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STBART0200K – standard analog input kit STB

Original price was: $280.00.Current price is: $170.00.

The STBART0200K features two independent analog input channels, allowing it to process signals from two separate analog devices simultaneously.

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Description

Main
range of product Modicon STB distributed an I/O solution.
product or component type Standard analog input kit.
kit composition STBART0200 module.
STBXTS1100, 6-terminal screw-type connector.
STBXBA1000 base.
STBXTS2100, 6-terminal spring clamp connector.
analogue input type Voltage: +/- 80 mV.
Temperature probe -100…+260 .°C Cu 10 2, 3 or 4 wires IEC.
Temperature probe -100…+450. °C Pt 100 2, 3 or 4 wires US/JIS.
Temperature probe -100…+450 .°C Pt 1000 2, 3 or 4 wires US/JIS.
Temperature probe -200…+850. °C Pt 100 2, 3 or 4 wires IEC.
Temperature probe -200…+850.°C Pt 1000 2, 3 or 4 wires IEC.
Temperature probe -60…+180 °C Ni 100 2, 3 or 4 wires IEC.
Temperature probe -60…+180. °C Ni 1000 2, 3 or 4 wires IEC..
Thermocouple +130… +1820. °C thermocouple B.
Thermocouple: -200…+760 °C thermocouple J.
Thermocouple: -270…+1000 °C thermocouple E.
Thermocouple: -270…+1370 °C thermocouple K.
Thermocouple -270…+400 °C thermocouple T.
Thermocouple: -50…+1665 °C thermocouple R.
Thermocouple: -50…+1665 °C thermocouple S.
analogue input number 2
analogue input resolution 15 bits + sign
type of filter Single low-pass input filter at 25 Hz.
Complementary
absolute maximum input +/- 7.5 V DC.
cold swapping Yes
hot swapping fallback Yes for standard NIMs.
fallback status State 0 basic NIMs
User-configurable standard NIMs.
data format EN 61131-2.
IEC 61131-2.
input impedance 10 MOhm +/- 80 mV.
maximum supply current for sensors 100 mA per input channel.
protection type Short-circuit protection.
absolute accuracy error +/- 0.1% of full scale 25 °C internal.
+/- 0.15 % of full-scale 25 °C external.
insulation between channels and logic bus 1500 V for 1 minute.
addressing requirement 1 word for cold-junction compensation.
2 input words.
product compatibility Mounting base: STBXBA1000.
Power distribution module STBPDT3100/3105.
[Us] rated supply voltage 24 V DC
supply Power distribution module.
current consumption 30 mA at 5 V DC for the logic bus.
measurement resolution 0.01 mV voltage.
0.1 °C or 0.1 °F temperature probe.
0.1 °C or 0.1 °F thermocouple.
conversion time 150 ms voltage, 60 Hz.
170 ms voltage, 50 Hz.
180 ms temperature probe, 60 Hz, 2 or 4 wires.
200 ms temperature probe, 50 Hz, 2 or 4 wires.
210 ms thermocouple with internal cold-junction; compensation: 60 Hz.
230 ms thermocouple with internal cold-junction.; 50 Hz compensation.
300 ms temperature probe, 60 Hz, 3 wires.
340 ms temperature probe, 50 Hz, 3 wires.
360 ms thermocouple with external cold-junction., 60 Hz compensation.
400 ms thermocouple with external cold-junction.; 50 Hz compensation.
maximum wiring resistance 20 Ohm Cu 10 IEC/US/JIS 2 or 3 wires.
20 Ohm Ni 100 IEC/US/JIS 2 or 3 wires.
20 Ohm Pt 100 IEC/US/JIS 2 or 3 wires.
200 Ohm Ni 1000 IEC/US/JIS 2 or 3 wires.
200 Ohm Pt 1000 IEC/US/JIS 2 or 3 wires.
50 Ohm Cu 10 IEC/US/JIS 4 wires.
50 Ohm Ni 100 IEC/US/JIS 4 wires.
50 Ohm Pt 100 IEC/US/JIS 4 wires.
500 Ohm Ni 1000 IEC/US/JIS 4 wires.
500 Ohm Pt 1000 IEC/US/JIS 4 wires.
measurement accuracy +/- 1 °C Ni 100 25 °C external.
+/- 1 °C Ni 100 25 °C internal.
+/- 1 °C Ni 1000 25 °C external.
+/- 1 °C Ni 1000 25 °C internal.
+/- 1 °C Pt 100 25 °C internal.
+/- 1 °C Pt 1000 25 °C internal.
+/- 1.75 °C thermocouple B with external cold.

junction compensation at 25 °C.
+/- 1.75 °C thermocouple E with external cold-junction compensation at 25 °C.
+/- 1.75 °C thermocouple J with external cold-junction compensation at 25 °C.
+/- 1.75 °C thermocouple K with external cold-junction compensation at 25 °C.
+/- 1.75 °C thermocouple R with external cold-junction compensation at 25 °C.
+/- 1.75 °C thermocouple S with external cold-junction compensation at 25 °C.
+/- 1.75 °C thermocouple T with external cold-junction compensation at 25 °C.
+/- 2 °C Pt 100 25 °C external.
+/- 2 °C Pt 1000 25 °C external.
+/- 2.85 °C thermocouple B with external cold-junction compensation at 60 °C.
+/- 2.85 °C thermocouple E with external cold-junction compensation at 60 °C.
+/- 2.85 °C thermocouple J with external cold-junction compensation at 60 °C.
+/- 2.85 °C thermocouple K with external cold-junction compensation at 60 °C.
+/- 2.85 °C thermocouple R with external cold-junction compensation at 60 °C.
+/- 2.85 °C thermocouple S with external cold-junction compensation at 60 °C.
+/- 2.85 °C thermocouple T with external cold-junction compensation at 60 °C.
+/- 3.6 °C thermocouple R with internal cold-junction compensation at 25 °C.
+/- 4 °C Cu 10 25 °C external.
+/- 4 °C Cu 10 25 °C internal.
+/- 4 °C thermocouple K with internal cold-junction compensation at 25 °C.
+/- 4.1 °C thermocouple S with internal cold-junction compensation at 25 °C.
+/- 4.2 °C thermocouple R with internal cold-junction compensation at 60 °C.
+/- 4.4 °C thermocouple T with internal cold-junction compensation at 25 °C.
+/- 4.6 °C thermocouple B with internal cold-junction compensation 25 °C.
+/- 4.6 °C thermocouple E with internal cold-junction compensation 25 °C.
+/- 5 °C thermocouple S with internal cold-junction compensation 60 °C.
+/- 5.1 °C thermocouple J with internal cold-junction compensation 25 °C.
+/- 5.5 °C thermocouple K with internal cold-junction compensation 60 °C.
+/- 6.4 °C thermocouple T with internal cold-junction compensation at 60 °C.
+/- 6.8 °C thermocouple B with internal cold-junction compensation at 60 °C.
+/- 6.8 °C thermocouple E with internal cold-junction compensation at 60 °C.
+/- 7 °C thermocouple J with internal cold-junction compensation at 60 °C.

marking CE
overvoltage category II
status LED 1 LED (green) module status (RDY).
1 LED (red) module error (ERR).
Environment
product certifications UL
FM Class 1 Division 2.
CSA.
ATEX Cat 3G.
C-Tick
pollution degree conforming to IEC 60664-1.
operating altitude <= 2000 m.
IP degree of protection IP20 conforms to EN 61131-2 class 1.
ambient air temperature for operation 0…70 °C.
ambient air temperature for operation 32–140 °F without derating.
ambient air temperature for storage -40…85 °C without derating.
ambient air temperature for storage -40–185 °F without derating.
relative humidity 95 % at 60 °C without condensation.
vibration resistance +/-0.35 mm at 10…58 Hz.
3 gn at 58…150 Hz on 35 x 7.5 mm symmetrical DIN rail.
5 gn at 58…150 Hz on 35 x 15 mm symmetrical DIN rail.
shock resistance 30 gn for 11 ms, conforming to IEC 88 reference 2-27.
Packing Units
Unit Type of Package 1 PCE
Number of Units in Package 1 1
Package 1 Weight 136.0 g
Package 1 Height 2.5 cm
Package 1 width 8 cm
Package 1 Length 13 cm
Unit Type of Package 2 S02
Number of Units in Package 2 42
Package 2 Weight 6.1 kg
Package 2 Height 15 cm
Package 2 width 30 cm
Package 2 Length 40 cm

Applications

  1. Process Control:
    • In process control applications, the STBART0200K is used to interface with sensors that measure critical parameters like temperature, pressure, and flow. The module converts these measurements into digital data for precise control and monitoring of industrial processes.
  2. Manufacturing Automation:
    • The module is ideal for manufacturing automation systems, where it can be used to acquire data from various sensors on the production line. This data is essential for monitoring production processes and ensuring product quality.
  3. Energy Management:
    • The STBART0200K can be employed in energy management systems to monitor electrical parameters such as voltage and current. Accurate data acquisition helps optimize energy consumption and improve efficiency.
  4. Building Automation:
    • In building automation systems, the module interfaces with sensors that measure environmental conditions such as temperature and humidity. This data is used to control HVAC systems and maintain optimal building conditions.

Benefits

  1. Flexibility:
    • The ability to handle various input signal types makes the STBART0200K a flexible solution for different applications. Users can connect a wide range of sensors and measurement devices to the module.
  2. Reliability:
    • The module’s robust construction and diagnostic capabilities ensure reliable operation in industrial environments. This reliability reduces downtime and maintenance costs.
  3. Ease of Integration:
    • The modular design of the STBART0200K allows for easy integration into existing control systems. It simplifies system expansion and reconfiguration, providing a scalable solution for growing automation needs.
  4. High Accuracy:
    • The high accuracy and resolution of the analog inputs ensure precise data acquisition, which is crucial for applications that require exact measurements and control.

Conclusion

The STBART0200K standard analog input kit is a versatile and reliable component for industrial automation systems. With its two analog input channels, high accuracy, and modular design, it provides an effective solution for integrating analog signals into digital control systems. Whether used in process control, manufacturing automation, energy management, or building automation, the STBART0200K enhances data acquisition and improves system performance, making it an invaluable addition to any industrial automation setup.