Description
Overview
The MLE-DC08A Honeywell Digital Input Module is an 8-channel input unit engineered for the MasterLogic ML50 PLC platform. Designed for precision and reliability, it ensures stable signal acquisition and robust electrical isolation, making it suitable for demanding process control environments.
Technical Specifications
| Parameter |
Specification |
| Model Number |
MLE-DC08A |
| Product Type |
Digital Input Module |
| Brand |
Honeywell |
| Condition |
New |
| System Compatibility |
MasterLogic ML50 PLC, DCS |
| Input Channels |
8 points |
| Rated Voltage |
DC 24V |
| Operating Voltage Range |
DC 20.4–28.8V |
| Input Current |
4 mA |
| ON Threshold |
≥19V at 3 mA |
| OFF Threshold |
≤6V at 1 mA |
| Isolation Method |
Photo-coupler |
| Insulation Resistance |
≥10 MΩ |
| Dielectric Strength |
AC 560 Vrms, 3 cycles |
| Dimensions |
7 × 14 × 14.5 cm |
| Weight |
0.4 kg |
| Origin |
USA |
| HS Code |
8537101190 |
| MOQ |
1 |
| Availability |
In Stock |
Key Features
-
High insulation standards for operator safety and system reliability
-
Compact design for simplified installation and maintenance
-
Accurate digital signal detection with minimized false triggering
-
Seamless integration with Honeywell MasterLogic ML50 PLC systems
Application Scenarios
-
Distributed control systems in manufacturing plants
-
Process monitoring in chemical and petrochemical industries
-
Power generation and utility automation
-
High-reliability environments requiring precise digital input detection
FAQ
Q: Is the MLE-DC08A compatible with other Honeywell PLC platforms? A: It is specifically designed for the MasterLogic ML50 series and may not be supported on other platforms.
Q: What safety measures are built into the module? A: Photo-coupler isolation, high dielectric strength, and robust insulation resistance ensure safe operation.
Q: How does this module compare to similar Honeywell input modules? A: The MLE-DC08A offers higher insulation ratings and compact dimensions compared to entry-level modules, making it ideal for critical applications.