TOSHIBA LAUNCHES NEW FAMILY OF LOW VOLTAGE DRIVEN PHOTORELAYS

Toshiba Electronics Europe GmbH, the industry leader in the miniaturisation of cutting-edge photorelays, introduced a new family of five photorelays housed in one of the industry’s smallest package. The new devices are suited for use in automatic test equipment, memory testers, SoC/LSI testers and probe cards.

TOSHIBA LAUNCHES NEW FAMILY OF LOW VOLTAGE DRIVEN PHOTORELAYS

Both TLP34xxSRL devices and all three of the TLP34xxSRH series have input voltage driven characteristics. The TLP3406SRL and TLP3407SRL support a DC voltage range of 1.8V (typ.) to 3.3V (typ.), while TLP3406SRH, TLP3407SRH and TLP3412SRH support a DC voltage range of 3.3V (typ.) to 5V (typ.), characteristics that enhance compatibility with today’s low voltage FPGAs.

The new photorelays are housed in tiny S-VSONR4 (2.0mm x 1.45mm) packages and require a mounting space of just 2.9mm2, a footprint approximately 27% smaller than Toshiba’s previous generation VSONR4 (2.75mm x 1.45mm) package. In addition, all devices have a built-in input resistor, saving space by eliminating the need for an external resistor. The tiny packaging will allow engineers to design smaller test boards, especially probe cards. It also allows the number of photorelays on a board to be increased to achieve higher density solutions.

Despite their tiny package size, the new photorelays can drive large currents. The TLP3406SRx delivers up to 1.5A with an off-state voltage (VOFF) of 30V and an on-state resistance (Ron) of 0.2 Ω (max.) while the TLP3407SRx is capable of up to 1A with a VOFF of 60V and Ron of 0.3Ω. The TLP34012SRH can drive up to 0.4A (VOFF = 60V / Ron = 1.5Ω). This makes all the new devices highly suited to device power supply applications across a wide range of test equipment. All devices are guaranteed to work at operating temperatures up to 110℃ and provide 500Vrms of isolation.

Read more: TOSHIBA LAUNCHES NEW FAMILY OF LOW VOLTAGE DRIVEN PHOTORELAYS


About The Author

Ibrar Ayyub

I am an experienced technical writer holding a Master's degree in computer science from BZU Multan, Pakistan University. With a background spanning various industries, particularly in home automation and engineering, I have honed my skills in crafting clear and concise content. Proficient in leveraging infographics and diagrams, I strive to simplify complex concepts for readers. My strength lies in thorough research and presenting information in a structured and logical format.

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