Way | Freq.Range | IL. max(dB) |
VSWR max |
Isolation min(dB) |
Input Power (W) |
Connector Type | Model |
6 way | 0.5-2.0GHz | 1.5 | 1.4 | 20.0 | 20 | SMA-F | PD06-F8888-S(500-2000MHz) |
6 way | 0.5-6.0GHz | 2.5 | 1.5 | 16.0 | 20 | SMA-F | PD06-F8313-S(500-6000MHz) |
6 way | 0.5-8.0GHz | 3.8 | 1.8 | 16.0 | 20 | SMA-F | PD06-F8318-S(500-8000MHz) |
6 way | 0.7-3.0GHz | 1.6 | 1.6 | 20.0 | 30 | SMA-F | PD06-F1211-S(700-3000MHz) |
6 way | 0.8-18.0GHz | 4 | 1.8 | 16.0 | 20 | SMA-F | PD06-F9214-S(0.8-18GHz) |
6 way | 1.0-4.0GHz | 1.5 | 1.4 | 18.0 | 20 | SMA-F | PD06-F8888-S(1-4GHz) |
6 way | 2.0-18.0GHz | 2.2 | 1.8 | 16.0 | 20 | SMA-F | PD06-F8211-S(2-18GHz) |
6 way | 6.0-18.0GHz | 1.8 | 1.8 | 18.0 | 20 | SMA-F | PD06-F7650-S(6-18GHz) |
The 6-way power divider is a widely used RF device in wireless communication systems. It consists of one input terminal and six output terminals, which can evenly distribute an input signal to six output ports, achieving power sharing. This type of device is generally designed using microstrip lines, circular structures, etc., and has good electrical performance and radio frequency characteristics.
The 6-way power divider is mainly used for signal and power allocation in wireless communication systems, and common application scenarios include base stations, antenna arrays, RF testing equipment, etc. By using a 6-channel RF power divider, simultaneous processing and transmission of multiple signals can be achieved, improving the flexibility and efficiency of the system.
It should be noted that when using a 6-way power divider, it is necessary to ensure that the operating frequency range of the device matches the frequency requirements of the system, and to install and debug in accordance with relevant specifications and design requirements. At the same time, appropriate power division ratios and power losses should be selected according to the actual situation
The 6 ways power divider is a passive device used in wireless communication systems, which has the following characteristics and advantages:
Multi channel division: The 6 ways power divider can evenly divide the input signal into 6 outputs, achieving multi channel division of the signal. This is very useful for applications that require assigning a radio frequency signal to multiple receivers or antennas.
Low insertion loss: The 6 ways power splitters typically use low loss materials and designs to minimize energy loss during signal distribution. This means that during signal allocation, there is less power loss, which can provide higher system efficiency.
Balance performance: The 6 ways power splitters typically have good balance performance, providing equal power and phase across various output ports. This is crucial to ensure that each receiver or antenna receives the same signal strength, thereby avoiding problems caused by signal distortion and imbalance.
Broadband: The 6 ways power splitters typically operate over a wide frequency range and can adapt to signal allocation requirements in multiple frequency bands. This makes them highly flexible and adaptable in wireless communication systems.
High reliability: The 6 ways power divider is a passive device with no moving parts or electronic components, therefore it has high reliability. This is crucial for the long-term stable operation of wireless communication systems.