Description
Product Overview
The Honeywell MLC-DN64H/DC Power Supply Module delivers 32-point 24V DC sinking outputs with a maximum load current of 0.5A per point. It integrates photo-coupler insulation for enhanced electrical isolation and surge protection, ensuring reliable operation in harsh industrial environments. Engineers value its compact design, fast execution speed, and programming compatibility for precise digital control.
Technical Specifications
| Parameter |
Specification |
| Model Number |
MLC-DN64H/DC |
| Module Type |
Power Supply Module |
| Manufacturer |
Honeywell |
| Condition |
Brand New |
| Dimensions |
7 × 14 × 14.5 cm |
| Weight |
1.4 kg |
| Output Points |
32 × 24V DC sinking outputs |
| Max Load Current |
0.5A per point (P20–23: 0.1A) |
| Load Voltage Range |
10.2–26.4 V DC |
| Rated Voltage |
DC 12/24V ±10% |
| OFF Leakage Current |
≤0.1 mA |
| Voltage Drop |
≤0.4 VDC |
| Surge Protection |
Zenier diode, voltage spike protection |
| Execution Speed |
83 ns per step |
| Scanning Modes |
Repetitive, cyclic, interrupt, constant |
| Programming Languages |
Ladder diagram, instruction list |
| Instruction Set |
28 basic, 687 applied instructions |
| Power Supply Input |
100–240 V AC |
| System Compatibility |
Experion PKS, PLC, DCS |
| HS Code |
8537101190 |
| Origin |
USA |
| MOQ |
1 |
Performance and Reliability
The Honeywell MLC-DN64H/DC ensures stable operation with minimal leakage current and low voltage drop. Its surge protection and photo-coupler insulation safeguard connected devices, while fast scan speed supports time-critical automation tasks.
Communication and Integration
The Honeywell MLC-DN64H/DC integrates seamlessly into distributed control systems. Engineers configure multiple scanning modes easily, while programming compatibility with ladder and instruction list languages enhances flexibility in complex automation projects.
Applications and Compatibility
The Honeywell MLC-DN64H/DC Power Supply Module suits industries such as manufacturing automation, process control, power generation, and chemical processing. It provides precise digital output control, reliable performance under electrical noise, and scalable expansion for medium to large automation systems.
