Micro-Measurements Introduces Miniature Strain Gage Sensor Supporting the Growing Autonomous Vehicle, Robotics, Smart Manufacturing, and Wearables Markets

Miniature strain gage is advantageous in applications that benefit from small size and higher resistance

MALVERN, Pa. — (BUSINESS WIRE) — September 27, 2018 — The Micro-Measurements® brand of Vishay Precision Group, Inc. (NYSE: VPG) ( www.micro-measurements.com), industry experts in the design, development, and manufacture of resistive-foil sensors for high-precision strain, high-stress and force mechanism measurements, today introduced the G1350 C2K-Series strain gage, a miniature stacked rectangular rosette sensor built to meet the developing need for precise, consistent, and reliable stress analysis of PCBs, even in severe environments. The G1350 is designed to detect PCB surface strains at critical locations in consumer electronics. The miniature strain gage is particularly advantageous in applications that can benefit from its small size and higher resistance of 120 ohms and 350 ohms.

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(Photo: Business Wire)

(Photo: Business Wire)

The G1350 is ideal for applications in Structural Health Monitoring (SHM), Industrial Internet of Things (IIoT), autonomous vehicles, instrumentation & control, machinery & equipment, motion control, Industry 4.0, robotics, smart cities, smart manufacturing, smart infrastructure, wearable electronics, and wireless applications.

Designed using the same rigorous standards as traditional Micro-Measurements gages, the new line of C2K series strain gages is based upon advanced technology manufacturing processes that allows high resistance in small-sized gage patterns. The uniaxial linear stacked rosette C2K-06-G1350-350 features an active grid length of just 0.040” and an overall matrix of 0.20”diameter to allow spot-on installation on surface-mount components. The 3 meters of pre-attached three-conductor cable is built to ease and speed-up installation processes by eliminating the need of lead wire soldering after bonding.

Miniaturizing consumer electronics will result in higher component density, increased thermal stresses, new requirements for surviving repeated loadings, and a larger need for impact stress survival. In order to meet these requirements, precise knowledge of strains in the PCB and on-board components is a must. The most accurate, swift, and cost-effective manner to detect strains on a PCB is through strain gage measurement, which can also be used in developing loading fixtures and test plans to optimize the testing phase.

The new strain gage features a Modified Karma, or K-alloy (C2K), and an epoxy overcoat for grid encapsulation. The second generation of the G1350 is based on K-alloy, with its extensive areas of application, representing a vital member in the family of strain gage alloys for PCB testing. Categorized by strong fatigue life and excellent stability, K-alloy strain gages can be exposed to temperatures as high as +150°F (+66°C). An inert atmosphere will strengthen stability and extend the useful gage life at high temperatures. Among its other advantages, K-alloy offers a much flatter thermal output curve than A-alloy, allowing more precise correction for thermal output inaccuracies at temperature extremes. Like constantan, K-alloy can be self-temperature-compensated for use on materials with different thermal expansion coefficients. K-alloy is the normal selection when a temperature compensated gage is required that has environmental capabilities and performance characteristics not attainable in A-alloy gages.

As required by standards in the electronics industry, PCAs must be tested to determine if the design can withstand the rigor of manufacturing, packaging, transporting, and day-to-day use of electronic devices. Some of the methods in the process in which strain gages are used for printed circuit assembly testing include: ensuring appropriate surface preparation materials are on hand, selecting an adhesive, selecting a protective coating that will resist environmental conditions, and selecting the measurement instrumentation.

Further information about Micro-Measurements strain gages and technical support is available at www.micro-measurements.com. Follow Micro-Measurements at www.strainblog.com or on twitter @strain_gage

About Micro-Measurements

Micro-Measurements, a Vishay Precision Group, Inc. (VPG) brand, is dedicated to the development, manufacture, and marketing of resistive-foil sensors for high-precision strain measurement. Micro-Measurements offers a full complement of strain gages, PhotoStress® equipment and coatings, data acquisition systems, and supplies necessary to obtain accurate, reliable stress data. Our products are used throughout the industrialized world — both in the practice of stress measurements analysis and as the sensing elements in a wide variety of transducers for measuring physical variables (weight, force, torque, pressure, etc.). More information about Micro-Measurements is available at  www.micro-measurements.com.

About VPG

Vishay Precision Group, Inc. is an internationally recognized designer, manufacturer and marketer of: components based on its resistive foil technology; sensors; and sensor-based measurement systems specializing in the growing markets of stress, force, weight, pressure, and current measurements. VPG is a market leader of foil technology products, providing ongoing technology innovations in precision foil resistors and foil strain gages, which are the foundation of the company’s force sensors products and its weighing and control systems. The product portfolio consists of a variety of well-established brand names recognized for precision and quality in the marketplace. To learn more, visit VPG at  www.vpgsensors.com .

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