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Bently Nevada 3500/25 126648-02 Isolated Keyphasor I/O Module

Bently Nevada 3500/25 126648-02 Isolated Keyphasor I/O Module

  • Manufacturer: Bently Nevada

  • Product No.: 126648-02

  • Condition:1000 in stock

  • Product Type: Isolated Keyphasor I/O Module

  • Product Origin: USA

  • Payment: T/T, Western Union

  • Weight: 460g

  • Shipping port: Xiamen

  • Warranty: 12 months

  • 24/7 Support
  • 30-Day Returns
  • Fast Shipping

Product Details

Manufacturer Bently Nevada
Model/Part Number 126648-02
Description 3500/25 Isolated Keyphasor I/O Module

Specifications

Inputs

  • Power Consumption:

    • 3.2 Watts (typical)

  • Signal Input:

    • Accepts up to two transducer signals from proximity probe transducers or magnetic pickups.
    • Input signal ranges:
      • +0.8 V to -21.0 V (Non-Isolated I/O modules).
      • +5 V to -11 V (Isolated I/O modules).
    • Signals exceeding this range are internally limited by the module.
    • Passive magnetic pickups require a minimum shaft rotative speed of 200 rpm (3.3 Hz).

  • Input Impedance:

    • 21.8 kΩ (minimum)

I/O Module Dimensions and Weight

  • Height x Width x Depth:
    • 241.3 mm x 24.4 mm x 103.1 mm
    • (9.50 in x 0.96 in x 4.06 in)
  • Weight:
    • 0.46 kg (1.01 lbs.)

Environmental Limits

  • Operating Temperature:

    • -30°C to +65°C (-22°F to +150°F):
      Applicable when used with Keyphasor I/O Modules other than the Internal Barrier version.
    • 0°C to +65°C (32°F to +150°F):
      Applicable when used with Keyphasor Internal Barrier I/O Modules (Internal Termination).

  • Storage Temperature:

    • -40°C to +85°C (-40°F to +185°F)

  • Humidity:

    • Up to 95%, non-condensing

Key Features

  • Dual Input Capability:
    Supports up to two transducer signals, offering flexibility in monitoring configurations.

  • Wide Signal Compatibility:
    Accepts signals from proximity probes or magnetic pickups with precise internal limiting.

  • Robust Environmental Performance:
    Designed to operate in varied and demanding environmental conditions, including high humidity and wide temperature ranges.

  • Compact and Lightweight Design:
    Ensures easy installation in tight spaces, maintaining functionality without compromising durability.

View full details

Product Description

Product Details

Manufacturer Bently Nevada
Model/Part Number 126648-02
Description 3500/25 Isolated Keyphasor I/O Module

Specifications

Inputs

  • Power Consumption:

    • 3.2 Watts (typical)

  • Signal Input:

    • Accepts up to two transducer signals from proximity probe transducers or magnetic pickups.
    • Input signal ranges:
      • +0.8 V to -21.0 V (Non-Isolated I/O modules).
      • +5 V to -11 V (Isolated I/O modules).
    • Signals exceeding this range are internally limited by the module.
    • Passive magnetic pickups require a minimum shaft rotative speed of 200 rpm (3.3 Hz).

  • Input Impedance:

    • 21.8 kΩ (minimum)

I/O Module Dimensions and Weight

  • Height x Width x Depth:
    • 241.3 mm x 24.4 mm x 103.1 mm
    • (9.50 in x 0.96 in x 4.06 in)
  • Weight:
    • 0.46 kg (1.01 lbs.)

Environmental Limits

  • Operating Temperature:

    • -30°C to +65°C (-22°F to +150°F):
      Applicable when used with Keyphasor I/O Modules other than the Internal Barrier version.
    • 0°C to +65°C (32°F to +150°F):
      Applicable when used with Keyphasor Internal Barrier I/O Modules (Internal Termination).

  • Storage Temperature:

    • -40°C to +85°C (-40°F to +185°F)

  • Humidity:

    • Up to 95%, non-condensing

Key Features

  • Dual Input Capability:
    Supports up to two transducer signals, offering flexibility in monitoring configurations.

  • Wide Signal Compatibility:
    Accepts signals from proximity probes or magnetic pickups with precise internal limiting.

  • Robust Environmental Performance:
    Designed to operate in varied and demanding environmental conditions, including high humidity and wide temperature ranges.

  • Compact and Lightweight Design:
    Ensures easy installation in tight spaces, maintaining functionality without compromising durability.

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