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| Model | IS210AEBIH3BED |
| Brand | GE (General Electric) |
| Type | Advanced Analog Input Module |
| Power Supply | 24V DC (1.2A typical, 2.0A max) |
| Operating Temperature | -5°C to 65°C (23°F to 149°F) |
| Mounting | DIN rail (35mm) with locking clips |
| Dimensions | 160mm x 115mm x 90mm (W x H x D) |
| Weight | 650g |
| Input Channels | 16 configurable analog input channels |
| Signal Types Supported | Thermocouples, RTDs, 4-20mA, 0-10V, ±5V |
| Resolution | 24-bit A/D conversion |
| Certifications | UL, CE, ATEX, IEC 61508 (SIL 2), IEC 61010-1 |
| Cooling | Passive convection with heat-dissipating housing |
| Environmental Rating | IP20 (when installed in control cabinet) |
IS210AEBIH3BED
The GE IS210AEBIH3BED is a advanced analog input module belonging to GE’s IS210 series, specifically engineered for seamless integration with the Mark VIe distributed control system (DCS). As a dedicated signal acquisition component, it serves as the critical interface between field sensors and the control system’s processing units, converting analog signals from transducers into digital data that can be analyzed and acted upon by the DCS. This module supports multiple analog signal types, making it versatile enough to handle diverse process variables in complex industrial environments.
IS210AEBIH3BED
What distinguishes the GE IS210AEBIH3BED is its enhanced precision and signal conditioning capabilities, which minimize measurement errors caused by electrical noise and environmental interference. Its design ensures compatibility with GE’s Proficy software suite, allowing engineers to configure input parameters, perform calibration, and monitor signal quality with exceptional accuracy.
Main features and advantages:
The GE IS210AEBIH3BED delivers exceptional measurement precision with 24-bit analog-to-digital conversion, providing superior resolution that enables detection of subtle process changes critical for optimizing industrial operations. Its hardware design features a rugged metal housing with advanced electromagnetic interference (EMI) shielding, protecting sensitive signal conditioning circuitry from electrical noise generated by motors, transformers, and high-voltage equipment common in industrial settings. This module operates reliably across an extended temperature range of -5°C to 65°C, maintaining accuracy even in environments with fluctuating ambient conditions.
A key strength is its configurable input channels that support multiple signal types, including thermocouples (J, K, T, E, R, S, B), RTDs (PT100, PT1000), and standard process signals (4-20mA, 0-10V), eliminating the need for multiple specialized modules. The GE IS210AEBIH3BED also includes built-in diagnostic features such as open circuit detection, overrange monitoring, and self-calibration routines that provide real-time alerts through the Mark VIe system, enabling proactive maintenance and reducing downtime.
Application fields:
In industrial environments such as combined cycle power plants, large-scale chemical processing facilities, and industrial boiler systems, precise monitoring and control of analog process variables are fundamental to maintaining operational efficiency, product quality, and safety. These applications require reliable analog input modules that can accurately capture and convert real-world signals from sensors—such as temperature, pressure, flow, and level transducers—into digital data for processing by control systems. The GE IS210AEBIH3BED addresses this critical need, serving as a high-performance analog input module within GE’s Mark VIe control architecture. Whether monitoring steam temperatures in power generation turbines, tracking pressure differentials in chemical reactors, or measuring flow rates in pipeline systems, this module ensures accurate signal acquisition even in electrically noisy industrial environments. Used extensively in industrial automation across energy, chemicals, and manufacturing sectors, the GE IS210AEBIH3BED solves the challenge of reliable analog data collection in complex process control systems, making it an essential component for precision monitoring applications.
Related products:
GE IS210VCMIH1BED – Control module that processes data from the GE IS210AEBIH3BED in process control systems.
GE IS200WETBHIB – Ethernet module that enables data transmission from the GE IS210AEBIH3BED to central DCS.
GE IS200EPSMG1A – Redundant power supply providing stable 24V DC to the GE IS210AEBIH3BED.
GE IS210MDIOH2BED – Diagnostic module that monitors signal quality from the GE IS210AEBIH3BED.
GE IS200VIBAH1D – Isolation module that enhances noise immunity for the GE IS210AEBIH3BED in high-EMI environments.
GE IS210TBSCH3B – Terminal base module providing secure sensor connections for the GE IS210AEBIH3BED.
GE IS210ACCH1BED – Analog output module that works with the GE IS210AEBIH3BED in closed-loop control systems.
GE IS210SRIOH1B – Communication module that connects the GE IS210AEBIH3BED to legacy monitoring systems.
Installation and maintenance:
Before installing the GE IS210AEBIH3BED, ensure the control cabinet provides adequate ventilation with a minimum of 30mm clearance around the module to prevent heat buildup, which can affect measurement accuracy. Verify that the mounting rail is properly grounded to maximize the effectiveness of the module’s EMI shielding. When connecting field sensors, use shielded twisted-pair cables for all analog signals, with shields terminated at both the module and sensor ends to minimize noise pickup. For thermocouple applications, use appropriate thermocouple extension wire matched to the sensor type to prevent measurement errors, and ensure proper cold junction compensation by maintaining stable ambient temperature around the module.
For maintenance, perform quarterly calibration checks using GE’s recommended procedures to ensure measurement accuracy, particularly after any electrical disturbances or temperature extremes. Utilize the Mark VIe diagnostic tools monthly to monitor channel health and signal quality metrics from the GE IS210AEBIH3BED. Schedule firmware updates during planned maintenance windows, following GE’s guidelines to ensure compatibility with system software. When replacing sensors connected to the module, verify proper wiring polarity and signal type configuration to prevent measurement errors. Keep a log of calibration results and diagnostic alerts to track module performance over time.
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