1-20W Fiber High Power Wireless Optical Repeater, 1-4 Band, Frequency of customisation
2. Long-range performance: Delivers long-range performance, Up to 20km.
3. High data rates: This repeater allows for high data rates, ensuring fast and efficient communication across multiple devices.
Specification
| RF Specification: | |||
| Parameter | Uplink | Downlink | |
| Frequency Range ( Any 1-4 band) |
FDD 750MHZ Band 28 | 703 - 748 MHz | 758 - 803 MHz |
| FDD 800MHZ Band 20 | 832 - 862 MHZ | 791 - 821 MHZ | |
| FDD 850MHZ Band 5/19 | 824 - 849 MHZ | 869 - 891 MHZ | |
| FDD 900MHZ Band 8 | 880 - 915 MHZ | 925 - 960 MHZ | |
| FDD 1800MHZ Band 3/9 | 1710 - 1785 MHZ | 1805 - 1880 MHZ | |
| TDD 1900MHZ Band 33/37 | 1900 - 1930 MHZ | 1900 - 1930 MHZ | |
| FDD 2100MHZ Band 1 | 1920 - 1980 MHz | 2110 - 2170 MHz | |
| TDD 2300MHZ Band 40 | 2300 - 2400 MHZ | 2300 - 2400 MHZ | |
| FDD 2600MHZ Band 7 TDD 2600MHZ Band 38/41 |
2496 - 2690 MHz | 2496 - 2690 MHz | |
| TDD 3500MHZ Band 42 | 3400 - 3600 MHZ | 3400 - 3600 MHZ | |
| Max. Output Power | 1W | 25dBm | 27dBm |
| 5W | 35dBm | 37dBm | |
| 10W | 37dBm | 40dBm | |
| 20W | 40dBm | 43dBm | |
| Max. Gain | 80~100dB | ||
| ALC Range | 20dB | 20dB | |
| ALC Accuracy | ≤ |±2.0| dB | ≤ |±2.0| dB | |
| Frequency Error | ≤ ±0.05ppm | ||
| Intermodulation | ≤ -50dBc | ||
| ACLR | ≥ 45dBc/5MHz; ≥50dBc/10MHz | ||
| PCDE | ≤ -45dBc | ||
| ACPR | ≤ -45dBc | ||
| EVM | ≤ 6% | ||
| Spectrum Emission | 5.05MHz≤f_offset<10.05MHz | -14dBm/100kHz | -14dBm/100kHz |
| Mask PAR=8 | 10.5MHz≤f_offset | -15dBm/30kHz | -15dBm/30kHz |
| Spurious Emission | 9kHz~150kHz | ≤ -36dBm /1KHz | ≤ -36dBm/1KHz |
| (at out of band offset ±10MHz) | 150kHz~30MHz | ≤ -36dBm/10KHz | ≤ -36dBm/10KHz |
| 30MHz~1GHz | ≤ -36dBm@100KHz | ≤ -36dBm@100KHz | |
| 1GHz~12.75GHz | ≤ -20dBm@1MHz | ≤ -20dBm@1MHz | |
| Time Delay | ≤ 5us | ≤ 5us | |
| VSWR | ≤ 1.5 | ≤ 1.5 | |
| Noise Figure | ≤ 5.0 | / | |
| Optical Specification: | |||
| Optical Connector | MU | FC/APC * 4, Independent optical path | |
| RU | FC/APC * 1 | ||
| Optical Wavelength | MU | TX: 1550nm / RX: 1310nm, Single Mode | |
| RU | TX: 1310nm / RX: 1550nm, Single Mode | ||
| Optical Output Power | MU | -2dBm ±3 | |
| RU | 4dBm ±3 | ||
| Fiber optic path attenuation range | 0 to 7dB, Max 10dB | ||
| Fiber core number from MU to 1 RU | 1 core, Single Mode | ||
| Mechanical and electric Specification: | |||
| RF Connector | MU | N(F) * 1 | |
| RU | N(F) * 1 | ||
| Power Supply | MU | DC -48V, ±20% | |
| RU | AC 220V, ±20% | ||
| Power Consumption | MU | ≤80W | |
| RU | ≤300W | ||
| Environmental Class | MU | IP20 (Indoor) | |
| RU | IP55 (Outdoor) | ||
| Operating Temperature | MU | -5 to +45 ℃ | |
| RU | -25 to +55 ℃ | ||
| Humidity | MU | 0 to 80% | |
| RU | 0 to 95% | ||
| Band | Power | MU Size | RU Size | Frequency | |||
| Single FDD | 1W | 304*184*78 | 304*184*78 | FDD 750 800,900,1800,2100 | |||
| Single FDD | 5W | 304*184*78 | 304*184*78 | FDD 750 800,900,1800,2100 | |||
| Single FDD | 10W | 304*184*78 | 375*295*134 | FDD 750 800,900,1800,2100 | |||
| Single FDD | 20W | 304*184*78 | 375*295*134 | FDD 750 800,900,1800,2100 | |||
| Single TDD | 1W | 304*184*78 | 304*184*78 | TDD 1900,2300,2600 | |||
| Single TDD | 5W | 304*184*78 | 304*184*78 | TDD 1900,2300,2600 | |||
| Single TDD | 10W | 304*184*78 | 375*295*134 | TDD 1900,2300,2600 | |||
| Single TDD | 20W | 304*184*78 | 375*295*134 | TDD 1900,2300,2600 | |||
| Dual Band | 1W | 304*184*78 | 304*184*78 | FDD+TDD | |||
| Dual Band | 5W | 304*184*78 | 304*184*78 | FDD+TDD | |||
| Dual Band | 10W | 304*184*78 | 375*295*134 | FDD+TDD | |||
| Dual Band | 20W | 304*184*78 | 447*357*171 | FDD+TDD | |||
| Triple band | 27db | 375*295*134 | 375*295*134 | FDD+TDD | |||
| Triple band | 5W | 375*295*134 | 375*295*134 | FDD+TDD | |||
| Triple band | 10W | 375*295*134 | 447*357*171 | FDD+TDD | |||
| Triple band | 20W | 375*295*134 | 447*357*171 | FDD+TDD | |||
| Quad band | 27db | 375*295*134 | 375*295*134 | FDD+FDD | |||
| Quad band | 5W | 375*295*134 | 447*357*171 | FDD+TDD | |||
| Quad band | 10W | 375*295*134 | 500*440*235 | FDD+TDD | |||
| Quad band | 20W | 375*295*134 | 500*440*235 | FDD+TDD | |||
A high power fiber optical repeater is a device that is used to amplify optical signals in a fiber optic communication system. The repeater is capable of receiving a weak optical signal and boosting it to a higher power level so that it can be transmitted over a longer distance. The repeater is also capable of improving the quality of the signal by reducing noise and distortion.
The high power fiber optical repeater is essential in long-distance communication systems that require the transmission of optical signals. Traditional communication systems rely on copper wires to transmit signals, but fiber optics have become the preferred method due to the higher bandwidth and lower signal degradation over longer distances.
One of the main advantages of using a high power fiber optical repeater is its ability to extend the reach of a fiber optic network. With the repeater, the signal can be transmitted over much longer distances than would be possible without it. This is particularly useful in applications such as telecommunications, where long-distance communication is required between different cities or countries.
Another advantage of using a high power fiber optical repeater is that it improves the overall signal quality. The repeater has the ability to amplify the signal while reducing noise and distortion caused by factors such as dispersion, polarization mode dispersion, and optical Kerr effect. This results in a clearer, more reliable signal that is less likely to be affected by interference.
Some of the key features of a high power fiber optical repeater include a high gain amplifier, low noise handling capability, temperature stability, and reliability. The amplifier is a key component of the repeater, as it is responsible for boosting the optical signal to a higher power level. The repeater must also be able to handle low noise levels to avoid adding additional noise to the signal.
Temperature stability is another important consideration, as the performance of the repeater can be affected by changes in temperature. The repeater must be able to operate within a specified temperature range to ensure consistent performance. Finally, reliability is a critical factor, as the repeater must be able to operate continuously without failure.
The high power fiber optical repeater is a critical component of long-distance fiber optic communication systems. It enables the transmission of signals over much longer distances than would be otherwise possible and improves the quality of the signal by reducing noise and distortion. The repeater must be designed with a high gain amplifier, low noise handling capability, temperature stability, and reliability to ensure consistent performance.
