Search results for "chip resistors"
Bourns new automotive-grade thin film chip resistors
Bourns has announced its AEC-Q200 compliant, automotive-grade thin film chip resistor model series.
Vishay AEC-Q200 qualified thin film chip resistors
Vishay Intertechnology has introduced a new series of AEC-Q200 qualified thin film chip resistors that provide high-frequency performance up to 70 GHz for automotive, space, avionics, telecom, and military applications.
Stackpole introduces HVCR high voltage low VCR chip resistors
High voltage applications frequently require high voltage resistors with high accuracy for voltage division, monitoring and control.
Stackpole CSSK3637 four terminal shunt chip resistors
Stackpole has announced its CSSK3637 four terminal shunt chip resistors for high-efficiency applications.
Stackpole’s chip resistors perform in key conditions
Automotive and industrial electronics require performance under harsh environmental conditions including high temperatures. Film chip resistors generally are limited to full power up to 70°Cand operating temperatures up to 155°C.
Ultra-high power thin film chip resistors for industrial applications
Designers face significant challenges when working with industrial electronic controls and instrumentation.
Stackpole Electronics launch RPC-UP series of chip resistors
Stackpole Electronics has announced the launch of its RPC-UP series of high power pulse withstanding chip resistors, designed to meet the increasing demands for high reliability applications.
Stackpole's resistors for high power applications
Applications for surface mount chip resistors with high power requirements typically result in increased circuit temperatures due to thermal resistance limitations.
RNCV automotive high voltage resistors offer low VCR
High voltage applications such as EV power frequently require high voltageresistorswith high accuracy for voltage division, monitoring, and control.
RNWA automotive grade resistors now available
Applications for surface mount chip resistors with high power requirements typically mean higher circuit temperatures due to thermal resistance limitations.