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
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
Us
er G
uid
eL
an
dm
ark
Te
ch
nic
Us
er G
uid
eL
an
dm
ark
Te
ch
nic
Pa
ge
26
Pa
ge
26
B1
.4S
eria
l Po
rt Pa
ram
ete
rs (C
on
tinu
ed
)B
1.4
Se
rial P
ort P
ara
me
ters
(Co
ntin
ue
d)
Na
me
Men
u title
tex
t
Ran
ge
Incre
men
tD
efa
ult
Co
mm
en
tsM
inM
ax
A1
MM
od
e0
11
10
= L
ow
1 =
Hig
h
A1
LL
ev
el
irt_m
inirt_
ma
x1
irt_m
ax
va
lue
in d
eg
ree
s
OP
TS
ign
al o
utp
ut
type
01
11
0 =
0 to
20
mA
1 =
4 to
20
mA
OM
XS
ign
al o
utp
ut
Tm
ax (2
0m
A)
>
irt_tm
in
+1
00
<
irt_tm
ax
5irt_
tma
x=
va
lue in
de
gre
es
Add
ition
al lim
it
on
va
lue
ensu
res
(t_m
ax
- t_m
in)
= >
10
0°
OM
NS
ign
al o
utp
ut
Tm
in (m
A)
>
irt_tm
in
<
irt_tm
ax
-10
0
5irt_
tmin
= v
alu
e in
de
gre
es
LB
LC
ha
nn
el la
be
lF
ull
ch
ara
ct-
er s
et
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
ad o
nly
0 =
no
t se
t
1 - s
et
Na
me
Men
u title
tex
t
Ran
ge
Incre
men
tD
efa
ult
Co
mm
en
tsM
inM
ax
A1
MM
od
e0
11
10
= L
ow
1 =
Hig
h
A1
LL
ev
el
irt_m
inirt_
ma
x1
irt_m
ax
va
lue
in d
eg
ree
s
OP
TS
ign
al o
utp
ut
type
01
11
0 =
0 to
20
mA
1 =
4 to
20
mA
OM
XS
ign
al o
utp
ut
Tm
ax (2
0m
A)
>
irt_tm
in
+1
00
<
irt_tm
ax
5irt_
tma
x=
va
lue in
de
gre
es
Add
ition
al lim
it
on
va
lue
ensu
res
(t_m
ax
- t_m
in)
= >
10
0°
OM
NS
ign
al o
utp
ut
Tm
in (m
A)
>
irt_tm
in
<
irt_tm
ax
-10
0
5irt_
tmin
= v
alu
e in
de
gre
es
LB
LC
ha
nn
el la
be
lF
ull
ch
ara
ct-
er s
et
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
ad o
nly
0 =
no
t se
t
1 - s
et
Pa
ge
27
Pa
ge
27
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 (C
on
tinu
ed
)B
1.4
Se
rial P
ort P
ara
me
ters
(Co
ntin
ue
d)
Nam
eM
en
u title
text
Rang
e
Incre
ment
Defa
ult
Com
men
ts
Min
Max
FLG
Sta
tus fla
gs
0x0000
0xFF
FF
0x0
001
Read O
nly
Bit
012345678910
11
12
13
14
15******
Fu
nctio
n
XXX
Com
mand I/P
Under ra
nge
Ove
r range
Obscu
red *
Clip
pin
g **
Sensor fa
il ***
Ala
rm 1
XXXXXX
Uncla
mped
Ratio
IRT
Only
Avera
ge
Mode O
nly
Cla
mped IR
T
Only
Set
Activ
e
Activ
e
Activ
e
Activ
e
Activ
e
Activ
e
Activ
e
Not a
ctive
OK
OK
OK
OK
OK
OK
ME
MM
em
ory
functio
n
0000
9999
0001
0000
Read re
sponse 0
000 R
AM
= F
LA
SH
Read re
sponse 0
001 R
AM
= F
LA
SH
Fla
g is se
t when c
onfig
ura
tion
is v
ola
tile
i.e. w
ill be lo
st a
t pow
er d
ow
n
Set a
rg 1
101 S
ave
RA
M>
FLA
SH
Set a
rg 9
999 M
ove F
LA
SH
>R
AM
See a
lso R
EFre
sh
RE
FR
efre
sh
00
00
0001
0001
Read O
nly
0 =
refre
shO
N, 1
=re
fresh
OF
F
contin
uous re
fresh
FLA
SH
to R
AM
IFO
Info
rmatio
n 0
31
Read O
nly
0 =
pro
cess
or b
uild
info
1 =
therm
om
ete
r list
2 =
config
ura
tion re
port
3 =
conta
ct in
form
atio
n
multi lin
e re
ply w
ith [sta
rt] and [e
nd]
delim
itters
Nam
eM
en
u title
text
Rang
e
Incre
ment
Defa
ult
Com
men
ts
Min
Max
FLG
Sta
tus fla
gs
0x0000
0xFF
FF
0x0
001
Read O
nly
Bit
012345678910
11
12
13
14
15******
Fu
nctio
n
XXX
Com
mand I/P
Under ra
nge
Ove
r range
Obscu
red *
Clip
pin
g **
Sensor fa
il ***
Ala
rm 1
XXXXXX
Uncla
mped
Ratio
IRT
Only
Avera
ge
Mode O
nly
Cla
mped IR
T
Only
Set
Activ
e
Activ
e
Activ
e
Activ
e
Activ
e
Activ
e
Activ
e
Not a
ctive
OK
OK
OK
OK
OK
OK
ME
MM
em
ory
functio
n
0000
9999
0001
0000
Read re
sponse 0
000 R
AM
= F
LA
SH
Read re
sponse 0
001 R
AM
= F
LA
SH
Fla
g is se
t when c
onfig
ura
tion
is v
ola
tile
i.e. w
ill be lo
st a
t pow
er d
ow
n
Set a
rg 1
101 S
ave
RA
M>
FLA
SH
Set a
rg 9
999 M
ove F
LA
SH
>R
AM
See a
lso R
EFre
sh
RE
FR
efre
sh
00
00
0001
0001
Read O
nly
0 =
refre
shO
N, 1
=re
fresh
OF
F
contin
uous re
fresh
FLA
SH
to R
AM
IFO
Info
rmatio
n 0
31
Read O
nly
0 =
pro
cess
or b
uild
info
1 =
therm
om
ete
r list
2 =
config
ura
tion re
port
3 =
conta
ct in
form
atio
n
multi lin
e re
ply w
ith [sta
rt] and [e
nd]
delim
itters
Us
er G
uid
eL
an
dm
ark
Te
ch
nic
Us
er G
uid
eL
an
dm
ark
Te
ch
nic
Pa
ge
28
Pa
ge
28
B1
.5S
ys
tem
Co
mm
un
ica
tion
s T
imin
g D
ata
Co
mm
an
d re
sp
on
se
time
Th
is is
the
time
take
n b
etw
ee
n th
e e
nd
of th
e la
st c
ha
racte
r of a
co
mm
an
d a
nd
the
be
gin
nin
g o
f the
first c
ha
racte
r of th
e re
ply
. Th
is tim
e is
ind
ep
en
de
nt o
f the
se
lecte
d
ba
ud
rate
.
All c
om
ma
nd
s a
re s
erv
ice
d w
ithin
20
ms.
Co
mm
an
d re
ply
time
Th
is is
the
time
take
n b
y th
e L
M T
ech
nic
rep
ly. It is
dire
ctly
rela
ted
to th
e s
ele
cte
d b
au
d
rate
an
d th
e n
um
be
r of c
ha
racte
rs in
the
rep
ly.
NO
TE
Use
of th
e IF
O c
om
ma
nd
, wh
ich
will in
vo
lve
lon
g re
plie
s, w
ill
dis
rup
t inte
rna
l timin
g a
nd
affe
ct tim
e fu
nctio
n p
roce
ssin
g.
Inte
r-co
mm
an
d tim
ing
Th
is is
the
time
be
twe
en
the
en
d o
f the
last c
ha
racte
r of a
co
mm
an
d re
ce
ive
d b
y th
e
LM
Te
ch
nic
an
d th
e e
nd
of th
e la
st c
ha
racte
r of its
resp
on
se
i.e. th
e p
erio
d w
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
g a
pre
vio
us o
ne
.
Th
is is
the
co
mm
an
d re
sp
on
se
time
+ c
om
ma
nd
rep
ly tim
e.
Fo
r R
S2
32
C a
t 9
60
0 b
au
d,
assu
min
g a
re
ply
o
f 2
0 ch
ara
cte
rs m
axim
um
, th
e
inte
r-co
mm
an
d tim
e is
4
1m
s.
Ca
ble
Le
ng
ths
Th
e m
axim
um
ca
ble
len
gth
s a
re, to
a g
rea
t exte
nt, d
ep
en
de
nt o
n b
au
d ra
te a
nd
ca
ble
typ
e. G
en
era
lly a
low
er b
au
d ra
te w
ill giv
e re
liab
le c
om
mu
nic
atio
ns o
ve
r a lo
ng
er
len
gth
of a
giv
en
ca
ble
typ
e.
RS
23
2C
96
00
ba
ud
, 50
m (E
IA R
S2
32
C s
tan
da
rd)
B1
.5S
ys
tem
Co
mm
un
ica
tion
s T
imin
g D
ata
Co
mm
an
d re
sp
on
se
time
Th
is is
the
time
take
n b
etw
ee
n th
e e
nd
of th
e la
st c
ha
racte
r of a
co
mm
an
d a
nd
the
be
gin
nin
g o
f the
first c
ha
racte
r of th
e re
ply
. Th
is tim
e is
ind
ep
en
de
nt o
f the
se
lecte
d
ba
ud
rate
.
All c
om
ma
nd
s a
re s
erv
ice
d w
ithin
20
ms.
Co
mm
an
d re
ply
time
Th
is is
the
time
take
n b
y th
e L
M T
ech
nic
rep
ly. It is
dire
ctly
rela
ted
to th
e s
ele
cte
d b
au
d
rate
an
d th
e n
um
be
r of c
ha
racte
rs in
the
rep
ly.
NO
TE
Use
of th
e IF
O c
om
ma
nd
, wh
ich
will in
vo
lve
lon
g re
plie
s, w
ill
dis
rup
t inte
rna
l timin
g a
nd
affe
ct tim
e fu
nctio
n p
roce
ssin
g.
Inte
r-co
mm
an
d tim
ing
Th
is is
the
time
be
twe
en
the
en
d o
f the
last c
ha
racte
r of a
co
mm
an
d re
ce
ive
d b
y th
e
LM
Te
ch
nic
an
d th
e e
nd
of th
e la
st c
ha
racte
r of its
resp
on
se
i.e. th
e p
erio
d w
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
g a
pre
vio
us o
ne
.
Th
is is
the
co
mm
an
d re
sp
on
se
time
+ c
om
ma
nd
rep
ly tim
e.
Fo
r R
S2
32
C a
t 9
60
0 b
au
d,
assu
min
g a
re
ply
o
f 2
0 ch
ara
cte
rs m
axim
um
, th
e
inte
r-co
mm
an
d tim
e is
4
1m
s.
Ca
ble
Le
ng
ths
Th
e m
axim
um
ca
ble
len
gth
s a
re, to
a g
rea
t exte
nt, d
ep
en
de
nt o
n b
au
d ra
te a
nd
ca
ble
typ
e. G
en
era
lly a
low
er b
au
d ra
te w
ill giv
e re
liab
le c
om
mu
nic
atio
ns o
ve
r a lo
ng
er
len
gth
of a
giv
en
ca
ble
typ
e.
RS
23
2C
96
00
ba
ud
, 50
m (E
IA R
S2
32
C s
tan
da
rd)
Pu
blic
atio
n N
º: LM
T1
98
.21
3
Issu
e: A
04
/03
User G
uid
e
TECHNIC
© L
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d In
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Pu
blic
atio
n N
º: LM
T1
98
.21
3
Issu
e: A
04
/03
User G
uid
e
TECHNIC
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atio
na
l
10
Frie
nd
s L
an
e
Ne
wto
wn
, PA
18
94
0-1
80
4, U
.S.A
.
Te
lep
ho
ne
: (21
5) 5
04
-80
00
Fa
csim
ile: (2
15
) 50
4-0
87
9
Em
ail:
irsa
les@
lan
din
stru
me
nts
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t
Inte
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t: w
ww
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din
stru
me
nts
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t
ab
cin
stru
men
ts in
tern
atio
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Us
er G
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La
nd
ma
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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
.
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
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
irectiv
e 8
9/3
36
/EE
C; L
ow
vo
ltag
e d
irectiv
e 7
3/2
3/E
EC
)
La
nd
ma
rk T
ec
hn
ic
Sa
fety
In
form
atio
n
Us
er G
uid
eU
se
r Gu
ide
Sa
fety
In
form
atio
n
La
nd
ma
rk T
ec
hn
ic
SA
FE
TY
IN
FO
RM
AT
ION
Sy
mb
ol
Pu
blic
atio
nD
es
crip
tion
IEC
41
7, N
o. 5
03
1D
irect c
urre
nt
IEC
41
7, N
o. 5
03
2A
ltern
atin
g c
urre
nt
IEC
41
7, N
o. 5
03
3B
oth
d
irect
an
d alte
rnatin
g
cu
rren
t
IEC
617-2
, No. 0
2-0
2-0
6T
hre
e-p
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se
a
ltern
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g
cu
rren
t
IEC
41
7, N
o. 5
01
7E
arth
(gro
un
d) te
rmin
al
IEC
41
7, N
o. 5
01
9P
rote
ctiv
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co
nd
uc
tor
term
ina
l
IEC
41
7, N
o. 5
02
0F
ram
e o
r ch
assis
term
ina
l
IEC
41
7, N
o. 5
02
1E
qu
ipo
ten
tiality
IEC
41
7, N
o. 5
00
7O
n (S
up
ply)
IEC
41
7, N
o. 5
00
8O
ff (Su
pp
ly)
IEC
41
7, N
o. 5
17
2E
qu
ipm
en
t p
rote
cte
d
thro
ug
ho
ut
by
do
ub
le
ins
ula
tion
o
r re
info
rce
d
ins
ula
tion
(e
qu
iva
len
t to
Cla
ss II o
f IEC
53
6)
SA
FE
TY
IN
FO
RM
AT
ION
Sy
mb
ol
Pu
blic
atio
nD
es
crip
tion
IEC
41
7, N
o. 5
03
1D
irect c
urre
nt
IEC
41
7, N
o. 5
03
2A
ltern
atin
g c
urre
nt
IEC
41
7, N
o. 5
03
3B
oth
d
irect
an
d alte
rnatin
g
cu
rren
t
IEC
617-2
, No. 0
2-0
2-0
6T
hre
e-p
ha
se
a
ltern
atin
g
cu
rren
t
IEC
41
7, N
o. 5
01
7E
arth
(gro
un
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rmin
al
IEC
41
7, N
o. 5
01
9P
rote
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co
nd
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tor
term
ina
l
IEC
41
7, N
o. 5
02
0F
ram
e o
r ch
assis
term
ina
l
IEC
41
7, N
o. 5
02
1E
qu
ipo
ten
tiality
IEC
41
7, N
o. 5
00
7O
n (S
up
ply)
IEC
41
7, N
o. 5
00
8O
ff (Su
pp
ly)
IEC
41
7, N
o. 5
17
2E
qu
ipm
en
t p
rote
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d
thro
ug
ho
ut
by
do
ub
le
ins
ula
tion
o
r re
info
rce
d
ins
ula
tion
(e
qu
iva
len
t to
Cla
ss II o
f IEC
53
6)
Sa
fety
In
form
atio
nS
afe
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Info
rma
tion
Us
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La
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ma
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hn
icL
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dm
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FE
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INF
OR
MA
TIO
N (C
on
tinu
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)
Sy
mb
ol
Pu
blic
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nD
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tion
ISO
38
64
, No
. B.3
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au
tion
, ris
k
of
ele
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sh
ock
ISO
38
64
, No
. B.3
.1C
au
tion
BS
EN
10
00
15
Ob
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BS
EN
60
82
5-1
, 19
94
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Re
fer
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the
O
pe
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Instru
ctio
ns.
SA
FE
TY
INF
OR
MA
TIO
N (C
on
tinu
ed
)
Sy
mb
ol
Pu
blic
atio
nD
es
crip
tion
ISO
38
64
, No
. B.3
.6C
au
tion
, ris
k
of
ele
ctric
sh
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ISO
38
64
, No
. B.3
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au
tion
BS
EN
10
00
15
Ob
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en
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EN
60
82
5-1
, 19
94
Wa
rnin
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r rad
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Re
fer
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the
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Instru
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Us
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