ABB

ABB 3BSE008508R0001 Digital Input

In stock, ready to ship

  • Manufacturer: ABB

  • Product No.: 3BSE008508R0001

  • Product Type: Digital Input

  • Product Origin: Sweden

  • Payment: T/T

  • Weight: 420g

  • Shipping port: Xiamen

  • Warranty: 12 months

The ABB DI810 (3BSE008508R0001) is a high-density digital input module for the S800 I/O system. It is designed to interface field devices such as switches, sensors, and pushbuttons with ABB control systems.

The module uses a current-sinking input design, meaning it completes the circuit to ground for connected field devices, ensuring stable and reliable signal detection in industrial environments.

Technical Specifications

Parameter Specification
Product ID 3BSE008508R1 / 3BSE008508R0001
Type Designation DI810
Number of Channels 16 (2 groups of 8)
Rated Voltage 24 V DC (18–30 V DC)
Input Type Current sinking
Input Current Typical 6 mA @ 24 V
Filter Time Selectable: 2, 4, 8, or 16 ms
Isolation Groupwise isolation from ground, 50 V
Power Dissipation Typical 1.8 W

Key Features & Diagnostics

  • Voltage Supervision
    Each group of 8 channels includes a supervision input. Loss of process voltage is reported to the controller via the ModuleBus.

  • Front Panel LED Indicators

    • F (Fault): Internal module error

    • R (Run): Normal operation

    • W (Warning): External fault (e.g., loss of field voltage)

    • Channels 1–16: Individual input status LEDs

  • Hot-Swappable Design
    Allows online replacement without shutting down the I/O station (when used with a compatible MTU).

  • Integrated Protection
    Built-in EMC protection and current-limiting circuitry on each input channel.

Installation & Connectivity

The DI810 is a plug-in module and must be installed on a Module Termination Unit (MTU). The MTU provides:

  • Field wiring termination

  • Power distribution

  • Connection to the ModuleBus

Compatible MTUs

  • TU810 / TU812 / TU814 – Compact MTUs (typically 2-wire applications)

  • TU830 / TU833 – Extended MTUs with fused power distribution

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