Pa

ge

1P

ag

e 1

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

Th

is g

uid

e g

ive

s th

e in

form

atio

n n

ece

ssa

ry fo

r yo

u to

op

era

te a

La

nd

ma

rk T

ech

nic

Sig

na

l Pro

ce

sso

r. Info

rma

tion

reg

ard

ing

insta

llatio

n is

co

nta

ine

d w

ithin

the

Insta

llatio

n

Gu

ide

. Mo

re d

eta

iled

info

rma

tion

reg

ard

ing

se

rvic

ing

, rep

air a

nd

ca

libra

tion

of th

e

pro

ce

sso

r is c

on

tain

ed

in th

e S

erv

ice

Ma

nu

al.

1.2

Ab

ou

t the

La

nd

ma

rk T

ec

hn

ic P

roc

es

so

r

Th

e L

an

dm

ark

Te

ch

nic

Sig

na

l Pro

ce

sso

r pro

vid

es a

n a

ccu

rate

sig

na

l pro

ce

ssin

g u

nit

for a

sin

gle

LA

ND

Syste

m 4

the

rmo

me

ter. F

ea

ture

s in

clu

de

:

•D

IN ra

il mo

un

ting

ca

se

•A

ve

rag

er, P

ea

k P

icke

r an

d T

rack a

nd

Ho

ld, fo

r sig

na

l pro

ce

ssin

g

•R

em

ote

inp

ut fo

r Tra

ck a

nd

Ho

ld, C

on

trol, P

ea

k P

icke

r Re

se

t

•E

mis

siv

ity/N

on

-gre

yn

ess

•A

larm

ou

tpu

t

•R

etra

nsm

issio

n o

f the

the

rmo

me

ter s

ign

al o

utp

ut.

Se

tting

up

of th

e p

roce

sso

r is p

erfo

rme

d u

sin

g a

PC

an

d c

on

figu

ratio

n s

oftw

are

(se

e

Se

ctio

n 4

).

1.3

Un

pa

ck

ing

the

pro

ce

ss

or

Th

e p

acka

ge

co

nta

inin

g th

e p

roce

sso

r will c

on

tain

the

follo

win

g ite

ms:

•E

nve

lop

e c

on

tain

ing

this

Use

r Gu

ide

•In

sta

llatio

n G

uid

e

•A

La

nd

ma

rk T

ech

nic

Sig

na

l Pro

ce

sso

r

•C

on

figu

ratio

n s

oftw

are

on

CD

an

d c

ab

le

1.4

No

me

nc

latu

re

Th

e p

roce

sso

r is id

en

tified

as th

e L

an

dm

ark

Te

ch

nic

(LM

Te

ch

nic

) sig

na

l pro

ce

sso

r.

1.0

INT

RO

DU

CT

ION

1.1

Ab

ou

t this

gu

ide

Th

is g

uid

e g

ive

s th

e in

form

atio

n n

ece

ssa

ry fo

r yo

u to

op

era

te a

La

nd

ma

rk T

ech

nic

Sig

na

l Pro

ce

sso

r. Info

rma

tion

reg

ard

ing

insta

llatio

n is

co

nta

ine

d w

ithin

the

Insta

llatio

n

Gu

ide

. Mo

re d

eta

iled

info

rma

tion

reg

ard

ing

se

rvic

ing

, rep

air a

nd

ca

libra

tion

of th

e

pro

ce

sso

r is c

on

tain

ed

in th

e S

erv

ice

Ma

nu

al.

1.2

Ab

ou

t the

La

nd

ma

rk T

ec

hn

ic P

roc

es

so

r

Th

e L

an

dm

ark

Te

ch

nic

Sig

na

l Pro

ce

sso

r pro

vid

es a

n a

ccu

rate

sig

na

l pro

ce

ssin

g u

nit

for a

sin

gle

LA

ND

Syste

m 4

the

rmo

me

ter. F

ea

ture

s in

clu

de

:

•D

IN ra

il mo

un

ting

ca

se

•A

ve

rag

er, P

ea

k P

icke

r an

d T

rack a

nd

Ho

ld, fo

r sig

na

l pro

ce

ssin

g

•R

em

ote

inp

ut fo

r Tra

ck a

nd

Ho

ld, C

on

trol, P

ea

k P

icke

r Re

se

t

•E

mis

siv

ity/N

on

-gre

yn

ess

•A

larm

ou

tpu

t

•R

etra

nsm

issio

n o

f the

the

rmo

me

ter s

ign

al o

utp

ut.

Se

tting

up

of th

e p

roce

sso

r is p

erfo

rme

d u

sin

g a

PC

an

d c

on

figu

ratio

n s

oftw

are

(se

e

Se

ctio

n 4

).

1.3

Un

pa

ck

ing

the

pro

ce

ss

or

Th

e p

acka

ge

co

nta

inin

g th

e p

roce

sso

r will c

on

tain

the

follo

win

g ite

ms:

•E

nve

lop

e c

on

tain

ing

this

Use

r Gu

ide

•In

sta

llatio

n G

uid

e

•A

La

nd

ma

rk T

ech

nic

Sig

na

l Pro

ce

sso

r

•C

on

figu

ratio

n s

oftw

are

on

CD

an

d c

ab

le

1.4

No

me

nc

latu

re

Th

e p

roce

sso

r is id

en

tified

as th

e L

an

dm

ark

Te

ch

nic

(LM

Te

ch

nic

) sig

na

l pro

ce

sso

r.

1.0

INT

RO

DU

CT

ION

1.1

Ab

ou

t this

gu

ide

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

2P

ag

e 2

Fig. 2 LM Technic - Functional Block Diagram

alarm

averager

peak picker

track / holdemissivity

command

input

config.

serial i/o

alarm output

current output

LMT010078

no time function

output scaling

RS232

S4thermometer

Fig. 2 LM Technic - Functional Block Diagram

alarm

averager

peak picker

track / holdemissivity

command

input

config.

serial i/o

alarm output

current output

LMT010078

no time function

output scaling

RS232

S4thermometer

Pa

ge

3P

ag

e 3

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

2.0

SP

EC

IFIC

AT

ION

Input/o

utp

ut a

ccura

cy:

<0.1

% o

f span

Input/o

utp

ut d

rift:<

0.1

% o

f span/°C

Quantis

atio

n:

16 b

it

Sam

plin

g:

10m

s

Sig

nal re

transm

issio

n ra

nge:

Adju

sta

ble

over th

erm

om

ete

r span (m

in 1

00°)

Sig

nal re

transm

issio

n c

urre

nt:

0 to

20m

A/4

to 2

0m

A

Sig

nal u

pdate

rate

:10m

s

Curre

nt o

utp

ut lo

ad in

c. c

able

:500 o

hm

s

Em

issiv

ity s

ettin

g:

0.2

00 to

1.0

00 in

0.0

01 s

teps

Non-g

reyness s

ettin

g:

0.8

00 to

1.2

50 in

0.0

01 s

teps

Avera

ger a

dju

stm

ent ra

nge:

50m

s to

512s (6

3%

) in 1

5 s

teps

Peak P

icker d

ecay

range:

0.2

5°/s

to 5

12°/s

in 1

2 s

teps

thre

shold

:1° s

teps

on

dela

y:

0 to

10s in

0.1

s s

teps

off d

ela

y:

0 to

10s in

0.1

s s

teps

reset m

ode:

Hold

/reset

Tra

ck/H

old

:C

ontro

lled b

y e

xte

rnal c

onta

ct c

losure

/5 to

24V

d.c

.

Tra

ck/H

old

response tim

e:

10m

s

Ala

rm:

Hi/L

o

Trip

level:

1° s

teps

Rela

y:

50V

d.c

. at 0

.1A

Config

ura

tion:

Para

mete

rs s

et b

y c

onfig

ura

tion p

ort**

Config

ura

tion p

ort:

RS

232 9

600 b

aud fix

ed

PS

U*:

30V

to 5

0V

d.c

. at 3

00m

A (in

clu

din

g th

erm

om

ete

r)

24V

to 3

4V

a.c

. rms

Enviro

nm

ent:

Vib

ratio

n:

1g a

ny a

xis

, 10

to 3

00

Hz

Hum

idity

:0

to 9

9%

non

con

den

sin

g

Sealin

g:

IP20

Am

bie

nt:

5 to

50°C

/41 to

122°F

in s

pecific

atio

n

EM

C:

EN

61326

* LA

ND

DP

U re

com

mended

** LA

ND

Config

ura

tion s

oftw

are

recom

mended

2.0

SP

EC

IFIC

AT

ION

Input/o

utp

ut a

ccura

cy:

<0.1

% o

f span

Input/o

utp

ut d

rift:<

0.1

% o

f span/°C

Quantis

atio

n:

16 b

it

Sam

plin

g:

10m

s

Sig

nal re

transm

issio

n ra

nge:

Adju

sta

ble

over th

erm

om

ete

r span (m

in 1

00°)

Sig

nal re

transm

issio

n c

urre

nt:

0 to

20m

A/4

to 2

0m

A

Sig

nal u

pdate

rate

:10m

s

Curre

nt o

utp

ut lo

ad in

c. c

able

:500 o

hm

s

Em

issiv

ity s

ettin

g:

0.2

00 to

1.0

00 in

0.0

01 s

teps

Non-g

reyness s

ettin

g:

0.8

00 to

1.2

50 in

0.0

01 s

teps

Avera

ger a

dju

stm

ent ra

nge:

50m

s to

512s (6

3%

) in 1

5 s

teps

Peak P

icker d

ecay

range:

0.2

5°/s

to 5

12°/s

in 1

2 s

teps

thre

shold

:1° s

teps

on

dela

y:

0 to

10s in

0.1

s s

teps

off d

ela

y:

0 to

10s in

0.1

s s

teps

reset m

ode:

Hold

/reset

Tra

ck/H

old

:C

ontro

lled b

y e

xte

rnal c

onta

ct c

losure

/5 to

24V

d.c

.

Tra

ck/H

old

response tim

e:

10m

s

Ala

rm:

Hi/L

o

Trip

level:

1° s

teps

Rela

y:

50V

d.c

. at 0

.1A

Config

ura

tion:

Para

mete

rs s

et b

y c

onfig

ura

tion p

ort**

Config

ura

tion p

ort:

RS

232 9

600 b

aud fix

ed

PS

U*:

30V

to 5

0V

d.c

. at 3

00m

A (in

clu

din

g th

erm

om

ete

r)

24V

to 3

4V

a.c

. rms

Enviro

nm

ent:

Vib

ratio

n:

1g a

ny a

xis

, 10

to 3

00

Hz

Hum

idity

:0

to 9

9%

non

con

den

sin

g

Sealin

g:

IP20

Am

bie

nt:

5 to

50°C

/41 to

122°F

in s

pecific

atio

n

EM

C:

EN

61326

* LA

ND

DP

U re

com

mended

** LA

ND

Config

ura

tion s

oftw

are

recom

mended

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

4P

ag

e 4

3.0

INS

TA

LL

AT

ION

AN

D R

EM

OV

AL

3.1

Fittin

g th

e u

nit o

nto

a D

IN ra

il

Th

e L

M T

ech

nic

pro

ce

sso

r is d

esig

ne

d to

be

mo

un

ted

on

to a

sta

nd

ard

DIN

rail. T

o

insta

ll the

un

it:-

1)

En

su

re th

at a

su

itab

le D

IN ra

il (DIN

EN

50

02

2) is

ava

ilab

le a

nd

insta

lled

co

rrectly

(refe

r to A

pp

en

dix

).

2)

Re

fer to

Fig

. 3. R

est th

e u

pp

erm

ost g

roo

ve

on

the

rea

r of th

e p

roce

sso

r

on

the

top

lip o

f the

DIN

rail.

3)

Pu

sh

the

bo

ttom

of th

e u

nit s

o th

at th

e s

lidin

g s

prin

g c

atc

h c

lips o

nto

the

DIN

rail.

3.2

Re

mo

vin

g th

e u

nit fro

m a

DIN

rail

1)

Re

fer to

Fig

. 4. In

se

rt a s

cre

wd

rive

r into

the

slid

ing

sp

ring

ca

tch

via

the

slo

t

on

the

un

de

rsid

e o

f the

un

it.

2)

Le

ve

r the

slid

ing

sp

ring

ca

tch

do

wn

wa

rds s

o th

at it d

ise

ng

ag

es fro

m th

e

DIN

rail.

3)

Lift th

e p

roce

sso

r off th

e D

IN ra

il.

3.3

Ele

ctric

al c

on

ne

ctio

ns

Th

e L

M T

ech

nic

pro

ce

sso

r is d

esig

ne

d to

be

use

d in

co

nju

nctio

n w

ith th

e L

an

d D

PU

Po

we

r Su

pp

ly U

nit.

Th

e L

MT

to D

PU

wirin

g in

terc

on

ne

ctio

ns a

re g

ive

n in

Fig

. 5 (o

ve

rlea

f).

Th

e L

MT

wirin

g s

ch

ed

ule

is g

ive

n in

Ta

ble

1 (P

ag

e 7

).

Th

e D

PU

wirin

g s

ch

ed

ule

is g

ive

n in

Ta

ble

2 (P

ag

e 7

).

Co

nn

ectio

ns to

the

co

nfig

ura

tion

po

rt are

giv

en

in T

ab

le 3

- Ap

pe

nd

ix B

(Pa

ge

22

).

3.0

INS

TA

LL

AT

ION

AN

D R

EM

OV

AL

3.1

Fittin

g th

e u

nit o

nto

a D

IN ra

il

Th

e L

M T

ech

nic

pro

ce

sso

r is d

esig

ne

d to

be

mo

un

ted

on

to a

sta

nd

ard

DIN

rail. T

o

insta

ll the

un

it:-

1)

En

su

re th

at a

su

itab

le D

IN ra

il (DIN

EN

50

02

2) is

ava

ilab

le a

nd

insta

lled

co

rrectly

(refe

r to A

pp

en

dix

).

2)

Re

fer to

Fig

. 3. R

est th

e u

pp

erm

ost g

roo

ve

on

the

rea

r of th

e p

roce

sso

r

on

the

top

lip o

f the

DIN

rail.

3)

Pu

sh

the

bo

ttom

of th

e u

nit s

o th

at th

e s

lidin

g s

prin

g c

atc

h c

lips o

nto

the

DIN

rail.

3.2

Re

mo

vin

g th

e u

nit fro

m a

DIN

rail

1)

Re

fer to

Fig

. 4. In

se

rt a s

cre

wd

rive

r into

the

slid

ing

sp

ring

ca

tch

via

the

slo

t

on

the

un

de

rsid

e o

f the

un

it.

2)

Le

ve

r the

slid

ing

sp

ring

ca

tch

do

wn

wa

rds s

o th

at it d

ise

ng

ag

es fro

m th

e

DIN

rail.

3)

Lift th

e p

roce

sso

r off th

e D

IN ra

il.

3.3

Ele

ctric

al c

on

ne

ctio

ns

Th

e L

M T

ech

nic

pro

ce

sso

r is d

esig

ne

d to

be

use

d in

co

nju

nctio

n w

ith th

e L

an

d D

PU

Po

we

r Su

pp

ly U

nit.

Th

e L

MT

to D

PU

wirin

g in

terc

on

ne

ctio

ns a

re g

ive

n in

Fig

. 5 (o

ve

rlea

f).

Th

e L

MT

wirin

g s

ch

ed

ule

is g

ive

n in

Ta

ble

1 (P

ag

e 7

).

Th

e D

PU

wirin

g s

ch

ed

ule

is g

ive

n in

Ta

ble

2 (P

ag

e 7

).

Co

nn

ectio

ns to

the

co

nfig

ura

tion

po

rt are

giv

en

in T

ab

le 3

- Ap

pe

nd

ix B

(Pa

ge

22

).

Pa

ge

5P

ag

e 5

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

Fig

. 4 R

em

ovin

g th

e L

M T

ech

nic

from

a D

IN ra

il

Fig

. 3 In

sta

lling

the

LM

Te

ch

nic

on

to a

DIN

rail

ScrewdriverLMT010066

Us

e s

cre

wd

rive

rto

un

clip

the

sp

ring

latc

h

DIN

rail

Slid

ing s

prin

g ca

tch

Clip

onto

DIN

rail

LMT010065

Fig

. 4 R

em

ovin

g th

e L

M T

ech

nic

from

a D

IN ra

il

Fig

. 3 In

sta

lling

the

LM

Te

ch

nic

on

to a

DIN

rail

ScrewdriverLMT010066

Us

e s

cre

wd

rive

rto

un

clip

the

sp

ring

latc

h

DIN

rail

Slid

ing s

prin

g c

atc

h

Clip

onto

DIN

rail

LMT010065

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

6P

ag

e 6

Fig

. 5 L

M T

ech

nic

an

d D

PU

inte

rco

nn

ectio

ns

Fig

. 5 L

M T

ech

nic

an

d D

PU

inte

rco

nn

ectio

ns

LM

T0100

67

GB

KR

WB

LY

AB

TECHNIC

LN

11

1213

1415

16

12

34

56

78

Liv

e

Ne

utra

l

NO

TE

:T

he L

M T

echnic

pro

cesso

r is d

esig

ned to

work w

ith a

n a

.c.

or d

.c. pow

er su

pply, m

akin

g p

ins 1

6 &

17 o

n th

e p

rocesso

rin

terch

an

ge

able

. The

ou

tput o

f the D

PU

po

we

r sup

ply

ispola

rised, w

ith p

in 8

the p

ositive

and p

in 1

6 th

e n

egativ

e.

(Pig

tails

Ma

ximum

Le

ng

th =

30

mm

)

6 C

ore

Sc

ree

ne

d C

ab

le to

IRT

Pro

ces

so

r

Su

pply

(-)

Ala

rm

Pro

ce

sso

r

Su

pply

(+)

Co

mm

and

Signa

l outP

ower

+ / -(T

wisted

pairs)(S

creened

twisted pair)

1 2

3 4

5 6

7 8

9 1

0 1

1 1

2 1

3 1

4 1

5 1

6 1

7

LM

T0100

67

GB

KR

WB

LY

AB

TECHNIC

LN

11

1213

1415

16

12

34

56

78

Liv

e

Ne

utra

l

NO

TE

:T

he L

M T

echnic

pro

cesso

r is d

esig

ned to

work w

ith a

n a

.c.

or d

.c. pow

er su

pply, m

akin

g p

ins 1

6 &

17 o

n th

e p

rocesso

rin

terch

an

ge

able

. The

ou

tput o

f the D

PU

po

we

r sup

ply

ispola

rised, w

ith p

in 8

the p

ositive

and p

in 1

6 th

e n

egativ

e.

(Pig

tails

Ma

ximum

Le

ng

th =

30

mm

)

6 C

ore

Sc

ree

ne

d C

ab

le to

IRT

Pro

ces

so

r

Su

pply

(-)

Ala

rm

Pro

ce

sso

r

Su

pply

(+)

Co

mm

and

Signa

l outP

ower

+ / -(T

wisted

pairs)(S

creened

twisted pair)

1 2

3 4

5 6

7 8

9 1

0 1

1 1

2 1

3 1

4 1

5 1

6 1

7

Pa

ge

7P

ag

e 7

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

3.3

Ele

ctric

al c

on

ne

ctio

ns

(Co

ntin

ue

d.....)

3.3

Ele

ctric

al c

on

ne

ctio

ns

(Co

ntin

ue

d.....)

Ta

ble

1 L

an

dm

ark

Te

ch

nic

term

ina

l co

nn

ectio

ns

Ta

ble

2 D

PU

term

ina

l co

nn

ectio

ns

DP

U

Te

rmin

al N

ºF

un

ctio

n

LM

ain

s in

pu

t live

NM

ain

s in

pu

t ne

utra

l

8D

PU

ou

tpu

t (+)

16

DP

U o

utp

ut (-)

*** A

ll oth

er D

PU

term

ina

ls a

re n

ot u

se

d in

this

ap

plic

atio

n **

*

Ta

ble

1 L

an

dm

ark

Te

ch

nic

term

ina

l co

nn

ectio

ns

Ta

ble

2 D

PU

Te

rmin

al C

on

ne

ctio

ns

DP

U

Te

rmin

al N

ºF

un

ctio

n

LM

ain

s in

pu

t live

NM

ain

s in

pu

t ne

utra

l

8D

PU

ou

tpu

t (+)

16

DP

U o

utp

ut (-)

*** A

ll oth

er D

PU

term

ina

ls a

re n

ot u

se

d in

this

ap

plic

atio

n **

*

LM

Te

ch

nic

Te

rmin

al N

o.

Fu

nc

tion

12345678910

11

12

13

14

15

16

17

Pro

ce

sso

r po

we

r su

pp

ly in

pu

t (2)

Sig

na

l inp

ut (+

) from

the

rmo

me

ter

Sig

na

l inp

ut (-) fro

m th

erm

om

ete

r

Em

issiv

ity o

utp

ut (+

) to th

e th

erm

om

ete

r

Th

erm

om

ete

r ca

ble

sc

ree

n

Th

erm

om

ete

r po

we

r su

pp

ly (+

)

Th

erm

om

ete

r po

we

r su

pp

ly (-)

Em

iss

ivity

retu

rn (-)

No

t ap

plic

ab

le - d

o n

ot u

se

Ala

rm R

ela

y (1

)

Ala

rm R

ela

y (2

)

Co

mm

an

d (+

)

Co

mm

an

d (-)

Sig

na

l ou

t (+)

Sig

na

l ou

t (-)

Sig

na

l ou

t (Sc

ree

n)

Pro

ce

sso

r po

we

r su

pp

ly in

pu

t (1)

Wire

Co

lou

r

Ye

llow

Blu

e

Wh

ite

Sc

ree

n

Re

d

Bla

ck

Gre

en

LM

Te

ch

nic

Te

rmin

al N

o.

Fu

nc

tion

12345678910

11

12

13

14

15

16

17

Pro

ce

sso

r po

we

r su

pp

ly in

pu

t (2)

Sig

na

l inp

ut (+

) from

the

rmo

me

ter

Sig

na

l inp

ut (-) fro

m th

erm

om

ete

r

Em

issiv

ity o

utp

ut (+

) to th

e th

erm

om

ete

r

Th

erm

om

ete

r ca

ble

sc

ree

n

Th

erm

om

ete

r po

we

r su

pp

ly (+

)

Th

erm

om

ete

r po

we

r su

pp

ly (-)

Em

iss

ivity

retu

rn (-)

No

t ap

plic

ab

le - d

o n

ot u

se

Ala

rm R

ela

y (1

)

Ala

rm R

ela

y (2

)

Co

mm

an

d (+

)

Co

mm

an

d (-)

Sig

na

l ou

t (+)

Sig

na

l ou

t (-)

Sig

na

l ou

t (Sc

ree

n)

Pro

ce

sso

r po

we

r su

pp

ly in

pu

t (1)

Wire

Co

lou

r

Ye

llow

Blu

e

Wh

ite

Sc

ree

n

Re

d

Bla

ck

Gre

en

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

8P

ag

e 8

3.3

.1A

larm

ou

tpu

t co

nn

ec

tion

sc

he

du

le

Th

e A

larm

ou

tpu

t co

nn

ectio

n s

ch

ed

ule

is g

ive

n in

Fig

. 5 a

nd

Ta

ble

1.

Th

e A

larm

rela

y c

on

tact ra

ting

is 5

0V

a.c

. or d

.c. a

t 0.1

A.

It is re

co

mm

en

de

d th

at a

twis

ted

pa

ir co

nn

ectio

n b

e u

se

d.

3.3

.2C

MD

(Co

mm

an

d) in

pu

t co

nn

ec

tion

sc

he

du

le

Th

e C

MD

(Co

mm

an

d) in

pu

t co

nn

ectio

n s

ch

ed

ule

is g

ive

n in

Fig

. 5 a

nd

Ta

ble

1.

Th

e c

om

ma

nd

sig

na

l is in

activ

e w

he

n th

e v

olta

ge

is >

3.0

V o

r op

en

circ

uit (i.e

. Tra

ck).

Th

e c

om

ma

nd

sig

na

l is a

ctiv

e w

he

n th

e v

olta

ge

is <

1.5

V o

r sh

ort c

ircu

it (i.e. H

old

).

Th

e c

om

ma

nd

inp

ut c

an

be

co

ntro

lled

via

a re

mo

te s

witc

h, a

s s

ho

wn

in F

ig. 6

or v

ia

po

ten

tial-fre

e c

on

tacts

as s

ho

wn

in F

ig. 7

.

It is re

co

mm

en

de

d th

at a

twis

ted

pa

ir co

nn

ectio

n b

e u

se

d.

3.3

.1A

larm

ou

tpu

t co

nn

ec

tion

sc

he

du

le

Th

e A

larm

ou

tpu

t co

nn

ectio

n s

ch

ed

ule

is g

ive

n in

Fig

. 5 a

nd

Ta

ble

1.

Th

e A

larm

rela

y c

on

tact ra

ting

is 5

0V

a.c

. or d

.c. a

t 0.1

A.

It is re

co

mm

en

de

d th

at a

twis

ted

pa

ir co

nn

ectio

n b

e u

se

d.

3.3

.2C

MD

(Co

mm

an

d) in

pu

t co

nn

ec

tion

sc

he

du

le

Th

e C

MD

(Co

mm

an

d) in

pu

t co

nn

ectio

n s

ch

ed

ule

is g

ive

n in

Fig

. 5 a

nd

Ta

ble

1.

Th

e c

om

ma

nd

sig

na

l is in

activ

e w

he

n th

e v

olta

ge

is >

3.0

V o

r op

en

circ

uit (i.e

. Tra

ck).

Th

e c

om

ma

nd

sig

na

l is a

ctiv

e w

he

n th

e v

olta

ge

is <

1.5

V o

r sh

ort c

ircu

it (i.e. H

old

).

Th

e c

om

ma

nd

inp

ut c

an

be

co

ntro

lled

via

a re

mo

te s

witc

h, a

s s

ho

wn

in F

ig. 6

or v

ia

po

ten

tial-fre

e c

on

tacts

as s

ho

wn

in F

ig. 7

.

It is re

co

mm

en

de

d th

at a

twis

ted

pa

ir co

nn

ectio

n b

e u

se

d.

Pa

ge

9P

ag

e 9

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

Fig

. 6 'C

MD

' (co

mm

an

d) in

pu

t co

ntro

l via a

rem

ote

sw

itch

Fig

. 7 'C

MD

' (co

mm

an

d) in

pu

t co

ntro

l via p

ote

ntia

l-free

co

nta

cts

Fig

. 6 'C

MD

' (co

mm

an

d) in

pu

t co

ntro

l via a

rem

ote

sw

itch

Fig

. 7 'C

MD

' (co

mm

an

d) in

pu

t co

ntro

l via p

ote

ntia

l-free

co

nta

cts

Re

mote

sw

itch

Vin

LMT010069

Note

Re

mo

te s

witc

h c

an

be

rep

lica

ted

by

vo

ltag

e V

in. W

he

re:

>+

3.0

V =

Sw

itch

op

en

<+

1.5

V =

Sw

itch

clo

se

d

Sw

itch

op

en

Pe

ak P

icke

rT

rack &

Ho

ld

Sw

itch

clo

se

d

Pe

ak

Pic

k

Re

se

t

Tra

ck

Ho

ld

+-

CM

D+-

CMD

Vin

Potentia

l-free

contacts

LMT010070

Note

<+

1.5

V =

Sh

ort c

ircu

it

>+

3.0

V =

Ope

n c

ircuit

Po

ten

tial-fre

e co

nta

cts

ca

n b

e re

plic

ate

d b

y volta

ge

Vin

. Wh

ere

:

Op

en

circ

uit

Pe

ak

Pic

ke

rT

rac

k &

Ho

ld

Sh

ort c

ircu

it

Pe

ak

Pic

k

Re

se

t

Tra

ck

Ho

ld

Re

mote

sw

itch

Vin

LMT010069

Note

Re

mo

te s

witc

h c

an

be

rep

lica

ted

by

vo

ltag

e V

in. W

he

re:

>+

3.0

V =

Sw

itch

op

en

<+

1.5

V =

Sw

itch

clo

se

d

Sw

itch

op

en

Pe

ak P

icke

rT

rack &

Ho

ld

Sw

itch

clo

se

d

Pe

ak

Pic

k

Re

se

t

Tra

ck

Ho

ld

+-

CM

D+-

CMD

Vin

Potentia

l-free

contacts

LMT010070

Note

<+

1.5

V =

Sh

ort c

ircu

it

>+

3.0

V =

Ope

n c

ircuit

Po

ten

tial-fre

e co

nta

cts

ca

n b

e re

plic

ate

d b

y volta

ge

Vin

. Wh

ere

:

Op

en

circ

uit

Pe

ak

Pic

ke

rT

rac

k &

Ho

ld

Sh

ort c

ircu

it

Pe

ak

Pic

k

Re

se

t

Tra

ck

Ho

ld

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

10

Pa

ge

10

Th

e O

utp

ut

(retra

nsm

issio

n o

utp

ut)

co

nn

ectio

n sch

ed

ule

is

g

ive

n in

F

ig.

5 a

nd

Ta

ble

1.

It is re

co

mm

en

de

d th

at a

scre

en

ed

twis

ted

pa

ir ca

ble

is u

se

d.

3.3

.4T

he

rmo

me

ter o

utp

ut c

on

ne

ctio

n s

ch

ed

ule

3.3

.3O

utp

ut (R

etra

ns

mis

sio

n o

utp

ut) c

on

ne

ctio

n s

ch

ed

ule

Th

e th

erm

om

ete

r ou

tpu

t co

nn

ectio

n s

ch

ed

ule

is g

ive

n in

Fig

. 5 a

nd

Ta

ble

1. It is

reco

mm

en

de

d th

at 6

-wa

y s

cre

en

ed

ca

ble

is u

se

d.

Th

e O

utp

ut

(retra

nsm

issio

n o

utp

ut)

co

nn

ectio

n sch

ed

ule

is

g

ive

n in

F

ig.

5 a

nd

Ta

ble

1.

It is re

co

mm

en

de

d th

at a

scre

en

ed

twis

ted

pa

ir ca

ble

is u

se

d.

3.3

.4T

he

rmo

me

ter o

utp

ut c

on

ne

ctio

n s

ch

ed

ule

3.3

.3O

utp

ut (R

etra

ns

mis

sio

n o

utp

ut) c

on

ne

ctio

n s

ch

ed

ule

Th

e th

erm

om

ete

r ou

tpu

t co

nn

ectio

n s

ch

ed

ule

is g

ive

n in

Fig

. 5 a

nd

Ta

ble

1. It is

reco

mm

en

de

d th

at 6

-wa

y s

cre

en

ed

ca

ble

is u

se

d.

Pa

ge

11

Pa

ge

11

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

3.4

Ca

ble

co

nn

ec

tor a

ss

em

bly

Th

e c

ab

le c

on

ne

cto

rs fo

r the

pro

ce

sso

r are

inclu

de

d in

the

pro

ce

sso

r pa

cka

ge

. Ea

ch

ca

ble

co

nn

ecto

r mu

st b

e c

orre

ctly

wire

d w

ith th

e a

pp

rop

riate

ca

ble

. (Re

fer to

Se

ctio

n

3.3

for th

e c

ab

le s

ch

ed

ule

s).

To

wire

up

the

co

nn

ecto

r.

1)

Ma

ke

a n

ote

of th

e c

on

ne

cto

r's o

rien

tatio

n.

2)

Un

clip

the

two

ha

lve

s o

f the

co

nn

ecto

r sh

ell to

reve

al th

e te

rmin

al b

lock a

nd

the

ca

ble

tie/c

lam

p b

ar.

3)

Wire

up

the

co

nn

ecto

r, rem

em

be

ring

the

co

rrect o

rien

tatio

n o

f the

plu

g, in

acco

rda

nce

with

the

rele

va

nt c

ab

le s

ch

ed

ule

(se

e S

ectio

n 3

.3).

4)

En

su

re th

at th

e c

ab

le o

ute

r insu

latio

n is

he

ld in

the

cla

mp

ba

r/ca

ble

tie a

t

the

co

nn

ecto

r an

d tig

hte

n th

e c

lam

p b

ar s

cre

ws/c

ab

le tie

. Re

fer to

Fig

. 8.

5)

Clip

tog

eth

er th

e tw

o h

alv

es o

f the

co

nn

ecto

r sh

ell e

nsu

ring

tha

t the

'write

-

on

' lab

el is

he

ld in

pla

ce

by th

e s

he

ll asse

mb

ly.

Th

e c

on

ne

cto

r is n

ow

rea

dy fo

r use

.

3.4

Ca

ble

co

nn

ec

tor a

ss

em

bly

Th

e c

ab

le c

on

ne

cto

rs fo

r the

pro

ce

sso

r are

inclu

de

d in

the

pro

ce

sso

r pa

cka

ge

. Ea

ch

ca

ble

co

nn

ecto

r mu

st b

e c

orre

ctly

wire

d w

ith th

e a

pp

rop

riate

ca

ble

. (Re

fer to

Se

ctio

n

3.3

for th

e c

ab

le s

ch

ed

ule

s).

To

wire

up

the

co

nn

ecto

r.

1)

Ma

ke

a n

ote

of th

e c

on

ne

cto

r's o

rien

tatio

n.

2)

Un

clip

the

two

ha

lve

s o

f the

co

nn

ecto

r sh

ell to

reve

al th

e te

rmin

al b

lock a

nd

the

ca

ble

tie/c

lam

p b

ar.

3)

Wire

up

the

co

nn

ecto

r, rem

em

be

ring

the

co

rrect o

rien

tatio

n o

f the

plu

g, in

acco

rda

nce

with

the

rele

va

nt c

ab

le s

ch

ed

ule

(se

e S

ectio

n 3

.3).

4)

En

su

re th

at th

e c

ab

le o

ute

r insu

latio

n is

he

ld in

the

cla

mp

ba

r/ca

ble

tie a

t

the

co

nn

ecto

r an

d tig

hte

n th

e c

lam

p b

ar s

cre

ws/c

ab

le tie

. Re

fer to

Fig

. 8.

5)

Clip

tog

eth

er th

e tw

o h

alv

es o

f the

co

nn

ecto

r sh

ell e

nsu

ring

tha

t the

'write

-

on

' lab

el is

he

ld in

pla

ce

by th

e s

he

ll asse

mb

ly.

Th

e c

on

ne

cto

r is n

ow

rea

dy fo

r use

.

Fig

. 8 C

orre

ct c

ab

le c

on

ne

cto

r wirin

g a

rran

ge

me

nt

Cla

mp

ba

r

En

su

re c

ab

le's o

ute

r ins

ula

tion

is h

eld

in cla

mp

ba

r/ca

ble

tie

Ke

ep

wire

len

gth

as

sh

ort a

s p

oss

ible

LMT010071

Fig

. 8 C

orre

ct c

ab

le c

on

ne

cto

r wirin

g a

rran

ge

me

nt

Cla

mp

ba

r

En

su

re c

ab

le's o

ute

r ins

ula

tion

is h

eld

in cla

mp

ba

r/ca

ble

tie

Ke

ep

wire

len

gth

as

sh

ort a

s p

oss

ible

LMT010071

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

12

Pa

ge

12

Fig

. 9 C

on

figu

rato

r Dis

pla

y

4.0

US

ING

TH

E C

ON

FIG

UR

AT

OR

Wh

en

the

pro

ce

sso

r is c

on

ne

cte

d to

a S

yste

m 4

the

rmo

me

ter, th

e p

roce

sso

r mu

st

be

co

nfig

ure

d fo

r u

se

w

ith th

at

pa

rticu

lar

the

rmo

me

ter

an

d h

ave

it's

o

pe

ratin

g

pa

ram

ete

rs

se

t. T

he

te

mp

era

ture

m

ea

su

rem

en

t syste

m

(i.e.

pro

ce

sso

r a

nd

the

rmo

me

ter) is

mo

st e

asily

co

nfig

ure

d u

sin

g th

e L

M T

ech

nic

Co

nfig

ura

tion

So

ftwa

re

an

d a

su

itab

le P

C.

[It is a

lso

po

ssib

le to

use

a P

C ru

nn

ing

sta

nd

ard

term

ina

l so

ftwa

re a

nd

an

RS

23

2

po

rt to p

erfo

rm th

e c

on

figu

ratio

n, a

llow

ing

the

ind

ivid

ua

l co

mm

an

ds to

be

use

d. S

ee

Ap

pe

nd

ix B

]

On

ce

co

nfig

ure

d, th

e P

C c

an

be

dis

co

nn

ecte

d a

nd

the

LM

Te

ch

nic

ca

n b

e le

ft to ru

n

alo

ne

, with

co

nfig

ura

tion

sto

red

into

it's n

on

-vo

latile

me

mo

ry.

4.2

Ge

tting

sta

rted

Afte

r the

po

we

r su

pp

ly h

as b

ee

n c

on

ne

cte

d (s

ee

Se

ctio

n 3

) an

d s

witc

he

d o

n, it is

po

ssib

le to

co

nfig

ure

the

LM

Te

ch

nic

usin

g th

e c

on

figu

ratio

n s

oftw

are

. Co

nn

ect th

e

co

nfig

ura

tor c

ab

le b

etw

ee

n th

e P

C a

nd

the

LM

Te

ch

nic

an

d ru

n th

e s

oftw

are

by

run

nin

g th

e .e

xe

file in

the

insta

llatio

n d

irecto

ry. T

he

co

nfig

ura

tor s

oftw

are

sh

ou

ld

resp

on

d w

ith th

e d

isp

lay a

s s

ho

wn

be

low

.

4.1

Ins

talla

tion

Ru

n th

e file

on

the

CD

an

d fo

llow

the

Insta

llatio

n In

stru

ctio

ns.

12345

Fig

. 9 C

on

figu

rato

r Dis

pla

y

4.0

US

ING

TH

E C

ON

FIG

UR

AT

OR

Wh

en

the

pro

ce

sso

r is c

on

ne

cte

d to

a S

yste

m 4

the

rmo

me

ter, th

e p

roce

sso

r mu

st

be

co

nfig

ure

d fo

r u

se

w

ith th

at

pa

rticu

lar

the

rmo

me

ter

an

d h

ave

it's

o

pe

ratin

g

pa

ram

ete

rs

se

t. T

he

te

mp

era

ture

m

ea

su

rem

en

t syste

m

(i.e.

pro

ce

sso

r a

nd

the

rmo

me

ter) is

mo

st e

asily

co

nfig

ure

d u

sin

g th

e L

M T

ech

nic

Co

nfig

ura

tion

So

ftwa

re

an

d a

su

itab

le P

C.

[It is a

lso

po

ssib

le to

use

a P

C ru

nn

ing

sta

nd

ard

term

ina

l so

ftwa

re a

nd

an

RS

23

2

po

rt to p

erfo

rm th

e c

on

figu

ratio

n, a

llow

ing

the

ind

ivid

ua

l co

mm

an

ds to

be

use

d. S

ee

Ap

pe

nd

ix B

]

On

ce

co

nfig

ure

d, th

e P

C c

an

be

dis

co

nn

ecte

d a

nd

the

LM

Te

ch

nic

ca

n b

e le

ft to ru

n

alo

ne

, with

co

nfig

ura

tion

sto

red

into

it's n

on

-vo

latile

me

mo

ry.

4.2

Ge

tting

sta

rted

Afte

r the

po

we

r su

pp

ly h

as b

ee

n c

on

ne

cte

d (s

ee

Se

ctio

n 3

) an

d s

witc

he

d o

n, it is

po

ssib

le to

co

nfig

ure

the

LM

Te

ch

nic

usin

g th

e c

on

figu

ratio

n s

oftw

are

. Co

nn

ect th

e

co

nfig

ura

tor c

ab

le b

etw

ee

n th

e P

C a

nd

the

LM

Te

ch

nic

an

d ru

n th

e s

oftw

are

by

run

nin

g th

e .e

xe

file in

the

insta

llatio

n d

irecto

ry. T

he

co

nfig

ura

tor s

oftw

are

sh

ou

ld

resp

on

d w

ith th

e d

isp

lay a

s s

ho

wn

be

low

.

4.1

Ins

talla

tion

Ru

n th

e file

on

the

CD

an

d fo

llow

the

Insta

llatio

n In

stru

ctio

ns.

12345

Pa

ge

13

Pa

ge

13

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

Co

nfig

ura

tor fe

atu

res k

ey:

1T

itle b

ar in

dic

atin

g c

on

figu

ratio

n file

na

me

2A

me

nu

ba

r

3A

'live

' dis

pla

y s

ho

win

g a

ctu

al c

on

figu

ratio

n a

nd

pro

ce

ss d

ata

from

the

co

nn

ecte

d p

roce

sso

r

4A

'co

nfig

ura

tion

are

a' a

llow

ing

pa

ram

ete

rs to

be

ad

juste

d

5B

utto

ns fo

r ap

ply

ing

/rea

din

g th

e c

on

figu

ratio

n to

/from

the

pro

ce

sso

r

Co

nfig

ura

tion

pa

ram

ete

rs c

an

be

sto

red

to th

e L

M T

ech

nic

an

d/o

r ca

n b

e d

ow

nlo

ad

ed

to a

file o

n th

e P

C fo

r late

r use

. It is p

ossib

le to

use

the

so

ftwa

re w

itho

ut a

n L

M T

ech

nic

,

ho

we

ve

r, on

ly file

me

nu

s w

ill be

ava

ilab

le.

4.2

.1S

ettin

g a

ne

w c

on

figu

ratio

n in

a p

roc

es

so

r

1)

Ne

w. U

se

the

'File

', 'Ne

w', m

en

u to

loa

d d

efa

ult d

ata

into

the

co

nfig

ura

tion

are

a.

2)

Th

erm

om

ete

r. In th

e c

on

figu

ratio

n a

rea

, se

lect th

e th

erm

om

ete

r typ

e fro

m

the

list b

ox to

ma

tch

the

the

rmo

me

ter a

ctu

ally

co

nn

ecte

d to

the

LM

Te

ch

nic

.

No

te:

It is im

po

rtan

t tha

t this

is d

on

e firs

t be

ca

use

it se

ts d

efa

ults

an

d p

ara

me

ter

limits

in th

e o

the

r bo

xe

s.

3)

La

be

l. Typ

e in

a la

be

l for th

e p

roce

sso

r/the

rmo

me

ter (1

5 c

ha

racte

rs

ma

xim

um

).

4)

Em

iss

ivity

/No

n-G

rey

ne

ss

.

Th

e

me

nu

ch

an

ge

s

de

pe

nd

en

t u

po

n

the

se

lecte

d th

erm

om

ete

r. If a s

ing

le c

olo

ur th

erm

om

ete

r ha

s b

ee

n s

ele

cte

d,

en

ter th

e d

esire

d e

mis

siv

ity fo

r the

ma

teria

l be

ing

me

asu

red

. If a 2

-co

lou

r

ratio

the

rmo

me

ter h

as b

ee

n s

ele

cte

d, e

nte

r the

no

n-g

reyn

ess.

5)

Ou

tpu

t. Th

e c

urre

nt lo

op

ou

tpu

t ca

n b

e s

ca

led

to a

ny te

mp

era

ture

ran

ge

with

in th

e ra

ng

e o

f the

se

lecte

d th

erm

om

ete

r (min

imu

m s

pa

n 1

00

°). Se

lect

the

de

sire

d c

urre

nt o

utp

ut ra

ng

e.

6)

Ala

rm. T

he

ala

rm le

ve

l ca

n b

e s

ele

cte

d fo

r an

y te

mp

era

ture

with

in th

e

ran

ge

of th

e th

erm

om

ete

r. Th

e a

larm

ca

n b

e s

ele

cte

d to

trip a

bo

ve

(Hig

h)

or b

elo

w (L

ow

) this

tem

pe

ratu

re.

Co

nfig

ura

tor fe

atu

res k

ey:

1T

itle b

ar in

dic

atin

g c

on

figu

ratio

n file

na

me

2A

me

nu

ba

r

3A

'live

' dis

pla

y s

ho

win

g a

ctu

al c

on

figu

ratio

n a

nd

pro

ce

ss d

ata

from

the

co

nn

ecte

d p

roce

sso

r

4A

'co

nfig

ura

tion

are

a' a

llow

ing

pa

ram

ete

rs to

be

ad

juste

d

5B

utto

ns fo

r ap

ply

ing

/rea

din

g th

e c

on

figu

ratio

n to

/from

the

pro

ce

sso

r

Co

nfig

ura

tion

pa

ram

ete

rs c

an

be

sto

red

to th

e L

M T

ech

nic

an

d/o

r ca

n b

e d

ow

nlo

ad

ed

to a

file o

n th

e P

C fo

r late

r use

. It is p

ossib

le to

use

the

so

ftwa

re w

itho

ut a

n L

M T

ech

nic

,

ho

we

ve

r, on

ly file

me

nu

s w

ill be

ava

ilab

le.

4.2

.1S

ettin

g a

ne

w c

on

figu

ratio

n in

a p

roc

es

so

r

1)

Ne

w. U

se

the

'File

', 'Ne

w', m

en

u to

loa

d d

efa

ult d

ata

into

the

co

nfig

ura

tion

are

a.

2)

Th

erm

om

ete

r. In th

e c

on

figu

ratio

n a

rea

, se

lect th

e th

erm

om

ete

r typ

e fro

m

the

list b

ox to

ma

tch

the

the

rmo

me

ter a

ctu

ally

co

nn

ecte

d to

the

LM

Te

ch

nic

.

No

te:

It is im

po

rtan

t tha

t this

is d

on

e firs

t be

ca

use

it se

ts d

efa

ults

an

d p

ara

me

ter

limits

in th

e o

the

r bo

xe

s.

3)

La

be

l. Typ

e in

a la

be

l for th

e p

roce

sso

r/the

rmo

me

ter (1

5 c

ha

racte

rs

ma

xim

um

).

4)

Em

iss

ivity

/No

n-G

rey

ne

ss

.

Th

e

me

nu

ch

an

ge

s

de

pe

nd

en

t u

po

n

the

se

lecte

d th

erm

om

ete

r. If a s

ing

le c

olo

ur th

erm

om

ete

r ha

s b

ee

n s

ele

cte

d,

en

ter th

e d

esire

d e

mis

siv

ity fo

r the

ma

teria

l be

ing

me

asu

red

. If a 2

-co

lou

r

ratio

the

rmo

me

ter h

as b

ee

n s

ele

cte

d, e

nte

r the

no

n-g

reyn

ess.

5)

Ou

tpu

t. Th

e c

urre

nt lo

op

ou

tpu

t ca

n b

e s

ca

led

to a

ny te

mp

era

ture

ran

ge

with

in th

e ra

ng

e o

f the

se

lecte

d th

erm

om

ete

r (min

imu

m s

pa

n 1

00

°). Se

lect

the

de

sire

d c

urre

nt o

utp

ut ra

ng

e.

6)

Ala

rm. T

he

ala

rm le

ve

l ca

n b

e s

ele

cte

d fo

r an

y te

mp

era

ture

with

in th

e

ran

ge

of th

e th

erm

om

ete

r. Th

e a

larm

ca

n b

e s

ele

cte

d to

trip a

bo

ve

(Hig

h)

or b

elo

w (L

ow

) this

tem

pe

ratu

re.

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

14

Pa

ge

14

4.2

.1S

ettin

g a

ne

w c

on

figu

ratio

n in

a p

roc

es

so

r (Co

ntin

ue

d)

7)

Tim

e fu

nc

tion

. Se

lect fro

m th

e tim

e fu

nctio

n p

roce

ssin

g a

va

ilab

le a

s

req

uire

d.

D

ep

en

din

g

on

th

e

time

fu

nctio

n

se

lecte

d,

a

furth

er

se

t o

f

pa

ram

ete

rs m

ay n

ee

d to

be

ch

ose

n. (S

ee

Se

ctio

n 5

for d

eta

ils o

n tim

e

fun

ctio

n

pro

ce

ssin

g).

8)

Ap

ply

. Wh

en

the

req

uire

d c

on

figu

ratio

n p

ara

me

ters

ha

ve

be

en

en

tere

d,

pre

ss th

e 'A

pp

ly' b

utto

n to

se

nd

the

co

nfig

ura

tion

da

ta to

the

LM

Te

ch

nic

.

9)

A s

um

ma

ry o

f the

da

ta s

en

t will a

pp

ea

r in th

e liv

e d

ata

, co

nfirm

ing

tha

t the

da

ta h

as b

ee

n re

ce

ive

d b

y th

e L

M T

ech

nic

.

4.2

.2E

ditin

g a

co

nfig

ura

tion

in a

pro

ce

ss

or

1)

Re

ad

. Use

the

'Re

ad

' bu

tton

to lo

ad

da

ta fro

m th

e c

on

ne

cte

d p

roce

sso

r

into

the

co

nfig

ura

tion

are

a.

2)

In th

e c

on

figu

ratio

n a

rea

, ad

just p

ara

me

ters

as d

escrib

ed

in 4

.2.1

.

3)

Ap

ply

. Wh

en

the

req

uire

d c

on

figu

ratio

n p

ara

me

ters

ha

ve

be

en

en

tere

d,

pre

ss th

e 'A

pp

ly' b

utto

n to

se

nd

the

co

nfig

ura

tion

da

ta to

the

LM

Te

ch

nic

.

4)

A s

um

ma

ry o

f the

da

ta s

en

t will a

pp

ea

r in th

e liv

e d

ata

, co

nfirm

ing

tha

t the

da

ta h

as b

ee

n re

ce

ive

d b

y th

e L

M T

ech

nic

.

4.2

.3S

av

ing

/Op

en

ing

a c

on

figu

ratio

n file

1)

Sa

ve

. Use

the

'File

', 'Sa

ve

' me

nu

to s

ave

the

da

ta fro

m th

e c

on

figu

ratio

n

are

a to

a file

.

2)

Op

en

. U

se

th

e 'F

ile',

'Op

en

' m

en

u to

lo

ad

d

ata

fro

m a

file

in

to th

e

co

nfig

ura

tion

a

rea

.

4.2

.1S

ettin

g a

ne

w c

on

figu

ratio

n in

a p

roc

es

so

r (Co

ntin

ue

d)

7)

Tim

e fu

nc

tion

. Se

lect fro

m th

e tim

e fu

nctio

n p

roce

ssin

g a

va

ilab

le a

s

req

uire

d.

D

ep

en

din

g

on

th

e

time

fu

nctio

n

se

lecte

d,

a

furth

er

se

t o

f

pa

ram

ete

rs m

ay n

ee

d to

be

ch

ose

n. (S

ee

Se

ctio

n 5

for d

eta

ils o

n tim

e

fun

ctio

n

pro

ce

ssin

g).

8)

Ap

ply

. Wh

en

the

req

uire

d c

on

figu

ratio

n p

ara

me

ters

ha

ve

be

en

en

tere

d,

pre

ss th

e 'A

pp

ly' b

utto

n to

se

nd

the

co

nfig

ura

tion

da

ta to

the

LM

Te

ch

nic

.

9)

A s

um

ma

ry o

f the

da

ta s

en

t will a

pp

ea

r in th

e liv

e d

ata

, co

nfirm

ing

tha

t the

da

ta h

as b

ee

n re

ce

ive

d b

y th

e L

M T

ech

nic

.

4.2

.2E

ditin

g a

co

nfig

ura

tion

in a

pro

ce

ss

or

1)

Re

ad

. Use

the

'Re

ad

' bu

tton

to lo

ad

da

ta fro

m th

e c

on

ne

cte

d p

roce

sso

r

into

the

co

nfig

ura

tion

are

a.

2)

In th

e c

on

figu

ratio

n a

rea

, ad

just p

ara

me

ters

as d

escrib

ed

in 4

.2.1

.

3)

Ap

ply

. Wh

en

the

req

uire

d c

on

figu

ratio

n p

ara

me

ters

ha

ve

be

en

en

tere

d,

pre

ss th

e 'A

pp

ly' b

utto

n to

se

nd

the

co

nfig

ura

tion

da

ta to

the

LM

Te

ch

nic

.

4)

A s

um

ma

ry o

f the

da

ta s

en

t will a

pp

ea

r in th

e liv

e d

ata

, co

nfirm

ing

tha

t the

da

ta h

as b

ee

n re

ce

ive

d b

y th

e L

M T

ech

nic

.

4.2

.3S

av

ing

/Op

en

ing

a c

on

figu

ratio

n file

1)

Sa

ve

. Use

the

'File

', 'Sa

ve

' me

nu

to s

ave

the

da

ta fro

m th

e c

on

figu

ratio

n

are

a to

a file

.

2)

Op

en

. U

se

th

e 'F

ile',

'Op

en

' m

en

u to

lo

ad

d

ata

fro

m a

file

in

to th

e

co

nfig

ura

tion

a

rea

.

Pa

ge

15

Pa

ge

15

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

5.0

TIM

E F

UN

CT

ION

PR

OC

ES

SIN

G

5.1

Pe

ak

Pic

ke

r

Th

e P

ea

k P

icke

r fun

ctio

n c

an

be

use

d to

mo

nito

r the

hig

he

st te

mp

era

ture

me

asu

red

by th

e th

erm

om

ete

r. Th

is fe

atu

re is

use

ful e

sp

ecia

lly fo

r mo

vin

g ta

rge

ts a

nd

/or w

he

re

the

targ

et is

ob

scu

red

pa

rtially

e.g

. a s

tee

l sla

b o

n a

rollin

g m

ill wh

ere

pa

rts o

f the

su

rface

are

co

ve

red

with

sca

le. T

he

'cle

an

' are

a w

ill be

at th

e h

igh

er (i.e

. true

)

tem

pe

ratu

re.

T

he

P

ea

k P

icke

r u

se

d in

L

an

dm

ark

T

ech

nic

p

roce

sso

rs h

as th

e

follo

win

g fe

atu

res. R

efe

r to F

ig. 1

0.

Th

resh

old

leve

l:T

em

pe

ratu

re a

bo

ve

wh

ich

the

Pe

ak P

icke

r is a

ctiv

e, u

se

d in

co

nju

nctio

n w

ith th

e 'O

N' a

nd

'OF

F' d

ela

y.

ON

de

lay:

Tim

e p

erio

d b

etw

ee

n th

e te

mp

era

ture

risin

g a

bo

ve

the

thre

sh

old

leve

l an

d th

e P

ea

k P

icke

r fun

ctio

n s

witc

hin

g o

n

OF

F d

ela

y:

Tim

e

pe

riod

b

etw

ee

n

the

te

mp

era

ture

fa

lling

b

elo

w

the

thre

sh

old

leve

l an

d th

e P

ea

k P

icke

r fun

ctio

n s

witc

hin

g o

ff.

Mo

de

:In

'Ho

ld' m

od

e, a

t the

en

d o

f the

'OF

F' d

ela

y, th

e te

mp

era

ture

ou

tpu

t va

lue

is h

eld

co

nsta

nt u

ntil th

e te

mp

era

ture

inp

ut n

ext

rise

s a

bo

ve

the

thre

sh

old

leve

l.

In 'R

ese

t' mo

de

, at th

e e

nd

of th

e 'O

FF

' de

lay, th

e te

mp

era

ture

ou

tpu

t sig

na

l falls

to 'u

nd

er-ra

ng

e' u

ntil th

e te

mp

era

ture

inp

ut

ne

xt ris

es a

bo

ve

the

thre

sh

old

leve

l. Th

e P

ea

k P

icke

r ca

n b

e

'Re

se

t' at a

ny tim

e b

y u

sin

g th

e C

MD

inp

ut. S

ee

3.3

.2

De

ca

y ra

te:

A u

se

r-ad

justa

ble

va

lue

at w

hic

h th

e s

tore

d te

mp

era

ture

ou

tpu

t

sig

na

l d

eca

ys.

Fig

. 10

Gra

ph

ica

l rep

rese

nta

tion

of P

ea

k P

icke

r time

fun

ctio

n

Tim

e

Temp

'OF

F'

De

lay

'Ho

ld'

mod

e

'Re

se

t'm

od

e

Adju

sta

ble

de

cay ra

te

'ON

'

De

lay

Th

resh

old

leve

l

LMT010072

5.0

TIM

E F

UN

CT

ION

PR

OC

ES

SIN

G

5.1

Pe

ak

Pic

ke

r

Th

e P

ea

k P

icke

r fun

ctio

n c

an

be

use

d to

mo

nito

r the

hig

he

st te

mp

era

ture

me

asu

red

by th

e th

erm

om

ete

r. Th

is fe

atu

re is

use

ful e

sp

ecia

lly fo

r mo

vin

g ta

rge

ts a

nd

/or w

he

re

the

targ

et is

ob

scu

red

pa

rtially

e.g

. a s

tee

l sla

b o

n a

rollin

g m

ill wh

ere

pa

rts o

f the

su

rface

are

co

ve

red

with

sca

le. T

he

'cle

an

' are

a w

ill be

at th

e h

igh

er (i.e

. true

)

tem

pe

ratu

re.

T

he

P

ea

k P

icke

r u

se

d in

L

an

dm

ark

T

ech

nic

p

roce

sso

rs h

as th

e

follo

win

g fe

atu

res. R

efe

r to F

ig. 1

0.

Th

resh

old

leve

l:T

em

pe

ratu

re a

bo

ve

wh

ich

the

Pe

ak P

icke

r is a

ctiv

e, u

se

d in

co

nju

nctio

n w

ith th

e 'O

N' a

nd

'OF

F' d

ela

y.

ON

de

lay:

Tim

e p

erio

d b

etw

ee

n th

e te

mp

era

ture

risin

g a

bo

ve

the

thre

sh

old

leve

l an

d th

e P

ea

k P

icke

r fun

ctio

n s

witc

hin

g o

n

OF

F d

ela

y:

Tim

e

pe

riod

b

etw

ee

n

the

te

mp

era

ture

fa

lling

b

elo

w

the

thre

sh

old

leve

l an

d th

e P

ea

k P

icke

r fun

ctio

n s

witc

hin

g o

ff.

Mo

de

:In

'Ho

ld' m

od

e, a

t the

en

d o

f the

'OF

F' d

ela

y, th

e te

mp

era

ture

ou

tpu

t va

lue

is h

eld

co

nsta

nt u

ntil th

e te

mp

era

ture

inp

ut n

ext

rise

s a

bo

ve

the

thre

sh

old

leve

l.

In 'R

ese

t' mo

de

, at th

e e

nd

of th

e 'O

FF

' de

lay, th

e te

mp

era

ture

ou

tpu

t sig

na

l falls

to 'u

nd

er-ra

ng

e' u

ntil th

e te

mp

era

ture

inp

ut

ne

xt ris

es a

bo

ve

the

thre

sh

old

leve

l. Th

e P

ea

k P

icke

r ca

n b

e

'Re

se

t' at a

ny tim

e b

y u

sin

g th

e C

MD

inp

ut. S

ee

3.3

.2

De

ca

y ra

te:

A u

se

r-ad

justa

ble

va

lue

at w

hic

h th

e s

tore

d te

mp

era

ture

ou

tpu

t

sig

na

l d

eca

ys.

Fig

. 10

Gra

ph

ica

l rep

rese

nta

tion

of P

ea

k P

icke

r time

fun

ctio

n

Tim

eTemp

'OF

F'

De

lay

'Ho

ld'

mod

e

'Re

se

t'm

od

e

Adju

sta

ble

de

cay ra

te

'ON

'

De

lay

Th

resh

old

leve

l

LMT010072

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

16

Pa

ge

16

Fig

. 11

Gra

ph

ica

l rep

rese

nta

tion

of T

rack a

nd

Ho

ld tim

e fu

nctio

n

Fig

. 12

Gra

ph

ica

l rep

rese

nta

tion

of A

vera

ge

r time

fun

ctio

n

Tim

e

Temp

0V

+V

Com

mand

Com

mand s

ignal =

Clo

sure

of p

ote

ntia

l-free c

onta

cts

,

TT

L le

vel (0

to 5

V)

or 0

to 2

4V

Track

Track

Hold

Hold

s/c

= H

old

+5V

= T

rack

+24V

= T

rack

0V

= H

old

LMT010073

Tim

e

Fa

st a

ve

rag

er

resp

on

se

sp

ee

d

Slo

w a

ve

rage

rre

spo

nse

sp

ee

d

Temp

LMT010074

Fig

. 11

Gra

ph

ica

l rep

rese

nta

tion

of T

rack a

nd

Ho

ld tim

e fu

nctio

n

Fig

. 12

Gra

ph

ica

l rep

rese

nta

tion

of A

vera

ge

r time

fun

ctio

n

Tim

e

Temp

0V

+V

Com

mand

Com

mand

sig

nal =

Clo

sure

of p

ote

ntia

l-free

conta

cts

,

TT

L le

vel (0

to 5

V)

or 0

to 2

4V

Track

Track

Hold

Hold

s/c

= H

old

+5V

= T

rack

+24V

= T

rack

0V

= H

old

LMT010073

Tim

e

Fa

st a

ve

rag

er

resp

on

se

sp

ee

d

Slo

w a

ve

rage

rre

spo

nse

sp

ee

d

Temp

LMT010074

Pa

ge

17

Pa

ge

17

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

5.2

Tra

ck

an

d H

old

Re

fer to

Fig

. 11

. Th

e T

rack a

nd

Ho

ld tim

e fu

nctio

n is

use

ful e

sp

ecia

lly fo

r me

asu

ring

inte

rmitte

nt p

roce

sse

s e

.g. ite

ms o

n a

co

nve

yo

r be

lt. Th

e p

rese

nce

of a

'ho

t' ob

ject

ca

n b

e u

se

d to

activ

ate

the

'Tra

ck' fu

nctio

n, w

hic

h c

au

se

s th

e o

utp

ut to

dis

pla

y th

e

tem

pe

ratu

re o

f the

ob

ject. W

he

n th

e o

bje

ct m

ove

s fro

m th

e m

ea

su

rem

en

t are

a, th

e

'Tra

ck' fu

nctio

n c

an

be

sw

itch

ed

off a

nd

the

tem

pe

ratu

re v

alu

e h

eld

un

til the

ne

xt 'h

ot'

ob

ject a

pp

ea

rs.

Th

e T

rack a

nd

Ho

ld fu

nctio

n is

co

ntro

lled

via

the

CM

D (C

om

ma

nd

) inp

ut. S

ee

3.3

.2

5.3

Av

era

ge

r

Re

fer to

Fig

. 12

. Th

e A

ve

rag

er tim

e fu

nctio

n c

an

be

use

d to

'sm

oo

th' th

e te

mp

era

ture

ou

tpu

t sig

na

l in re

latio

n to

the

tem

pe

ratu

re in

pu

t. Th

e a

ve

rag

er re

sp

on

se

ca

n b

e

ad

juste

d to

su

it yo

ur a

pp

lica

tion

. With

a fa

st re

sp

on

se

sp

ee

d, th

e te

mp

era

ture

ou

tpu

t

sig

na

l tracks th

e in

pu

t sig

na

l clo

se

ly, a

ny ra

pid

fluctu

atio

ns in

the

inp

ut a

re re

flecte

d

in th

e o

utp

ut. W

ith a

slo

w re

sp

on

se

sp

ee

d, th

e te

mp

era

ture

ou

tpu

t sig

na

l is m

uch

sm

oo

the

r, dis

pla

yin

g m

ore

the

'tren

d' o

f the

inp

ut s

ign

al ra

the

r tha

n ra

pid

ch

an

ge

s.

5.2

Tra

ck

an

d H

old

Re

fer to

Fig

. 11

. Th

e T

rack a

nd

Ho

ld tim

e fu

nctio

n is

use

ful e

sp

ecia

lly fo

r me

asu

ring

inte

rmitte

nt p

roce

sse

s e

.g. ite

ms o

n a

co

nve

yo

r be

lt. Th

e p

rese

nce

of a

'ho

t' ob

ject

ca

n b

e u

se

d to

activ

ate

the

'Tra

ck' fu

nctio

n, w

hic

h c

au

se

s th

e o

utp

ut to

dis

pla

y th

e

tem

pe

ratu

re o

f the

ob

ject. W

he

n th

e o

bje

ct m

ove

s fro

m th

e m

ea

su

rem

en

t are

a, th

e

'Tra

ck' fu

nctio

n c

an

be

sw

itch

ed

off a

nd

the

tem

pe

ratu

re v

alu

e h

eld

un

til the

ne

xt 'h

ot'

ob

ject a

pp

ea

rs.

Th

e T

rack a

nd

Ho

ld fu

nctio

n is

co

ntro

lled

via

the

CM

D (C

om

ma

nd

) inp

ut. S

ee

3.3

.2

5.3

Av

era

ge

r

Re

fer to

Fig

. 12

. Th

e A

ve

rag

er tim

e fu

nctio

n c

an

be

use

d to

'sm

oo

th' th

e te

mp

era

ture

ou

tpu

t sig

na

l in re

latio

n to

the

tem

pe

ratu

re in

pu

t. Th

e a

ve

rag

er re

sp

on

se

ca

n b

e

ad

juste

d to

su

it yo

ur a

pp

lica

tion

. With

a fa

st re

sp

on

se

sp

ee

d, th

e te

mp

era

ture

ou

tpu

t

sig

na

l tracks th

e in

pu

t sig

na

l clo

se

ly, a

ny ra

pid

fluctu

atio

ns in

the

inp

ut a

re re

flecte

d

in th

e o

utp

ut. W

ith a

slo

w re

sp

on

se

sp

ee

d, th

e te

mp

era

ture

ou

tpu

t sig

na

l is m

uch

sm

oo

the

r, dis

pla

yin

g m

ore

the

'tren

d' o

f the

inp

ut s

ign

al ra

the

r tha

n ra

pid

ch

an

ge

s.

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

18

Pa

ge

18

6.0

LE

D IN

DIC

AT

OR

S

LE

D's

A

a

nd

B

o

n

the

L

an

dm

ark

T

ech

nic

g

ive

vis

ua

l id

en

tifica

tion

o

f in

tern

al

op

era

tion

s o

f the

un

it. Th

e fo

llow

ing

tab

le lis

ts th

e in

dic

atio

ns in

ord

er o

f pre

ce

de

nce

.

LE

D A

LE

D B

Co

lou

rIn

dic

atio

n

Co

lou

rIn

dic

atio

n

Am

be

r

Fla

sh

ing

Am

be

r

Fla

sh

ing

Gre

en

Gre

en

Fla

sh

ing

Gre

en

Gre

en

Re

d

Fla

sh

ing

Re

d

Am

be

r

Fla

sh

ing

Am

be

r

OK

Co

nfig

ura

tor

Co

nn

ecte

d

Vo

latile

Co

nfig

ura

tion

Te

st M

od

e

Se

nso

r Fa

il***

Ala

rm

Clip

pin

g*

Ob

scu

red

**

Co

mm

an

d In

pu

tA

ctiv

e

OK

* Clip

pin

g =

Un

sta

ble

Inp

ut T

o

Ave

rag

ing

Fu

nctio

n

** Un

cla

mp

ed

Ra

tio P

yro

me

ters

on

ly

*** Cla

mp

ed

Pyro

me

ters

On

ly

6.0

LE

D IN

DIC

AT

OR

S

LE

D's

A

a

nd

B

o

n

the

L

an

dm

ark

T

ech

nic

g

ive

vis

ua

l id

en

tifica

tion

o

f in

tern

al

op

era

tion

s o

f the

un

it. Th

e fo

llow

ing

tab

le lis

ts th

e in

dic

atio

ns in

ord

er o

f pre

ce

de

nce

.

LE

D A

LE

D B

Co

lou

rIn

dic

atio

n

Co

lou

rIn

dic

atio

n

Am

be

r

Fla

sh

ing

Am

be

r

Fla

sh

ing

Gre

en

Gre

en

Fla

sh

ing

Gre

en

Gre

en

Re

d

Fla

sh

ing

Re

d

Am

be

r

Fla

sh

ing

Am

be

r

OK

Co

nfig

ura

tor

Co

nn

ecte

d

Vo

latile

Co

nfig

ura

tion

Te

st M

od

e

Se

nso

r Fa

il***

Ala

rm

Clip

pin

g*

Ob

scu

red

**

Co

mm

an

d In

pu

tA

ctiv

e

OK

* Clip

pin

g =

Un

sta

ble

Inp

ut T

o

Ave

rag

ing

Fu

nctio

n

** Un

cla

mp

ed

Ra

tio P

yro

me

ters

on

ly

*** Cla

mp

ed

Pyro

me

ters

On

ly

Pa

ge

19

Pa

ge

19

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

7.0

MA

INT

EN

AN

CE

7.0

MA

INT

EN

AN

CE

Th

e L

an

dm

ark

Te

ch

nic

Pro

ce

sso

r is d

esig

ne

d to

be

virtu

ally

ma

inte

na

nce

free

, bu

t

ca

libra

tion

ch

ecks a

re h

igh

ly re

co

mm

en

de

d a

t pe

riod

s o

f no

t mo

re th

an

1 y

ea

r.

Fo

r de

tails

on

La

nd

ma

rk T

ech

nic

ca

libra

tion

, ple

ase

co

nta

ct L

an

d In

frare

d C

alib

ratio

n

Se

rvic

es.

Th

e L

an

dm

ark

Te

ch

nic

Pro

ce

sso

r is d

esig

ne

d to

be

virtu

ally

ma

inte

na

nce

free

, bu

t

ca

libra

tion

ch

ecks a

re h

igh

ly re

co

mm

en

de

d a

t pe

riod

s o

f no

t mo

re th

an

1 y

ea

r.

Fo

r de

tails

on

La

nd

ma

rk T

ech

nic

ca

libra

tion

, ple

ase

co

nta

ct L

an

d In

frare

d C

alib

ratio

n

Se

rvic

es.

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

20

Pa

ge

20

Pa

ge

21

Pa

ge

21

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

Fig

. 9 D

IN ra

il dim

en

sio

ns

AP

PE

ND

IX A

- DIN

RA

IL S

PE

CIF

ICA

TIO

N

DIN

rail s

pe

cific

atio

n. D

IN E

N 5

0 0

22

25m

m / 0

. 98in

18m

m / 0

.71in

6.3

mm

/ 0.2

5in

15mm / 0.59in

27m

m / 1

.06in

35m

m / 1

.38in

15mm / 0 .59 in

27m

m / 1

.06in

35m

m / 1

.38in

18m

m / 0

.7 1in

6.3

mm

/ 0.2

5in

25m

m / 0

.98in

27m

m / 1

.06in

35m

m / 1

.38in

7.5mm / 0.30in

35m

m / 1

.38in

27

mm

/ 1.0

6in

7.5mm / 0.30 in

LMT010077

Pla

in (1

.5m

m / 0

.06

in)

RS

Sto

ck

No

.L

en

gth

17

6-6

74

17

6-6

80

0.5

m

1.0

m

Pla

in (1

.0m

m / 0

.04

in)

RS

Sto

ck

No

.L

en

gth

17

6-6

52

17

6-6

68

0.5

m

1.0

m

Pu

nched

(1.5

mm

/ 0.0

6in

)

RS

Sto

ck N

o.

Le

ngth

176

-696

176

-703

0.5

m

1.0

m

Pu

nched

(1.0

mm

/ 0.0

4in

)

RS

Sto

ck N

o.

Len

gth

424

-131

606

-838

0.5

m

1.0

m

Fig

. 9 D

IN ra

il dim

en

sio

ns

AP

PE

ND

IX A

- DIN

RA

IL S

PE

CIF

ICA

TIO

N

DIN

rail s

pe

cific

atio

n. D

IN E

N 5

0 0

22

25m

m / 0

. 98in

18m

m / 0

.71in

6.3

mm

/ 0.2

5in

15mm / 0.59in

27m

m / 1

.06in

35m

m / 1

.38in

15mm / 0 .59 in

27m

m / 1

.06in

35m

m / 1

.38in

18m

m / 0

.7 1in

6.3

mm

/ 0.2

5in

25m

m / 0

.98in

27m

m / 1

.06in

35m

m / 1

.38in

7.5mm / 0.30in

35m

m / 1

.38in

27

mm

/ 1.0

6in

7.5mm / 0.30 in

LMT010077

Pla

in (1

.5m

m / 0

.06

in)

RS

Sto

ck

No

.L

en

gth

17

6-6

74

17

6-6

80

0.5

m

1.0

m

Pla

in (1

.0m

m / 0

.04

in)

RS

Sto

ck

No

.L

en

gth

17

6-6

52

17

6-6

68

0.5

m

1.0

m

Pu

nched

(1.5

mm

/ 0.0

6in

)

RS

Sto

ck N

o.

Le

ngth

176

-696

176

-703

0.5

m

1.0

m

Pu

nched

(1.0

mm

/ 0.0

4in

)

RS

Sto

ck N

o.

Len

gth

424

-131

606

-838

0.5

m

1.0

m

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

22

Pa

ge

22

AP

PE

ND

IX B

- SE

RIA

L C

OM

MU

NIC

AT

ION

S S

ET

-UP

Th

e L

an

dm

ark

Te

ch

nic

co

nfig

ura

tor p

ort c

an

be

use

d fo

r co

mm

un

ica

tion

be

twe

en

the

pro

ce

sso

r an

d e

ithe

r a te

rmin

al o

r a c

om

pu

ter.

NO

TE

It is re

co

mm

en

de

d th

at c

on

figu

ratio

n is

no

rma

lly p

erfo

rme

d u

sin

g

the

co

nfig

ura

tion

so

ftwa

re p

rovid

ed

.

RS

23

2C

is

sta

nd

ard

a

nd

co

mp

atib

le

with

e

ithe

r te

rmin

als

o

r co

mp

ute

rs

wh

ich

allo

ws c

om

mu

nic

atio

ns w

ith a

sin

gle

pro

ce

sso

r on

ly.

RS

48

5 - c

on

tact L

an

d In

frare

d.

Se

rial C

om

mu

nic

atio

ns

sp

ec

ifica

tion

Mo

de

se

lectio

n:

RS

23

2C

Ba

ud

rate

:9

60

0

Da

ta b

its:

8 b

its

Pa

rity:

No

ne

Sto

p b

its:

1

Th

e R

S2

32

se

rial c

om

mu

nic

atio

ns o

utp

ut c

on

ne

ctio

n s

ch

ed

ule

s a

re g

ive

n in

Fig

.

5 a

nd

Ta

ble

3.

Ta

ble

3 C

on

figu

rato

r term

ina

l co

nn

ectio

ns

Fu

nc

tion

Co

lou

rD

Typ

e P

in #

Co

nfig

ura

tor

Co

nn

ecto

r Pin

#

10V

223

2R

X

3232

TX

45485

(Z)

678485

(A)

94

85(B

)

Do

no

t use

Do n

ot u

se

Yello

w3

White

2

Bla

ck5

--

232 C

able

(031.0

85

)

- - - - -

- - - --

485(Y

)

AP

PE

ND

IX B

- SE

RIA

L C

OM

MU

NIC

AT

ION

S S

ET

-UP

Th

e L

an

dm

ark

Te

ch

nic

co

nfig

ura

tor p

ort c

an

be

use

d fo

r co

mm

un

ica

tion

be

twe

en

the

pro

ce

sso

r an

d e

ithe

r a te

rmin

al o

r a c

om

pu

ter.

NO

TE

It is re

co

mm

en

de

d th

at c

on

figu

ratio

n is

no

rma

lly p

erfo

rme

d u

sin

g

the

co

nfig

ura

tion

so

ftwa

re p

rovid

ed

.

RS

23

2C

is

sta

nd

ard

a

nd

co

mp

atib

le

with

e

ithe

r te

rmin

als

o

r co

mp

ute

rs

wh

ich

allo

ws c

om

mu

nic

atio

ns w

ith a

sin

gle

pro

ce

sso

r on

ly.

RS

48

5 - c

on

tact L

an

d In

frare

d.

Se

rial C

om

mu

nic

atio

ns

sp

ec

ifica

tion

Mo

de

se

lectio

n:

RS

23

2C

Ba

ud

rate

:9

60

0

Da

ta b

its:

8 b

its

Pa

rity:

No

ne

Sto

p b

its:

1

Th

e R

S2

32

se

rial c

om

mu

nic

atio

ns o

utp

ut c

on

ne

ctio

n s

ch

ed

ule

s a

re g

ive

n in

Fig

.

5 a

nd

Ta

ble

3.

Ta

ble

3 C

on

figu

rato

r term

ina

l co

nn

ectio

ns

Fu

nc

tion

Co

lou

rD

Typ

e P

in #

Co

nfig

ura

tor

Co

nn

ecto

r Pin

#

10V

223

2R

X

3232

TX

45485

(Z)

678485

(A)

94

85(B

)

Do

no

t use

Do n

ot u

se

Yello

w3

White

2

Bla

ck5

--

232 C

able

(031.0

85

)

- - - - -

- - - --

485(Y

)

Pa

ge

23

Pa

ge

23

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

B1

Se

rial C

om

mu

nic

atio

ns

pro

toc

ol

B1

.2R

S2

32

C s

et d

ata

Fig

. 13

RS

23

2C

mo

de

RE

AD

pro

toco

l

Co

mp

ute

r/Term

inalRxxx

CR

Lan

dm

ark

Tech

nic

xx

Valu

e o

f requeste

dpara

mete

r or

(AS

CII)

xCR

LF

Para

mete

r valu

ebein

g re

queste

d(A

SC

II)

x

A

LMT010075

Co

mp

ute

r/Term

inalSxxx

Land

mark

Tech

nic

CR

Para

mete

r valu

ebein

g m

odifie

d(A

SC

II)

Space

xxx

New

para

mete

rvalu

e (A

SC

II)x A

LMT010076

Fig

. 14

RS

23

2C

mo

de

WR

ITE

pro

toco

l

B1

.1R

S2

32

C re

ad

da

ta

B1

Se

rial C

om

mu

nic

atio

ns

pro

toc

ol

B1

.2R

S2

32

C s

et d

ata

Fig

. 13

RS

23

2C

mo

de

RE

AD

pro

toco

l

Co

mp

ute

r/Term

inalRxxx

CR

Lan

dm

ark

Tech

nic

xx

Valu

e o

f requeste

dpara

mete

r or

(AS

CII)

xCR

LF

Para

mete

r valu

ebein

g re

queste

d(A

SC

II)

x

A

LMT010075

Co

mp

ute

r/Term

inalSxxx

Land

mark

Tech

nic

CR

Para

mete

r valu

ebein

g m

odifie

d(A

SC

II)

Space

xxx

New

para

mete

rvalu

e (A

SC

II)x A

LMT010076

Fig

. 14

RS

23

2C

mo

de

WR

ITE

pro

toco

l

B1

.1R

S2

32

C re

ad

da

ta

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Us

er G

uid

eL

an

dm

ark

Te

ch

nic

Pa

ge

24

Pa

ge

24

B1

.3R

S2

32

C e

xa

mp

les

To

rea

d th

e te

mp

era

ture

Typ

e a

t the

term

ina

l:R

AT

MP

[en

ter]

Bre

akd

ow

n:

RR

ea

d m

od

e

AA

lwa

ys A

TM

PC

om

ma

nd

to re

po

rt the

tem

pe

ratu

re

[en

ter]

Pre

ss te

rmin

al e

nte

r ke

y

Re

ply

:1

00

0T

em

pe

ratu

re in

de

gre

es

To

se

t the

em

iss

ivity

to 0

.50

0

Typ

e a

t the

term

ina

l:S

AE

MS

50

0 [e

nte

r]

Bre

akd

ow

n:

SS

et m

od

e

AA

lwa

ys A

EM

SC

om

ma

nd

to w

ork

on

the

em

issiv

ity v

alu

e

∆(S

pa

ce

)

50

0 N

ew

va

lue

[en

ter]

Pre

ss te

rmin

al e

nte

r ke

y

Re

ply

:N

on

e

NO

TE

In g

en

era

l, ch

an

ge

d p

ara

me

ters

are

sto

red

in v

ola

tile m

em

ory

un

til an

exp

licit s

ave

co

mm

an

d is

se

nt (s

ee

ME

M in

Se

ctio

n

B1

.4).

B1

.3R

S2

32

C e

xa

mp

les

To

rea

d th

e te

mp

era

ture

Typ

e a

t the

term

ina

l:R

AT

MP

[en

ter]

Bre

akd

ow

n:

RR

ea

d m

od

e

AA

lwa

ys A

TM

PC

om

ma

nd

to re

po

rt the

tem

pe

ratu

re

[en

ter]

Pre

ss te

rmin

al e

nte

r ke

y

Re

ply

:1

00

0T

em

pe

ratu

re in

de

gre

es

To

se

t the

em

iss

ivity

to 0

.50

0

Typ

e a

t the

term

ina

l:S

AE

MS

50

0 [e

nte

r]

Bre

akd

ow

n:

SS

et m

od

e

AA

lwa

ys A

EM

SC

om

ma

nd

to w

ork

on

the

em

issiv

ity v

alu

e

∆(S

pa

ce

)

50

0 N

ew

va

lue

[en

ter]

Pre

ss te

rmin

al e

nte

r ke

y

Re

ply

:N

on

e

NO

TE

In g

en

era

l, ch

an

ge

d p

ara

me

ters

are

sto

red

in v

ola

tile m

em

ory

un

til an

exp

licit s

ave

co

mm

an

d is

se

nt (s

ee

ME

M in

Se

ctio

n

B1

.4).

Pa

ge

25

Pa

ge

25

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

La

nd

ma

rk T

ec

hn

icU

se

r Gu

ide

B1

.4S

eria

l Po

rt Pa

ram

ete

rs

Na

me

Me

nu

title te

xt

Ran

ge

Incre

men

tD

efa

ult

Co

mm

en

ts

Min

Max

IRT

Therm

om

ete

r

type

Lis

t of a

vaila

ble

therm

om

ete

rs

obta

ined u

sin

g

IFO

com

mand.

Note

Changin

g

IRT

sets

defa

ult

para

mete

rs in

oth

er p

laces

EM

SE

mis

siv

ity200

1000

11000

e.g

; 0.2

00 =

200

Use o

f corre

ct

para

mete

r is

dete

rmin

ed b

y

irt_ty

pe v

alu

e.

NG

RN

on g

reyness

800

1250

11000

e.g

. 1.1

03 =

1103

TFN

Tim

e fu

nctio

n0

31

00 =

None

1 =

Avera

ger

2 =

Pea

k p

icker

3 =

Tra

ck &

hold

PP

MP

eak p

icke

r

mode

01

10

0 =

Reset

1 =

Hold

PP

TP

eak p

icke

r

thre

shold

irt_tm

inirt_

tm-

ax

1irt_

tmin

= v

alu

e in

degre

es

e.g

. ; 1051C

Lim

its a

nd u

nits

dete

rmin

ed b

y

irt_ty

pe v

alu

e

PO

NP

eak p

icke

r

ON

dela

y

0100

10

e.g

. ; 69 =

6.9

sS

econds

PO

FP

eak p

icke

r

OFF d

ela

y

0100

1100

e.g

. ; 32 =

3.2

sS

econds

PP

DP

eak P

icker

deca

y ra

te

015

10

0 =

0.0

0

1 =

0.2

5

2 =

0.5

3 =

1.0

4 =

2.0

5 =

4.0

6 =

8.0

7 =

16.0

8 =

32.0

9 =

64.0

10 =

128

11 =

256

12 =

512

Units

are

°/s

13 to

15 n

ot

used

Initia

lly s

et to

12

AV

RA

vera

ger

response tim

e

015

11

0 =

0.0

0

1 =

0.0

5

2 =

0.1

3 =

0.1

5

4 =

0.2

5

5 =

0.5

6 =

1.0

7 =

2.0

8 =

4.0

9 =

8.0

10 =

16.0

11 =

32.0

12 =

64.0

13 =

128

14 =

256

15 =

512

Units

are

s

Initia

lly s

et to

1

B1

.4S

eria

l Po

rt Pa

ram

ete

rs

Na

me

Me

nu

title te

xt

Range

Incre

men

tD

efa

ult

Co

mm

en

ts

Min

Max

IRT

Therm

om

ete

r

type

Lis

t of a

vaila

ble

therm

om

ete

rs

obta

ined u

sin

g

IFO

com

mand.

Note

Changin

g

IRT

sets

defa

ult

para

mete

rs in

oth

er p

laces

EM

SE

mis

siv

ity200

1000

11000

e.g

; 0.2

00 =

200

Use o

f corre

ct

para

mete

r is

dete

rmin

ed b

y

irt_ty

pe v

alu

e.

NG

RN

on g

reyness

800

1250

11000

e.g

. 1.1

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1103

TFN

Tim

e fu

nctio

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31

00 =

None

1 =

Avera

ger

2 =

Pea

k p

icker

3 =

Tra

ck &

hold

PP

MP

eak p

icke

r

mode

01

10

0 =

Reset

1 =

Hold

PP

TP

eak p

icke

r

thre

shold

irt_tm

inirt_

tm-

ax

1irt_

tmin

= v

alu

e in

degre

es

e.g

. ; 1051C

Lim

its a

nd u

nits

dete

rmin

ed b

y

irt_ty

pe v

alu

e

PO

NP

eak p

icke

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dela

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0100

10

e.g

. ; 69 =

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sS

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FP

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1100

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PP

DP

eak P

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deca

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te

015

10

0 =

0.0

0

1 =

0.2

5

2 =

0.5

3 =

1.0

4 =

2.0

5 =

4.0

6 =

8.0

7 =

16.0

8 =

32.0

9 =

64.0

10 =

128

11 =

256

12 =

512

Units

are

°/s

13 to

15 n

ot

used

Initia

lly s

et to

12

AV

RA

vera

ger

response tim

e

015

11

0 =

0.0

0

1 =

0.0

5

2 =

0.1

3 =

0.1

5

4 =

0.2

5

5 =

0.5

6 =

1.0

7 =

2.0

8 =

4.0

9 =

8.0

10 =

16.0

11 =

32.0

12 =

64.0

13 =

128

14 =

256

15 =

512

Units

are

s

Initia

lly s

et to

1

Us

er G

uid

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an

dm

ark

Te

ch

nic

Us

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me

ters

(Co

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Na

me

Men

u title

tex

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Ran

ge

Incre

men

tD

efa

ult

Co

mm

en

tsM

inM

ax

A1

MM

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11

10

= L

ow

1 =

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OP

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XS

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va

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de

gre

es

Add

ition

al lim

it

on

va

lue

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res

(t_m

ax

- t_m

in)

= >

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0°

OM

NS

ign

al o

utp

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gre

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LB

LC

ha

nn

el la

be

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ch

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1L

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Tech

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ter s

tring

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ch

ara

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lon

g)

A1S

Ala

rm 1

sta

tus

Re

ad o

nly

0 =

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1 =

set

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SO

bsc

ura

tion

sta

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Re

ad o

nly

0 =

no

t se

t

1 =

set

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RO

ver ra

ng

e

sta

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0 =

no

t se

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1 =

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PT

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pe

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rea

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Re

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Tem

pera

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un

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dr

UD

RU

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sta

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Re

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1 - s

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Na

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Men

u title

tex

t

Ran

ge

Incre

men

tD

efa

ult

Co

mm

en

tsM

inM

ax

A1

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e0

11

10

= L

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1 =

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OP

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ign

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01

11

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0 to

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OM

XS

ign

al o

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0m

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>

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<

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va

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de

gre

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Add

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al lim

it

on

va

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al o

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ut

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de

gre

es

LB

LC

ha

nn

el la

be

lF

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ch

ara

ct-

er s

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1L

M

Tech

nic

= c

ha

rac

ter s

tring

(15

ch

ara

cte

rs

lon

g)

A1S

Ala

rm 1

sta

tus

Re

ad o

nly

0 =

no

t se

t

1 =

set

OB

SO

bsc

ura

tion

sta

tus

Re

ad o

nly

0 =

no

t se

t

1 =

set

OV

RO

ver ra

ng

e

sta

tus

Re

ad o

nly

0 =

no

t se

t

1 =

set

TM

PT

em

pe

ratu

re

rea

din

g

Re

ad o

nly

Tem

pera

ture

in

deg

ree

s +

un

itsv

dr

UD

RU

nd

er ra

ng

e

sta

tus

Re

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nly

0 =

no

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1 - s

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Pa

ge

27

Pa

ge

27

La

nd

ma

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La

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1.4

Se

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ara

me

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eM

en

u title

text

Rang

e

Incre

ment

Defa

ult

Com

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ts

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Uncla

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Set

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Read re

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Fla

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i.e. w

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contin

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0 =

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2 =

config

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3 =

conta

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form

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multi lin

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Read re

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Fla

g is se

t when c

onfig

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i.e. w

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contin

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therm

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config

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3 =

conta

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form

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multi lin

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B1

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tem

Co

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Co

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Th

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the

time

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co

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ind

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se

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ba

ud

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.

All c

om

ma

nd

s a

re s

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20

ms.

Co

mm

an

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ply

time

Th

is is

the

time

take

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M T

ech

nic

rep

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dire

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rela

ted

to th

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au

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d th

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ha

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the

rep

ly.

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TE

Use

of th

e IF

O c

om

ma

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, wh

ich

will in

vo

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g re

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s, w

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dis

rup

t inte

rna

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g a

nd

affe

ct tim

e fu

nctio

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Inte

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Th

is is

the

time

be

twe

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the

en

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f the

last c

ha

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an

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e

LM

Te

ch

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an

d th

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of th

e la

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ha

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resp

on

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i.e. th

e p

erio

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he

n th

e

LM

Te

ch

nic

is u

na

ble

to ta

ke

a c

om

ma

nd

be

ca

use

it is s

till pro

ce

ssin

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pre

vio

us o

ne

.

Th

is is

the

co

mm

an

d re

sp

on

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time

+ c

om

ma

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rep

ly tim

e.

Fo

r R

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32

C a

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60

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re

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1m

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Ca

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Le

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Th

e m

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ep

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nd

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low

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au

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r a lo

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ca

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96

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, 50

m (E

IA R

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32

C s

tan

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tem

Co

mm

un

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mm

an

d re

sp

on

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time

Th

is is

the

time

take

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e e

nd

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se

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.

All c

om

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Use

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Em

ail:

irsa

les@

lan

din

stru

me

nts

.ne

t

Inte

rne

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ww

.lan

din

stru

me

nts

.ne

t

ab

cin

stru

men

ts in

tern

atio

nal

Us

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nd

ma

rk T

ec

hn

ic

Qu

ality

Assu

ran

ce

Qu

ality

Assu

ran

ce

La

nd

ma

rk T

ec

hn

ic

All p

ackagin

g m

ate

rial u

sed fo

r this

pro

duct is

100%

recycla

ble

.

Landm

ark

® is

a re

gis

tere

d tra

dem

ark

.

abcdefgABCThe Q

uality

Managem

ent S

yste

m o

f Land In

stru

ments

Inte

rnatio

nal L

td. is

appro

ved to

BS

EN

ISO

9001:2

000 fo

r the d

esig

n a

nd m

anufa

ctu

re, s

tockhold

ing,

in-h

ouse re

pair a

nd s

ite s

erv

icin

g o

f non c

onta

ct te

mpera

ture

measurin

g

instru

menta

tion. A

ssocia

ted s

oftw

are

desig

ned a

nd d

evelo

ped in

accord

ance

with

Tic

kIT

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Calib

ratio

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ertific

ate

s a

re a

vaila

ble

from

our U

KA

S a

ccre

dite

d C

alib

ratio

n

Labora

tory

N

o.

0034.

The Land calib

ratio

n la

bora

tory

com

plie

s w

ith th

e

require

ments

of th

e in

tern

atio

nal s

tandard

BS

EN

ISO

/IEC

17025.

La

nd

L

an

dm

ark

p

rod

uc

ts c

om

ply

w

ith c

urre

nt

Eu

rop

ea

n

dire

ctiv

es re

latin

g to

ele

ctro

ma

gne

tic c

om

pa

tibility

and

sa

fety.

(EM

C d

irectiv

e 8

9/3

36

/EE

C; L

ow

vo

ltag

e d

irectiv

e 7

3/2

3/E

EC

)

All p

ackagin

g m

ate

rial u

sed fo

r this

pro

duct is

100%

recycla

ble

.

Landm

ark

® is

a re

gis

tere

d tra

dem

ark

.

abcdefgABCThe Q

uality

Managem

ent S

yste

m o

f Land In

stru

ments

Inte

rnatio

nal L

td. is

appro

ved to

BS

EN

ISO

9001:2

000 fo

r the d

esig

n a

nd m

anufa

ctu

re, s

tockhold

ing,

in-h

ouse re

pair a

nd s

ite s

erv

icin

g o

f non c

onta

ct te

mpera

ture

measurin

g

instru

menta

tion. A

ssocia

ted s

oftw

are

desig

ned a

nd d

evelo

ped in

accord

ance

with

Tic

kIT

.

Calib

ratio

n c

ertific

ate

s a

re a

vaila

ble

from

our U

KA

S a

ccre

dite

d C

alib

ratio

n

Labora

tory

N

o.

0034.

The Land calib

ratio

n la

bora

tory

com

plie

s w

ith th

e

require

ments

of th

e in

tern

atio

nal s

tandard

BS

EN

ISO

/IEC

17025.

La

nd

L

an

dm

ark

p

rod

uc

ts c

om

ply

w

ith c

urre

nt

Eu

rop

ea

nd

irectiv

es re

latin

g to

ele

ctro

ma

gne

tic c

om

pa

tibility

and

sa

fety.

(EM

C d

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e 8

9/3

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/EE

C; L

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vo

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