Description
Product Overview
The Honeywell MC-TDOR12 51309148-175 Digital Relay Output Board ensures precise switching and reliable performance in industrial automation. Honeywell designed this MU-T Series module with a compact 12x5.2x30.7cm footprint and a 0.72kg build, making installation efficient in space-constrained environments.
Its solid-state relay design provides consistent and efficient switching, making the MC-TDOR12 51309148-175 ideal for controlling actuators, motors, and other critical components. The wide operating temperature range of -40°C to +85°C guarantees stable performance even in extreme industrial conditions.
Technical Specifications
| Parameter |
Value |
| Model Number |
MC-TDOR12 51309148-175 |
| Module Type |
Digital Relay Output Board |
| Manufacturer |
Honeywell |
| Series |
MU-T Series |
| Dimensions |
12 × 5.2 × 30.7 cm |
| Weight |
0.72 kg |
| HS Code |
8537101190 |
| Condition |
Brand New |
| System Compatibility |
DCS |
| Origin |
USA |
| Communication Service |
Ethernet Router, RS-485, Modbus RTU |
| Relay Type |
Solid-State |
| Operating Temperature |
-40°C to +85°C |
| Certifications |
UL, CE, CSA, TUV |
| MOQ |
1 |
Functional Highlights
Honeywell engineered the MC-TDOR12 51309148-175 to deliver long-term durability and efficiency. Its RS-485 Modbus RTU interface ensures seamless integration with automation systems, while the solid-state relay design enhances switching reliability. The module’s compliance with UL, CE, CSA, and TUV standards guarantees safe global deployment.
Applications and Compatibility
The MC-TDOR12 51309148-175 integrates seamlessly into Honeywell MU-T Series systems and supports distributed control networks. Engineers deploy this relay output board in manufacturing plants, energy facilities, and process automation environments where precise digital relay control is essential. Its robust design and wide temperature tolerance make it suitable for harsh industrial conditions.
By selecting Honeywell’s MU-T Series, users gain a cost-effective solution that enhances operational efficiency, minimizes downtime, and ensures long-term system reliability.
