Anokiwave Datasheets for RF Switches

RF switches route radio frequency signals to particular waveguides.
RF Switches: Learn more

Product Name Notes
Medium Power Front End ASIC -- AWMF-0106 The AWMF-0106 is an integrated power amplifier, low noise amplifier, limiter, and T/R switch intended for radar phased array applications. The device provides 30 dB linear gain and 3W saturated...
28 GHz Silicon 5G Tx/Rx Quad Core IC -- AWMF-0108 The AWMF-0108 is a highly integrated silicon quad core IC intended for 5G phased array applications. The device supports four Tx/Rx radiating elements, includes 5 bit phase and 5 bit...
Ka-Band Silicon Intelligent Gain Block™ -- AWMF-0116 The AWMF-0116 is a highly integrated silicon core IC for active steerable antenna arrays intended for SATCOM, RADAR and TDD/FDD applications. The device has switchable outputs and can support half-duplex...
Ku-Band Silicon Intelligent Gain Block™ -- AWMF-0117 The AWMF-0117 is a highly integrated silicon core chip for active steerable antenna arrays intended for SATCOM, RADAR and TDD/FDD applications. The device has switchable outputs and can support half-duplex...
26 GHz Silicon 5G Tx/Rx Quad Core IC -- AWMF-0135 The AWMF-0135 is a highly integrated silicon quad core IC intended for 5G phased array applications. The device supports four Tx/Rx radiating elements, includes 5 bit phase and 5 bit...
26 GHz Silicon 5G Tx/Rx Quad Core IC -- AWMF-0139 The AWMF-0139 is a highly integrated silicon quad core IC intended for 5G phased array applications. The device supports four Tx/Rx radiating elements, includes all requisite beam steering controls for...
Ku-Band Silicon Intelligent Gain Block™ -- AWMF-0141 The AWMF-0141 is a highly integrated silicon core IC for active steerable antenna arrays intended for SATCOM, RADAR and TDD/FDD applications. The device can support half-duplex operation or operate as...
Ka-Band Silicon Intelligent Gain Block™ -- AWMF-0143 The AWMF-0143 is a highly integrated silicon core IC for active steerable antenna arrays intended for SATCOM, RADAR and TDD/FDD applications. The device can support half-duplex operation or operate as...
37/39 GHz Silicon 5G Tx Quad Core ICs -- AWMF-0144 The AWMF-0144 is a highly integrated silicon quad core Tx IC intended for 5G phased array applications. The device supports four radiating elements, includes 5 bit phase control and 5...
37/39 GHz Silicon 5G Rx Quad Core IC -- AWMF-0145 The AWMF-0145 is a highly integrated silicon quad core Rx IC intended for 5G phased array applications. The device supports four radiating elements and includes 5 bit phase control and...
39 GHz Silicon 5G Tx/Rx Quad Core IC -- AWMF-0156 The AWMF-0156 is a highly integrated silicon quad core IC intended for 5G phased array applications. The device supports four Tx/Rx radiating elements, includes all requisite beam steering controls for...
28 GHz Silicon 5G Tx/Rx Quad Core IC -- AWMF-0158 The AWMF-0158 is a highly integrated silicon quad core IC intended for 5G phased array applications. The device supports four Tx/Rx radiating elements, includes all requisite beam steering controls for...
X-Band Silicon Radar Quad Core IC -- AWS-0101 The AWS-0101 is a highly integrated silicon quad core IC intended for radar and 5G phased array applications. The device supports four radiating elements, single beam transmit, and dual beam...
X-Band Silicon Radar Quad Core IC -- AWS-0103 The AWS-0103 is a highly integrated silicon quad core IC intended for radar and 5G phased array applications. The device supports four radiating elements, single beam transmit, and dual beam...
X-Band Silicon Radar Quad Core IC -- AWS-0104 The AWS-0104 is a highly integrated silicon quad core IC intended for radar and 5G phased array applications. The device supports four radiating elements, single beam transmit, and single beam...
X-Band Silicon Radar Quad Core IC -- AWS-0105 The AWS-0105 is a highly integrated silicon quad core IC intended for radar and 5G phased array applications. The device supports four radiating elements, single beam transmit, and single beam...