MMIC Process Serves High-Frequency Switch and Monolithic Power Limiter Applications


The flexible PIN3-00 process targets high frequency switch and limiter applications where GaAs PIN diodes provide performance advantages...

TAOYUAN, Taiwan -- WIN Semiconductors Corp. has developed an advanced GaAs PIN diode MMIC process for high frequency switch and monolithic power limiter applications. Fabricated on 150mm semi-insulating GaAs wafers, the 3µm i-layer PIN diodes offer several performance advantages including near constant junction capacitance through 50 GHz, low insertion loss, and excellent isolation required for high frequency applications.

The PIN3-00 GaAs PIN diode MMIC process uses a humidity robust architecture with low-k dielectric crossovers, and three interconnect metal layers with up to 7µm thick Au metallization for high Q-factor passive elements. Standard through-wafer vias enable flexible ground connections and optional RF hot via supports placement of RF ports on the backside of the MMIC.

"This advanced PIN diode MMIC fabrication process offers significant design flexibility for multiple applications and end-markets. The PIN3-00 process can be used for receive path limiters in Radar Tx/Rx modules, power switching as well as high frequency 5G switch functions. WIN is the first compound semiconductor foundry to offer this high performance technology on 150mm wafers, and at the scale required for high volume markets," said David Danzilio, Senior Vice President of WIN Semiconductors Corp.

For more information, visit WIN Semiconductors Corp. at