Menu

1/4 In Drive Multitorq Sensor 1-10 in-lbs - CDI Torque Products

Part #: 101-I-MT

The CDI Torque Products 101-I-MT 1/4 Inch Drive Multitorq Sensor is engineered for precision torque measurement in professional automotive and industrial settings. Designed for seamless integration with the CDI MULTITORQ portable electronic torque meter (Model 1600-MT), this sensor provides accurate and reliable data for critical fastening applications. It serves as an essential tool for technicians requiring precise torque validation and testing.

Key Features

  • Precision Measurement: Offers a torque range of 1-10 in-lbs with an accuracy of ±2% reading across 10-100% of the sensor's capacity.
  • NIST Traceability: Each sensor includes a Certificate of Accuracy traceable to N.I.S.T., ensuring confidence in calibration and measurement reliability.
  • "Plug-and-Play" Technology: Equipped with a "Smart" EEPROM memory chip, the sensor stores its identification and calibration factors, maintaining accuracy across all MULTITORQ™ meters without recalibration.
  • Versatile Compatibility: Features a 1/4 inch drive, allowing for use with a wide array of standard drive accessories including sockets, extensions, universal joints, and ratcheting drivers.
  • Professional Grade: Factory calibrated and built to meet the rigorous demands of production environments and quality control.

Applications

This Multitorq sensor is ideal for critical bolt torque testing in quality control and production environments where consistent and accurate torque application is paramount. Professional mechanics and technicians can utilize the 101-I-MT for validating torque wrench calibration, performing routine torque audits, or ensuring precise fastener tension in sensitive automotive components and industrial assemblies. Its portable design makes it suitable for on-site diagnostics and verification tasks.

Specifications

  • Torque Range: 1-10 in. lb.
  • Drive: 1/4 inch

Recommended Alternatives

This product was added to our catalog on Thursday 18 February, 2010.