kg

Connection Terminal

Connection Element Conventional Screw type terminal with indirect wire pressure Permissible cross section of the connection lead ≤ 4.0 mm single wire or 2 x 2.5 mm fine wire

.Environmental:

Nominal range of use 0 °C...23 °C...45 °C (Usage Group II)

Storage temperature -40 °C to 70 °C

Relative humidity of annual mean ≤ 75%

Altitude 2000m max

Ambient tests:

EN 60 068-2-6 Vibration

Acceleration ± 2 g

Frequency range 10....150...10Hz, rate of frequency sweep: 1 octave/minute

Number of cycles 10, in each of the three axes

EN 60 068-2-7 Shock

Acceleration 3*50g 3 shocks in each direction

EN 60 068-2-1/-2/-3 Cold, Dry, Damp heat

IEC 61000-4-2/-3/-4/-5/-6EN 55 011 Electromagnetic compatibility.

2 2




RISH CON - Hz


Page 5 of 8

Green LED continuous ONAux.supply healthy condition

O/P2 LED

O/P1 LED

ON LED

Output1 voltage selection

Output1 Current selection



Green LED continuous ON

Red LED continuous ON



Version: L 30/05/13

Measuring input

Auxilliary Power supply

Measuring output - 1


5 6

7 8

1 2

3 4

~~

~ , + ~ , -

+ -

Connection Terminal details

+ -

Electrical Connections:

5 6 7 8

1 2 3 4

Input Frequency

~ ~

Aux

~ ~+ -

Output-1+ -

Output-2

+ -

(Optional)Fig 2.

Fig 3.

Dimensions



.The Configuration software is supplied on a CD.The programming cable PRKAB601 adjusts the signal level and provides the electrical insulation between the PC and RISH CON Transducers.

Configuring Rish Con Transducer :To configure RISH CON Transducer Input / output one of the three programming methods can be adapted along with mechanical switch setting (DIP switch setting on PCB for output).

DIP Switch Setting for OUTPUT :Type of output (current or voltage signal) has to be set byDIP switch (see Fig.5).

For programming of DIP switch the user needs to openthe transducer housing & set the DIP switch located on PCB to the desired output type Voltage or Current.Output range changing is not possible with DIP switch setting.

Refer below Fig. 5 for DIP switch setting.

Electricannections:Programming (Figs. 4 and 5)

Programming of transducer can be done in three ways :

1) Programming Via Front LCD & two keys.

2) Programming Via optional RS485(MODBUS) communication port ( Device address,Password,communication parameter,Output Type & simulation mode can be programmed).

3) Programming Via Programming port available at front of RISH CON Transducers using (optional) PRKAB601 Adapter.

Programming Via Programming port (COM)

A PC with RS 232 C interface along with the programming cablePRKAB601 and the configuration software are required to program the transducer.

The connections between“PC PRKAB 601 Rish CON Transdu. cer.The power supply must be applied to Transducer b e fore it can be

programmed.

1234

ON

1234

ON load-independentcurrent

load-independentvoltage

Fig. 5

The four pole DIP switch is located on the PCB inthe RISH CON Transducer

DIP switches Type ofoutput signal

Type of Output SignalDIP Switch Setting

Page 6 of 8


RISH CON - Hz

5 6 7 8

PRKAB 601

Programmingconnector

Power supply

Transducer Programing cable

Software CD

RISH Con Transducer

Version: L 30/05/13

Fig. 4





RISH CON - Hz

Electricannections:Ordering Information:

Note: End value of output can not be changed onsite.

Sr.No. Ordering CodeTransducer parameter

1

Note: Input frequency can be programmed onsite

from 45Hz to 65 Hz but minimum span is 4Hz

Current = 0.....20 mA

3 Output 1 (Standard Ranges)

O1A1


Voltage = 0.....10 V O2V1

Standard Version :

RISH CON - Hz

Input Signal

Frequency

45.....65Hz F1

Dual Output :

Single Output :

RISH CON-Hz - F1 - H - O1A1 - O2V1 - D - Z - Z

RISH CON-Hz - F1 - L - O1A1 - D - Z - Z

With Display D5

Without RS- 485

Without PRKAB 601 Z

6

7

Z

2 Auxiliary Supply

High Aux (60V.....300VAC-DC)

Low Aux (24V.....60VAC-DC)

H

L


RISH CON - Hz




Electricannections:Ordering Information: Optional Versions :

5 LCD display module

Without Display

D

RS-485 module

Without PRKAB 601

R

6

PRKAB 601module

PR

7

Without RS-485

Optional Version Example:RISH CON-Hz - F2 - H - O1A1 - O1V1 - O2V1- O2A1 - D - R - PR

RISH CON-Hz is Frequency transducer, 45.....55Hz nominal input signal, High Aux, Output1 = 0…20mA or 0…10V , Output2= 0…10V or 0…20mA, with LCD display module , with RS-485 & with .PRKAB 601 cable




Current = 0.....2.5 mA

Voltage = 0.....5 V

Voltage = 0.....2.5 V

Voltage = 0.....1 V


O200

O2A3

O2A4

O2A5

O2A6

O2V2

O2V4

4 Output 2

O2V3

Optional factory set ranges





Voltage = 0.....5 V

Voltage = 0.....2.5 V

Voltage = 0.....1 V


O1V1

O1A3

O1A4

O1A5

O1A6

O1V2

O1V4

3Output 1

O1V3


Without output 2

O2A1

With Display

Z

With RS-485

With PRKAB 601

Z

Z



1

Note: Input frequency can be programmed onsite

from 45Hz to 65 Hz but minimum span is 4Hz

F3

F4

RISH CON - Hz

Input Signal

Frequency

45.....55Hz F255.....65Hz

48.....52Hz


Voltage = 0.....10 V

O2A2

O2V1



O1A1

O1A2

Auxiliary Supply



2H

L


Application :

Product Features:

Measuring Input: AC Voltage/Current input signal,sine wave or distorted wave form.

Analog Output : Analog output which can be set in between -20mA....20mA onsite.Admissible overflow on analog output: 20% of lower and upper value.

Programmable PT,CT Ratio:The Transducer can be programmed onsite using through RS 485 or USB port..

LED Indication:LED indication for power on,RS485 transmission, reception and alarm switching . RS485 Communication: RS485 communication is available. For readingmeasured parameter & onsite configuration of input/output. USB Communication:RS485 communication is available. For readingmeasured parameter & onsite configuration of input/output.

The RISH CON - M transducer is used to measure and convert parameter of Three-phase 3W/4W AC power network with balanced or unbalanced system.

It ensures that the measurement and conversion of measured values into standard analog current signals.Relay outputs signal the overflow of the selected quantitis,and the pulse output can be used for the consumption monitoring of the 3-phase active energy.

RISH CON - MPROGRAMMABLE MULTI-TRANSDUCER (Preliminary Datasheet)


Fig. 1 RISH CON - M

Salient Features :

True RMS measurement.Fully onsite programmable input PT & CT ratio.Detection and signaling of incorrect phase sequence.THD Measurement.Programmable parameters through the RS-485 interface or USB when using the free eCon configuration software Onsite selectable analog output range (0...20mA/4...20mA/-20...+20mA). Fast and easy installation on DIN RAIL or onto a wall or in a panel using optional screw hole bracket.Connection Terminal : Conventional Screw type.

Energy Measurement: Tetraquadrantic energy measurement (Ep+, Ep-, EqL, Eqc).

Mean Active Power : Measurement of 15, 30 or 60 minutes’ mean active power (synchronization by an internal clock or a walking window) with the archiving function of 1000 last samples.

Galvanic Isolation: Transducer output signal are galvanically isolated from the input signal.

Pulse constant of OC type output:5000-20000imp./KWh, independently on setting of ratios Ku,Ki

Alarm Indications:The alarm indication can be set for measured input parameter.

Version: A 25/07/13

Page of 8 1



RISH Ducer VT25 / CT25 TransducerRISH Ducer VT25 / CT25 Transducer RIS CON - M


(Preliminary Datasheet)

Measuring Ranges and Admissible Basic Errors

Table 1

Measured

quantityMeasuring range L1 L2 L3

Basic

error

Current 1/5A L1...L3 0.02...6

A~ ±0.2%

Voltage L-N 2.9.. 69.24 V~

±0.2%

Voltage L-L ±0.5%

Frequency 47.0...63.0 Hz ±0.2%

Active power -1.65 kW...1.4 W...1.65 kW ±0.5%

Reactive power -1.65 kv a r...1.4 var...1.65 kvar ±0.5%

Apparent power 1.4 VA...1.65 kVA ±0.5%

PF factor -1...0...1 ±0.5%

Tangens -1.2...0...1.2 ±1%

Cosinus -1...1 ±1%

Angle between U

and I-180 o... 180 o ±0.5%

Input active en e rgy 0...99 999 999.9 kWh ±0.5%

Developed active

energy0...99 999 999.9 kvarh ±0.5%

Reactive inductive

energy0...99 999 999.9 kWh ±0.5%

Reactive capaciti-

ve energy0...99 999 999.9 kvarh ±0.5%

THD in the range

10...120% U,I;

48...52 Hz; 58..62 Hz

0...100% ±5%

Power Consumption:

- in supply circuit 6 VA

- in voltage circuit 0.05 VA

- in current circuit 0.05 VA

Caution!

For

correct

current

measurement,

the

presence

of

voltage with the value higher than 0.05

.

PROGRAMMABLE MULTI-TRANSDUCER

Version: A 25/07/13

Page of 8

Un is required at least on one phase

57.7V~

230.0V~ 11.5... 276 V~100.0V ~

400.0V ~

.

1205.0... V~48020.. . V~

2


RISH Ducer VT25 / CT25 Transducer



Analog Outputs: 0, 2 or 4 programmable outputs:

- 20...0...+20 mA, Robc : 0..250

Relay Outputs: 0, 2 or 4 relays, voltageless NO contacts

load capacity 250 V~/ 0.5 A~

Serial Interface: RS-485: address 1...247;

mode: 8N2, 8E1, 8O1, 8N1;

baud rate: 4.8, 9.6, 19.2, 38.4 kbit/s,

USB: 1.1 / 2.0, address 1;

mode 8N2; baud rate 9.6 kbit/s,

Transmission Protocol:

Modbus RTU

Response time: 500 ms

Energy Pulse Output:

output of OC type, passive

acc. to EN 62053-31

Pulse Constant of OC Type Output: 5000 -20000 imp./kWh, independently

on settings ratios Ku, Ki

Ratio of the Voltage Transformer Ku: 0.1.. . 4000.0

Ratio of the Current Transformer Ki: 1...10000

Protection Degree:

- for the housing IP 40

- from terminals

IP 20

Weight: 0.45 kg

Dimensions: 122.5 x 66.0 x 106.5mm

Mounting position: Rail mounting/wall mounting

Reference and Rated Operating Conditions:

Supply voltage 85...253 V a.c. 40...400 Hz;

90...320 V d.c.

or 20...40 V a.c. 40...400 Hz;

20...60 V d.c.


RISH CON - M

Version: A 25/07/13

Page of 8 3




Input signal 0...0,.005...1.2 In ; 0...0.05...1.2 Un

for current, voltage

0...0.1...1.2 In ; 0...0.1...1.2 U n

for power factors Pfi ,t i

frequency 47...63 Hz

sinusoidal (THD 8%)

Power factor -1...0...1

Analog outputs -24...-20...0...+20...24 mA

Ambient temperature -10...23...+55°C

Storage temperature

-30...+70 °C

Relative humidity 25...95% ( inadmissible condensation)

Admissible peak factor:

- current 2

- voltage 2

External magnetic field 0..40...400 A/m

Short duration overload 5 sec.

- voltage inputs 2Un (max.1000 V)

- current inputs 10 In

Work position any

Preheating time 5 min.

Additional errors:

In percentage of the basic error:

From frequency of input signals <

50%

From ambient temperature

changes

< 50%/10oC

For THD > 8% < 100%

Standards Fulfilled by the Meter

Electromagnetic Compatibility:

Noise immunity acc. to EN 61000-6-2

Noise emission acc. to EN 61000-6-4

Safety Requirements:

According to EN 61010-1 standard

Isolation between circuits basic

Installation category III,


RISH CON - M

Version: A 25/07/13

Page of 8 4

RS485 OUTPUTS

B A G - Imp + + - + - + - + - 15 16 17 18 19 20 21 22 23 24 25 26 27 28

1 2 3 4 5 6 7 8 9 10 11 12 13 14 I1 U1 I1’ I2 U2 I2’ I3 U3 I3’ N AUX

INPUTS




Pollution level 2,

Maximal phase-to-hearth voltage

- for supply and measurement circuit 300 V

- for other circuits

50 V

Altitude above sea level

<

2000 m,

LED State Indication

ON Green continuous Aux Supply healthy condition and calibration ok Rx Pulsing Data reception through RS485

Tx Pulsing Data transmission through Rs485

AL1....AL4 Continuous ON Alarm ON

LED Indication

Terminal Details

Fig 2.Terminal Details

Table2


RISH CON - M

Version: A 25/07/13

Page of 8 5




External connections :

Direct measurement in a four-wire network.

RISH CON- M

Measurement with the use of current transformers in a four-wire network.

RISH CON- M

Direct measurement in a three-wire network.

RISH CON- M

RISH CON- M

Semidirect measurement in a three-wire network.


RISH CON - M

Version: A 25/07/13

Page of 8

-

- - -

- - - - -

6



Terminal DetailsElectrical Networks :


Indirect

measurement

with

the

use

of

3

current

transformers

and

2

or

3

voltage

transformers

in

a

four-wire

network.

RISH CON- M

Indirect

measurement

with

the

use

of

2 current

transformers

and

2

or

3

voltage

transformers

in

a

three-wire

network.

RISH CON- M

Fig 3. Electrical connections


RISH CON - M

Version: A 25/07/13

Page of 8 7



Electricannections:Programming

Programming of transducer

The eCon software is destined for the configuration of transducer. one must connect the transducer to a pc computer through the rs485 converter ,if the communication will be performed using Rs485 interface or directly through the USB .

USB/RS485

Software CD

RISH CON- M Transducer


Version: A 25/07/13

Application : Application : Application : Application :

Dimensions

122.5mm

66

106.5mm

95.5mm

Fig 4. Configuration of the transducer

Fig 5. ( All dimensions are in mm.)


RISH CON-M X X X X

Current input In: 1 A (X/1) 15 A (X/5) 2Voltage

input

(phase/phase-to-phase) Un:3 phase 57.7/100 V 13 phase 230/400 V 2Supply voltage:85..253 V a.c., 90..320 V d.c. 120..40 V a.c., 20..60 V d.c. 2Output type:without analog outputs, 4 relays 12 analog outputs, 2 relays 24 analog outputs, without relays 3


RISH CON - M

Page of 8 8


Application :

Salient Features :

True RMS measurement.

Fully onsite programmable input voltage range & input current range

On Site Configurable as Active / Reactive / Apparent Transducer / Phase Angle / Power Factor .

Onsite selectable output type(DC current / DC voltage).

Single or Dual output.

Accuracy Class 0.2 ( IEC / EN 60688) for Power .Accuracy Class 0.5 ( IEC / EN 60688) for Phase Angle / Power Factor.



Wide Auxiliary power supply. Accepts any input between 60V-300V AC/DC or 24V-60V AC/DC.

Output Response Time < 750 ms standard.

Fast and easy installation on DIN RAIL or onto a wall

Display Module(Optional):Optional 7 segment LCD display with backlit & keypad. For displaying measured parameter & onsite configuration of Input/output.

RS485 Communication(Optional):Optional RS485 communication is available. For readingmeasured parameter & onsite configuration of input/output.

Product Features:

Measuring Input: AC Voltage/Current input signal,sine wave or distorted wave form.

Analog Output (Single or dual): Isolated analog output which can be set to voltage or currentoutput onsite.

Accuracy:Output signal accuracy class 0.2 as per International IEC / EN 60688 Standard.


LED Indication:LED indication for power on and output type. (Current output : Red LED, Voltage output : Green LED).


X Input

Apparent /Active/Reactive

Power Factor / Phase Angle












FN Nominal Frequency

The RISH CON - P transducer is used to measure and convert active, reactive, apparent power, Phase angle & Power Factor of a Single-phase or Three-phase AC system with balanced or unbalanced load into a proportional load independent DC current or voltage output signal.

RISH CON - PPOWER / PHASE ANGLE / POWER FACTOR TRANSDUCER



Fig. 1 RISH CON - P



RISH Ducer VT25 / CT25 TransducerRISH Ducer VT25 / CT25 Transducer RISH Ducer VT25 / CT25 Transducer

Measured Parameter Active Power / Reactive Power / Apparent Power / Power Factor /Phase Angle.

Network Type Supported by Power transducer: Single Phase / 3 phase 3 wire Unbalanced / 3 phase 4 wire Unbalanced 3 phase 3 wire balanced / 3 phase 4 wire balanced

Network Type Supported by Power Factor & Phase Angle : Single Phase / (U12 I1) 3 Phase Balanced load (U13 I1) 3 Phase Balanced load / (U23 I1) 3 Phase Balanced load 3 phase 3 wire balanced / 3 Phase 4 wire Balanced load

Nominal Voltage Input(UN):

Nominal input Voltage (AC RMS) 100 V ≤ UN ≤ 500 VL-L(PT Secondary range)

PT Primary range 100V to 692 KVL-L

Nominal Frequency FN 25 Hz to 60 Hz Nominal input Voltage burden < 0.6 VA per phase at UN

Overload Capacity: 1. UN continuously,2 *

2 * 1 second, repeated 10 times at 10 intervals UN for minute

(Un maximum 300V with power supply powered from measuring input). Nominal Current Input(IN):

Nominal input Current (AC RMS) 1 A ≤ IN ≤ 5 A(CT Secondary range)

CT Primary range 1 A to 9999 A

Nominal Frequency FN 25 Hz to 60 Hz

Nominal input Current burden < 0.2 VA per phase at IN Overload Capacity: IN continuously, 1.2 *

0 * 3 second, repeated 5 times at 5 intervals.1 IN for minute

0 * 1 second, repeated 1 times at 1 hour interval ( ax 250 A).5 IN for M

Allowed measuring range end values X2 (calibration factor Xc):

/reactive/apparent 0.30 ≤ (X2/Rated Power) < 1.3 • UN /√3 • IN With single phase AC active power With phase AC active power 3- /reactive/apparent 0.30 ≤ (X2/Rated Power) < 1.3 • √3 • UN • IN

(For single phase Rated Power=UN /√3 • IN)

(For Three phase Rated Power=√3 • UN • IN)

Phase Angle & Power Factor measuring Range: Minimum span 20° to Maximum Span 360° Measuring Output Y( Single or Optional Dual):

Output type Load independent DC Voltage , DC Current On site selectable through DIP switches.Load independent DC output Unipolar 0…20mA / 4…20mA OR 0…10V. Bipolar -20mA....0....+20mA OR -10V....0....+10V



RISH CON - P


Page 2 of 9

POWER \ PHASE ANGLE \ POWER FACTOR TRANSDUCER

Version: L 29/05/13


RISH Ducer VT25 / CT25 Transducer

Current limit under overload R=0 ≤ 1.25 * Y2 with current output ≤ 100 mA with voltage output


Residual Ripple in Output signal ≤ 1% pk-pk Response Time < 750 ms

RISH CON - P


Auxiliary Power Supply:

60V… 300 VAC-DC ± 5% or 24V...60V VAC-DC ± 10%

40 to 65 Hz


Reference Value Output end Value Y2 (Voltage or Current)

Basic Accuracy for power transducer 0.2*C

Basic Accuracy for Phase Angle & Power Factor transducer 0.5*C

Factor C (The highest value applies if calculated C is less than 1,then C=1 applies)

For X0 < X < X1

For X1 < X < X2

Reference conditions for Accuracy :For Power Transducer:

Ambient temperature 23°C +/- 1°CPre-conditioning 30 min acc. to IEC / EN 60688

Input Variable Voltage Rated / Current Rated

Input waveform Sinusoidal, Form Factor 1.1107

Input signal frequency 50 or 60Hz

Active / Reactive factor Cos Φ=1 resp. Sin Φ = 1

For Phase Angle & Power Factor Transducer:

Reference Value For Phase angle = 90° resp. For power factor = 0.5

Auxiliary supply voltage At nominal range

Output Load Rn = 7.5 V / Y2 ± 1% With DC current output signal Rn = Y2 / 1 mA ± 1% With DC voltage output signalMiscellaneous Acc. to IEC / EN 60688

Page 3 of 9

C=Y1 - Y0 X2X1 - X0 Y2

or C=1

C=

Y1Y2X1X2

1

1or C=1

Y0Y2X0X2

1

1or C=1C=

Linear characteristics: Bent characteristics:


Version: L 29/05/13

AC/DC Auxiliary Supply AC Auxiliary supply frequency range Auxiliary supply consumption

Version: L 29/05/13




RISH CON - P


Output Characteristics:

Example of setting with Linear Characteristics : Example of setting with bent Characteristics :

Y

X

X0/Y0

X1/Y1

Limit of the output range

X2/Y2

Y

X

X0/Y0

X2/Y2

Limit of the output range

± 0.2%/10°C

< 30 minSafety:

Protection Class II (Protection Isolated, EN 61010)Protection IP 40, housing according to EN 60 529 IP 20 ,terminal according to EN 60 529Pollution degree 2Installation Category IIIInsulation Voltage 50Hz,1min. ( EN 61010-1) 5500V, Input versus outer surface 3700V, Input versus all other circuits 3700V, Auxiliary supply versus outer surface and output 490V, Output versus output versus each other versus outer surface.

Installation Data:

Mechanical Housing Lexan 940 (polycarbonate) Flammability Class V-0 acc. To UL 94, self extinguishing, non dripping, free of halogenMounting position Rail mounting / wall mountingWeight Approx. 0.4kg

Connection Terminal

Connection Element Conventional Screw type terminal with indirect wire pressure

Permissible cross section of the connection lead ≤ 4.0 mm² single wire or 2 x 2.5 mm² fine wire

.

Page 4 of 9


Version: L 29/05/13

X0 = Start value of input

Y0 = Start value of output

X1 = Elbow value of input

Y1 = Elbow value of output

X2 = End value of input

Y2 = End value of output

Note: End value(Y2) of output

cannot be changed onsite.

Additional Error:Temperature influence

Influence of Variations: As per IEC / EN 60688 standard.Output stability


RISH CON - P


Environmental:

Operating temperature 0°C...23°C...45°C(usage Group II)



Altitude 2000m max

Ambient tests:


Acceleration ± 2 g

Frequency range 10....150...10Hz, Rate of frequency sweep 1 octave/minute


EN 60 068-2-7 Shock

Acceleration 3 x 50g 3 shocks in each direction


IEC 1000-4-2/-3/-4/-5/-6EN 55 011 Electromagnetic compatibility..

Measuring Voltage Input



13 14

15 16

UL1UL2UL3N

+ -



O/P2 LED

O/P1 LED

ON LED


Output1 current selection


Output2 current selection






LED Indication:

Measuring Current Input


I1 I1’I2 I2’I3 I3’

~ , + ~ , -

+ -


17 18

Page 5 of 9


Version: L 29/05/13

25811

134 679


RISH CON - P


Terminal DetailsElectrical Networks :

3 Phase 4 Wire Unbalanced

Load

3 Phase 3 Wire

Unbalanced Load

D

2 5 8 11 1 3 4 6 7 9 13 14

L N

AUXSUPPLY

+ -

L

O

A

D

15 16 17 18

O/P-1 O/P-2

5 8 1 3

L N

AUXSUPPLY

7 9 13 14

+ -

L

O

A

15 16 17 18

O/P-1 O/P-2

L N

AUXSUPPLY

13 141 3112

+ -

L

O

A

D

15 16 17 18

O/P-1 O/P-2

2 5 8 11 13 14 15 16

1 3 4 6 7 9 17 18

~+

~- + -

I1 I1’ I2 I2’ I3 I3’ + -

{ { {

{ {

Output-1

Output-2(Optional)Input I

Input V

Aux

Page 6 of 9

U12 I1

3 Phase Balanced Load

L N

AUXSUPPLY

13 141 352

+ -

L

O

A

D

15 16 17 18

O/P-1 O/P-2

UL2

UL3

N

UL1

UL2

UL3

UL1

UL2

UL3

N

UL1

UL2

UL3

UL1

U13 I1


Application : Application : Application : Application :

Dimensions

78.5

65

.5

L N

AUXSUPPLY

13 141 382

+ -

L

O

A

D

15 16 17 18

O/P-1 O/P-2

UL2

UL3

UL1

U23 I1


L N

AUXSUPPLY

13 141 385

+ -

L

O

A

D

15 16 17 18

O/P-1 O/P-2

UL2

UL3

UL1


Version: L 29/05/13

UL1 UL2 UL3 N

106.5

100.9

2

D

5 8 1 3

L N

AUXSUPPLY

13 14

+ -

L

O

A

15 16 17 18

O/P-1 O/P-2

UL2

UL3

UL1

2

3 Phase 3 Wire

Balanced Load

3 Phase3 Wire

Load

3 Phase4 Wire

Balanced Load

3 Phase

Load

1 Phase2 Wire

L N

AUXSUPPLY

13 141 3112

+ -L

O

A

D

15 16 17 18

O/P-1 O/P-2

N

UL1

Fig 2.

Fig 3. ( All dimensions are in mm.)


RISH CON - P





2) Programming Via optional RS485(MODBUS) communication port. ( Device address,PT Ratio,CT Ratio,Transducer type,Password, communication parameter,Output Type & simulation mode can be programmed).

3) Programming Via Programming port available at front of RISH CON Transducers using optional PRKAB601 Adapter.


A PC with RS 232 C interface along with the programming cablePRKAB601 and the configuration software are required to program the transducer.

The connections betweenPC PRKAB 601 Rish CON Transdu. cer.The power supply must be applied to transducer b e fore it can

1234

ON

1234



Fig. 5




Configuring RISH CON Transducer :To configure RISH CON Transducer Input / Output one of the three programming methods can be adapted along with mechanical switch setting (DIP switch setting on PCB).


For programming of DIP switch the user needs to openthe transducer housing & set the DIP switch located on PCB to the desired output type Voltage or Current.Output range changing is not possible with DIP switch setting.


1615141311852

PRKAB 601


Power supply


Software CD

RISH CON Transducer


Page 7 of 9


Version: L 29/05/13

Fig. 4


RISH CON - P




Ordering Information : Standard Version :

2 Frequency of Input (50 Hz / 60 Hz) F

Current = -20.....0.....20 mA


O1A1


Voltage = -10.....0.....10 V O2V1

End value of output can not be changed onsite.

* Transducer type and network supported are onsite programmable.


1Input Signal

4WUB3 phase 4 wire unbalanced load

Active Power

*Network supported :

Note:

Dual Output :

Z

6

7

8

With Display

Without RS-485

Without PRKAB 601

D

Z

P - 4WUB - F - H - O1A1 - O2V1 - D - Z - Z

Single Output : P - 4WUB - F - L - O1A1 - D - Z - Z

P

Electricannections:Ordering Information : Optional Versions


1Input Signal

(U23I1) 3 phase balanced load

Phase angle

*Network supported :



3 phase 4 wire balanced load


3 phase 4 wire unbalanced load

Active Power

*Network supported : 3 phase 3 wire unbalanced load



P

1P2W

3WUB

4WUB

4WB

3WB

PA

Single phase

Single phase/

4WB

3WB

1P2W

3WB - U12

3WB - U13

3WB - U23

Power factor/ PF

Reactive Power

Apparent Power

Q

S

3 Auxiliary Supply

High Aux (60V.....300V AC-DC)

Low Aux (24V.....60V AC-DC)

H

L


RISH CON - P





Without Display

D

RS-485 module

Without PRKAB 601

R

7

PRKAB 601module

PR

8

Without RS-485

2 Frequency of Input(50 Hz / 60 Hz)


Current = 0.....10 mA Current = 0.....5 mA



Voltage = 0.....5 V

Voltage = 0.....1 V


O200

O2V2

O2A4

O2A5

O2A6

O2A7

O2V4

5 Output 2

O2V3



Current = 0.....10 mA Current = 0.....5 mA Current = 0.....2.5 mA

Voltage = 0....10 V

Voltage = 0.....5 V

Voltage = 0.....1 V


O1A3 O1V1

O1A4

O1A5O1A6

O1A7

O1V5

4Output 1

O1V3


Without output 2

O2A2

With Display

Z

With RS-485

With PRKAB 601

Z

Z

Current = 0.....20 mA O1A1

Current = 0.....20 mAO2A1

Voltage = 0.....2.5 V O1V4

Voltage = 0.....2.5 V O2V5

**Voltage = -10....10 V

**Current = -20.....20 mA O1A2

O1V2

**Voltage = -10.....10 V

**Current = -20.....20 mA

O2A3

O2V1

F

Optional Version Example: Q - 3WB - F - H - O1A2 - O1V2 - O2V2- O2A2 - D - R - PR Reactive Power transducer, 3 phase 3 wire balanced network ,50/60 Hz nominal input signal, High Aux, Output1 = 0…20mA or 0…10V , Output2= 0…10V or 0…20mA, With LCD display module , with RS-485 & with .PRKAB 601 cable

**For apparent power, -20...0....20mA or ,-10....0....10V is not applicable.


* Transducer type and network supported are onsite programmable.

3

Low Aux (24V....60 VAC-DC LHigh Aux (60V....300 VAC-DC H

Auxiliary Supply


RISH CON - V / RISH CON - I

Application :

The RISH CON - V / RISH CON - I is used to measure and convert AC Voltage or Current input into a load independent DC current or voltage output signal.Output signal generated is proportional to the root mean square value of the input Current or Voltage.

Salient Features :


Fully onsite programmable input voltage range (for RISH CON - V) & Input current range(for RISH CON - I).

Available in Single or Dual output type.

Onsite selectable output type (DC current / DC voltage).

Accuracy class 0.2 (IEC/ EN 60 688) .



Wide Auxiliary power supply. Accept any input between 60-300VAC/DC or 24-60VAC/DC.


Fast and easy installation on DIN RAIL or onto a wall or in a panel using optional screw hole bracket.

Connection Terminal : Conventional Screw type.

Display Module(Optional):Optional 7 segment LCD display with backlit & keypad. For displaying measured parameters & onsite configuration of Input/output.

RS485 Communication(Optional):Optional RS485 communication is available. For readingmeasured parameters & onsite configuration of input/output.

Product Features:

Measuring Input: AC Voltage/ Current input signal , sine wave or distorted wave form.

Analog Output (Single or dual): Isolated analog output which can be set onsite to either voltage or current output.

Accuracy:Output signal accuracy class 0.2 as per International Standard IEC/EN 60 688.


LED Indication:LED indication for power on and output type. (Current output : Red LED, Voltage output : Green LED)


X Input AC Voltage / AC Current












FN Nominal Frequency

VOLTAGE / CURRENT TRANSDUCER


Page 1 of 8Version: M 30/05/13

Fig. 1 RISH CON - V



Measuring Input X

Voltage Transducer (RISH CON - V): Nominal input Voltage UN (AC RMS) 57V ≤ UN ≤ 500 V(PT Secondary range)

PT Primary range 57V to 400 kV

Nominal Frequency FN 45.....66 Hz

Nominal input Voltage burden < 0.6 VA at UN

Overload Capacity: 1. UN continuously,2 * 2 * 1 second, repeated 10 times at 10 intervals UN for minute (Maximum 300V with power supply powered from measuring input). No need of external potentiometer. User can set full scale output for desired input with the help of programmable PT secondary.

Current Transducer (RISH CON - I):

Nominal input Current IN (AC RMS) 1 A ≤ IN ≤ 5 A(CT Secondary range)

CT Primary range 1 A to 9999 A

Nominal Frequency FN 45.....66 Hz

Nominal input Current burden < 0.2 VA at IN Overload Capacity: IN continuously,1.2 * 0 * 3 second, repeated 5 times at 5 intervals.1 IN for minute 0 * 1 second,repeated 1 time at 1 hour interval(max 250 A).5 IN for

No need of external potentiometer. User can set full scale output for desired input with the help of programmable CT secondary.

Measuring Output Y( Single or Optional Dual)

Output type Load independent DC Voltage or DC Current

(Onsite selectable through DIP switches & programming.)

Load independent DC output (Y) 0…20mA / 4…20mA OR 0…10V.



Current limit under overload R=0 ≤ 1.25 * Y2 with current output ≤ 100 mA with voltage output


Residual Ripple in Output signal ≤ 1% pk-pk Response Time 300 ms.

RISH Ducer VT25 / CT25 TransducerRISH Ducer VT25 / CT25 Transducer RISH CON - V / RISH CON - I VOLTAGE / CURRENT TRANSDUCER





Reference Value Output end Value Y2 (Voltage or Current)Basic Accuracy 0.2 * CFactor C (The highest value applies if calculated C is less than 1,then C=1 applies)

For X0 < X < X1

For X1 < X < X2

Reference conditions for Accuracy :Ambient temperature 23°C +/- 1°CPre-conditioning 30 min acc. to IEC / EN 60 688Input Variable Rated Voltage / Rated Current Input waveform Sinusoidal, Form Factor 1.1107Input signal frequency 50 or 60HzAuxiliary supply voltage At nominal rangeOutput Load Rn = 7.5 V / Y2 ± 1% With DC current output signal Rn = Y2 / 1 mA ± 1% With DC voltage output signalMiscellaneous Acc. to IEC / EN 60 688

Additional Error :Temperature influence ± 0.2% /10°C

Influence of Variations: As per IEC / EN 60688 standard.Output stability < 30min

Output Characteristics:


X1 = Elbow value of input Y1 = Elbow value of output

X2 = End value of input Y2 = End value of output

Note: End value(Y2) of output cannot be changed onsite.

RISH CON - V / RISH CON - I VOLTAGE / CURRENT TRANSDUCER


Y0Y2X0X2

1

1or C=1C=

Linear characteristics:

C=Y1 - Y0 X2X1 - X0 Y2

or C=1

C=

Y1Y2X1X2

1

1or C=1

Bent characteristics:

Y

XY0

X0

Y2

X2

Y

XY0

X0

Y2

X2

Y

XY0

X0

Y2

X2

YY Y

XY0

X0

Y2

X2

Y1

X1 X1

Y1


Auxiliary Power Supply:AC/DC Auxiliary Supply 60V… 300 VAC-DC ± 5% or 24... 60 VAC-DC ± 10%AC Auxiliary supply frequency range 40 to 65 Hz Auxiliary supply consumption




Safety:

Protection Class II (Protection Isolated, EN 61 010)Protection IP 40, housing according to EN 60 529 IP 20 ,terminal according to EN 60 529

Pollution degree 2


Insulation Voltage 50Hz,1min. ( EN 61 010-1) 5500V, Input versus outer surface 3700V, Input versus all other circuits 3700V, Auxiliary supply versus outer surface and output 490V, Output versus output versus each other versus outer surface.

Installation Data:

Mechanical Housing Lexan 940 (polycarbonate) Flammability Class V-0 acc. To UL 94, self extinguishing, non dripping, free of halogenMounting position Rail mounting / wall mounting


Connection Terminal

Connection Element Conventional Screw type terminal with indirect wire pressure Permissible cross section of the connection lead ≤ 4.0 mm single wire or 2 x 2.5 mm fine wire

.Environmental:

Nominal range of use 0 °C...23 °C... 45 °C (usage Group II)



Altitude 2000m max

Ambient tests:


Acceleration ± 2 g

Frequency range 10....150...10Hz, rate of frequency sweep: 1 octave/minute


EN 60 068-2-7 Shock Acceleration 3 x 50g 3 shocks in each direction


IEC 61000-4-2/-3/-4/-5/-6EN 55 011 Electromagnetic compatibility.



22



LED Indication:


O/P2 LED

O/P1 LED

ON LED













Measuring input




5 6

7 8

1 2

3 4

~~

~ , + ~ , -

+ -


+ -

5 6 7 8

1 2 3 4

Input V / I

~ ~

Aux

~ ~+ -

Output-1+ -

Output-2

+ -

(Optional)

Fig 2.

Fig 3.

Dimensions





Configuring Rish Con Transducer :To configure RISH CON Transducer Input / output one of the three programming methods can be adapted along with mechanical switch setting (DIP switch setting on PCB).


For programming of DIP switch the user needs to open the transducer housing & set the DIP switch located on PCB to the desired output type Voltage or Current.Output range changing is not possible with DIP switch setting.





2) Programming Via optional RS485(MODBUS) communication port. ( Device address,PT Ratio,CT Ratio,Password,communication parameter,Output Type & simulation mode can be programmed).

3) Programming Via Programming port available at front of RISH CON Transducers using optional PRKAB601 Adapter.


A PC with RS 232 C interface along with the programming cablePRKAB 601 and the configuration software are required to Program the transducer.

The connections between“PC PRKAB 601 Rish CON Transdu. cer.The power supply must be applied to Transducer b e fore it can be

programmed.

1234

ON

1234



Fig. 5





5 6 7 8

PRKAB 601


Power supply


Software CD

RISH Con Transducer

Fig. 4








1RISH CON - V (500V)

2 Frequency of Input(50 Hz / 60 Hz) F

Input Signal

Voltage (Range: 57V to 500V)

Current (Range: 1A to 5A) RISH CON - I (5A)



O1A1



Note : Input Ranges are onsite programmable.

Standard Version :

Dual Output :

7

Single Output :

RISH CON - V (500V) - F - H - O1A1 - O2V1 - D - Z - Z

RISH CON - V (500V) - F - H - O1A1 - D - Z - Z

6

8

With Display

Without RS-485

Without PRKAB 601

D

Z

Z

RISH CON - I (5A) - F - L - O1A1 - O2V1 - D - Z - Z

RISH CON - I (5A) - F - L - O1A1 - D - Z - Z

3 Auxiliary Supply



H

L





Page 8 of 8

Optional Versions :

Version: M 30/05/13


Without Display

D

RS-485 module

Without PRKAB 601

R

7

PRKAB 601module

PR

8

Without RS-485

Optional Version Example:RISH CON-I - XA - F - H - O1A1 - O1V1 - O2V1- O2A1 - D - R - PR

RISH CON-I is Current transducer, XA ,50/60 Hz nominal input signal, High Aux, Output1 = 0…20mA or 0…10V , Output2= 0…10V or 0…20mA, with LCD display module , with RS-485 & with .PRKAB 601 cable

RISH CON-V - XXXV - F - L - O1A1 - O1V1 - O2V1- O2A1 - Z - R - Z

RISH CON-V is Voltage transducer, XXXV,50/60 Hz nominal input signal, Low Aux, Output1 = 0…20mA or 0…10V , Output2= 0…10V or 0…20mA, out & out PRKAB 601 cable With LCD display module , with RS-485 with .


1RISH CON - V (User specified: XXXV)

2 Frequency of Input(50 Hz / 60 Hz) F

Input Signal

Voltage (Range: 57V to 500V)

Current (Range: 1A to 5A) RISH CON - I (User specified: XA)Note : Input Ranges are onsite programmable.





Voltage = 0.....5 V

Voltage = 0.....2.5 V

Voltage = 0.....1 V


O200

O2A3

O2A4

O2A5

O2A6

O2V2

O2V4

5 Output 2

O2V3






Voltage = 0.....5 V

Voltage = 0.....2.5 V

Voltage = 0.....1 V


O1A2

O1A3

O1A4

O1A5

O1A6

O1V2

O1V4

4 Output 1

O1V3


Without output 2

O2A2

With Display

Z

With RS-485

With PRKAB 601

Z

Z


Current = 0.....20 mA O2A1



O1A1

O1V1


3Auxiliary Supply



H

L

Data Sheet

RISH Ducer M40 / M30 ( RS 485 interface )Programmable Multi-transducer

www.rishabh.co.in Page 1 of 15 Version: 1/04/VIII/1201

Programmable Multi-transducer

Fig.1

Slave 1

Master

26

25

24

23Tx+/Rx+

GND

Tx-/Rx-

RISHDucer M40

26

25

24

23Tx+/Rx+

GND

Tx-/Rx-

2z

2d

6z

6dTx+/Rx+

GND

Tx-/Rx-

Tx+/Rx+

GND

Tx-/Rx-Slave 2

26

25

24

23Tx+/Rx+

GND

Tx-/Rx-

GNDSlave n

+ 5 V

Built-in RS485 interface car d

Signal GND

Data Out A

Data Out B

Data In A

Data In B

Handshake Out A

Handshake Out B

Handshake In A

Handshake In B

PC with interface 13601 of W & T

5

1

6

2

7

3

8

4

9

With converter RS232/RS485

GND Signal GND

Din Data Out A

Dout Data Out B

Data In A

Data in B

Handshake Out A

Handshake Out B

Handshake In A

Handshake In B

PC

5

1

6

2

73

8

4

9

GND

TxD

RxD

DTR

DSR

RTS

CTS

5

3

2

46

7

8

Interface 86201 of W & T

RISHDucer M40

RISHDucer M40


1 = Input transformer2 = Multiplexer3 = Latching stage4 = A/D converter5 = Microprocessor6 = Electrical insulation

7 = D/A converter8 = Output amplifier / Latching

stage9 = Programming interface

RS-23210 = Bus RS 485 (MODBUS)

11 = Power supply

AI1

I2

I3

L1

L2

L3N

UH

1 2

4 5

6

7 8

3

A/D

9

RS-232

D/A

D/A

D/A

D/A

10

B

C

D

RS-485

11

6

Application


for the measurement of electrical variables in heavy current power system

RISH Ducer M40 (Fig. 1) is a programmable transducer with a RS ®485 bus interface (MODBUS ). It supervises several variables of an

electrical power system simultaneously and generates 4 proportional analogue output signals.The RS 485 interface enables the user to determine the number of variables to be supervised (up to the maximum available). The levels of all internal counters that have been configured (max. 4) can also viewed. Provision is made for programming the RISH Ducer M40 via the bus. A standard EIA 485 interface can be used, but there is no dummy load resistor for the bus.The transducers are also equipped with an RS 232 serial interface to which a PC with the corresponding software can be connected for programming or accessing and executing useful ancillary functions. This interface is needed for bus operation to configure the device address, the Baud rate and possibly increasing the telegram

®waiting time (if the master is too slow) defined in the MODBUS protocol.The usual methods of connection, the types of measured variables, their ratings, the transfer characteristic for each output and the type of internal energy metering are the main parameters that can be programmed.The ancillary functions include a power system check, provision for displaying the measured variably on a PC monitor, the simulation of the outputs for test purposes and a facility for printing nameplates.The transducer fulfils all the essential requirements and regulations concerning electromagnetic compatibility(EMC) and safety (IEC 1010 resp. EN 61 010). It was developed and is manufactured and tested in strict accordance with the quality assurance standard ISO 9001.

nSimultaneous measurement of several variables of a heavy-current power system / Full supervision of an asymmetrically loaded four-wire power system, rated current 1 to 6 A, rated voltage 57 to 400 V (phase to neutral) or 100 to 693 V (phase-to-

phase)nFor all heavy-current power system variablesn4 analogue outputsnInput voltage up to 693 V (phase-to-phase)nUniversal analogue outputs (programmable)nHigh accuracy: U/I 0.2% and P 0.25% (under reference

conditions)n4 integrated energy meters, storage every each 203 s, storage

for: 20 yearsnWindows software with password protection for programming,

data analysis, power system status simulation, acquisition of meter data and making settings

nDC-,AC-power pack with wide power supply tolerance / universal

nProvision for either snapping the transducer onto top-hat rails or securing it with screws to a wall or panel

Features / Benefits

Current, voltage (rms), active/reactive/apparent powercos , sin , power factorRMS value of the current with wire setting range (bimetal measuring function)Slave pointer function for themeasurement of the RMS value IB FrequencyAverage value of the currents with sign of the active power (power system only)

Measured variables Output Types

4 analogue outputsand bus interfaceRS 485 (MODBUS)

2 analogue outputsand4 digital outputsor4 analogue outputsand2 digital outputssee Data SheetDME 424/442-1 Le

Data bus LONsee Data SheetDME 400-1 Le

M24

M42

M00

M40

The RS 485 interface of the M 40 is galvanically isolated from all other circuits. For an optimal data transmission the devices are connected via a 3-wire cable, consisting of a twisted pair cable (for data lines) and a shield. There is no termination required. A shield both prevents the coupling of external noise to the bus and limits emissions from the bus. The shield must be connected to solid groundYou can connect up to 32 members to the bus (including master). Basically devices of different manufacturers can be connected to the bus, if they use the standard MODBUS® protocol. Devices without galvanically isolated bus interface are not allowed to be connected to the shield.The optimal topology for the bus is the daysi chain connection from node 1 to node 2 to node n. The bus must form a single continuous path, and the nodes in the middle of the bus must have short stubs. Longer stubs would have a negative impact on signal quality (reflexion at the end). A star or even ring topology is not allowed.

There is no bus termination required due to low data rate. If you got problems when using long cables you can terminate the bus at both ends with the characteristic impedance of the cable (normally about 120 ). Interface converters RS 232 RS 485 or RS 485 interface cards often have a built-in termination network which can be connected to the bus. The second impedance then can be connected directly between the bus terminals of the device far most.

Fig. 6

Symbols Meaning (Continuation)

Q Reactive power of the system

Q = Q1 + Q2 + Q3

Q1 Reactive power phase 1

(phase-to-neutral L1 – N)













PF Active power factor cos j = P/S




QF Reactive power factor sin j = Q/S





LF = sgnQ · (1 – PF )


sgnQ1 · (1 – PF1 )


sgnQ2 · (1 – PF2 )


sgnQ3 · (1 – PF3 )

c Factor for the intrinsic error

R Output load

Rn Rated burden

H Power supply


CT c.t. ratio

VT v.t. ratio

S = I12 + I

22 + I

32 · U

12 + U

22 + U

32


Fig. 6 shows the connection of transducers M 40 to the MODBUS. The RS 485 interface can be realized by means of PC built-in interface cards or interface converters. Both is shown using i.e. the interfaces 13601 and 86201 of W & T (Wiesemann & Theis GmbH). They are configured for a 2-wire application with automatic control of data direction. These interfaces provide a galvanical isolation and a built-intermination network.

ImportantEach device connected to the bus must have a unique address All devices must be adjusted to the same baudrate.

Symbols

Symbols Meaning

X Measured variable




Y Output variable




U Input voltage


U 12 Phase-to-phase voltage L1 – L2



U1N Phase-to-neutral voltage L1 – N




(U1N + U2N + U3N) / 3

I Input current

I1 AC current L1

I2 AC current L2

I3 AC current L3


IM Average value of the currents (I1 + I2 + I3) / 3

IMS Average value of the currents and sign of the

active power (P)




BS Slave pointer function for the measurement of

the RMS value IB




Fn Rated frequency


P1 Active power phase 1

(phase-to-neutral L1 –N)


(phase-to-neutral L2 –N)



jTechnical data

InputsInput variables see Table 2 and 3Measuring ranges see Table 2 and 3Waveform SinusoidalRated frequency 50…60 Hz; 16 2/3 Hz

2Own Consumption [ VA ] Voltage circuit: < U / 400 k

Condition:Characteristic XH01 … XH10Current circuit: 0.3 VA · I/5 A

2524 2623

GND–+


Current circuit 10 A 400 Vsingle-phase AC system

693 Vthree-phase system

Voltage circuit 480 V single-phase AC system



Input Number of Duration Intervalvariable inputs of between two

overload overloads



100 A 5 3 s 5 min.

250 A 1 1 s 1 hour


Single-phaseAC system600 VH

intern: 1.5 Ur 10 10 s 10 s

Three-phasesystem1040 VH

intern: 1.5 Ur 10 10 s 10 s


MODBUS® (Bus interface RS-485)

Terminals Screw terminals, terminals 23, 24, 25 and 26

Connecting cable Screened twisted pairMax. distance Approx. 1200 m (approx. 4000 ft.)Baudrate 1200 … 9600 Bd (programmable)Number of bus stations 32 (including master)Dummy load Not required

MODBUS® is a registered trademark of the Schneider Automation Inc.

Analogue outputs

For the outputs A, B, C and D:

Output variable Y Impressed ImpressedDC current DC voltage

Full scale Y2 see “Ordering see “Orderinginformation” information”

Limits of outputsignal for inputoverloadand/or R = 0 1.25 · Y2 40 mA

30 V 1.25 Y2

Rated useful rangeof output load 0

AC component ofoutput signal < 0.005 Y2 < 0.005 Y2(peak-to-peak)

Y2

2 mA

Y2

1 mA

15 V

Y2

7.5 V

Y2

R 8

< < < < 8

The outputs A, B, C and D may be either short or open-circuited. They are electrically insulated from each other and from all other circuits (floating).All the full-scale output values can be reduced subsequently using the programming software, but a supplementary error results.The hardware full-scale settings for the analogue outputs may also be changed subsequently. Conversion of a current to a voltage output or vice versa is also possible. This necessitates changing resistors on the output board. The full-scale values of the current and voltage outputs are set by varying the effective value of two parallel resistors (better resolution). The values of the resistors are selected to achieve the minimum absolute error. Calibration with the programming software is always necessary following conversion of the outputs. Refer to the Operating InstructionsCaution: The warranty is void if the device is tampered with!

System response

Accuracy class (the reference value is the full-scale value Y2)

* Basic accuracy 0.5 c for applications with phase-shift

System:Active, reactiveand apparentpower

Phase:Active, reactiveand apparentpower

Power factor,active powerand reactivepower

Measured Condition Accuracy class*variable

0.5 < X2/Sr 1.5 0.25 c0.3 < X2/Sr < 0.5 0.5 c

0.167 < X2/Sr < 0.5 0.1 X2/Sr < 0.167

0.5Sr < S < 1.5 Sr, 0.25 c(X2 - X0) = 2

0.5Sr 1.5 Sr, 0.5 c1 < (X2 - X0) < 2

0.5Sr 1.5 Sr, 1.0 c0.5 < (X2 - X0) < 1

0.1Sr < S < 0.5Sr, 0.5 c(X2 - X0) = 2

0.1Sr < S < 0.5Sr, 1.0 c1 < (X2 - X0) < 2

0.1Sr < S < 0.5Sr, 2.0 c0.5 < (X2 - X0) < 1

AC voltage 0.1 Ur < U < 1.2 Ur

AC current/ 0.1 Ir < I < 1.5 Ircurrent averages

System 0.1 Ur 1.2 Urfrequency resp. (f = 50...60 Hz)

N

0.1 Ir 1.5 Ir 0.15 + 0.1 c(f = 16 2/3 Hz)

Pulse acc. to IEC 1036 1.00.1 Ir 1.5 Ir

<

<

< S <

< S <

< U <

< I <

< I <

N

Duration of themeasurement cycle Approx. 0.5 to s 1.2 s at 50 Hz,

depending on measured variable and programming

Response time 1 … 2 times the measurement cycle

Factor c (the highest value applies):

0.2 c

0.2 c

0.15 + 0.03 c

0.25 c

0.5 c

95

6

CTS

1

RTSDSR

GNDDTRTXDRXD

Power supply

DC-, AC-power pack (DC and 50 … 60 Hz)

Ta ble 1: Rated voltages and tolerances

Rated voltage UNT olerance

24 … 60 V DC/AC

85 … 230 V DC/AC

Consumption < 9 W resp.< 10 VA

DC – 15 … + 33%AC 10%

7.5 V

Y2

Y2

1 mA


1 -

X1 < X < X2

c =

1 -

1 -

c = ·

1 -

c =

Bent characteristicX0 < X < X1

Linear characteristic Y0

Y2

X0

X2

Y1 - Y0 X2

X1 - X0 Y2

Y1

Y2

X1

X2

or c = 1

or c = 1

or c = 1

Y

X

Limit of the outputrange

X0/Y0X2/Y2

Y

X

Limit of the outputrange

X0/Y0

X2/Y2X1/Y1

Fig. 4. Examples of settingswith bent characteristic.

Fig. 3. Examples of settings withlinear characteristic.

Reference conditions0

Ambient temperature + 23 C + 1 KPre-conditioning 30 min. acc. to DIN EN 60 688

Section 4.3, Table 2Input variable Rated useful rangePower supply H = Hn + 1%Active/reactive factor cos F = 1 resp. sin F = 1Frequency 50 … 60 Hz, 16 2/3 HzWaveform Sinusoidal, form factor 1.1107Output load DC current output

RN = + 1%

DC voltage output

RN = + 1%

Miscellaneous DIN EN 60 688

Influencing quantities and permissible variations

Acc. to DIN IEC 688

Programming connector on transducer

Interface RS 232 CDSUB socket 9-pin

The interface is electrically insulated from all other circuits.

Ambient conditions

Climatic rating Climate class 3 acc. to VDI/VDE 3540

Variations due to ambienttemperature + 0.1% / 10 KNominal range of use

0for temperature 0…15…30…45 C(usage

group II)0

Storage temperature – 40 to + 85 CAnnual meanrelative humidity < 75%

DIN EN 60 688 Electrical measuring transducers for converting AC electrical variables into analogue and digital signals

IEC 1010 orEN 61 010 Safety regulations for electrical

measuring, control and laboratory equipment

EN 60529 Protection types by case (code IP)IEC 255-4 Part E5 High-frequency disturbance test

(static relays only)IEC 1000-4-2, 3, 4, 6 Electromagnetic compatibility for

industrialprocess measurement and control equipment

VDI/VDE 3540,page 2 Reliability of measuring and control

equipment (classification of climates)DIN 40 110 AC quantitiesDIN 43 807 Terminal markingsIEC 68 /2-6 Basic environmental testing

procedures, vibration, sinusoidalEN 55011 Electromagnetic compatibility of

data processing and telecommunication equipmentLimits and measuring principles for radio interference and information equipment

IEC 1036 Alternating current static watt-hour meters for active energy (classes 1 and 2)

DIN 43864 Current interface for the transmission of impulses between impulse encoder counter and tarif meter

UL 94 Tests for flammability of plastic materials for parts in devices and appliances

Safety

Protection class IIEnclosure protection IP 40, housing

IP 20, terminalsOvervoltage category IIIInsulation test(versus earth) Input voltage AC 400 V

Input current AC 400 VOutput DC 40 VPower supply AC 400 V

DC 230 VSurge test 5 kV; 1.2/50s; 0.5 WsTest voltages 50 Hz, 1 min. according to

DIN EN 61 010-15550 V, inputs versus all other circuits as well as outer surface3250 V, input circuits versus eachother3700 V, power supply versus outputs and SCI as well as outer surface490 V, outputs & SCI versus each other & versus outer surface



DESCRIPTIONApplication

A11 … A16 A34 A24 / A44

1. Application (system)

Single-phase AC A11 ––– –––

3-wire, 3-phase symmetric load, phase-shift U: L1-L2, I: L1 * A12 ––– –––





3-wire, 3-phase asymmetric load ––– A34 –––

4-wire, 3-phase asymmetric load ––– ––– A44

4-wire, 3-phase asymmetric load, open-Y ––– ––– A24

2. Input voltage







Rated value Ur [V] U91 ––– –––







Rated value Ur [V] U93 U93 U93

Lines U01 to U06: Only for single phase AC current or4-wire, 3-phase symmetric load

Line U91: Ur [V] 57 to 400

Line U93: Ur [V] > 100 to 693

3. Input current




Rated value Ir > 1 to 6 [A] V9 V9 V9


Vibration withstand

(tested according to DIN EN 60 068-2-6)Acceleration + 2 gFrequency range 10 … 150 … 10 Hz, rate of

frequencysweep: 1 octave/minute

Number of cycles 10 in each of the three axesResult No faults occurred, no loss of


Installation dataHousing HousingT24

See Section “Dimensioned drawings”

Housing material Lexan 940 (polycarbonate),

flammability class V-0 acc. to UL 94, self-extinguishing, non-dripping, free of halogen

Mounting For snapping onto top-hat rail(35 x15 mm or 35 x 7.5 mm) acc. to EN 50 022 ordirectly onto a wall or panel using the pull-out screw hole brackets

Orientation AnyWeight Approx. 0.7 kg

Terminals

Type Screw terminals with wire guards2

Max. wire gauge < 4.0 mm single wire or2

2 x 2.5 mm fine wire

* Basic accuracy 0.5 c Table 3 continued on next page!

4. Primary rating (primary transformer)

Without specification of primary rating W0 W0 W0

CT = A / A VT = kV / V W9 W9 W9

Line W9: Specify transformer ratio prim./sec.,e.g. 1000/5 A; 33 kV/110 V




DESCRIPTION Application

A11 … A16 A34 A24 / A44

5. Measured variable, output A

Not used AA000 AA000 AA000

Initial value X0 Final value X2U System X0 = 0 X2 = Ur* AA001 ––– –––

U12 L1-L2 X0 = 0 X2 = Ur* ––– AA001 AA001

U System 0 < X0 < 0.9 · X2 0.8 · Ur < 1.2 · Ur* AA901 ––– –––

U1N L1-N 0 < 0.9 · X2 0.8 · Ur/ 3 1.2 · Ur/ 3 * ––– ––– AA902

U2N L2-N 0 < 0.9 · X2 0.8 · Ur/ 3 1.2 · Ur/ 3 * ––– ––– AA903

U3N L3-N 0 < 0.9 · X2 0.8 · Ur/ 3 1.2 · Ur/ 3 * ––– ––– AA904

U12 L1-L2 0 < 0.9 · X2 0.8 · Ur 1.2 · Ur* ––– AA905 AA905

U23 L2-L3 0 < 0.9 · X2 0.8 · Ur 1.2 · Ur * ––– AA906 AA906

U31 L3-L1 0 < 0.9 · X2 0.8 · Ur 1.2 · Ur * ––– AA907 AA907

I System 0 < 0.8 · X2 0.5 · Ir < X2 < 1.5 · Ir AA908 ––– –––I1 L1 0 < 0.8 · X2 0.5 · Ir < 1.5 · Ir ––– AA909 AA909I2 L2 0 < 0.8 · X2 0.5 · Ir < 1.5 · Ir ––– AA910 AA910I3 L3 0 < 0.8 · X2 0.5 · Ir < 1.5 · Ir ––– AA911 AA911

P System –X2 0.8 · X2 0.3 < X2 / Sr 1.5 AA912 AA912 AA912P1 L1 –X2 0.8 · X2 0.1 0.5 ––– ––– AA913P2 L2 –X2 0.8 · X2 0.1 0.5 ––– ––– AA914P3 L3 –X2 0.8 · X2 0.1 0.5 ––– ––– AA915

Q System –X2 0.8 · X2 0.3 1.5 AA916 AA916 AA916Q1 L1 –X2 0.8 · X2 0.1 0.5 ––– ––– AA917Q2 L2 –X2 0.8 · X2 0.1 0.5 ––– ––– AA918Q3 L3 –X2 0.8 · X2 0.1 0.5 ––– ––– AA919

PF System –1 < (X2 – 0.5) 0 < X2 < 1 AA920 AA920 AA920PF1 L1 –1 < (X2 – 0.5) 0 1 ––– ––– AA921PF2 L2 –1 < (X2 – 0.5) 0 1 ––– ––– AA922PF3 L3 –1 < (X2 – 0.5) 0 1 ––– ––– AA923

QF System –1 < (X2 – 0.5) 0 1 AA924 AA924 AA924QF1 L1 –1 < (X2 – 0.5) 0 1 ––– ––– AA925QF2 L2 –1 < (X2 – 0.5) 0 1 ––– ––– AA926QF3 L3 –1 < (X2 – 0.5) 0 1 ––– ––– AA927

F 15.3 Hz X2 – 1 Hz X0 + 1 Hz 65 Hz AA928 AA928 AA928

S system 0 < 0.8 · X2 0.3 1.5 AA929 AA929 AA929S1 L1 0 < 0.8 · X2 0.1 0.5 ––– ––– AA930S2 L2 0 < 0.8 · X2 0.1 0.5 ––– ––– AA931S3 L3 0 < 0.8 · X2 0.1 0.5 ––– ––– AA932

IM System 0 < 0.8 · X2 0.5 · Ir 1.5 · Ir ––– AA933 AA933IMS System –X2 0.8 · X2 0.5 · Ir 1.5 · Ir ––– AA934 AA934

LF System –1 < (X2 – 0.5) 0 1 AA935 AA935 AA935LF1 L1 –1 < (X2 – 0.5) 0 1 ––– ––– AA936LF2 L2 –1 < (X2 – 0.5) 0 1 ––– ––– AA937LF3 L3 –1 < (X2 – 0.5) 0 1 ––– ––– AA938

IB System X0 = 0 1< IBT < 30 min 0.5 · Ir 1.5 · Ir AA939 ––– –––IB1 L1 X0 = 0 1 30 min 0.5 · Ir 1.5 · Ir ––– AA940 AA940IB2 L2 X0 = 0 1 30 min 0.5 · Ir 1.5 · Ir ––– AA941 AA941IB3 L3 X0 = 0 1 30 min 0.5 · Ir 1.5 · Ir ––– AA942 AA942

BS System X0 = 0 1< BST < 30 min 0.5 · Ir 1.5 · Ir AA943 ––– –––BS1 L1 X0 = 0 1 30 min 0.5 · Ir 1.5 · Ir ––– AA944 AA944BS2 L2 X0 = 0 1 30 min 0.5 · Ir 1.5 · Ir ––– AA945 AA945BS3 L3 X0 = 0 1 30 min 0.5 · Ir 1.5 · Ir ––– AA946 AA946

UM System 0< X0 < 0.8 · X2 0.8 · Ur 1.2 · Ur* ––– ––– AA947

* Where the power supply is taken from the measured voltage, the transmitter only operates in the range U = 0.8 Ur … 1.2 Ur and the specified accuracyis only guaranteed in the range U = 0.9 Ur … 1.1 Ur.

X0 <

X0 <

X0 <

X0 <

X0 <

X0 <

X0 <X0 <X0 <X0 <

< X0 <

X0 <X0 <X0 <X0 <

X0 <X0 <X0 <X0 <

< X2 <

< X2 / Sr < X2 / Sr < X2 / Sr

< X2 / Sr < X2 / Sr < X2 / Sr < X2 / Sr

< X2 << X2 << X2 <

< X2 << X2 << X2 << X2 <

< X2 / Sr < X2 / Sr < X2 / Sr < X2 / Sr

< X2 << X2 <

< X2 << X2 << X2 << X2 <

< X2 << X2 << X2 << X2 <

< X2 << X2 << X2 << X2 <

< X2 <

< BST << BST << BST <

< IBT << IBT << IBT <

X0 <X0 <X0 <X0 <

X0 << X0 <

X0 <X0 <X0 <X0 <

< X0 <

< X0 << X0 << X0 << X0 <

< X0 << X0 << X0 <

X2 <X2 <X2 <

X2 <

X2 <

X2 <

< X2 <

< X2 <

X2 <

< X2 <




6. Output signal, output A

Initial value Y0 Final value Y2

DC current Y0 = 0 Y2 = 20 mA AB01 AB01 AB01

–Y2 < Y0 < 0.2 · Y2 1 mA 20 mA AB91 AB91 AB91

DC voltage

–Y2 0.2 · Y2 1 V 10 V AB92 AB92 AB92

7. Characteristic, output A

Linear AC01 AC01 AC01

Bent (X0 + 0.015 · X2) < X1 < 0.985 · X2 Y0 Y2 AC91 AC91 AC91

8. Limits, output A

Standard Ymin = Y0 – 0.25 Y2 Ymax = 1.25 Y2 AD01 AD01 AD01

(Y0 – 0.25 Y2) Y0 Y2 1.25 Y2 AD91 AD91 AD91

9. Measured variable, output B

Same as output A, but markings start with a BA … BA … BA …capital B

10. Output signal, output B

Same as output A, but markings start with a BB .. BB .. BB ..capital B

11. Characteristic, output B

Same as output A, but markings start with a BC .. BC .. BC ..capital B

12. Limits, output B

Same as output A, but markings start with a BD .. BD .. BD ..capital B

13. Measured variable, output C

Same as output A, but markings start with a CA … CA … CA …capital C

14. Output signal, output C

Same as output A, but markings start with a CB .. CB .. CB ..capital C

15. Characteristic, output C

Same as output A, but markings start with a CC .. CC .. CC ..capital C

16. Limits, output C

Same as output A, but markings start with a CD .. CD .. CD ..capital C

17. Measured variable, output D

Same as output A, but markings start with a DA .. DA .. DA ..capital D

18. Output signal, output D

Same as output A, but markings start with a DB .. DB .. DB ..capital D


< Y0 <

< Y2 <

< Y2 <

< Y1 <

< Ymax << Ymin <



DESCRIPTION Application

A11 … A16 A34 A24 / A44

19. Characteristic, output D

Same as output A, but markings start with a DC .. DC .. DC ..capital D

20. Limits, output D

Same as output A, but markings start with a DD .. DD .. DD ..capital D

21. Power meter 1

Not used EA00 EA00 EA00

I System [Ah] EA50 ––– –––

I1 L1 [Ah] ––– EA51 EA51

I2 L2 [Ah] ––– EA52 EA52

I3 L3 [Ah] ––– EA53 EA53

S System [VAh] EA54 EA54 EA54

S1 L1 [VAh] ––– ––– EA55

S2 L2 [VAh] ––– ––– EA56

S3 L3 [VAh] ––– ––– EA57

P System (incoming) [Wh] EA58 EA58 EA58




Q System (inductive) [Varh] EA62 EA62 EA62

Q1 L1 (inductive) [Varh] ––– ––– EA63



P System (outgoing) [Wh] EA66 EA66 EA66




Q System (capacitive) [Varh] EA70 EA70 EA70

Q1 L1 (capacitive) [Varh] ––– ––– EA71



22. Energy meter 2

Same as energy meter 1, but markings start with a FA .. FA .. FA ..capital F

23. Energy meter 3

Same as energy meter 1, but markings start with a GA .. GA .. GA ..capital G

24. Energy meter 4

Same as energy meter 1, but markings start with a HA .. HA .. HA ..capital H


2221201918171615

87654321

26252423

1413119

(–)(+)

–+ + + + + GND– – –

A

–

B C DTx/Rx

UL2UL1UL1 UL3

IL1 IL2 IL3

N

Function Connect.

RS 232Outputs Analogue

Measuring inputs


L1

N

11 31

L1

N

k l

K L

2 11 31

v

V

L1

N

u

Uk l

K L

2 11 312


Front

IL1 IL2 IL3

Measuring inputIf power supply is taken from the measured voltageinternal connections are as follow:





A

B

C

D

RS 485



Measuring inputs


L1

5 31

L1

k l

K L

2 5 31

L1

v

V

u

Uk l

K L

2 5 312

L2

L3

L2L3 L2L3

L1

2 31

L1

k l

K L

8 2 31

L1

v

V

u

U

k l

K L

8 2 318

L2

L3

L2L3 L2L3

3-wire3-phasesymmetricloadPhase-shiftU: L1 – L2I: L1


L1

L2

L3

5 182 3

L1

L2

L3

k l

K L

5 182 3

L1

L2

L3

u

U

v

V

v

V

u

Uk l

K L

5 182 3




L2 1 3 L2 L3 L1

L3 1 3 L3 L1 L2



L2 1 3 L2 L3

L3 1 3 L3 L1



L2 1 3 L1 L2

L3 1 3 L2 L3

Measuring inputs



L1

L2

L3

5 182 3 7 9

L1

L2

L3

k l

K L k l

K L

5 182 3 7 9

L1

L2

u

L3

U

v

V

v

V

u

Uk l

K L k l

K L

5 182 3 7 9

L1

L2

L3

k l

K L k l

K L

xxx

uuu

XXX

UU U

5 182 3 7 9

L1

N

11 31

L1

N

k l

K L

2 11 31

v

L1V

u

Uk l

K L

2 11 312

L2

L3

L2L3

N

L2

L3


L1

8 31

L1

k l

K L

5 8 31

v

L1V

u

U

k l

K L

5 8 315

L2

L3

L2L3 L2L3




L2 1 3 L3 L1

L3 1 3 L1 L2


Current transf. 2 11Terminals

L2 1 3 L2 N

L3 1 3 L3 N



Measuring input


3-phase3-wireasymmetricload

4-wireasymmetricload,3-phaseOpen YConnection*

L1

L2

L3

N

5 1182 1 3 4 6 7 9

L1

L2

L3

k l

K L

k l

K L

k l

K L

N

5 1182 1 3 4 6 7 9

L1

L2

L3

k l

K L

k l

K L

k l

K L

N

xxx

uuu

XXX

UU U

5 1182 1 3 4 6 7 9


L1

L2

L3

k l

K L

k l

K L

k l

K L

N

82 1 3 4 6 7 911

L1

L2

L3

kl

K L

k l

K L

k l

K L

xx

uu

X

U

2 431 5 6 7 8 9 11

X

U

L


N


–180 –90 0 90 180

outgoing

Output

incomingoutgoing

ind.ind. ind.ind. cap.cap.

LF

QFPF


Table 4: Accessories

1

2

3

4

5

Programming Cable

RishDucer configuration software

for M40, version 1.30

Software Metrawin 10 for M40

Operating Instructions M40

Interface Definition M40

Dimensioned drawings

Fig. 7. RISH Ducer M40 in housing T24 clipped onto a top-hat rail(35 x15 mm or 35 x 7.5 mm, acc. to EN 50 022).

Fig. 8. RISH Ducer M40 in housing T24 screw hole mounting brackets pulled out.


DESCRIPTION MARKING


Housing T24 for rail and wall mounting #M40 / M30 - 1

2. Rated frequency



3) 16 2/3 Hz (not re-programming by user, 50/60 Hz possible, but with additional error 1.25 · c) 3

3. Power supply

Nominal range

7) DC/AC 24 … 60 V 7

8) DC/AC 85 … 230 V 8



2) Internal from voltage input 2

Line 2: Not available for rated frequency 16 2/3 Hz and applications A15 / A16 / A24 (see Table 3)

Caution: The power supply voltage must agree with the input voltage (Table 3)



# M30- Only with 3 Analog Outputs available and without MODBUS (RS 485).On demand MODBUS can be accumulated at extra cost. All Dimensions & Features remains same as M 40

DESCRIPTION MARKING

5. Full-scale output signal, output A

1) Output A, Y2 = 20 mA (standard) 1

9) Output A, Y2 [mA] 9

Z) Output A, Y2 [V] Z

Line 9: Full-scale current Y2 [mA] 1 to 20

Line Z: Full-scale voltage Y2 [V] 1 to 10

6. Full-scale output signal, output B

1) Output B, Y2 = 20 mA (standard) 1

9) Output B, Y2 [mA] 9

Z) Output B, Y2 [V] Z

7. Full-scale output signal, output C

1) Output C, Y2 = 20 mA (standard) 1

9) Output C, Y2 [mA] 9

Z) Output C, Y2 [V] Z

8. Full-scale output signal, output D

1) Output D, Y2 = 20 mA (standard) 1

9) Output D, Y2 [mA] 9

Z) Output D, Y2 [V] Z

9. Test certificate

0) None supplied 0

1) Supplied 1

10. Programming

0) Basic 0

9) According to specification 9

Line 0: Not available if the power supply is taken from the voltage input

Line 9: All the programming data must be entered on Form W 2389e and the form mustbe included with the order.



Data Sheet

RISH Ducer MXX Series Programmable Multi Transducer

www.rishabh.co.in Page 1 of 12 Version: 1/04/VII/0112/E

ProgrammableMulti Transducer

Fig. 1. The basic version universal MXX in housing clipped onto a top-hat rail. RISH Ducer


Symbols Meaning

X Measured variable




Y Output variable




U Input voltage









(U1N + U2N + U3N) / 3

I Input current

I1 AC current L1

Table 3

Models

M42

M24

M20

M30 M00

M40

M01

4(A,B,C,D)

3(A,B,C)

4(A,B,C,D)

Analog Output

2(A,B)

2(A,B)

-

-

(E,F,G,H)

(E,F)

Digital Output

-

-

-

-

Communication type

-

-

-

LON Bus

RS 485

RS 485

-

-

Programming Port

RS 232

RS 232

RS 232

RS 232RS 232

RS 232

RS 232

Table 2 : A, B, C, D = analogue outputs; E, F, G, H = digital outputs.

RISH Trans 4(A,B,C,D) RS 485- RS 232

1 = Input transformer2 = Multiplexer3 = Latching stage4 = A/D converter5 = Microprocessor6 = Electrical insulation7 = D/A converter8 = Output amplifier/latching stage9 = Digital output (open-collector)10 = Programming interface RS-23211 = Power supply


E

F

G

H

9

A

7 8

D/A

BD/A

6

M 24

OutputMeasured variables Types

2 analogue outputs and4 digital outputs or4 analogue outputs and 2 digital outputs

Current, voltage (rms),active/reactive/ apparentpower cos, sin, power factor RMS value of the current withwire setting range (bimetal measuring function)

RISH DucerM24

RISH DucerM42Slave pointer function for the

measurement of the RMSvalue IB Frequency

Average value of the currents with sign of the active power (power system only)

4 analogue outputs and bus

RS 485 (MODBUS)

RISH DucerM40 *

Data bus (LON)M00

RISH DucerM00 *

2 analogue outputs

RISH Ducer M20

3 analogue outputs

RISH DucerM30

Bus RS 485 (MODBUS)

RISH DucerM01 *

Table 1 :

4 analog outputwith RS 485, optional display

RISH Trans *


Application

Unique Features

for the measurement of electrical variables in heavycurrent power systemsThe RISH Ducer MXX series of multi-transducers (Fig. 1) simultaneously measure several variables of an electric power system and process them to produce 2 or 3 or 4 analogue output signals. 2 or 4 digital outputs are available for signaling limits or power metering. For two of the limit outputs up to 3 measurands can be logically combined.The multi - transducers are also equipped with an serial RS 232 interface to which a PC with the corresponding software can be connected for programming or accessing & executing useful ancillary functions. The usual modes of connection, the types of measured variables,their ratings, the transfer characteristic for each output etc. are the main parameters that have to be programmed.Ancillary functions include a power system check, provision for displaying the measured variable on a PC monitor, the simulation of the outputs for test purposes and a facility for printing nameplates.

nFor all heavy-current power system variablesnUp to 6 outputs (2A + 4D or 4A + 2D or 2A or 3A)nInput voltage up to 693 V (phase-to-phase)nUniversal analogue outputs (programmable)nSimultaneous measurement of several variables of a heavy-

current power system / full supervision of an asymmetrically loaded four-wire power system, rated current 1 to 6 A, rated voltage 57 to 400 V(phase to neutral) or 100 to 693 V (phase-to-phase)

nHigh accuracy: U/I 0.2%, Frequency 0.15% and P 0.25% (under reference conditions)

nUniversal digital outputs (meter transmitter, limits)nUp to 2 or 4 integrated power meters.nAC/DC power supply/universal (24-80V AC/DC or 85-230V

AC/DC)nProvision for either snapping the transducer onto top - hat rails

or securing it with screws to a wall or panelnWindows software with password protection for programming,

data analysis, power system status simulation, acquisition of meter data and making settings

* Refer dedicated data sheet for complete product details.

AI1

I2

I3

L1

L2

L3N

U H

1 2

4 5

6

7 8

3

A/D

10

RS-232

D/A

D/A

D/A

D/A

B

C

D

11

6

G

H

M 42

9


I2 AC current L2

I3 AC current L3


IM Average value of the currents (I1+ I2 + I3) / 3

IMS Average value of the currents and sign of the active

power (P)




BS Slave pointer function for the measurement of the

RMS value IB




Fn Rated frequency





Q Reactive power of the system Q = Q1 + Q2 + Q3












PF Active power factor cos =P/S




QF Reactive power factor sin j =Q/S





LF = sgnQ (1- PF )


sgnQ1 (1 - PF1 )


sgnQ2 (1 - PF2 )


sgnQ3 (1 - PF3 )

c Factor for the intrinsic error

R Output load

Rn Rated burden

2 2 2 2 2 2S = I + I + I U + U + U1 2 3 1 2 3

Symbols Meaning

H Power supply


CT c.t. ratio

VT v.t. ratio

Technical dataInputInput variables see Table 10 (Page 6) and 15

(Page 11)Measuring ranges see Table 10 (Page 6) and 15

(Page 11)Waveform SinusoidalRated frequency 50...60 Hz; 16 2/3 Hz

2Own consumption Voltage circuit: < U / 400 kWCondition:external power supplyCurrent circuit: 0.3 VA I/5 A

Table 5 : Continuous thermal ratings of inputs

Table 6 :Short-time thermal rating of inputs

Current circuit 10 A 400 Vsingle-phaseAC system693 Vthree-phase system

Voltage circuit 480V single-phase AC system831V three-phase system

Input

variable



Number of

inputs

Durationofoverload

Intervalbetween twooverloads

100 A 5 3 s 5 min.

250 A 1 1 s 1 hour


Single-phase

AC system

600 VH : 1.5 Urintern

10 10 s 10 s.

Three-phase

system

1040 VH : 1.5 Urintern

10 10 s 10 s.

Analogue output

Output

variable Y

Impressed

DC current

Impressed

DC voltage

Full scale Y2 see "Orderinginformation”

see "Orderinginformation”

Limits of output

signal for input

overload

and/or R=0 1.25 Y2 40 mA

R 30V 1.25 Y2

see "Orderinginformation”

see "Ordering

information”

Rated useful rangeof output load

0 7.5 V

Y2

15 V

Y2

Y2

2 mA

Y2

1 mA

AC component ofoutput signal(peak-to-peak)

0.005 Y2 0.005 Y2

Table 7 :

Table 9: Rated voltages and tolerances

Rated voltage UN Tolerance

24 ... 60 V DC/AC

85 ... 230 V DC/ACDC -15 ... + 33%AC +10%

Consumption: < 9 W resp. <10VA

Reference conditions0

Ambient temperature + 23 1 KPre-conditioning 30 min. acc. to DIN EN 60 688

Section 4.3, Table 2Input variable Rated useful rangePower supply H =Hn + 1%Active/reactive factor cosj=1 resp. sin = 1Frequency 50 ... 60 Hz, 16 2/3 HzWaveform Sinusoidal, form factor 1.1107Output load DC current output:

C ±

R = + 1%n

7.5 V

Y2

DC voltage output:

R = + 1%n

Y2

1 mA

Miscellaneous DIN EN 60 688

Linear characteristic Y0Y2X0X2

1 -

1 -c = or c = 1

Bent characteristicX0 X X1

Y1 - Y2X1 - X2

c = or c = 1X2Y2

Y1Y2X1X2

1 -

1 -c = or c = 1X1 X X2

MXX

+

+

-

-

=


The outputs A, B, C and D may be either short or open-circuited.They are electrically insulated from each other and from all other circuits (floating)

All the full - scale output values can be reduced subsequently using the programming software, but a supplementary error results. The hardware full-scale settings for the analogue outputs may also be changed subsequently. Conversion of a current to a voltage output or vice versa is also possible. This necessities changing resistors on the output board. The full-scale values of the current and voltage outputs are set by varying the effective value of two parallel resistors (better resolution). The values of the resistors are selected to achieve the minimum absolute error. Calibration with the programming software is always necessary following conversion of the outputs. Refer to the Operating Instructions.

Caution : The warranty is void if the device is tampered.

Digital outputs, pulse outputs, limit outputsThe digital outputs conform to DIN43 864. The pulse width can be neither programmed nor is there a hardware setting.Type of contact Open collectorNumber of pulses see "Ordering information”Pulse duration > 100 msInterval > 100 msPower supply 8 ... 40 VOutput current ON 10 ... 27 mA

OFF < 2 mA

System responseAccuracy class (the reference value is the full-

scale value Y2)

Table 8 :

Measured variable Condition

System:Active, reactiveand apparentpower

0.5 X2/Sr 1.50.3 X2/Sr < 0.5

Phase:Active, reactiveand apparentpower

0.167 X2/Sr 0.1 X2/Sr < 0.167

Power factor,active powerand reactivepower

0.5Sr S 1.5 Sr,(X2 - X0) = 2

0.5Sr S 1.5 Sr,1(X2 - X0) < 2

0.5Sr S 1.5 Sr,0.5 (X2 - X0) < 1

0.1Sr S< 0.5 Sr,(X2 - X0) = 2

0.1Sr S< 0.5Sr,1 (X2 - X0) < 2

0.1Sr S < 0.5Sr,0.5 (X2 - X0) < 1

AC Voltage 0.1 Ur U 1.2 Ur

AC current/current averages

0.1 Ir I 1.5 Ir

Systemfrequency

0.1 Ur U 1.2 Urresp.0.1 Ir I 1.5 Ir

Pulse acc. to IEC 10360.1 Ir I 1.5 Ir

Accuracy class*

0.25 c0.5 c

0.5 0.25 c0.5 c

0.25 c

0.5 c

1.0 c

1.0 c

2.0 c

0.5 c

0.2 c

0.2 c

0.15+ 0.03 c(f =50...60 Hz)N

0.15 + 0.1 c(f =16 2/3 Hz)N

1.0 c

* Basic accuracy 0.5 c for applications with phase-shift

Duration of themeasurement cycle Approx. 0.25 to 0.5 s at 50 Hz,

depending on measured variable & programming

Response time 1 ... 2 times the measurement cycle

Factor c (the highest value applies)

Fig. 3. Examples of settings with linear characteristic.

Fig. 4. Examples of settingswith bent characteristic.

Influencing quantities and permissible variationsAcc. to DIN IEC 688

Power SupplyAC voltage 100, 110, 230, 400, 500 or 693

V, + 10%, 45 to 65 HzPower consumption approx.10 VA

AC/DC power pack (DC and 50 ... 60 Hz)

(J)

DIN EN 60 688 Electrical measuring transducers for

converting AC electrical variables into

analogue and digital signals

IEC 1010 or

EN 61 010 Safety regulations for electrical measuring,

control and laboratory equipment

EN 60529 Protection types by case (code IP)

IEC 255-4 Part E5 High-frequency interference test (solid-state

relays only)

IEC 1000-4-2,3,4,6 Electromagnetic compatibility for industrial

process measurement & control equipment

VDI/VDE 3540,

page2 Reliability of measuring and control

equipment (classification of climates)

DIN 40 110 AC quantities

DIN 43 807 Terminal markings

IEC 68 /2-6 Basic environmental testing procedures,

vibration, sinusoidal

IEC 1036 Solid state AC watt hour meters for active

power (Classes 1 and 2)

DIN 43864 Current interface for the transmission of

impulses between impulse encoder counter

and tariff meter

UL 94 Tests for flammability of plastic materials for


Table 4 :

Programming connector on transducerInterface RS 232 C

DSUB socket 9-pin

GNDDTRTXDRXD

CTSRTSDSR

The interface is electricallyinsulated from all other circuits


Ambient conditions

Climatic rating Climate class 3 acc. to VDI/VDE3540

Variations due to ambienttemperature ± 0.1% / 10 K

0Nominal range of use 0...15...30...45 C(usage group II)for temperature Storage temperature - 40 to + 850 CAnnual meanrelative humidity < 75%


Safety

Protection class IIEnclosure protection IP 40, housing

IP 20, terminalsOvervoltage category IIIInsulation test (versus earth) Input voltage : AC 400 V

Input current : AC 400 VOutput : DC 40 VPower supply : AC 400 VDC 230 V

Surge test 5 KV; 1.2/50 ms; 0.5 WsTest voltages 50 Hz, 1 Min. according to

DIN EN 61 010-15550 V, inputs versus all other circuits as well as outer surface3250 V, input circuits versus each other3700 V, power supply versus outputs and SCI as well as outer surface490 V, outputs and SCI versus each other and versus outer surface

Vibration withstand

(tested according to DIN EN 60 068-2-6)Acceleration ± 2 gFrequency range 10...150 10 Hz, rate of frequency

sweep: 1 octave/minuteNumber of cycles 10 in each of the three axesResult No faults occurred, no loss of


Installation data

Housing HousingT24See Section "Dimensioned drawings”

Housing material Lexan 940 (polycarbonate),flammability class V-0 acc. to UL 94, self-extinguishing, non-dripping, free of halogen

Mounting For snapping onto top-hat rail(35X15 mm or 35X7.5 mm) acc. to EN 50 022 ordirectly onto a wall or panel using the pull-out screw hole brackets

Orientation AnyWeight With supply transformer

approx. 1.1 kgWith AC/DC power packapprox. 0.7 kg

Terminals

Type Screw terminals with wire guardsMax. wire gauge < 4.0 mm single wire or

22 X 2.5 mm fine wire (use Taparia Screw driver-type 902)

Lugs To use flat head lugs with total metal length (J) greater than or equal to 17mm.Lug

2

Table 10 : RISH Ducer MXX, standard version

The two versions of the transducer below with the programming are available AC Aux. & AC/DCAux. basic

Description / Basic programming RISH

Mechanical design: Housing T24 for rail and wallRated frequency: mounting 50 Hz (60 Hz admissible

Power supply: 230 VAC85...230 V DC/AC

Power supply: External connection (standard)Full-scale output signal, output A: Y2 = 20 mAFull-scale output signal, output B: Y2 = 20 mA

Full-scale output signal, output C: Y2 = 20 mA

Full-scale output signal, output D: Y2 = 20 mA

Test certificate: None suppliedProgramming: Basic

See Table 15 : "Ordering information for MXX models" RISH Ducer

N. A.

N. A.

Application: 4-wire,3-phase system,Basic programming

Input voltage: Design value Ur = 400 V

Input current: Design value Ir = 5 Awithout specification of primary ratings

Measured variable, output A: P1; X0= 115.47 W; X2 = 115.47 W #Output signal, output A: DC current Y0 = - 20 mA; Y2 = 20 mA

Linear characteristicStandard limits

Measured variable, output B: P2; X0 = - 115.47; X2 = 115.47 W #Output signal, output B: DC current Y0 = - 20 mA; Y2 = 20 mA


Measured variable, output C: P3; X0 = 115.47 W; X2 = 115.47 W # N. A.Output signal, output C: DC current Y0 = - 20 mA; Y2 = 20 mA


Measured variable, output D: P; X0 = - 346.41; X2 = 346.41 W# N. A.Output signal, output D: DC current Y0 = - 20 mA; Y2 = 20 mA


N. A.Output signal, output E: Limit P; XI = 311.77 W #Output ON if X>XIMin. pick-up delay

N. A.Output signal, output F: Limit Q; XI= 34.64 var #Output ON if X>XIMin. pick-up delay

Measured variable, output G: Limit P1; XI= 115.47 W #Output ON if X> XIMin. pick-up delay

Measured variable, output H: Limit I1; XI = 2 A # Output ON if X> X1Min. pick-up delay

# Other specifications on request contact to Factory

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

asymmetric load(NPS)

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

without additional error,re-programming by user for 16 2/3Hz possible, but with additional error 1.25 c)

N. A.

N. A.

N. A.

N. A.

TransM 42 M 24 M20 M30 M40 M00 M01

Optional Display: N. A. N. A. N. A. N. A. N. A.N. A.N. A.



Meas. input AC current IL1 IL2 IL3

Function Connection

1 / 34 / 67 / 9

25811

Meas. input AC Voltage UL1 UL2 UL3 N

Outputs Analogue Digital

A + B

+

C E D F +

+

G +

H +

Power Supply AC ~~+-

1314

1314

DC

If power supply is taken from the measured voltageinternal connections are as follow:


Single phase AC current

4-wire 3-phase

symmetric load

All other *

2 / 11 (L1 - N)

2 / 11 (L1 - N)

2 /5 (L1 - L2)

Measuring input



15

+

16

-

17

+

18

-

19

+

20

-

21

+

22

-

23

+

24

-

25

+

26

-

1 2 3 4 5 6 7 8 9 10 11 12

IL1 IL1 IL2 IL2 IL3 IL3

NUL3UL2UL1

(+)(-){

RS 232151617181920212223242526

Modbus

M40

M00

M01

23, 24, 25, 26 (RS 485)

15, 16 LON Bus

23, 24, 25, 26 (RS 485)

Table 11 :

Table 12 :

Table 13 :

Table 14 :

7 Segment LED

DISPLAY (96x96)

DISPLAY RS 485

STATUS

POWER ON

FRC Cable

#

# #

#

#

# applicable only for RISH Trans



Measuring input


3-wire

3-phase

symmetric

load

I: L1


Current transformer

L1

L3

Terminals 2 5 8

1

1

3

3

L2

L3

L3

L1

L1

L2

3-wire

3-phase

symmetric

load

Phase-shift

U: L1 - L2

I: L1 Connect the voltage according to the following table for current measurement in L2 or L3:

Current transformer

L2

L3

Terminals 2 5

1

1

3

3

L2

L3

L3

L1

3-wire

3-phase

symmetric

load

Phase-shift

U: L3 - L1

I: L1 Connect the voltage according to the following table for current measurement in L2 or L3:

Current transformer

L2

L3

Terminals 8 2

1

1

3

3

L1

L2

L2

L3

Measuring input


3-wire

3-phase

symmetric

load

Phase-shift

U: L2 - L3

I: L1


Current transformer

L2

L3

Terminals 5 8

1

1

3

3

L3

L1

L1

L2

4-wire

3-phase

symmetric

load

I: L1


Current transformer

L2

L3

Terminals 2 11

1

1

3

3

L2

L3

N

N

3-phase

3-wire

asymmetric

load *

* Contact to factory for complete details



Measuring input


3-phase

3-wire

asymmetric

load *

3 single-pole insulated voltage transformers

in high-voltage system

4-wire

asymmetric

load,

3-phase

Open Y

connection*

Low-voltage system2 single-pole insulated voltage transformers

in high-voltage system

* Contact to factory for complete details


Fig. 5. Active power PF----- , reactive power QF ------,

power factor LF------ .

Output


18

1

123.412

6.5

4.5

15

7

124

1 2 3 4 5 6 7 8 9 10 11 12

15 16 17 18 19 20 21 22 23 24 25 26

87.5

15

0

1 2 3 4 5 6 7 8 9 10 11 12

15 16 17 18 19 20 21 22 23 24 25 26

87.5

15

0

19

16

5

Fig. 6. MXX in housing clipped onto a top-hat rail

(35 X 15 mm or 35 X 7.5 mm, acc. to EN 50 022).

RISH Ducer T24 Fig. 7. in housing T24, screw hole mounting

brackets pulled out.

RISH Ducer MXX

Table 15 : Ordering information for RISH Ducer MXX models (see also Table 10: Standard version)

* Specify separately** Contact Factory for complete details

1. Specify the type of system

2. Rated frequency

3. Power supply


5. Full-scale output signal, output A

DESCRIPTION

(1 phase, 3 phase 3 wire / 3 phase 4 wire / balanced / unbalanced etc.) C.T. / P.T. Ratio

1) 50 Hz (60 Hz possible without additional error; 16 2/3 Hz, additional error 1.25 c) 2) 60 Hz (50 Hz possible without additional error; 16 2/3 Hz, additional error 1.25 c) 3) 16 2/3 Hz (not re-programming by user, 50/60 Hz possible, but with additional error 1.25 c)

1) AC 90 ... 110 V H = 100 V 2) AC 99 ... 121 V H = 110 V 3) AC 207 ... 253 V H = 230 V 4) AC 360 ... 440 V H = 400 V 5) AC 450 ... 550 V H = 500 V 6) AC 623 ... 762 V H = 693 V 7) DC/AC 24 ... 60 V 8) DC/AC 85 ... 230 V

1) External (standard) 2) Internal from voltage input **

1) Output A, Y2 =20 mA (standard) 9) Output A, Y2 [mA] * Z) Output A, Y2 [V] * Line 9: Full-scale current Y2 [mA] 1 to 20 Line Z: Full-scale voltage Y2 [V] 1 to 10

Line 2: Not available for rated frequency 16 2/3 Hz Contact Factory for further details

Nominal range

n

n

n

n

n

n

M42 M24 M20 M30 M40 M00 M01

N. A.

N. A.

N. A.

N. A.

N. A.

N. A.

RISHTrans

Optional Display N. A.N. A.N. A.N. A.N. A.N. A. N. A.

Dimensional Drawing




DESCRIPTION M42 M24

* Specify separately

6. Full-scale output signal, output B 1) Output B, Y2 =20 mA (standard) 9) Output B, Y2 [mA] * Z) Output B, Y2 [V] *

7. Full-scale output signal, output C 1) Output C, Y2 = 20 mA (standard) 9) Output C, Y2 [mA] * Z) Output C, Y2 [V] *

8. Full-scale output signal, output D 1) Output D, Y2 =20 mA (standard) 9) Output D, Y2 [mA] * Z) Output D, Y2 [V] *

N.A.

N.A.N.A.

N.A.

N.A.N.A.

9. Digital Output E Specify output i) Limit control or ii) Pulse output Also specify the parameter and their details separately

N.A.

N.A.

10. Digital Output F Specify output i) Limit control or ii) Pulse output Also specify the parameter and their details separately

N.A.

N.A.

11. Digital Output G Specify output i) Limit control or ii) Pulse output Also specify the parameter and their details separately

12. Digital Output H Specify output i) Limit control or ii) Pulse output Also specify the parameter and their details separately

13. Test certificate 0) None supplied 1) Supplied

14. Programming 0) Basic 9) According to specification Line 0: Not available if the power supply is taken from

M20

N.A.

N.A.N.A.

N.A.

N.A.N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

M30 M40 M00 M01

N.A. N.A.

N.A. N.A.

N.A. N.A.

N.A. N.A.

N.A. N.A.N.A. N.A.

N.A.

N.A.N.A.

N.A.

N.A.N.A.

N.A.

N.A.N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

the voltage input

RISH

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

N.A.

Trans

Data Sheet

RISH Trans Digital Multifunction Instrument with optional display Class 0.5

www.rishabh.co.in Page 1 of 4 Version: E 04 / 01 / 12

Transducer for measuring electrical parameters

Product Features:

Application :


On site programmable PT/CT ratios:It is possible to program primary of external potential Transformer (PT), primary of external Current Transformer (CT) on site locally via RS232 interface or local display (optional) or remotely via MODBUS (RS485).

User selectable CT Secondary 5A/1AThe secondary of external Current Transformer (CT) can be programmed on site to either 6A to 1A locally via Rs232 interface or local display (optional) or remotely via MODBUS (RS485).

User selectable PT SecondaryThe secondary of external potential Transformer (PT) can be programmed on locally via RS232 interface or local display (optional) or remotely via MODBUS (RS485)

User selectable 3 phase 3W or 4WUser can program on site the network connection as either 3 Phase 3 Wire or 4 Wire locally via RS232 interface or local display (optional) or remotely via MODBUS (RS485).

True RMS measurementThe instrument measures distorted waveform up to 15th Harmonic.

Simultaneous display of 3 Parameters

Fast Analog output response(Less then 500ms)Analog output responds for step input within 500ms.

Number of parameters measured: more than 28The instrument measures more than 28 electrical parameters of Phase network.

MODBUS (RS485) OutputThe ModBus output enables the instrument to transmit all the measured parameters over standard MODBUS (RS485).

Configuration of the Instrument via MODBUSThe instrument settings can be configured locally via Rs232 interface or local display (optional) or remotely via MODBUS (RS485).Note: The MODBUS communication parameters can only be set locally via RS232 interface or local display (optional).

Analog Outputs (4 Outputs) 4 Analog outputs can be programmed from a list of input parameters.

Compliance to International Safety standardsCompliance to International Safety standard IEC 61010-1- 2001

Input Voltage:Nominal input voltage (AC RMS) Phase –Neutral 57.7 –400 V L-N

Line-Line 100 – 693V L-L

Max continuous input voltage 1.2 *Un Continuously

Input Current:Nominal input current 1 to 6A AC RMS

(programmable on site)System CT primary values Std. values up to 200kA

(1 or 5 Amp )Max continuous input current 9Amps

Technical Specifications

Rish Trans measures important electrical parameters in 3 phase Network & replaces the multiple analog panel meters. It measures electrical parameters like AC current, Voltage, frequency, Active

Theconfiguration, RS485 interface for on line data collection and optional seven segment LED display.

instrument has 4 analog output, Rs232 interface for on site

Sr No Measured Parameters 3 Phase

4 Wire 3 Phase 3 Wire

1. System Volts P P

2. System Current P P

3. Volts L1 – N P O

4. Volts L2 – N P O

Volts L3 – N P O

6. Volts L1 – L2 P P



9. Current L1 P P

10. Current L2 P P

11. Current L3 P P

12. Frequency P P

13. System Active Power P P

14. Active Power L1 P O



17. System Re-active Power P P

18. Re-active Power L1 P O



21. System Apparent Power P P

22. Apparent Power L1 P O



25. System Active Power Factor (PF) P P

26. Active Power Factor L1 (PF1) P O



29. System Reactive Power Factor (QF) P P

30. Reactive Power Factor L1 (QF1) P O



33. System Load Factor (LF) P P

34. Load Factor (LF1) P O



Operating Measuring RangesVoltage 5… 120% of rated valueCurrent 5 … 150% of rated valueFrequency 46…63 Hz

Measured Parameters

Overload Withstand:Voltage 2 x rated value for 1 second,

repeated 10 times at 10 second Intervals

Current 20x for 1 second, repeated 5 times at 5 min

High brightness 3 line 4 digits LED display (OPTIONAL)

G

A

B


LED INDICATIONS :

STATUS OF INSTRUMENT LED RESPONSE LED COLOUR STATUS LED 1) Power ON self check OK Flashing Green 2) Power ON self check fail Steady Red POWER ON LED Instrument auxiliary supply po wered ON. Steady Red

Analog Output ResponseResponse time to step input Less then 500m sec approx.

Display update rateResponse time to step input 1 sec approx.

Accuracy*Voltage ±0.5% of range (10... 120% of

rated value)Current ±0.5% of range (10... 150% of

rated value)Frequency 0.15% of mid frequencyActive Power ±0.5% of range (50... 150% of a

programmed system power)Apparent Power ±0.5% of range (50... 150% of a

programmed system power)Re-Active Power ±0.5% of range (50... 150% of a

programmed system power)Power Factor 0.5 % of Unity

Reference conditions for AccuracyReference temperature 23°C +/- 2°CInput waveform Sinusoidal, Form factor 1.1107Input frequency 50 or 60 HzAuxiliary supply voltage Rated Value ±1%Auxiliary supply frequency Rated Value ±1%Power Factor Cos Ø =1 (Active Power Factor)

Sin Ø =1(Reactive Power Factor)Influence of VariationsTemperature coefficient : ±0.1% / 10k(for rated value range of use (0…50°C))

Auxiliary SupplyAC / DC Auxiliary Supply 85V – 230V Or 24V – 60V

VA Burden2

Nominal input voltage burden ≤ U /400 K OhmNominal input current burden < 0.5 VA approx. per phaseDC Auxiliary burden Approximately 7 VA (additional

1VA with display).AC Auxiliary burden Approximately 15 VA (additional

2 VA with display).EnvironmentalOperating temperature -10 to +55°CStorage temperature -40 to +85°CRelative humidity 0... 90% non condensingWarm up time Minimum 3 minuteShock ±2g in 3 planesVibration 10... 55 Hz, 0.15mm amplitudeEnclosure Ip40 housing & IP20 terminals

Applicable StandardsEMC IEC 61326Immunity IEC 61000-4-3. 10V/m

min –Level 3 industrial low level

Safety IEC 61010-1-2001 , Permanently connected use

IP for water & dust IEC60529Pollution degree: 2Protection Class II

High Voltage Test 50Hz for 1 minute according to DIN EN61010-15.55kV input circuit /RS 485 / Analog output/Aux supply versus Case.3.25kV between input circuits.3.7kV Aux supply versus analog output/RS 485/ Case490V analog output versus RS 485.

RS485 Interface

Connecting Cable Screened twisted PairMaximum Distance Approx 1200mBaudrate 4800/9600/19200bpsNumber of device 32 Including Master)

(Electrically Isolated from all other circuits)

RS232 Interface

DSUB Socket 9 Pin

(Electrically Isolated from all other circuits)

DISPLAY INTERFACE

7 Segment LED DISPLAY

RS485

Display

RISH Trans

RISH Trans Front

RS232

Ordering information Ordering Code

AC Auxiliary Voltage 85V … 230V AC DC -10% / +10 % H 24V … 60V AC DC -10% / +10 % L

Optional: MODBUS (RS485) output R MODBUS Option not used Z

Optional: Display (Seven Segment LED Display) With Disp lay DP With Out Display Z

Optional: Analog Outputs Current Output I Voltage Output V For Output A A / Full scale Output/I or VFor Output B B / Full scale Output/I or VFor Output C C / Full scale Output/I or VFor Output D D / Full scale Output/I or VAna log Outputs option not used Z


Dimensions

For 3 Phase 4 Wire Unbalanced Load

For 3 Phase 3 Wire Unbalanced Load



Standard Ranges Programmable outputs

0...20mA , -20....0....20 mA,4...20mA

0... 10mA

0.....5mA

0.....2.5mA

Current

0.....1mA

0.....10V ,-10...0....10V

0......5V

0.....2.5V

Voltage

0……1V

Analog Output Options

Order Code Example

RishTrans – H – R – DP – A/20/I - B/10/V - C/20/I -D/20/I

RISH TRANS With Aux 85V…230V AC /DC – RS485 – with Optional Display Analog - Output A with 20mA – Analog Output B with 10V – Analog Output C with 20mA – Analog Output D with 20mA.

L1

L2

L3

N

2 5 8 11 1 3 4 6 7 9 13 14

LL N

AUXSUPPLY

+ -

22 5 8 1 3

LL N

AUXSUPPLY

7 9 13 14

L1

L2

L3

+ -


RISH CON - CA/CV

The transducer RISH CON - CA/CV (Fig.1) converts a sinusoidal AC Current or AC Voltage into a load independent DC Current or a load independent DC Voltage proportional to the measured value.

Product Features :

Arithmetical mean value measurement Calibration to RMS with sine waveform (Average Value)

Accuracy class 0.2 as per International Standard IEC/EN 60 688. Auxiliary Power Supply: 1)40 V-300 V AC/DC. or 2)24 V-60 V AC/DC.


Fast and easy installation on DIN RAIL or onto a wall or in panel using optional screw hole bracket.

Symbols and their meanings:

X = Input AC Voltage / AC Current.

Y = Output DC Voltage / DC Current.

H/L = Power supply.

FN = Nominal Frequency.

RN = Rated value of output burden.

UN = Nominal input voltage.

IN = Nominal input current.

CURRENT / VOLTAGE TRANSDUCER


Page 1Version: B 12/02/2013

Input signal X is separated from the mains network by using a transformer.The signal is rectified and filtered in rectifier unit. The transformation properties of the measuring transducer are determined in the succeeding characteristics circuit.The output amplifiers transforms the measuring signal into an impressed output signal Y. The circuit is supplied with Auxiliary supply H or L.

Measuring Input :AC Current/ Voltage input signal , sine wave.

Auxiliary Power Supply: 1)40 V-300 V AC/DC. or 2)24 V-60 V AC/DC.

Analog Output : Isolated analog output, which can be Voltage or Current.

Accuracy: Output signal accuracy class 0.2 as per International Standard IEC/EN 60 688.

LED Indication: LED indication for power ON.

Output Response Time :< 250 ms.

Fig. 1. .Transducer RISH CON - CA/ CV

YX

H/L

Fig. 2. Block Diagram.

Salient Features :

Mode of Operation :

Application :



Measuring Input X:

Voltage Transducer (RISH CON - CV) :

Final value of Nominal input 63.5V ≤ UN ≤ 500 V.Voltage UN ( X2,AC RMS)

Nominal Frequency FN 50 or 60 Hz.

Nominal input Voltage burden < 0.6 VA at UN.

Overload Capacity: 1. UN continuously, 2 * 2 * 1 second, repeated 10 times at 10 second intervals. UN forCurrent Transducer (RISH CON - CA):

Final value of Nominal input 1 A, 5 A.Current IN (X2,AC RMS)


Nominal input Current burden < 0.2VA at IN. Overload Capacity: IN continuously, 1.2 * 0 * 3 second, repeated 5 times at 5 intervals,1 IN for minute 20 * 1 second, repeated 5 times at 5 intervals IN for minute , 0 * 1 second 5 IN for . Measuring Output Y:

Output type Load independent DC Voltage/Current. Load independent DC output (Y2) Calibration to RMS with sine waveform (Average Value) 0...10mA, 0…20mA, 2...10mA, 4…20mA, 0...5V, 0…10V. Output burden with DC current output 0 ≤ R ≤ 15 V/Y2 Signal


Current limit under overload R=0 ≤ 1.6*Y2 with Current output. ≤ 25 mA with Voltage output. Voltage limit under R=∞ ≤ 1.6*Y2 with Voltage output. ≤ 25 V with Current output.

Residual Ripple in Output signal ≤ 1% pk-pk. Response Time < 250 ms.

Auxiliary Supply H/L:

Rated operating voltage(for high Aux. supply H) 40...300 V AC/DCRated operating range of frequency(for high Aux. supply H) 45...50...60...65 HzPower consumption(for high Aux. supply H) < 4 VARated operating voltage(for low Aux supply L) 24...60 V AC/DC ±10%Rated operating range of frequency(for low Aux. supply L) 40...50...60...400HzPower consumption(for low Aux. supply L) < 3 VA




RISH CON - CA/CV





Accuracy:( Acc. to IEC/EN 60 688)

Reference Value Output End Value Y2 (Voltage or Current) Accuracy class 0.2

X

Y

XY0

X0

Y2

X2

Y

Y0

X0

Y2

X2

Output characteristics:


X2 = End value of input=UN/IN Y2 = End value of output

UN = Nominal input voltage IN = Nominal input current

Ambient temperature 23°C +/- 1°C

Pre-conditioning 30 min acc. to IEC/EN 60 688

Input Variable Rated Voltage Range / Rated Current Range. Input waveform Sinusoidal

Input signal frequency 50....60Hz

Auxiliary supply voltage Rated Value ±1%

Auxiliary supply frequency Rated Value ±1%

Output Load RN = 7.5 V / Y2 ± 1%With DC Current output signal. RN = Y2 / 1 mA ± 1% With DC Voltage output signal.

Miscellaneous Acc. to IEC/EN 60 688 Additional Error :Temperature influence ± 0.2% /10°C

Influence of Variations: As per IEC/EN 60 688 standard.

Reference conditions for Accuracy :

RISH CON - CA/CV





RISH CON - CA/CV

Safety:


Pollution degree 2


Insulation Voltage 50Hz,1min. ( EN 61 010-1) 5500V, Input versus outer surface. 3700V, Input versus all other circuits. 3700V, Auxiliary supply versus input and output circuits. Installation Data:

Mechanical Housing Lexan 940 (polycarbonate) Flammability Class V-0 acc. To UL 94, self extinguishing, non dripping, free of halogen.

Mounting position Rail mounting / wall mounting.


Connection Terminal:

Connection Element Conventional Screw type terminal with indirect wire pressure Permissible cross section of the connection lead ≤ 4.0 mm² single wire or 2 x 2.5 mm² fine wire

Environmental:




Altitude up to 2000 m

Ambient tests:

IEC 60 068-2-6 Vibration

Acceleration ± 2 g Frequency range 10....150...10Hz, Rate of frequency sweep 1 octave/minuteNumber of cycles 10, in each of the three axes

IEC 60 068-2-27 Shock Acceleration 3 x 50g 3 shocks in each in 6 directions

EN 60 068-2-1/-2/-3 Cold, Dry heat, Damp heat

IEC 61 000-4-2/-3/-4/-5/-6EN 55 011 Electromagnetic compatibility.





RISH CON - CA/CV

Measuring input


Measuring output 1 2

5 6

3 4

~~

~ , + ~ , -


+ -

Fig. 3. Connection Diagram.RISH CON - CV/CA

3 4

1 2

Input V / I (X)

~ ~

Output (Y)

+ -

P ON

RISH CON CA

65 ~~+ -

Aux (H/L)

Output (Y)

P ON

RISH CON CA

100.5

106.5

22.5

Note : All Dimensions are in mm.

Fig. 4. Dimensions.RISH CON - CV/CA

Electrical Connections :

Dimensions :





RISH CON - CA/CV

Examples:RISH CON - CV - AVG - 14 - F - V - 01- H RISH CON - CV is Voltage transducer, input range is 0... 500V, output is Voltage with range 0...10V,Power supply is 40...300 V AC/DC.

RISH CON - CA - AVG - 05 - F - I - 02- L RISH CON - CA is Current transducer, input range is 0... 5A, output is Current with range 4...20 mA, Power supply is 24...60 V AC/DC.

RISH CON - CV - AVG - 06 - F - I - 01- LRISH CON - CV is Voltage transducer, input range is 0... 230V, output is Current with range 0...20mA,Power supply is 24...60 V AC/DC.


1RISH CON - CV - AVG

Input Signal

Current

Current RISH CON - CA - AVG

0...230V

0...240V

Standard Ranges :

0...330V

0...440V

0...500V

03

07

09

10

01

Output Ranges

4...20mA

0...10mA

I

03

Input Range :

0...63.5V

0...100V

0...110V

0...220V

0...415V

0...1A

Input Range :

Voltage

Standard Ranges :

01

04

02

05

08

06

0...5A

0...150V

0...250V

0...450V

12

13

0...300V

11

05

14

50/60 Hz

0...20mA 01

2...10mA

Input Signal Frequency

04

02

F

2

01

Output Signal

02

0...10V

0...5V

Voltage

Output Ranges

V

Ordering Information :

3 Power Supply

40...300 V AC/DC

24...60 V AC/DC L

H


RISH CON - CA/CV

The transducer RISH CON - CA/CV (Fig.1) converts a sinusoidal or distorted AC Current or AC Voltage into a load independent DC Current or a load independent DC Voltage proportional to the measured value. Output signal generated is proportional to the root mean square value of the input Current or Voltage.

Salient Features :


Accuracy class 0.2 as per International Standard IEC/EN 60 688. Auxiliary Power Supply: 1)40 V-300 V AC/DC. or 2)24 V-60 V AC/DC.


Fast and easy installation on DIN RAIL or onto a wall or in panel using optional screw hole bracket. Connection Terminal: Conventional Screw type.

Narrow housing, 22.5 mm / saves space and costs.

Symbols and their meanings:

X = Input AC Voltage / AC Current.

Y = Output DC Voltage / DC Current.

H/L = Power supply.

FN = Nominal Frequency.

RN = Rated value of output burden.

UN = Nominal input voltage.

IN = Nominal input current.

TRUE RMS CURRENT / VOLTAGE TRANSDUCER


Page 1Version: D 12/02/2013

Input signal X is separated from the mains network by using a transformer.The following mathematical expression is formed using RMS value computer

Yeff = |√(1/T) ∫X² dt |

The transformation properties of the measuring transducer are determined in the succeeding characteristics circuit.The output amplifiers transforms the measuring signal into an impressed output signal Y.

Measuring Input :AC Current/ Voltage input signal , sine wave or distorted waveform.

Auxiliary Power Supply: 1)40 V-300 V AC/DC. or 2)24 V-60 V AC/DC.

Analog Output : Isolated analog output, which can be Voltage or Current.

Accuracy: Output signal accuracy class 0.2 as per International Standard IEC/EN 60 688.

LED Indication: LED indication for power ON.

Output Response Time :< 250 ms.

Yeff = |√(1/T) ∫X² dt |

Fig. 1. T .ransducer RISH CON - CA/ CV

YX

H/L

Fig. 2. Block Diagram.

0

0

T

T

Application :

Product Features :

Mode of Operation :


Measuring Input X:

Voltage Transducer (RISH CON - CV) :

Final value of Nominal input 63.5V ≤ UN ≤ 500 V. Voltage UN ( X2,AC RMS)


Nominal input Voltage burden < 0.6VA at UN.

Overload Capacity:

1. UN continuously, 2 *

2 * 1 second, repeated 10 times at 10 second intervals.

UN forCurrent Transducer (RISH CON - CA):

Final value of Nominal input

1 A, 5 A.Current IN (X2,ACRMS)


Nominal input Current burden < 0.2VA at IN.

Overload Capacity: IN continuously, 1.2 * 0 * 3 second, repeated 5 times at 5 intervals,

1 IN for minute 20 * 1 second, repeated 5 times at 5 intervals IN for minute , 0 * 1 second 5 IN for . Measuring Output Y:

Output type Load independent DC Voltage/Current. Load independent DC output (Y2) 0...10mA, 0…20mA, 2...10mA, 4…20mA, 0...5V, 0…10V. Output burden with DC current output 0 ≤ R ≤ 15 V/Y2 Signal


Current limit under overload R=0 ≤ 1.6*Y2 with Current output. ≤ 25 mA with Voltage output. Voltage limit under R=∞ ≤ 1.6*Y2 with Voltage output. ≤ 25 V with Current output.

Residual Ripple in Output signal ≤ 1% pk-pk. Response Time < 250 ms.

Auxiliary Supply H:

Rated operating voltage(for high Aux. supply H) 40...300 V AC/DCRated operating range of frequency(for high Aux. supply H) 45...50...60...65 HzPower consumption(for high Aux. supply H) < 4 VA Rated operating voltage(for low Aux supply L) 24...60 V AC/DC ±10%Rated operating range of frequency(for low Aux. supply L) 40...50...60...400 HzPower consumption(for low Aux. supply L) < 3 VA

RISH Ducer VT25 / CT25 TransducerRISH DucT25 Transducer TRUE RMS CURRENT / VOLTAGE TRANSDUCER



RISH CON - CA/CV

Technical Specifications :





Accuracy:( Acc. to IEC/EN 60 688)

Reference Value Output End Value Y2 (Voltage or Current) Accuracy class 0.2

X

Y

XY0

X0

Y2

X2

Y

Y0

X0

Y2

X2

Output characteristics:


X2 = End value of input=UN/IN Y2 = End value of output

UN = Nominal input voltage IN = Nominal input current

Ambient temperature 23°C +/- 1°C

Pre-conditioning 30 min acc. to IEC/EN 60 688

Input Variable Rated Voltage Range / Rated Current Range. Input waveform Sinusoidal, Form Factor 1.1107

Input signal frequency 50....60Hz

Auxiliary supply voltage Rated Value ±1%

Auxiliary supply frequency Rated Value ±1%

Output Load RN = 7.5 V / Y2 ± 1%With DC Current output signal. RN = Y2 / 1 mA ± 1% With DC Voltage output signal.

Miscellaneous Acc. to IEC/EN 60 688 Additional Error :Temperature influence ± 0.2% /10°C

Influence of Variations: As per IEC/EN 60 688 standard.

Reference conditions for Accuracy :

RISH CON - CA/CV





Safety:


Pollution degree 2


Insulation Voltage 50Hz,1min. ( EN 61 010-1) 5500V, Input versus outer surface. 3700V, Input versus all other circuits. 3700V, Auxiliary supply versus input and output circuits. Installation Data:

Mechanical Housing Lexan 940 (polycarbonate) Flammability Class V-0 acc. To UL 94, self extinguishing, non dripping, free of halogen.

Mounting position Rail mounting / wall mounting.


Connection Terminal:

Connection Element Conventional Screw type terminal with indirect wire pressure Permissible cross section of the connection lead ≤ 4.0 mm² single wire or 2 x 2.5 mm² fine wire

Environmental:




Altitude up to 2000 m

Ambient tests:

IEC 60 068-2-6 Vibration

Acceleration ± 2 g Frequency range 10....150...10Hz, Rate of frequency sweep 1 octave/minuteNumber of cycles 10, in each of the three axes

IEC 60 068-2-27 Shock Acceleration 3 x 50g 3 shocks in each in 6 directions

EN 60 068-2-1/-2/-3 Cold, Dry heat, Damp heat

IEC 61 000-4-2/-3/-4/-5/-6EN 55 011 Electromagnetic compatibility.

RISH CON - CA/CV





RISH CON - CA/CV

Measuring input


Measuring output 1 2

5 6

3 4

~~

~ , + ~ , -


+ -

Fig. 3. Connection Diagram.RISH CON - CV/CA

3 4

1 2

Input V / I (X)

~ ~

Output (Y)

+ -

P ON

RISH CON CA

65 ~~+ -

Aux (H/L)

Output (Y)

P ON

RISH CON CA

100.5

106.5

22.5

Note : All Dimensions are in mm.

Fig. 4. Dimensions.RISH CON - CV/CA

Dimensions :

Electrical Connections :





Examples:RISH CON - CV - 14 - F - V - 01- H RISH CON - CV is Voltage transducer, input range is 0... 500V, output is Voltage with range 0...10V,Power supply is 40...300 V AC/DC.

RISH CON - CA - 05 - F - I - 02- LRISH CON - CA is Current transducer, input range is 0... 5A, output is Current with range 4...20 mA, Power supply is 24...60 V AC/DC.

RISH CON - CV - 06 - F - I - 01- LRISH CON - CV is Voltage transducer, input range is 0... 230V, output is Current with range 0...20mA,Power supply is 24...60 V AC/DC.


1RISH CON - CV

Input Signal

Current

Current RISH CON - CA

0...230V

0...240V

Standard Ranges :

0...330V

0...440V

0...500V

03

07

09

10

01

Output Ranges

4...20mA

0...10mA

I

03

Input Range :

0...63.5V

0...100V

0...110V

0...220V

0...415V

0...1A

Input Range :

Voltage

Standard Ranges :

01

04

02

05

08

06

RISH CON - CA/CV

0...5A

0...150V

0...250V

0...450V

12

13

0...300V

11

05

14

50/60 Hz

0...20mA 01

2...10mA

Input Signal Frequency

04

02

F

2

01

Output Signal

02

0...10V

0...5V

Voltage

Output Ranges

V

Ordering Information :

3Power Supply

40...300 V AC/DC

24...60 V AC/DC L

H

Date post:	02-Jun-2020
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