http://www.tecsystem.it
INSTRUCTION MANUAL
TECSYSTEM S.r.l. Via Cristoforo Colombo, 5/C
20094 Corsico (Milan) phone +39 - 02 - 48601011 / 4581861
Fax: +39 - 02 – 48600783
NT538 V4-R1.4 protection relays
TECSYSTEM S.r.l ®
R.0 02/07/04
NT538 MODBUS
INSIDE V4-R1.4
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INNOVATIONS INTRODUCED WITH THE NT538 1. New hardware and software for a further improvement of immunity to disturbances. 2. Reading rate increasing, indispensable for applications where fast temperature
variations must be monitored. 3. Intelligent control of alarm detecting relays which is able to exclude possible
overtemperatures caused by an external disturbance without causing working prob-lems or manual reset conditions.
4. Detecting of possible corruption of data stored in the memory (Ech) and default
value reset for security. 5. Storage in T.Max mode of possible alarms occurred from last reset and recording of
possible sensor failures. 6. Error detecting in case of wrong programming with specific indication of the wrong
value couple. 7. Possibility to return to previous programming step for a faster value modification. 8. Safer programming block which can be activated just through the closing of an inner
jumper. 9. SCAN display mode to see, in sequence, the temperature and the state of the alarms for all channels 10. 8 channels with two programmable thresholds in an independent way. 11. Fan contact to check a cooling system. 12. More compact sizes compared with T538 version1.
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1) TECHNICAL SPECIFICATIONS
POWER SUPPLY • Rated values 24-240 Vac-dc • Highest tolerable values 20-270 Vac-dc • Vdc with reversable polarity Vdc
COMMUNICATION • RS485 MODBUS RTU
INPUTS • 8 inputs RTD Pt100—3 wires • Removable rear terminals • Input channels protected against electro-
magnetic noises and spikes • Sensor length cable compensation up to
500 m (1mm²)
OUTPUTS • 2 alarm relays (ALARM-TRIP) • 1 alarm relay for fan control (FAN) • 1 alarm for sensor fault or working anom-
aly (FAULT) • Outputs contacts capacity: 5A-250V ac
res. TESTS AND PERFORMANCES • Assembling in accordance with CE rules • Protection against electrical noises
CEI-EN50081-2/50082-2 • Dielectric strength 2500 Vac for 1 minute
from relays to sensors, relays to power supply, power supply to sensors
• Accuracy ± 1% full scale value ± 1 digit • Ambient operating temperature from –20
°C to +60°C • Humidity 90% no-condensing • ABS self-extinguishing housing NORYL
94VO • Frontal in polycarbonate IP65 • Absorption 3VA • Data storage 10 years minimum • Digital linearity of sensor signal • Self-diagnosis circuit • Option protection treatment of elec-
tronic part
DISPLAYING AND DATA MANAGEMENT • 1 display 13mm high with 3 digit for dis-
playing temperatures and messages • 8 leds to show selected channel • 4 leds to display the state of the alarms
for selected channel • Temperature monitoring from 0°C to 240°C • 2 alarm thresholds (alarm/trip) for each
channel • 2 ON-OFF thresholds for fan control • Sensors diagnostic (Fcc-Foc) • Data storage diagnostic (Ech) • Programming access through front key • Automatic output from programming cycle
after 1 minute of no-operation • Wrong programming automatic display • Possibility of setting automatic channels
scanning, hottest channel, manual scan-ning
• Maximum reached temperatures, alarm storage and sensor fault.
• Frontal alarm reset push button
DIMENSIONS • 96x96mm-DIN43700– depth140mm
(terminal box included) • Panel cut-out 92x92mm
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2) MOUNTING Make a hole in the panel sheet with dimensions 92x92 mm. Firmly tighten the device with the enclosed fixing blocks. 3) POWER SUPPLY NT538 control device has an UNIVERSAL supply, i.e. it can be indifferently fed from 24 to 240 Vac-dc, regardless of polarities in Vdc. This peculiarity is obtained using a new-concept and new-designed tested feeder, which relieves the technician of each concern for the correct supply Vac or Vdc. To terminal 41 must always be connected the ground. When the control device is directly fed from secondary winding of the transformer to be protected, it can be damaged by high-intensity overvoltages. These problems occur if the main switch is connected without load. Above mentioned problems are much more evident when the voltage is 220 Vac is directly taken from the transformer secondary bars and there is a fixed capacitor battery to phase the transformer itself.
4) ELECTRICAL CONNECTIONS FOR ALARMS AND FAN Carry out the electrical connections on the removable rear terminals, after having removed them from the device. ALARM and TRIP relays switch only when the set temperature limits are reached. FAULT relay (Fault) switches when the meter is fed, while gets de-energised when a fault occurs to Pt100 sensors, data memory fault (Ech) or when supply voltage is lacking. FAN contact can be used to check the cooling fans or it can be inserted in a transformer room conditioning circuit. 5) TEMPERATURE SENSOR CONNECTION Each temperature sensor Pt100 has a white wire and two red wires (CEI 75.8 stardards). Fig. 1 shows the position inside the terminal box of monitoring unit connection cables. Each channel can be independently programmed with two alarm thresholds (alarm and trip).
To protect the control device from line overvoltages, we suggest to use the elec-tronic discharger PT73-220, designed by TECSYSTEM S.r.l. for this specific pur-pose. As alternative we suggest to use supply voltages from 24 Vac or, much better, 24
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6) MEASURING SIGNAL TRANSFER All the measuring signal transfer cables for Pt100 must absolutely: • be separated from the power ones • be made with shielded cable and twisted conductors • have at least 0,5 mm² section • be twisted if there is no shield • be firmly fixed inside the terminal boxes • have tinned or silvered conductors
All “NT” series control devices have the sensor signal linearization, with a maximum error of 1% of full scale value. 7) TEMPERATURE SENSOR DIAGNOSTIC In case of breaking of a temperature sensor mounted on the machine to be protected, FAULT relay immediately switches with the relevant indication of defective sensor on the corresponding channel. • Fcc for short-circuited sensor. • Foc for interrupted sensor To eliminate the message and reset Fault switching, it is necessary to verify Pt100 con-nections and, in case, replace the defective sensor. 8) PROGRAMMED DATA DIAGNOSTIC In case of breaking of the internal storage or corruption of programmed data, just after switching on, it appears Ech indication with the relevant reporting of the Fault contact. In this case, for safety reasons, the default parameters: NCH=8, Alarm Ch1-2-3-4-5-6-7-8= 90°C, Trip Ch1-2-3-4-5-6-7-8= 119°C, Fan= YES, Fan-on= 70°, Fan-off= 60°, HFn= 000 are automatically loaded. Eliminate Ech indication by pressing RESET and run programming to insert desired val-ues. Finally turn off and turn on again the unit to verify the correct memory working; in case it is damaged and Ech still appears, please return the monitoring unit to Tecsystem for re-pair. 9) TEMPERATURE DIAGNOSTIC If one of the temperature sensor detects a temperature higher than 1°C compared to set value as alarm limit, after approximately 5 seconds ALARM relay switches together with turning on of channel reference LED ALARM (CHn). When the release temperature limit is passed, TRIP relay switches together with turning on of channel reference LED TRIP (CHn). As soon as taken temperature returns to equal or lower values than set limit for ALARM and TRIP relays switching, they de-energise with consequent turning off of relevant LED’s.
TECSYSTEM S.r.l. has designed an own special cable to transfer the measur-ing signals, according to CEI stardards, with all the protection requirements provided for : mod. CT-ES
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10) COOLING FAN CONTROL NT538 monitoring unit, if opportunely programmed, can control ON-OFF of transformer fans, according to set temperatures. Fans on machine are driven using the temperatures taken from enabled channels. 11) FAN TEST It is possible, through programming (hFn), to lay down that fans are activated for 5 minutes each “xxx” hours, regardless of column or room temperature values (ex.: with hfn=001 fans are activated for 5 minutes each hour). This function has the aim to periodically verify the working of the fans and their control ap-paratus during long idle periods. Loading 000 value, this function is inhibited. 12) DISPLAY MODE Pressing MODE key, display mode is loaded: • SCAN: control device displays in scansion all activated channels (each 2 seconds) • AUTO: control device automatically displays the hottest channel • MAN: channel temperature manual reading of channel through cursor keys • T.MAX: monitoring unit displays the highest temperature reached by the sensors and
possible alarm or fault situations occurred after last reset. Select channels with !!!! and """", delete values with RESET. 13) WORKING PROGRAM CONTROL To check the programmed temperature values,shortly press PRG key. VIS indication ap-pears for 2 seconds, confirming entering in program vision mode. By repeteadly pressing PRG key, all the previously loaded values are rolled in sequence. After 1 minute of keyboard no-operation, display-programming procedure will be automati-cally left. To end display, press ENT key. 14) LAMP TEST We suggest to regularly carry out monitoring unit LED test. For this operation, shortly press TEST key; all displays turn on for 2 seconds.
If one of the LED’s should not work, we kindly ask you to return the monitoring unit to TECSYSTEM (Led RS is not available on monitoring units without optional module)
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TECSYSTEM S.r.l ® 15) ALARM RELAY TEST This function allows to carry out a test on relays working without having to use further de-vices. To start test procedure you have to keep pressed TEST key for about 5 seconds;TST indi-cation appears for 2 seconds, confirming entering in Relays Test mode. Blinking led shows the relay to test; using the cursors you can select the desired one. Press SET and RESET keys to energise and de-energise the relay to test; display will show ON-OFF. After 1 minute keyboard no-operation, RELAYS TEST procedure will be automatically left. To end RELAYS TEST procedure, press TEST key. 16) ALARM RELAY EXCLUSION If you want to exclude the ALARM signal press RESET key: relay de-energises itself and LED ALARM, which was fixed, will start to blink. Exclusion system is automatically disconnected when the temperature goes under the ALARM threshold. 17) IMPORTANT NOTICE Before carrying out the insulation test on the switchboard where the monitoring unit is mounted, you have to disconnect it from the mains in order to avoid serious dam-ages. 18) FRONT PANEL
Alarm se-lected channel
Display mode
Selected channel
Message and tem-perature display
Prg/RelaysTest mode
Keyboard
Data trans-mission (option)
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TECSYSTEM S.r.l ® 19) PROGRAMMING NOTE: LED PRG-ON OFF:PROGRAM DISPLAY . LED PRG-ON ON: PROGRAM MODIFICATION
1) It is possible to return to previous step by pressing MODE key. 2) if pressing ENT it appears “ERR”, it means that one of the following mistakes has been
made: ALARM ≥≥≥≥ TRIP or FAN-OFF ≥≥≥≥ FAN-ON. Press PRG to return to step 1 and correct the data. 3) After 1 minute of keyboard no-operation, programming is left without data storage.
N° PRESS EFFECT NOTES
1 PRG/SET Keep pressed PRG key until PRG-ON led turns on. After PRG indication, it appears
NCH indication (number of channels)
If NOP appears please see “Programming block” paragraph
2 Load number of desired channels Refer to channel leds (from 1 to 8)
3 PRG/SET It appears ALARM threshold for CH 1
4 Load desired threshold
5 PRG/SET It appears TRIP threshold for CH 1
Follow the same procedure for the number of channels chosen at step 2
6 PRG/SET Fan led blinks
7 Set: YES or NO NO: disabled fan YES: enabled fan
8 PRG/SET Display shows ON FAN turning on
9 PRG/SET It appears ON threshold for FAN
10 Load desired threshold
11 PRG/SET Display shows OFF FAN turning off
13 Load desired threshold
14 PRG/SET Display shows HFN Fan cyclic test for 5 minutes each “n” hours
15 Load desired number of hours 000= disabled function
22 PRG/SET Display shows END Programming end
23 ENT Loaded data storage and programming exit Err(2): wrong programming for values indicated by leds
24 PRG/SET Return to step 1
16 PRG/SET Display shows n.o./n.c. and Alarm led blinks Alarm relay working logic
19 Set n.o. or n.c. n.o.: normally open n.c.: normally closed
17 Set n.o. or n.c. n.o.: normally open n.c.: normally closed
18 PRG/SET Display shows n.o./n.c. and Trip led blinks Trip relay working logic
20 PRG/SET Display shows FCD <> “threshold” Fault for fast temperature increase (°C/sec)
21 Load desired threshold (see page 10)
From “no” up to 30 °C/sec (no: disabled function)
12 PRG/SET It appears OFF threshold for FAN
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20) PROGRAMMING RE-ENABLING IN CASE OF BLOCK (Prg no) If pressing PRG to enter programming (step 1) “NOP” indication appears, it means that programming access jumper inside the unit has been removed and therefore this func-tion is blocked. To reset programming access, mount the jumper as shown in the figure below.
21) WARRANTY “NT” series monitoring units are covered by a 12-month warranty starting from the deliv-ery date on the device itself. This Guarantee is valid if device should be damaged by causes which can be attributed to TECSYSTEM S.r.l., such are manufacturing defects of improper calibration. The warranty is not valid if the monitoring unit would be tampered or if it would be dam-aged by supply voltages beyond the highest working limits (20÷270 Vac-dc). The waranty is not valid if the device would be burnt out by too many transient voltage peaks. In this case TECSYSTEM S.r.l. do not answer for damages caused by faulty or defective monitoring units. All the deliveries (go and back) as well as the repair and ser-vicing costs for the device will be at Customer’s expenses, reckoned according to AN-IMA, Col. C rates. In case of contest may only be institued the Milan court. The warranty is always FREE OUR DOMICILE in CORSICO. 22) EXTENSION CABLE FOR Pt100 TECHNICAL SPECIFICATIONS Cable 20xAWG 20/19 cu/stg Section 0,55 mm² Insulation PVC105 flame-retardant Standards CEI 20.35 IEC 332.1 Max. working temperature : 105°C Structure: 4 terns composed of three numbered wires (1-1-1.........4-4-4) Twisted and coloured wires Red-Red-White Shield in cu/stg Shealth in flame-retardant PVC External Diameter 9,0 mm Standard packaging in skein of 100 m
Enabled program-ming
Disabled pro-gramming
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FAULT DIAGNOSTIC CAUSES AND REMEDIES
Monitoring unit doesn’t turn on, even if there is power supply and the terminals are fed.
Connector not well placed inside its seat. Connec-tion cables are not tightened in the terminal. Burnt out feeder. Take out and give supply again.
One of 8 channels is in FAULT for FOC/FCC
1)Check Pt100 sensor connections: possible de-fective sensor. Replace the damaged sensor. 2)Number of channels programmation different to number of sensors connected. Repeat programmation.
When turning on, indication “ECH” appears.
A strong disturbance damaged the stored data. Please refer to paragraph 8. If this problem should persist, please contact TEC-SYSTEM S.r.l Technical Department.
All the sensors are in FCC. Wrong sensor connections. Terminal box connected inside out. Check connections and terminal box.
Temperature indicated by one or more channel is wrong. Contact TECSYSTEM S.r.l. Technical Department.
Sudden trip of main switch. Temperature is on standard levels. Just a channel caused the trip.
Verify through T.MAX function possible defective sensors. Replace the sensor. Check the measuring signal terminal boxes.
23) NOTES ON FCD FUNCTION NT device series have an innovatory control function combined with the Pt100 probes dynamic state. If a thermometric probe should by chance break down, the defect is highlighted with a fast in-crease of its own resistance and therefore of the temperature recorded by the monitoring device. It’s obvious that this increase is not directly resulting from the power increase of the machine to be protected, whether it is a motor or a dry or encapsulated transformer. Therefore it is necessary to know the state of the probe and send a Fault signal instead of an Alarm signal or, worse still, a Trip signal. In case of temperature control on electrical motors, the fast rise in temperature could be caused by the working with a stalled rotor and not by a defective probe; in this case Fault relay, once energised, makes clear this anomalous condition for motor working. Activating FCD function it is possible to have, on contacts 7-8-9, a Fault signal when temperature recorded by a Pt100 rises with a speed higher than “n” °C/sec (loadable from 1 to 30). According to the loaded value, you can have a different sensitivity which can be useful for differ-ent applications: - from 1 to 10: high sensitivity, for instance useful to immediately detect stalled of a motor rotor. - From 10 to 20: average sensitivity, useful to get information relevant to possible noises which
affect probe reading, connection problems or defective probes. - From 20 to 30: low sensitivity, useful for applications where a higher sensitivity could cause a
fault for unwanted FCD’s. - With “no” FCD function is disabled. When a channel is in Fault for FCD, relevant Alarm and Trip signallings are inhibited in order to report just the anomaly for the too fast rise in temperature. Press Reset to cancel FCD signalling for all the channels and to reset relays fault.
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24) INTRODUCTION TO MODULE BUSMOD-8/A Add-on module BUSMOD-8/A interacts via serial mode through 4 wires with NT935/NT538 monitoring devices and it allows to transfer data on a RS485 network with protocol MODBUS RTU.
25) WORKING NOTES For a correct working of the module, it is necessary to load by SW1 and SW2 the RS485 network setup parameters: address, baud rate, parity bit (pag.22-23). Serial communication between temperature control monitoring device and MODBUS INSIDE is active only when NT935 or NT538 are in temperature control working mode in one of fore-seen modes (Scan, Auto, Man e T.Max). When other fuctions, such as programming, programming display and test relays are acti-vated, serial communication with the add-on module is temporarily disabled.
26) DATA TRANSMISSION ON MODBUS NETWORK MODBUS INSIDE module allows to connect monitoring devices of NT935/NT538 series to a RS485 network with Modbus RTU protocol in order to read data shown on table 36 and to write the ones shown in paragraph 32. The module is always in slave mode. NT-935/538 monitoring devices are connected with the network only when they are in tem-perature reading mode and not when they are in programming, programming display or relay test.
27) RS485 ELECTRICAL CONNECTION As far as the the signal cable to be used to guarantee a correct working of the network is concerned, we suggest to follow what is provided for by EIA RS485 standard which advises the use of a 24AWG loop. The loop connecting all the units in RS485 needs the activation of 120 ohm termination on the last unit of the series (please refer to DIP6 of SW2 at page 22). In order not to affect the line impedance, connect the loop keeping into consideration the polarities and lay the network avoiding to create sharp bends or ring windings. In case of necessity, it is also available the GND dead ground terminal.
28) DATA FRAME Asynchronous transmission frame is composed of: 1 start bit, 8 data bit, 1 parity bit (even or odd, if parity has been loaded, please refer to DIP6 of SW1 at page 14) and 1 stop bit. Allowed baud rate are: 2400, 4800, 9600 e 19200. Where not specified, word length (DATA) is of 16 bit.
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29) DATA PACKET A complete request/answer sequence is composed as follows: Master request: SLAVE ADDRESS - 1 byte FUNCTION CODE - 1 byte DATA - variable, depends on the function code CRC - 2 byte Slave request: SLAVE ADDRESS - 1 byte FUNCTION CODE - 1 byte DATA - variable, depends on the function code CRC - 2 byte
30) FUNCTION CODE BusMod module supports the following function codes: 3(10): - holding register reading 16(10): - multiple registrer writing If BusMod receives a message and the presence of a CRC error is detected, no answer is given.
31) CODE 3(10). Request: Slave address, code 3(10), Starting address HI, Starting address LO, Number of Point HI, Number of Point LO, Crc LO, Crc HI. Answer: Slave address, code 3(10), Byte count, Data HI, Data LO……., Crc LO, Crc HI. In case of a NT-935, registers relevant to channels not present on the unit (channels 5-6-7-8) will always contain value “0”.
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32) CODE 16(10). Request: Slave address, code 16(10), Starting address HI, Starting address LO, Number of Point HI, Number of Point LO, Byte count, Data HI, Data LO……., Crc LO, Crc HI. Answer: Slave address, code 16(10), Starting address HI, Starting address LO, Number of Register HI, Number of register LO, Crc LO, Crc HI. Writable registers are the ones including following data: Alarm, Trip, Fan-on, Fan-off. Therefore possible starting address are: 00-17 for alarm thresholds, 00-25 for Trip thresh-olds, 00-33 for Fan-On thresholds, 00-41 for Fan-Off thresholds and 00-73 for various optio-nals for different kind of temperature monitor units. Number of Point LO is loadable from 1 to 8 (max). If a writing request is sent to an address different from the above mentioned ones, BusMod will answer with an error code 02 (wrong data address). If a writing request for more than 8 registers is sent (Number of point LO), BusMod won’t be able to grant the request and Busmod won’t give any answer; therefore query will go in “timeout”.
33) NOTES FOR REMOTE PROGRAMMING. In case you want to program a NT935 you have to bear in mind that Alarm settings for channels 1-2-3 (registers 00-17, 00-18, 00-19) must have the same values, since the moni-toring device manages them as channels with common thresholds. The same note must be kept into consideration for Trip thresholds (registers 0025-, 00-26, 00-27). Fan on thresholds (registers 00-33, 00-34, 00-35, 00-36, 00-37, 00-38, 00-39, 00-40) must all be loaded with the same value. Fan off thresholds (registers 00-41, 00-42, 00-43, 00-44, 00-45, 00-46, 00-47, 00-48) must all be loaded with the same value. In case of a NT-935, registers relevant to channels not present on the unit (ch 5-6-7-8) must not be written and will always contain value “0”, since not used by the monitoring unit. Also in programming remote phase via modbus you must take into consideration that Alarm thresholds must be lower than Trip thresholds and that Fan-on thresholds must be higher than Fan-off thresholds. In case you try to set these thresholds in a wrong way, NT935/538 monitoring unit won’t go on with data programming and storage; therefore, in the future readouts you will read data relevant to previous programming. After having sent a writing request, monitoring unit will take approximately 1 second to store the data in eeprom; during storage phase Busmod won’t be able to process other requests.
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34) ERROR CODES (exception code). In case of wrong request, BusMod will answer with modified codes and coded errors as follows: 1: - Non-supported function code 2: - Wrong data address 3: - Wrong Data (ex. length)
35) POLLING FREQUENCY. Time limit to answer a call is never higher than a second; therefore we suggest not to use polling frequencies with a lower duration.
36) MODBUS MAPPING TABLE
Address HI (10)
Address LO (10)
Data HI Data LO Primary tables Notes
00 01 00 Temperature Ch1
Holding register
00 02 00 Temperature Ch2
Holding register
00 03 00 Temperature Ch3
Holding register
00 04 00 Temperature Ch4
Holding register
00 05 00 Temperature Ch5
Holding register
(just for 8-channel ver-sions, also for next “state” variable)
00 06 00 Temperature Ch6
Holding register
00 07 00 Temperature Ch7
Holding register
00 08 00 Temperature Ch8
Holding register
Range 0-240° Offset 10(10)
10=0°C 11=1°C 12=2°C ………. ……….
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Address HI (10)
Address LO (10)
Data HI Data LO Primary tables Notes
00 09 00 State Ch1 Holding register
Bit 7: Flag Trip
00 10 00 State Ch2 Holding register
Bit 6: Flag Alarm
00 11 00 State Ch3 Holding register
Bit 5: Flag Fan
00 12 00 State Ch4 Holding register
Bit 4: don't used
00 13 00 State Ch5 Holding register
Bit 3: Flag Foc
00 14 00 State Ch6 Holding register
Bit 2: Flag Fcc
00 15 00 State Ch7 Holding register
Bit 1: Flag Fan function en-abled
00 16 00 State Ch8 Holding register
Bit 0: Flag channel enabled
00 17 00 Alarm Set-point Ch1
Holding register
00 18 00 Alarm Set-point Ch2
Holding register
00 19 00 Alarm Set-point Ch3
Holding register
00 20 00 Alarm Set-point Ch4
Holding register
00 21 00 Alarm Set-point Ch5
Holding register
(just for 8-channel ver-sions)
00 22 00 Alarm Set-point Ch6
Holding register
00 23 00 Alarm Set-point Ch7
Holding register
00 24 00 Alarm Set-point Ch8
Holding register
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Address HI (10)
Address LO (10)
Data HI Data LO Primary tables Notes
00 25 00 Trip Set-point Ch1
Holding register
00 26 00 Trip Set-point Ch2
Holding register
00 27 00 Trip Set-point Ch3
Holding register
00 28 00 Trip Set-point Ch4
Holding register
00 29 00 Trip Set-point Ch5
Holding register
(just for 8-channel ver-sions)
00 30 00 Trip Set-point Ch6
Holding register
00 31 00 Trip Set-point Ch7
Holding register
00 32 00 Trip Set-point Ch8
Holding register
00 33 00 Fan-On Set-point Ch1
Holding register
00 34 00 Fan-On Set-point Ch2
Holding register
00 35 00 Fan-On Set-point Ch3
Holding register
00 36 00 Fan-On Set-point Ch4
Holding register
00 37 00 Fan-On Set-point Ch5
Holding register
00 38 00 Fan-On Set-point Ch6
Holding register
00 39 00 Fan-On Set-point Ch7
Holding register
00 40 00 Fan-On Set-point Ch8
Holding register
(just for 8-channel ver-sions)
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Address HI (10)
Address LO (10)
Data HI Data LO Primary tables Notes
00 41 00 Fan-Off Set-point Ch1
Holding register
00 42 00 Fan-Off Set-point Ch2
Holding register
00 43 00 Fan-Off Set-point Ch3
Holding register
00 44 00 Fan-Off Set-point Ch4
Holding register
00 45 00 Fan-Off Set-point Ch5
Holding register
00 46 00 Fan-Off Set-point Ch6
Holding register
00 47 00 Fan-Off Set-point Ch7
Holding register
00 48 00 Fan-Off Set-point Ch8
Holding register
00 49 00 Tmax Ch1 Holding register
Range 0-240°
Offset 10(10) 10=0°C 11=1°C 12=2°C ……….
……….
00 50 00 Tmax Ch2 Holding register
00 51 00 Tmax Ch3 Holding register
00 52 00 Tmax Ch4 Holding register
00 53 00 Tmax Ch5 Holding register
(just for 8-channel ver-sions, also for next “Mem_All” variable)
00 54 00 Tmax Ch6 Holding register
00 55 00 Tmax Ch7 Holding register
00 56 00 Tmax Ch8 Holding register
(just for 8-channel ver-sions)
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Address HI (10)
Address LO (10)
Data HI Data LO Primary tables Notes
00 57 00 Mem. All Ch1 Holding register
Bit 7: Trip memory flag
00 58 00 Mem. All Ch2 Holding register
Bit 6: Alarm memory flag
00 59 00 Mem. All Ch3 Holding register
Bit 5: Fan memory Flag
00 60 00 Mem. All Ch4 Holding register
Bit 4: don't used
00 61 00 Mem. All Ch5 Holding register
Bit 3: Foc memory flag
00 62 00 Mem. All Ch6 Holding register
Bit 2: Fcc memory flag
00 63 00 Mem. All Ch7 Holding register
Bit 1: don't used
00 64 00 Mem. All Ch8 Holding register
Bit 0: don't used
00 65 00 General Flag Holding register
B0:sign -, B1:reset_all, B2:fan cycle
00 66 00 (system data) Holding register (system data)
00 67 00 Num_Ch Holding register
Number of enabled channel
00 68 00 (system data) Holding register (system data)
00 69 00 Prg_Hfan Holding register
Hours for fan test cycle
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Address HI (10)
Address LO (10)
Data HI Data LO Primary tables Notes
00 70 00
Byte Special Function
(just for 8-channel ver-
sion)
Bit 7: don't used
Bit 6: don't used
Bit 5: don't used
Bit 4: don't used
Bit 3: don't used
00 71 00 SET_FCD Holding register 000: disabled
00 72 00 FAULT FCD Holding register
Bit7= Ch8 Bit0= Ch1
00 73 00 Fan2-ON Ch1 Holding register Only x NT935
00 74 00 Fan2-ON Ch2 Holding register Only x NT935
00 75 00 Fan2-ON Ch3 Holding register Only x NT935
00 76 00 Fan2-ON Ch4 Holding register
00 77 00 Fan2-OFF Ch1
Holding register
00 78 00 Fan2-OFF Ch2
Holding register
Holding register
Bit 2: don't used
Bit 1: Flag Fail-safe (N.C) Trip Bit 0: Flag Fail-safe (N.C) Alarm
Only x NT935
Only x NT935
Only x NT935
00 79 00 Fan2-OFF Ch3
Holding register Only x NT935
00 80 00 Fan2-OFF Ch4
Holding register Only x NT935
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37) CRC CALCULATION This protocol includes 2 byte CRC-16 for each transmission. The typical polynomial (11000000000000101B) is used for calculation and the result is «hung» at the end of the packet. The polynomial is used in reverse order with the most significant bit suppressed because not useful for calculation.
38) PARAMETER DESCRIPTION A - 16bit register AL - At low side AH - At high side i,j, - KWH METERS (+) - EXCLUSIVE OR Di - Frame data «i»th of the packet N - number of byte of the del packet excluded 2 belonging to CRC G - Polynomial : 1010-0000-0000-0001 shr - right shift
39) ALGORITHM 1) 0xFFFF -> A 2) 0 -> i 3) 0 -> j 4) Di (+) AL -> AL 5) j +1 -> j 6) shr A 7) if carry then G (+) A -> A 8) if NOT j=8 then goto 5 9) i +1 -> i 10) if NOT i = N then goto 3 11) A -> in CRC (result is in the order L,H)
40) NETWORK PARAMETERS PROGRAMMING In order to configure the connection with RS485 ModBus-RTU network you have to set some parameters through SW1 and SW2 dip-switch settings. A) Trigger “programming” mode by setting on 1 (on) DIP-5 of SW2 B) Choose the unit “address” (from 1 to 32) using SW1 according to the combinations
shown on the table at Page 23 C) Choose the required “baud rate” (2400-3800-9600-19200) using DIP-1 and DIP-2 of
SW2 as shown on the table at Page 22 D) Select desired parity bit settings (none-even-odd) through DIP-3 and DIP-4 combina-
tions of SW2. E) Release the 120-ohm terminating, activating DIP-6 of SW1 if necessary. F) Finally reposition on 0 (off) DIP-5 of SW2 to confirm new setting programming. The module will return in “run” mode.
21 NT538 V4-R1.4 protection relays
TECSYSTEM S.r.l ®
NT538 ELECTRICAL CONNECTIONS
13 14 15 16 17 18 19 20 21 22 23 24
CH 1 CH 2 CH 3 CH 4
1 2 3 4 5 6 7 8 9 10 11
Pt100 INPUTS
ALARM RELAY OUTPUTS
40
41
42 POWER SUPPLY 24-240 VAC-VDC WHITE
RED
RED
Pt100
FIG.1
ALARM TRIP FAULT FAN
25 26 27 28 29 30 31 32 33 34 35 36
CH 5 CH 6 CH 7 CH 8
62
61
60 GND
-
+
MODBUS OUTPUT RS485 NT935 / NT538
22 NT538 V4-R1.4 protection relays
TECSYSTEM S.r.l ®
DIP SWITCH SETTING
SWITCH NT935 / NT538
Baud Rate (bit/sec) Dip-1 Dip-2
2400 0 0 4800 0 1 9600 1 0
19200 1 1
Parity Dip-3 Dip-4 None 0 0 / 1 Even 1 1 Odd 1 0
Term. 120Ω Dip-6 Disable 0 Enable 1
SW1
SW2 1
23
45
67
8
23 NT538 V4-R1.4 protection relays
TECSYSTEM S.r.l ®
1 2 3 4 5 6 7 8
1: Bit 7
2: Bit 6
3: Bit 5
4: Bit 4
5: Bit 3
6: Bit 2
7: Bit 1
8: Bit 0
SW1: ADDRESS BIT
Address 1: B7 2: B6 3: B5 4: B4 5: B3 6: B2 7: B1 8: B0
1 0 0 0 0 0 0 0 1 2 0 0 0 0 0 0 1 0 3 0 0 0 0 0 0 1 1 4 0 0 0 0 0 1 0 0 5 0 0 0 0 0 1 0 1 6 0 0 0 0 0 1 1 0 7 0 0 0 0 0 1 1 1 8 0 0 0 0 1 0 0 0 9 0 0 0 0 1 0 0 1 10 0 0 0 0 1 0 1 0 11 0 0 0 0 1 0 1 1 12 0 0 0 0 1 1 0 0 13 0 0 0 0 1 1 0 1 14 0 0 0 0 1 1 1 0 15 0 0 0 0 1 1 1 1 16 0 0 0 1 0 0 0 0 17 0 0 0 1 0 0 0 1 18 0 0 0 1 0 0 1 0 19 0 0 0 1 0 0 1 1 20 0 0 0 1 0 1 0 0 21 0 0 0 1 0 1 0 1 22 0 0 0 1 0 1 1 0 23 0 0 0 1 0 1 1 1 24 0 0 0 1 1 0 0 0 25 0 0 0 1 1 0 0 1 26 0 0 0 1 1 0 1 0 27 0 0 0 1 1 0 1 1 28 0 0 0 1 1 1 0 0 29 0 0 0 1 1 1 0 1 30 0 0 0 1 1 1 1 0 31 0 0 0 1 1 1 1 1 32 0 0 1 0 0 0 0 0
24 NT538 V4-R1.4 protection relays
TECSYSTEM S.r.l ®
TEST DECLARATION FOR NT538
Delivery date: ……………
N° Description
1 Mounting card check
2 Input working check
3 Relay contacts and output check
4 Push-button working check
5 Check lamp
6 Calibration at 0 and 200°C
7 Software working check
8 Burn-in min. 24h
This device has passed a test at the origin, according to the following procedure: