L-Band RF Splitter | PL7622
The PL7622 is a high-performance, passive 2-way L-Band RF splitter/combiner designed for reliable signal distribution and streamlined system integration. It features dual-port DC pass-through, enabling flexible and redundant LNB powering configurations.
Features & Benefits
- Dual-port DC pass-through for redundancy
- Improved cable management and reduced connector failures
- High performance and reliability
Engineered for dependable performance in satellite and RF distribution systems, the PL7622 combines or splits L-Band signals while maintaining signal integrity. Its dual-port DC capability supports redundant LNB power configurations, making it ideal for robust, high-availability installations.
Basic Details
| RF Specification | Value |
| Frequency Range – Bandwidth | 950 – 2400 MHz |
| Ripple [in band] | ±0.4dB |
| Input/Output Return Loss | -11 dB |
| Operating Temperature Range | -10 to +55 |
| RF Output Signal Range – Total Power | 12 to -10 dBm |
| Storage Temperature Range | -45 to +85 |
What is the frequency range supported by the PL7622 L-Band RF Splitter?
The PL7622 operates within a frequency range of 950 to 2400 MHz, making it suitable for L-Band RF signal distribution applications.
Does the PL7622 support DC power passing on both ports?
Yes, the PL7622 allows DC power to pass through both ports. This feature supports redundant LNB powering configurations.
What types of RF connectors are available for this splitter?
The PL7622 offers several connector options including 75 Ohm F, 75 Ohm BNC, 50 Ohm BNC, 50 Ohm SMA, and 50 Ohm N, giving flexibility in different system setups.
What is the typical insertion loss and signal ripple?
The splitter has a typical insertion loss of 1.5 dB, and 0.7 dB when using 75 Ohm connectors. The ripple is within ±0.4 dB for in band performance.
Can the PL7622 be used in high-altitude or harsh environments?
Yes, it is designed to operate at altitudes up to 10,000 feet and is built to meet shock and vibration requirements under MIL-STD-810E transport conditions.