Description
Overview
The ABB IMDSI22 Bailey Digital Signal Input Module from the HR Series Harmony Rack I/O ensures reliable monitoring and control in demanding automation environments. ABB designed this pulse input slave module with high-density channel configuration, advanced communication support, and durable construction to optimize industrial performance.
Technical Specifications
| Parameter |
Value |
| Model Number |
IMDSI22 |
| Module Type |
Pulse Input Slave Module |
| Manufacturer |
ABB |
| Product Range |
HR Series (Harmony Rack I/O) |
| Dimensions |
3.5 × 31 × 17.5 cm |
| Weight |
0.28 kg |
| HS Code |
8537101190 |
| Origin |
Sweden |
| Condition |
Brand New |
| System |
DCS |
| Channels |
16 digital input channels |
| Communication Protocol |
Advanced PLC integration, Ethernet |
| Operating Temperature |
-40°C to +70°C |
| Construction Material |
Durable, industrial-grade |
| Interface |
User-friendly setup |
Functional Highlights
The ABB IMDSI22 supports 16 digital input channels, enabling extensive monitoring and control in complex automation systems. Its compact 3.5 × 31 × 17.5 cm design and lightweight 0.28 kg build simplify installation and maintenance. Engineers benefit from advanced communication protocol support, which ensures smooth integration with PLC systems and high-speed data transfer.
Energy and Design
ABB engineered the IMDSI22 with durable materials to withstand harsh industrial environments. Its wide operating temperature range from -40°C to +70°C guarantees reliable performance in extreme climate conditions. Precision-engineered components and a user-friendly interface enhance operational efficiency and reduce downtime.
Applications and Compatibility
The ABB IMDSI22 Bailey Digital Signal Input Module supports HR Series Harmony Rack I/O systems and integrates with DCS architectures. Industries such as manufacturing, energy, and process control rely on this module for reliable signal acquisition, efficient communication, and long-term durability. Its high-density channel configuration makes it ideal for environments requiring extensive monitoring.
