Vishay introduces new series of thermistors
Vishay Intertechnology recently introduced a new series of inrush current limiting positive temperature coefficient (PTC) thermistors.
Designed to increase performance in active charge and discharge circuits for automotive and industrial applications, Vishay BCcomponents PTCEL High Energy series devices combine maximum energy handling to 340J — five times higher than competing devices at high ambient temperatures — with a wide range of resistance at 25°C (R25) values and high voltage capabilities.
Featuring R25 values from 150Ω to 1.5 kΩ, the thermistors released today enable increased efficiency and high maximum voltages of 1200VDC. The devices offer high energy handling capabilities at higher ambient temperatures — 180J at 85°C and 130 J at 105°C — allowing designers to save space and lower costs by utilizing fewer components in their circuits. With their high switching temperature and operation to +105 °C, the PTCEL High Energy series offers a heat capacity to 2.6 J/K for all resistance values.
AEC-Q200 qualified and self-protecting — with no risk of over-heating — the thermistors provide current limitation and overload protection in AC/DC and DC/DC converters; DC-Link, battery management, and emergency discharge circuits; on-board chargers; home energy storage systems; heat pumps; motor drives; and welding equipment. For these applications, the devices withstand > 100 000 inrush power cycles and are highly resilient against non-switching peak power up to 25 kW.
The PTCEL High Energy series barium titanate thermistors consist of a ceramic pellet soldered between two tinned CCS wires and coated with a UL 94 V-0 compliant high temperature silicone lacquer. The devices are available in tape on reel packaging and can be automatically handled by pick and place equipment for lower placement costs. The thermistors offer a standard leadwire pitch of 10 mm, with leadwire pitches of 5.0 mm and 7.5 mm also available. SPICE and 3D models for the RoHS-compliant devices are available.