Leader-mw | Introduction to 4-40Ghz power divider |
Leader microwave Tech., microwave and millimeter wave broadband power dividers /combiner/splitter are designed to solve the challenges faced by these industries. It delivers exceptional performance, high power handling capabilities and a wide operating frequency range to ensure seamless communications across a variety of applications.
With their superior design and advanced technology, our power dividers ensure optimal power distribution while minimizing unnecessary signal loss. This improves signal quality and transmission efficiency, thereby enhancing system performance and reliability.
Additionally, our power dividers are engineered to withstand the most demanding operating conditions. Its sturdy construction and high-quality materials enable it to function flawlessly in harsh environments, ensuring uninterrupted communications even under extreme temperatures, humidity, and vibration.
Leader-mw | Specification |
Type No: LPD-4/40-16S 16 way Power Divider Specifications
Frequency Range: | 4000-40000MHz |
Insertion Loss: | ≤5 dB |
Amplitude Balance: | ≤±0.6dB |
Phase Balance: | ≤±9deg |
VSWR: | ≤1.8: 1 |
Isolation: | ≥15dB |
Impedance: | 50 OHMS |
Port Connectors: | 2.92-Female |
Power Handling: | 10Watt |
Operating Temperature: | -30℃to+60℃ |
Remarks:
1、Not Include Theoretical loss 12db 2.Power rating is for load vswr better than 1.20:1
Leader-mw | Environmental Specifications |
Operational Temperature | -30ºC~+60ºC |
Storage Temperature | -50ºC~+85ºC |
Vibration | 25gRMS (15 degrees 2KHz) endurance, 1 hour per axis |
Humidity | 100% RH at 35ºc, 95%RH at 40ºc |
Shock | 20G for 11msec half sine wave,3 axis both directions |
Leader-mw | Mechanical Specifications |
Housing | Aluminum |
Connector | ternary alloy three-partalloy |
Female Contact: | gold plated beryllium bronze |
Rohs | compliant |
Weight | 0.4kg |
Outline Drawing:
All Dimensions in mm
Outline Tolerances ± 0.5(0.02)
Mounting Holes Tolerances ±0.2(0.008)
All Connectors: SMA-Female
Leader-mw | Test Data |