SSW-408

Preliminary Preliminary Preliminary Product Description Stanford Microdevices’ SSW-408 is a high performance Gallium Arsenide Field Effect Transistor MMIC switch housed in a low-cost surface mountable small outline plastic package. This single-pole, double-throw reflective switch consumes less than 50uA and can operate with positive or negative 3V to 8V supply voltages, making it suitable for use in both infrastructure and subscriber equipment. This switch can be used in all analog and digital wireless communication systems including (but not limited to) AMPS, PCS, DECT, IS-95, IS-136, 802.11, CDPD and GSM. At +5V or –5V bias, typical output power at 1dB compression is 3 watts. 1dB output power over 4 watts and IP3 over +55dBm may be achieved with higher control voltages. SSW-408 DC-4 GHz High Power GaAs MMIC SPDT Switch Isolation vs. Frequency VControl = -5 V -10 Product Features High Compression Point : up to 4 Watts HIgh Linearity : TOIP +55dBm @2GHz Low DC Power Consumption Low Insertion Loss : 1.2dB at 2GHz Operates from Positive or Negative 3V to 8V Supplies Low Cost Small Outline Plastic Package -20 dB -30 -40 DC 1 2 3 4 GHz Applications Analog/Digital Wireless Communications Spread Spectrum AMPS, PCS, DECT, IS-95, IS-136, 802.11, CDPD and GSM. Electrical Specifications at Ta = 25C Symbol Parameters & Test C onditions: Zo = 50 ohms v = +5 or -5V Inserti on Loss Ins Isolati on Isol Input & Output VSWR (on port) Input & Output VSWR (off port) ...