8401 Series 8x8 Configuration
Ideal for MIMO Test Setups
Weinschel brand Butler Matrices are beamforming networks used in wireless test applications (Cellular, WiFi, Bluetooth). They transfer the signal reciprocally from any of n-input ports to any of n-output ports, with high phase accuracy, amplitude balance, low insertion loss, and high port-to-port isolation. They are designed to deliver maximum power with progressive phase shift to the output in the transmitting mode and collect signals from all beam directions with the full gain of antenna array in the receiving mode.
The Butler Matrix family includes multiple models which can be used in a variety of configurations, across cellular, WiFi, and any band within its frequency limits.
Features
Compact, modular microstrip design and construction
Reciprocal signal path
Excellent channel condition number
Technology agnostic
Wide frequency range (3.5 octaves)
Applications
RF MIMO Test for 5G, WiFi, Bluetooth
Create ideal channel for best MIMO performance
Addition of programmable attenuators allows easy degradation of the channel number for Throughput vs Channel Testing
WiFi, WiMAX, 4G/5G LTE Testing, Link Simulation
MIMO Testing
Multipath Simulation and Performance Evaluation
Antenna Array Beam-forming
Interferometer System Simulation and Testing
8401 Series 8x8 Configuration
Ideal for MIMO Test Setups
Weinschel brand Butler Matrices are beamforming networks used in wireless test applications (Cellular, WiFi, Bluetooth). They transfer the signal reciprocally from any of n-input ports to any of n-output ports, with high phase accuracy, amplitude balance, low insertion loss, and high port-to-port isolation. They are designed to deliver maximum power with progressive phase shift to the output in the transmitting mode and collect signals from all beam directions with the full gain of antenna array in the receiving mode.
The Butler Matrix family includes multiple models which can be used in a variety of configurations, across cellular, WiFi, and any band within its frequency limits.
Features
- Compact, modular microstrip design and construction
- Reciprocal signal path
- Excellent channel condition number
- Technology agnostic
- Wide frequency range (3.5 octaves)
Applications
- RF MIMO Test for 5G, WiFi, Bluetooth
- Create ideal channel for best MIMO performance
- Addition of programmable attenuators allows easy degradation of the channel number for Throughput vs Channel Testing
- WiFi, WiMAX, 4G/5G LTE Testing, Link Simulation
- MIMO Testing
- Multipath Simulation and Performance Evaluation
- Antenna Array Beam-forming
- Interferometer System Simulation and Testing
