Optoelectronics

Toshiba launches 4-Form-A voltage driven photorelays

6th January 2022
Kiera Sowery
0

Toshiba has launched three 4-Form-A voltage driven photorelays with one of the smallest mounting areas in the industry, it claims.

The photorelays are suited to a wide range of applications including measuring instruments such as oscilloscopes and data loggers as well as burn-in equipment. They are also suitable for use in semiconductor test equipment (probe cards and test heads for memories, system-on-chip (SoC) and LSI) where there is a need to mount multiple relays on circuit boards with space constraints.

The new products denoted TLP3407SRA4, TLP3412SRHA4 and TLP3475SRHA4 are Toshiba’s first-ever four-circuit, 4-Form-A relays. They are housed in a tiny, newly developed S-VSON16T package measuring 2.0mm x 6.25mm x 1.3mm and requiring a PCB mounting area of just 12.5mm2. The area is approximately 14% less compared with the mounting area of four 1-channel relays.

By incorporating input resistors, the new products are able to be voltage driven without any need for external resistors in 3.3V or 5V systems. This further reduces space requirements on circuit boards, allowing more photorelays to be mounted.

All devices are supplied in normally open (1-Form-A / NO) configuration with an off-state voltage of 60V and offer 300Vrms (min.) of isolation. The TLP3412SRHA4 and TLP3475SRHA4 offer an ON-state current of 250mA with a typical ON-state resistance of just 1Ω while the corresponding figures for the TLP3407SRA4 are 600mA and 0.2Ω.

With typical turn-on and turn-off times of just 220µs (tON) and 50µs (tOFF), the TLP3412SRHA4 and TLP3475SRHA4 are ideally suited to use in high-speed testers and other similar applications.

The operating temperature (Topr) range for all devices is -40ºC to +125ºC, allowing use in high temperature applications while ensuring thermal design margins are easily met or exceeded.        

Product Spotlight

Upcoming Events

View all events
Newsletter
Latest global electronics news
© Copyright 2024 Electronic Specifier