Revolutionizing Satellite Communications: The Ka-Band 120W GaN SATCOM Block Upconverter
nnIn the fast-evolving world of satellite communications, one product is setting a new benchmark for performance and reliability. The Ka-band 120W GaN SATCOM Block Upconverter leverages Gallium Nitride (GaN) technology to deliver unmatched power efficiency and signal integrity. This advanced device is designed to meet the most demanding requirements of modern satellite links, from remote connectivity to mission-critical military operations. By combining high linear power with exceptional environmental resilience, it offers a versatile solution that redefines what users can expect from a block upconverter.nn
Unmatched Performance and Efficiency of the Ka-Band 120W GaN SATCOM Block Upconverter
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Power Output That Exceeds Expectations
nnAt the heart of this device lies a robust GaN amplifier capable of delivering 60W of linear power (PLIN). This ensures that even the most stringent signal strength requirements are met, guaranteeing stable and high-speed data transmission. For peak performance, the saturation power reaches an impressive 120W (51 dBm), while the maximum continuous wave power stands at 100W (50 dBm). Such power reserves provide a critical safety margin during demanding operational scenarios, ensuring uninterrupted communication.nn
Efficiency Without Compromise
nnDespite its formidable power output, the Ka-band 120W GaN SATCOM Block Upconverter excels in energy efficiency. With an AC power consumption of only 800W at saturation, it significantly reduces operational costs compared to traditional solutions. This efficiency is a direct benefit of GaN technology, which minimizes energy waste and heat generation. The device also features a gain attenuation range of 25 dB in 0.1 dB steps, allowing fine-tuned control over signal strength without sacrificing overall performance.nn
Design and Integration: Built for Any Environment
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Compact and Portable Form Factor
nnThe design of this block upconverter emphasizes both integration and portability. Weighing just 34 pounds and measuring 7.0 x 10.31 x 18 inches, it is remarkably easy to install and transport. Whether deployed on a ground fixed station or a mobile terminal, its compact footprint simplifies logistics and setup. This makes it an ideal choice for applications where space is at a premium, such as on ships, aircraft, or remote field stations.nn
Rugged Environmental Adaptability
nnThe Ka-band 120W GaN SATCOM Block Upconverter is built to withstand extremes. It operates reliably across a temperature range of -40°C to +60°C and complies with the MIL-STD-810 environmental standard for shock, vibration, and humidity. This ruggedness ensures stable performance in harsh climates, from Arctic cold to desert heat. The device also supports 100% condensing humidity and altitudes up to 12,000 feet MSL, broadening its applicability for challenging missions.nn
Versatile Functionality for Modern Communication Needs
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Flexible Frequency and Band Selection
nnOne of the standout features is its support for single, dual, triple, or quad-band selection within the 27.5 to 31 GHz frequency range. This flexibility allows the device to adapt to diverse communication requirements without hardware changes. Additionally, input frequency options with an optional block upconverter (BUC) cover 950 to 3450 MHz, and external LO reference signals at 10 MHz provide precise synchronization.nn
Advanced Monitoring and Control
nnThe device includes an OpenBMIP Ethernet option, enabling remote monitoring and management via web interfaces. This facilitates intelligent operation, reducing the need for on-site personnel. For further integration, it offers multiple interfaces such as Ethernet, RS-422, RS-485, and Serial RS-232 (with optional SNMP support). These ensure seamless connectivity with existing network infrastructure and simplify system integration.nn
Comprehensive Specifications and Data
nnThe following table provides detailed technical parameters for the Ka-band 120W GaN SATCOM Block Upconverter. All specifications are presented to aid in system design and deployment.nn
| Parameter | Value |
|---|---|
| Output Frequency | 27.5 to 30 GHz |
| Input Level, No Damage | +10 dBm max |
| Input Impedance | 50 ohms |
| Input Frequency (with optional BUC) | 950 to 3450 MHz |
| LO Reference Frequency (with optional BUC) | External 10 MHz |
| LO Reference Level (with optional BUC) | 0 dBm ± 5 dB |
| Eq. Saturated Power (PSAT) | 120W (51 dBm) |
| Maximum CW Power (PMAX) | 100W (50 dBm) |
| Linear Power (PLIN, min) | 60W (47.8 dBm) |
| Noise Power Ratio | -19 dBc max |
| Spectral Regrowth @ PLIN | -30 dBc |
| Intermodulation Products (wrt sum of 2 equal carriers) | -25 dBc |
| AM to PM Conversion | 2.0°/dB max |
| Small Signal Gain (typical) | 70 dB ±5 dB |
| Gain Attenuation Range | 25 dB, 0.1 dB steps |
| Gain Variation (over 1 GHz) | 3.0 dB p-p max |
| Gain Variation (over full band) | 5.0 dB p-p max |
| Gain Slope (max) | 0.04 dB/MHz |
| Gain Stability, over 24 hours | 1 dB p-p max |
| Gain Variation over Temperature | 2.0 dB p-p max |
| Noise Power Transmit Band | -75 dBW/4 kHz |
| Noise Power Receive Band | -150 dBW/4 kHz |
| AC Line Spurious (sum of all spurs) | -30 dBc single sideband, -36 dBc |
| Harmonics | -60 dBc |
| Output Spurious @ PLIN (excludes 1 MHz band) | -60 dBc |
| Phase Noise @ 100 Hz | -63 dBc/Hz |
| Phase Noise @ 1 kHz | -73 dBc/Hz |
| Phase Noise @ 10 kHz | -83 dBc/Hz |
| Phase Noise @ 100 kHz | -93 dBc/Hz |
| Phase Noise @ 1 MHz | -103 dBc/Hz |
| Reference Phase Noise @ 10 Hz | -125 dBc/Hz |
| Reference Phase Noise @ 100 Hz | -155 dBc/Hz |
| Reference Phase Noise @ 1 kHz | -165 dBc/Hz |
| Transmit Phase Linearity up to PLIN (over any 2 MHz) | ±0.2 radian |
| Transmit Phase Linearity up to PLIN (over any 36 MHz) | ±0.4 radian |
| Transmit Phase Linearity up to PLIN (over any 72 MHz) | ±0.5 radian |
| Transmit Phase Linearity up to PLIN (over any 90 MHz) | ±0.6 radian |
| Transmit Phase Linearity up to PLIN (over any 120 MHz) | ±0.7 radian |
| Input VSWR | 1.5:1 |
| Output VSWR | 1.3:1 |
| Prime Power | 90-264 VAC, 1450W @ PLIN |
| Operating Temperature Range | -40° to +60°C |
| Non-Operating Temperature Range | -50° to +70°C |
| Altitude (max) | 12,000 ft. MSL |
| Humidity | 100% condensing |
| Shock/Vibration | Normal transportation |
| M&C Interface | Ethernet/RS-422/RS-485 and Serial RS-232 (Optional SNMP) |
| Weight | 26.3 kg (58 lbs) |
| Dimensions | 20.3 cm x 36.6 cm x 48.3 cm (8.0 x 14.4 x 19.0 inches) |
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Conclusion: Leading Satellite Communications into the Future
nnThe Ka-band 120W GaN SATCOM Block Upconverter is not just a product; it is a transformative tool for the satellite communication industry. By providing reliable power for remote area network coverage and ensuring the stability of military communications, this device enhances data transmission quality and speed. Its compact design, rugged build, and flexible functionality make it a powerful assistant for operators seeking to improve communication links. Embracing this technology means investing in a future where satellite connectivity is faster, more reliable, and more accessible than ever before. Choose the Ka-band 120W GaN SATCOM Block Upconverter for your next deployment and experience the difference GaN innovation brings.
