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GL539
Asialeren
8517710000
| Quantity: | |
|---|---|
| PDF Export | |
Item | Specifications | |
Antenna | Frequency Range | 1558~1602MHz |
Polarization | RHCP | |
Gain | 5dBic@PCB(Zenith) | |
V.S.W.R | <1.5 | |
Impedance | 50Ω | |
Dimension | 33.5*33.5*6mm | |
LNA | Gain | 28±2dB |
Noise Figure | ≤1.5dB | |
Supply Voltage | 3~5V DC | |
Current Consumption | <20mA | |
V.S.W.R | <2.0 | |
Mechanical | Cable | RG174,300mm |
Connector | SMA male | |
Environmental | Operating Temperature | -40℃~+85℃ |
Relative Humidity | Up to 75% | |
Vibration | 10 to 55Hz with 1.5mm amplitude 2hours | |
Environmentally Friendly | ROHS Compliant | |
High precision GPS/GNSS internal antenna technology has revolutionized the way we navigate and track locations. These antennas are designed to provide accurate and reliable positioning information, even in challenging environments. By utilizing advanced signal processing techniques, they can deliver precise location data for various applications such as autonomous vehicles, precision agriculture, and surveying. The integration of high precision GPS/GNSS internal antennas in devices has significantly improved the efficiency and accuracy of location-based services, enabling users to navigate with confidence and precision. This technology continues to evolve, pushing the boundaries of what is possible in terms of location tracking and navigation.
Item | Specifications | |
Antenna | Frequency Range | 1558~1602MHz |
Polarization | RHCP | |
Gain | 5dBic@PCB(Zenith) | |
V.S.W.R | <1.5 | |
Impedance | 50Ω | |
Dimension | 33.5*33.5*6mm | |
LNA | Gain | 28±2dB |
Noise Figure | ≤1.5dB | |
Supply Voltage | 3~5V DC | |
Current Consumption | <20mA | |
V.S.W.R | <2.0 | |
Mechanical | Cable | RG174,300mm |
Connector | SMA male | |
Environmental | Operating Temperature | -40℃~+85℃ |
Relative Humidity | Up to 75% | |
Vibration | 10 to 55Hz with 1.5mm amplitude 2hours | |
Environmentally Friendly | ROHS Compliant | |
High precision GPS/GNSS internal antenna technology has revolutionized the way we navigate and track locations. These antennas are designed to provide accurate and reliable positioning information, even in challenging environments. By utilizing advanced signal processing techniques, they can deliver precise location data for various applications such as autonomous vehicles, precision agriculture, and surveying. The integration of high precision GPS/GNSS internal antennas in devices has significantly improved the efficiency and accuracy of location-based services, enabling users to navigate with confidence and precision. This technology continues to evolve, pushing the boundaries of what is possible in terms of location tracking and navigation.
