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Allen-Bradley 2085-OB16 Micro850 Digital Output Expansion ModuleAllen-Bradley 2085-OB16 Micro850 Digital Output Expansion ModuleAllen-Bradley 2085-OB16 Micro850 Digital Output Expansion Module
Allen-Bradley 2085-OB16 Micro850 Digital Output Expansion Module
Allen-Bradley 2085-OB16 Micro850 Digital Output Expansion Module
Allen-Bradley 2085-OB16 Micro850 Digital Output Expansion Module

Allen-Bradley 2085-OB16 Micro850 Digital Output Expansion Module


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PRODUCT SKU : 2085-OB16

PRODUCT TYPE : Digital Output Expansion Module

PRODUCT VENDOR : Allen-Bradley


  • 100% Genuine Parts – Risk-Free 30-Day Returns
  • 1-Year Warranty & Expert Support for Every Order

Product Details

Product Overview

The Allen-Bradley 2085-OB16 operates as a high-density digital output expansion module within the Micro850 and Micro870 programmable logic controller (PLC) ecosystems. This hardware component expands the base controller's switching capacity by providing 16 discrete sourcing output channels.

The module acts as a direct command interface, switching DC power lines to drive field assets like pneumatic solenoids, pilot indicator lights, control relays, and small DC motor starters. We supply this automation hardware exclusively as a 100% brand new, original factory-sealed unit, which guarantees zero previous thermal stress, virgin silicon transistor pathways, and unblemished backplane connector pins.

Technical Specifications

The table below maps the electrical profiles, channel densities, and physical parameters of the 2085-OB16 sourcing output module:

Parameter Performance & Industrial Control Rating
Manufacturer Allen-Bradley / Rockwell Automation
Part Number 2085-OB16
Controller Compatibility Micro850 / Micro870 PLC Systems
Output Type Solid-State Digital Transistor
Output Configuration Sourcing (Source Type Circuitry)
Total Number of Outputs 16 Channels
Operating Voltage Range 10V to 30V DC
Nominal Supply Voltages 12V DC / 24V DC
Continuous Current Per Channel 0.5 Amps Maximum
Continuous Current Per Module 8.0 Amps Maximum
Status Indicators 16 Amber Channel LEDs / 1 Green Power LED
Mounting Mechanism DIN Rail or Panel Mount Configuration

Engineering Advantages

  • Maximizes Control Density in Tight Enclosures: The compact form factor packs 16 independent solid-state outputs into a slim module housing. This layout minimizes the physical footprint on the DIN rail, letting panel builders pack higher I/O counts into shallow terminal junction boxes or congested machinery control panels.

  • Eliminates Contact Mechanical Wear via Solid-State Sourcing: Solid-state transistors handle all switching operations instead of mechanical copper contacts. This sourcing design eliminates contact arcing, welding, and structural fatigue, delivering millions of rapid switching cycles without degradation when driving reactive inductive loads like solenoid valves.

  • Accelerates Field Diagnosis via Channel-Specific LEDs: A dedicated bank of 16 amber status LEDs lines the front face of the housing. These indicators mirror the exact logical state of the internal transistors, allowing maintenance technicians to verify output status at a glance and isolate downstream wiring faults without hooking up a programming laptop.

FAQs

  • What is the operational difference between this sourcing module and a sinking output module?

    The 2085-OB16 uses a sourcing configuration, meaning each output channel supplies positive (+VDC) power directly from the module terminal to the field device when activated. The field device must connect back to the common negative (0V DC) return line. Sinking modules, by contrast, pull the load down to the negative return line, requiring a constant positive feed at the field device.

  • Can this module supply power directly from the PLC backplane to drive heavy field solenoids?

    No. The internal PLC backplane only provides low-power logic voltages to run the module's microchips. Technicians must connect an external, independent 12V or 24V DC power supply to the dedicated field power terminals on the removable front connector block to energize the 16 output circuits and drive connected field loads.

  • What precautions prevent electrical back-EMF damage when switching inductive loads?

    While the solid-state design handles standard currents, inductive devices like large relay coils or magnetic clutches generate high-voltage reverse EMF spikes when they turn off. To prevent gradual transistor degradation, technicians should wire a flyback diode in parallel across DC inductive loads to safely suppress voltage surges before they travel back to the module.

Additional Information

  • 100% Genuine Parts: All products are original and authentic, ensuring reliable industrial performance.
  • 30-Day Refund Guarantee: Return any in-stock item within 30 days in original, unopened packaging for a full refund (excluding shipping and fees).
  • 12-Month Warranty: Covers defects in materials or workmanship; excludes misuse, normal wear, or unauthorized modifications.
  • Worldwide Shipping: We ship via USPS, UPS, FedEx, and DHL. Delivery times vary by country and may be subject to customs or import fees.
  • Support & Contact: Technical and warranty assistance is available anytime. Contact us here: Contact.
  • Purchase Guidance: Check product specifications and compatibility carefully before ordering to ensure proper application.




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