Programmable Attenuators
Radio Rack 4 - 220 Tabletop
Radio Rack 4 – 220 Tabletop is suitable for lab testing by controlling 4 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 8 - 220
Radio Rack 8 – 220 is suitable for lab testing by controlling 8 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 8 - 230
Radio Rack 8 – 230 is suitable for lab testing by controlling 8 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 16 - 220
Radio Rack 16 – 220 is suitable for lab testing by controlling 16 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 32 - 220
Radio Rack 32 – 220 is suitable for lab testing by controlling 32 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 2 x 2 - 4
Radio Rack 32 – 220 is suitable for lab testing by controlling 32 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 2 x 2 - 4
Radio Rack 2 x 2 – 4 is suitable for lab testing by controlling 4 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 4 x 8 - 32
Radio Rack 4 x8 – 32 is a full 4 inputs and 8 outputs bidirectional attenuation matrix. Signals from any input to any output ports can be independently controlled on the total 32 attenuators with 0 – 110 dB range. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 4 x 12 - 48
Radio Rack 4 x 12 – 48 is a full 4 inputs and 12 outputs bidirectional attenuation matrix. Signals from any input to any output ports can be independently controlled on the total 48 attenuators with 0 – 110 dB range. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 4 x 16 - 64
Radio Rack 4 x 16 – 64 is a full 4 inputs and 16 outputs bidirectional attenuation matrix. Signals from any input to any output ports can be independently controlled on the total 64 attenuators with 0 – 110 dB range. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners.
Radio Rack 6 x 6 - 36
Radio Rack 6 x 6 – 36 is suitable for lab testing by controlling 36 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 8 x 2 - 8
Radio Rack 8 x 2 – 8 includes two independent 4×1 bidirectional attenuation sub – systems. Each sub – system can control 4 independent RF attenuation input channels and combined at one output. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 8 x 6 - 48
Radio Rack 8 x 6 – 48 is suitable for lab testing by controlling 48 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 8 x 8 - 64
Radio Rack 8 x 8 – 64 is suitable for lab testing by controlling 64 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 9 x 9 - 81
Radio Rack 9 x 9 – 81 is suitable for lab testing by controlling 81 independent bidirectional RF channels. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 15 x 5 - 15
Radio Rack 15 x 5 – 15 includes five independent 3×1 bidirectional attenuation sub-systems connecting to all the inputs through 15 attenuators. Each sub – system can control 3 independent RF attenuation input channels and combined at five output. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners.
Radio Rack 16 x 2 - 16
Radio Rack 16 x 2 – 16 includes two independent 8×1 bidirectional attenuation sub – systems. Each sub – system can control 8 independent RF attenuation input channels and combined at one output. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 16 x 3 - 16
Radio Rack 16 x 3 – 16 includes two independent 8×1 bidirectional attenuation sub-systems and one output connecting to all the inputs through 16 attenuators. Each sub – system can control 8 independent RF attenuation input channels and combined at one output. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners.
Radio Rack 16 x 4 - 16
Radio Rack 16 x 4 – 16 includes four independent 4×1 bidirectional attenuation sub – systems. Each sub – system can control 4 independent RF attenuation input channels and combined at one output. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners.
Radio Rack 16 x 4 - 16B
Radio Rack 16 x 4 – 16B includes two independent 8 – 2 bidirectional attenuation sub – systems. Each sub – system can control 8 independent RF attenuation input channels and combined at one output. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners.
Radio Rack 16 x 16 - 256
Radio Rack 16 x 16 – 256 is suitable for lab testing by controlling 256 individual bidirectional RF channels independently. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 18 x 6 - 18
Radio Rack 18 x 6 – 18 includes six independent 3×1 bidirectional attenuation sub-systems connecting to all the inputs through 18 attenuators. Each sub – system can control 3 independent RF attenuation input channels and combined at six output. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage
Radio Rack 18 x 18 - 324
Radio Rack 18 x 18 – 324 is suitable for lab testing by controlling 324 individual bidirectional RF channels independently. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 24 x 6 - 24
Radio Rack 24 x 6 – 24 includes four independent 4×1 bidirectional attenuation sub – systems. Each sub – system can control 4 independent RF attenuation input channels and combined at one output. Users can easily simulate path loss on each channel or simulate the mobility scenarios between the sectors with usage of power combiners.
Radio Rack 24 x 18 - 432
Radio Rack 24 x 18 – 432 is suitable for lab testing by controlling 432 individual bidirectional RF channels independently. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 24 x 24 - 576
Radio Rack 24 x 24 – 576 is suitable for lab testing by controlling 576 individual bidirectional RF channels independently. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 32 x 8 - 256
Radio Rack 32 x 8 – 256 is suitable for lab testing by controlling 256 individual bidirectional RF channels independently. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 32 x 16 - 512
Radio Rack 32 x 16 – 512 is suitable for lab testing by controlling 256 individual bidirectional RF channels independently. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 32 x 32 - 1024
Radio Rack 32 x 32 – 1024 is suitable for lab testing by controlling 1024 individual bidirectional RF channels independently. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 64 x 64 - 4096
Radio Rack 64 x 64 – 4096 is suitable for lab testing by controlling 4096 individual bidirectional RF channels independently. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
Radio Rack 128 x 128 - 16384
Radio Rack 128 x 128 – 16384 is suitable for lab testing by controlling 16384 individual bidirectional RF channels independently. Users can easily simulate path loss on each channel or simulate mobility scenarios between the sectors with usage of power combiners. The instrument supports all the major wireless technologies including CDMA/EVDO/GSM/UMTS/HSPA/LTE/WiMAX.
