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G312LM
Asialeren
8517710000
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High precision gpsglonass antenna
1.1 ceramic(Antenna) | ||
Item | data | |
1 | Frequency | L1 B1 G1 |
3 | Polarization | RHCP |
4 | Gain | 3d Bic@PCB(zenith) |
5 | Impedance | 50 Ω |
6 | Return loss | <-15dB |
1.2 (LNA) | ||
Item | data | |
2 | Work voltage | 3~5.5V |
3 | Work current | ≤20mA |
4 | Gain | 28±3dB |
5 | Noise figure | ≤1.5dB |
6 | V.S.W.R | ≤2.0 |
1.3 LTE Antenna | ||
Item | data request | |
1 | Work Voltage | 698~960/1710~2690MHz |
2 | V.S.W.R | ≤3( min) |
3 | Polarzation | Liner |
4 | Gain | 2dBi |
5 | Impedance | 50 Ω |
1.4 antenna system | ||
Item | data | |
1 | Cable | RG174 |
2 | Connector | FAKRA |
3 | Mounting | 3M adhesive |
4 | Radome | PC+ABS |
Large-capacity transmission: Due to its efficient signal processing and transmission capabilities, it can process multiple data streams simultaneously and achieve high-speed data transmission. For example, in 5G networks, high-precision MIMO combination antennas can support data transmission rates of several Gb per second, meeting the needs of high-traffic applications such as high-definition video streaming, virtual reality, and cloud services, bringing users a faster network experience.
High precision gpsglonass antenna
1.1 ceramic(Antenna) | ||
Item | data | |
1 | Frequency | L1 B1 G1 |
3 | Polarization | RHCP |
4 | Gain | 3d Bic@PCB(zenith) |
5 | Impedance | 50 Ω |
6 | Return loss | <-15dB |
1.2 (LNA) | ||
Item | data | |
2 | Work voltage | 3~5.5V |
3 | Work current | ≤20mA |
4 | Gain | 28±3dB |
5 | Noise figure | ≤1.5dB |
6 | V.S.W.R | ≤2.0 |
1.3 LTE Antenna | ||
Item | data request | |
1 | Work Voltage | 698~960/1710~2690MHz |
2 | V.S.W.R | ≤3( min) |
3 | Polarzation | Liner |
4 | Gain | 2dBi |
5 | Impedance | 50 Ω |
1.4 antenna system | ||
Item | data | |
1 | Cable | RG174 |
2 | Connector | FAKRA |
3 | Mounting | 3M adhesive |
4 | Radome | PC+ABS |
Large-capacity transmission: Due to its efficient signal processing and transmission capabilities, it can process multiple data streams simultaneously and achieve high-speed data transmission. For example, in 5G networks, high-precision MIMO combination antennas can support data transmission rates of several Gb per second, meeting the needs of high-traffic applications such as high-definition video streaming, virtual reality, and cloud services, bringing users a faster network experience.
