With a focus on high voltage, high frequency, and ultra precision solutions, we offer competitive pricing and a path to GREEN products.

Our product capacity expansion offers solutions to help you solve your SMD thick film chip resistor challenges.

New technology for high power Current Sense resistors. See how the construction creates stand-out performance and which applications these products are used for.

Pulse capability demonstration of Vishay’s WSHP2818 SMP High Power Shunt Resistor.

High Voltage molded chip divider specifically designed for EV and HV automotive applications with good TCR tracking and ratio tolerances vs. individual components.

Reduces associated component temperature, enables higher power handling, extends component life, and reduces hot spots, all while facilitating the sharing of heat sinks.

Learn the advantages of the WFM current sense resistors for a variety of applications where reliability and efficiency are key.

This video discusses the shielded IFDC and semi-shielded IFSC series of SMD Power Inductors from Vishay. The series offers enhanced inductance, high saturation currents, and minimized EMI for noise-sensitive applications.

Vishay provides reference design solutions that leverage the best of our component technology. We provide you with all the resources needed for fast development.

A new session of LTspice simulation with Vishay thermistors inspired by the book of "The Art of Electronics" by Horowitz and Hill (ISBN 0-521-37095-7).

A new session of LTspice simulation with Vishay thermistors in several designs of fire detector applications (level detection and rate of rise).

An LTspice simulation for optimization of a full old school analog PID (Proportional / Integrator/ Derivator) controller with temperature measurement performed by a Vishay NTC thermistor.

A last session of LTspice simulation with Vishay thermistors showing how Vishay thermistors can be designed-in in any temperature control application, together with other Vishay devices such as optoelectronics and transistors.

This video in our electronic simulation series focuses on how to use the spice models of the leaded PTCEL components in SIMETRIX (with the cooperation of SIMETRIX TECHNOLOGIES Ltd).

A full insight on an LTspice simulation with focus on the thermoelectric Peltier element, ADI’s ADN8834 controller, and Vishay's NTCLE213 thermistor and how the parts articulate themselves to obtain an optimal and realistic temperature control.

This video explains the Vishay approach in relation with electronic simulation with thermistors and shows partner platforms where users can either simulate online, download models or complete simulations.

This video explains further the Vishay approach in relation with electronic simulation with thermistors and RTD’s, with the focus in this part on PTC current limiting thermistors.

The video presents the simulation of the analog hardware temperature compensation of a Wheatstone bridge of resistive strain gages, in five software simulation tools (LTspice, Multisim, Pspice, Pspice for TI, Simetrix).

A full insight on a LTspice simulation of a Constant Temperature Anemometer Circuit based on dissipation Characteristics of a TFPT0402; 5Ω.

Vishay Automotive Grade is more than a standard, more than a process. It's our culture and how we partner with customers to ensure we're meeting their needs, with zero defects, zero incidents, and zero failures.