SITRANS TR200 Temperature Transmitter Catalog Specification Sheet

© Siemens AG 2016
Temperature Measurement
Transmitters for rail mounting
SITRANS TR200 two-wire system, universal
■ Overview
■ Application
SITRANS TR200 transmitters can be used in all industrial sectors. Their compact design enables simple mounting on standard DIN rails on-site in protective boxes or in control cabinets.
The following sensors/signal sources can be connected over
their universal input module:
• Resistance thermometers (2, 3 or 4-wire system)
• Thermocouples
• Resistance-based sensors and DC voltage sources
2
The output signal is a direct current from 4 to 20 mA in accordance with the sensor characteristic.
Transmitters of the "intrinsically safe" type of protection can be installed within potentially explosive atmospheres. The devices
comply with the Directive 2014/34/EU (ATEX).
■ Function
Ultra flexible - with the universal SITRANS TR200 transmitter
• Two-wire devices for 4 to 20 mA
• Enclosure for rail mounting
• Universal input for virtually any type of temperature sensor
• Configurable over PC
■ Benefits
•
•
•
•
•
•
•
•
•
•
•
Compact design
Electrically isolated
Test sockets for multimeters
Diagnostics LED (green/red)
Sensor monitoring
open circuits and short-circuits
Self-monitoring
Configuration status stored in EEPROM
Expanded diagnostic functions, such as slave pointer, operating hours counter, etc.
Special characteristic
Electromagnetic compatibility to EN 61326 and NE21
SIL2 (with Order code C20), SIL2/3 (with C23)
The SITRANS TR200 is configured over a PC. A USB or RS 232
modem is linked to the output terminals for this purpose. The
configuration data can now be edited using the SIPROM T software tool. The configuration data are then permanently stored in
the non-volatile memory (EEPROM).
Once the sensors and power supply have been correctly connected, the transmitter outputs a temperature-linear output signal and the diagnostics LED displays a green light. In the case
of a sensor short-circuit, the LED flashes red, an internal device
fault is indicated by a steady red light.
The test socket can be used to connect an ammeter at any time
for monitoring purposes and plausibility checks. The output current can be read without any interruption, or even without opening the current loop.
SITRANS TR200/TR300
7
1
Test
Sensor
TC/RTD
2
3
A
D
µC2
µC1
2
3
Sensor such as resistance thermometer,
thermocouple, resistance-based,
sensor, mV sensor
Analog-digital converter
Microcontroller, secondary circuit
SITRANS TR200 function diagram
2/140
Siemens FI 01 · 2016
4
5
6
7
4 ... 20 mA
A
4
5
1
D
6
Electrical isolation
Microcontroller, primary circuit
Digital-analog converter
LED
Uaux
Iout
Test
Auxiliary power supply
Output current
Test terminals for temporary
connection of an amperemeter
Uaux, Iout
© Siemens AG 2016
Temperature Measurement
Transmitters for rail mounting
SITRANS TR200 two-wire system, universal
■ Technical specifications
Input
Short-circuit monitoring
can be switched on/off (default
value: OFF)
Measuring range
parameterizable max. 0 ... 2200 
(see table "Digital measuring
errors")
Min. measured span
5 ... 25  (see table "Digital measuring errors")
Characteristic curve
Resistance-linear or special characteristic
Resistance thermometer
Measured variable
Temperature
Sensor type
• to IEC 60751
Pt25 … 1000
• to JIS C 1604; a=0.00392 K-1
Pt25 … 1000
• to IEC 60751
Ni25 … 1000
• Special type
over special characteristic
(max. 30 points)
Thermocouples
Sensor factor
0.25 ... 10 (adaptation of the basic
type, e.g. Pt100 to version Pt25 ...
1000)
Sensor type (thermocouples)
Units
°C or °F
• Type B
• Type C
• Type D
Pt30Rh-Pt6Rh to DIN IEC 584
W5 %-Re acc. to ASTM 988
W3 %-Re acc. to ASTM 988
• Standard connection
1 resistance thermometer (RTD) in
2-wire, 3-wire or 4-wire system
• Generation of average value
2 resistance thermometers in
2-wire system for generation of
average temperature
• Type E
• Type J
• Type K
NiCr-CuNi to DIN IEC 584
Fe-CuNi to DIN IEC 584
NiCr-Ni to DIN IEC 584
• Type L
• Type N
• Type R
Fe-CuNi to DIN 43710
NiCrSi-NiSi to DIN IEC 584
Pt13Rh-Pt to DIN IEC 584
• Type S
• Type T
• Type U
Pt10Rh-Pt to DIN IEC 584
Cu-CuNi to DIN IEC 584
Cu-CuNi to DIN 43710
Units
°C or °F
Connection
• Generation of difference
2 resistance thermometers (RTD) in
2-wire system (RTD 1 – RTD 2 or
RTD 2 – RTD 1)
Interface
• Two-wire system
Parameterizable line resistance
 100  (loop resistance)
Measured variable
Temperature
Connection
• Three-wire system
No balancing required
• Standard connection
1 thermocouple (TC)
• Four-wire system
No balancing required
• Generation of average value
2 thermocouples (TC)
Sensor current
 0.45 mA
• Generation of difference
Response time T63
 250 ms for 1 sensor with open-circuit monitoring
2 thermocouples (TC)
(TC1 – TC2 or TC2 – TC1)
Response time T63
Open-circuit monitoring
Always active (cannot be disabled)
 250 ms for 1 sensor with open-circuit monitoring
Short-circuit monitoring
can be switched on/off (default
value: ON)
Open-circuit monitoring
Can be switched off
Measuring range
parameterizable (see table "Digital
measuring errors")
• Internal
With integrated Pt100 resistance
thermometer
Min. measured span
10 °C (18 °F)
• External
Characteristic curve
Temperature-linear or special characteristic
With external Pt100 IEC 60571
(2-wire or 3-wire connection)
• External fixed
Cold junction temperature can be
set as fixed value
Measuring range
parameterizable (see table "Digital
measuring errors")
Min. measured span
Min. 40 ... 100 °C (72 ... 180 °F) (see
table "Digital measuring errors")
Characteristic curve
Temperature-linear or special characteristic
Resistance-based sensors
Measured variable
Actual resistance
Sensor type
Resistance-based, potentiometers
Units

Connection
Cold junction compensation
• Normal connection
1 resistance-based sensor (R) in 2wire, 3-wire or 4-wire system
mV sensor
• Generation of average value
2 resistance-based sensors in
2-wire system for generation of
average value
Measured variable
DC voltage
Sensor type
2 resistance thermometers in
2-wire system
(R1 – R2 or R2 – R1)
DC voltage source (DC voltage
source possible over an externally
connected resistor)
Units
mV
Response time T63
 250 ms for 1 sensor with open-circuit monitoring
• Two-wire system
Parameterizable line resistance
 100  (loop resistance)
Open-circuit monitoring
Can be switched off
• Three-wire system
No balancing required
Measuring range
parameterizable max.
-100 … 1100 mV
• Four-wire system
No balancing required
Min. measured span
2 mV or 20 mV
Sensor current
 0.45 mA
Overload capability of the input
-1.5 ... +3.5 V DC
Response time T63
 250 ms for 1 sensor with open-circuit monitoring
Input resistance
 1 M
Characteristic curve
Voltage-linear or special characteristic
• Generation of difference
Interface
Open-circuit monitoring
Always active (cannot be disabled)
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2
© Siemens AG 2016
Temperature Measurement
Transmitters for rail mounting
SITRANS TR200 two-wire system, universal
Output
2
Certificates and approvals
Output signal
4 ... 20 mA, 2-wire
Auxiliary power
11 ... 35 V DC (to 30 V for Ex i/ic;
to 32 V for Ex nA)
Max. load
(Uaux – 11 V)/0.023 A
Overrange
3.6 ... 23 mA, infinitely adjustable
(default range: 3.84 mA ... 20.5 mA)
Error signal (e.g. following sensor
fault) (conforming to NE43)
3.6 ... 23 mA, infinitely adjustable
(default value: 22.8 mA)
Sample cycle
0.25 s nominal
Damping
Software filter 1st order 0 ... 30 s
(parameterizable)
Protection
Against reversed polarity
Electrically isolated
Input against output 2.12 kV DC
(1.5 kVeff AC)
Measuring accuracy
Digital measuring errors
See Table "Digital measuring errors"
Reference conditions
Explosion protection ATEX
EC type test certificate
PTB 07 ATEX 2032X
• "Intrinsic safety" type of protection
II 2(1) G Ex ia/ib IIC T6/T4
II 3(1) G Ex ia/ic IIC T6/T4
II 3 G Ex ic IIC T6/T4
II 2(1) D Ex iaD/ibD 20/21 T115 °C
• Type of protection, "equipment is
non-arcing"
II 3 G Ex nA IIC T6/T4
Other certificates
NEPSI
Software requirements for
SIPROM T
PC operating system
Windows ME, 2000, XP, Win 7 and
Win 8; can also be used in connection with RS 232 modem under
Windows 95, 98 and 98SE
Factory setting:
• Pt100 (IEC 751) with 3-wire circuit
• Measuring range: 0 ... 100 °C (32 ... 212 °F)
• Error signal in the event of sensor breakage: 22.8 mA
• Sensor offset: 0 °C (0 °F)
• Damping 0.0 s
• Auxiliary power
24 V  1 %
• Load
500 
• Ambient temperature
23 °C
• Warming-up time
> 5 min
Digital measuring errors
Error in the analog output (digital/analog converter)
< 0.025 % of span
Resistance thermometer
Error due to internal cold junction
< 0.5 °C (0.9 °F)
Input
Measuring range
Min. measured span
Digital
accuracy
°C/(°F)
°C
(°F)
°C
(°F)
Pt25
-200 ... +850
(-328 ... +1562)
10
(18)
0.3
(0.54)
Pt50
-200 ... +850
(-328 ... +1562)
10
(18)
0.15
(0.27)
Pt100 ... Pt200
-200 ... +850
(-328 ... +1562)
10
(18)
0.1
(0.18)
Pt500
-200 ... +850
(-328 ... +1562)
10
(18)
0.15
(0.27)
Pt1000
-200 ... +350
(-328 ... +662)
10
(18)
0.15
(0.27)
Pt25
-200 ... +649
(-328 ... +1200)
10
(18)
0.3
(0.54)
Pt50
-200 ... +649
(-328 ... +1200)
10
(18)
0.15
(0.27)
Pt100 ... Pt200
-200 ... +649
(-328 ... +1200)
10
(18)
0.1
(0.18)
Pt500
-200 ... +649
(-328 ... +1200)
10
(18)
0.15
(0.27)
Pt1000
-200 ... +350
(-328 ... +662)
10
(18)
0.15
(0.27)
Ni 25 ... Ni1000
-60 ... +250
(-76 ... +482)
10
(18)
0.1
(0.18)
Influence of ambient temperature
• Analog measuring error
0.02 % of span/10 °C (18 °F)
• Digital measuring errors
- With resistance thermometer
0.06 °C (0.11 °F)/10 °C (18 °F)
- with thermocouples
0.6 °C (1.1 °F)/10 °C (18 °F)
Auxiliary power effect
< 0.001 % of span/V
Effect of load impedance
< 0.002 % of span/100 
Long-term drift
• In the first month
< 0.02 % of span in the first month
• After one year
< 0.2 % of span after one year
• After 5 years
< 0.3 % of span after 5 years
Conditions of use
Ambient conditions
Ambient temperature range
-40 ... +85 °C (-40 ... +185 °F)
Storage temperature range
-40 ... +85 °C (-40 ... +185 °F)
Relative humidity
< 98 %, with condensation
Electromagnetic compatibility
acc. to EN 61326 and NE21
to IEC 60751
to JIS C1604-81
Construction
Material
Plastic, electronic module potted
Weight
122 g
Dimensions
See "Dimensional drawings"
Cross-section of cables
Max. 2.5 mm² (AWG 13)
Degree of protection to
IEC 60529
• Enclosure
2/142
IP20
Siemens FI 01 · 2016
© Siemens AG 2016
Temperature Measurement
Transmitters for rail mounting
SITRANS TR200 two-wire system, universal
Resistance-based sensors
Input
Measuring range
Min. measured span
Digital
accuracy



Resistance
0 ... 390
5
0.05
Resistance
0 ... 2200
25
0.25
Measuring range
Min. measured span
Digital
accuracy
2
Thermocouples
Input
°C/(°F)
°C
(°F)
°C
(°F)
Type B
100 ... 1820
(212 ... 3308)
100
(180)
21)
(3.6)1)
Type C (W5)
0 ... 2300
(32 ... 4172)
100
(180)
2
(3.6)
Type D (W3)
0 ... 2300
(32 ... 4172)
100
(180)
12)
(1.8)2)
Type E
-200 ... +1000
(-328 ... +1832)
50
(90)
1
(1.8)
Type J
-210 ... +1200
(-346 ... +2192)
50
(90)
1
(1.8)
Type K
-230 ... +1370
(-382 ... +2498)
50
(90)
1
(1.8)
Type L
-200 ... +900
(-328 ... +1652)
50
(90)
1
(1.8)
Type N
-200 ... +1300
(-328 ... +2372)
50
(90)
1
(1.8)
Type R
-50 ... +1760
(-58 ... +3200)
100
(180)
2
(3.6)
Type S
-50 ... +1760
(-58 ... +3200)
100
(180)
2
(3.6)
Type T
-200 ... +400
(-328 ... +752)
40
(72)
1
(1.8)
Type U
-200 ... +600
(-328 ... +1112)
50
(90)
2
(3.6)
1)
The digital accuracy in the range 100 to 300 °C (212 to 572 °F) is 3 °C
(5.4 °F).
2)
The digital accuracy in the range 1750 to 2300 °C (3182 to 4172 °F) is 2 °C
(3.6 °F).
mV sensor
Input
Measuring
range
Min. measured
span
Digital
accuracy
mV
mV
V
mV sensor
-10 ... +70
2
40
mV sensor
-100 ... +1100
20
400
The digital accuracy is the accuracy after the analog/digital conversion including linearization and calculation of the measured
value.
An additional error is generated in the output current 4 to 20 mA
as a result of the digital/analog conversion of 0.025 % of the set
span (digital-analog error).
The total error under reference conditions at the analog output is
the sum from the digital error and the digital-analog error (poss.
with the addition of cold junction errors in the case of thermocouple measurements).
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© Siemens AG 2016
Temperature Measurement
Transmitters for rail mounting
SITRANS TR200 two-wire system, universal
■ Selection and Ordering data
Article No.
Temperature transmitter SITRANS TR200
2
For mounting on a standard DIN rail, two-wire
system, 4 to 20 mA, programmable, with electrical isolation, with documentation on MiniDVD
• Without explosion protection
}  7NG3032-0JN00
• With explosion protection to ATEX
}  7NG3032-1JN00
Further designs
Order code
Please add "-Z" to Article No. with and specify
Order codes(s).
Accessories
Article No.
Modem for SITRANS TH100, TH200, TR200 }
and TF with TH200 incl. SIPROM T parameterization software
With USB connection
7NG3092-8KU
MiniDVD for temperature measuring instru- }
ments for
A5E00364512
With documentation in German, English,
French, Spanish, Italian, Portuguese and
SIPROM T parameterization software
} Available ex stock.
With test protocol (5 measuring points)
C11
Functional safety SIL2
C20
Functional safety SIL2/3
C23
Customer-specific programming
Add "-Z" to Article No. and specify Order code(s)
 We can offer shorter delivery times for configurations designated with
the Quick Ship Symbol . For details see page 9/5 in the appendix.
1)
For customer-specific programming for RTD and TC, the start value and
the end value of the required measuring span must be specified here.
2)
For this selection, Y01 or Y09 must also be selected.
3)
Text on front plate is not saved in the device.
4)
For this selection, Y01 must also be selected.
5)
Internal cold junction compensation is selected as the default for TC.
6)
For customer-specific programming, for example mV and ohm, the start
value and the end value of the required measuring span and the unit must
be entered here.
Measuring range to be set
Specify in plain text (max. 5 digits):
Y01: ... to ... °C, °F
Y011)
Measuring point no. (TAG), max. 8 characters
Y172)
Measuring point descriptor, max. 16 characters
Y232)
Supply units see Chapter "Supplementary Components".
Measuring point message, max. 32 characters
Y242)
Ordering example 1:
Text on front label, max. 16 characters
Y292)3)
Pt100 (IEC) 2-wire, RL = 0 
U024)
Pt100 (IEC) 3-wire
U034)
7NG3032-0JN00-Z Y01+Y17+Y29+U03
Y01: -10 ... +100 °C
Y17: TICA123
Y29: TICA123
Pt100 (IEC) 4-wire
U044)
Ordering example 2:
Thermocouple type B
U204)5)
Thermocouple type C (W5)
U214)5)
Thermocouple type D (W3)
U224)5)
Thermocouple type E
U234)5)
7NG3032-0JN00-Z Y01+Y17+Y23+Y29+U25
Y01: -10 ... +100 °C
Y17: TICA123
Y23: TICA123HEAT
Y29: TICA123HEAT
Thermocouple type J
U244)5)
Thermocouple type K
U254)5)
Thermocouple type L
U264)5)
Thermocouple type N
U274)5)
Thermocouple type R
U284)5)
Thermocouple type S
U294)5)
Thermocouple type T
U304)5)
Thermocouple type U
U314)5)
With TC: CJC external (Pt100, 3-wire)
U41
With TC: CJC external with fixed value, specify
in plain text
Y50
Special differing customer-specific programming, specify in plain text
Y096)
Fail-safe value 3.6 mA (instead of 22.8 mA)
U362)
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Siemens FI 01 · 2016
Factory setting:
• Pt100 (IEC 751) with 3-wire circuit
• Measuring range: 0 … 100 °C (32 … 212 °F)
• Fault current: 22.8 mA
• Sensor offset: 0 °C (0 °F)
• Damping 0.0 s
© Siemens AG 2016
Temperature Measurement
Transmitters for rail mounting
SITRANS TR200 two-wire system, universal
2
8
5
6
7
SITRANS
TR200
4
4..20mA
3
2
TEST
1
SIEMENS
22.5
■ Schematics
(0.89)
■ Dimensional drawings
1
2
TEST
3
4
4..20mA
SIEMENS
SITRANS
TR200
99
(3.9)
5
6
7
8
Made in Croatia
TC sens. with
int./fixed CJC
U sensor
TC sensor
with external
2W RTD CJC
TC sensor
with external
3W RTD CJC
+
6
7
8
RTD or R
2W sensor
5
6
7
8
4..20mA loop
& test
1
2
3
5
+
6
7
8
5
7
8
5
5
6
7
8
S1
2x RTD or R
2W sensor
6
7
7
+
S1
S2
5
6
8
8
2x TC sensor
with int./fixed
CJC
4
TEST +UB + A
6
RTD or R
4W sensor
RTD or R
3W sensor
114
5
+
(4.49)
+
Asssignments
1 (+) and 2 (-)
5
6
+
S2
7
8
Connection Plan
s
3 (+) and 4 (-)
5, 6, 7 and 8
SITRANS TR200, dimensions in mm (inch)
Test terminals (test) for measurement of the output
current with a multimeter
Power supply Uaux, output current Iout
Sensor assignment, see schematics
SITRANS TR200, pin assignment
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© Siemens AG 2016
Temperature Measurement
Transmitters for rail mounting
SITRANS TR200 two-wire system, universal
Resistance thermometer
Thermocouple
Resistance
2
5
6
7
8
5
6
7
8
5
R
RTD
Two-wire system 1)
5
6
7
5
5
6
7
Three-wire system
6
7
8
5
6
7
6
7
RTD
5
8
6
7
5
8
6
RTD
Cold junction compensation with
external Pt100 in three-wire system
7
8
5
R2
6
7
R1
RTD1
Generation of average
value/difference 1)
Generation of average value / difference
with internal cold junction compensation
Generation of average
value/difference 1)
Programmable line resistance for the purpose of correction.
Voltage measurement
Current measurement
Test terminals
+
1
5
6
7
8
- +
U
SITRANS TR200, sensor connection assignment
2/146
8
TC2
- +
TC1
- +
1)
8
TC
- +
Four-wire system
RTD2
8
Cold junction compensation with
external Pt100 in two-wire system 1)
R
Four-wire system
6
7
8
TC
- +
Three-wire system
RTD
5
8
R
RTD
5
7
Cold junction compensation
internal/fixed value
Two-wire system 1)
8
6
TC
- +
Siemens FI 01 · 2016
5
6
R
- +
I
7
8
Power supply/
4 ... 20 mA (Uaux)
Uaux
-
A
2
+ 3
4
1
2
3
4