Description
Product Overview
The GE IS220PDOAH1BC Connector Relay Terminal Board from the Mark VIe Series delivers precise discrete output control for turbine systems. It integrates Ethernet communication with robust MOSFET outputs, ensuring reliable switching in demanding industrial environments.
Technical Specifications
| Parameter |
Value |
| Model Number |
IS220PDOAH1BC |
| Manufacturer |
GE |
| Module Type |
Connector Relay Terminal Board |
| Dimensions |
24.5 × 18.5 × 8 cm |
| Weight |
0.38 kg |
| System |
DCS |
| Communication Service |
Ethernet router |
| Channels Supported |
16 sourcing channels |
| Output Type |
Solid-state MOSFET |
| Voltage Supply |
24 V DC (±10%) |
| Load Voltage Range |
12–48 V DC |
| Current Capacity |
0.5 A continuous, 2 A peak per channel |
| Power Consumption |
5 W max |
| Isolation |
1500 V AC |
| Diagnostics |
Indicator LEDs, infrared serial port |
| Compatible Boards |
TRLY, SRLY |
| Network Configurations |
Simplex, dual, TMR |
| Operating Temperature |
-40°C to +70°C |
| Storage Temperature |
-50°C to +85°C |
| Humidity Tolerance |
5–95% RH non-condensing |
| Vibration Resistance |
5–500 Hz at 2G |
| HS Code |
8537101190 |
| Origin |
USA |
| Condition |
Brand New |
| MOQ |
1 |
Functional Highlights
The IS220PDOAH1BC supports up to 16 discrete output channels with solid-state MOSFETs, ensuring accurate and reliable switching. Its 1500 V AC isolation enhances safety, while diagnostic LEDs and infrared ports provide clear operational feedback.
Design and Performance
GE engineered the IS220PDOAH1BC for durability under extreme industrial conditions. It operates across wide temperature ranges, tolerates high humidity, and meets vibration standards, ensuring stable performance in turbine control environments.
Applications and Compatibility
The IS220PDOAH1BC Connector Relay Terminal Board integrates seamlessly with Mark VIe systems. It supports TRLY and SRLY terminal boards and works in simplex, dual, or TMR configurations. This makes it ideal for gas, steam, and wind turbine control applications requiring robust discrete output management.