2019 Version 23dBm 2G 3G 4G GSM 850MHz AWS 1700MHz PCS 1900 MHz Signal Booster Tri Band Repeater
Model:
GW-23CPA, 23dBm
GW-27CPA, 27dBm
GW-30CPA, 30dBm
Tri-Band Signal Booster series is an ideal solution for three wireless system in small/medium businesses and home users looking to enhance indoor 2G&3G&4G wireless connectivity. It is connected via coaxial cable to Tri-Band Donor Antenna and Service Antenna, Tri-Band Donor Antenna is placed outside the building where it has easy access to the BTS signal, and the Service Antenna is placed in the building where it can extend radio coverage to the blind area.
Features:
1. Cost-effective solution for weak signal zones, reduce drop/off calls.
2. Compact size, low power consumption, easy installation, great cover.
Expansion and extension of the signal of the base station. Optimization of the quality of the signal and source
3. Cover about 5000~20000m² Without block or obstruct.
4. High linear design, ALC function design, low interference to BTS.
5. Support any cellular devices (voice & data & video)
6. Wideband signal booster, or customize selective band booster.
7. Support System CDMA800, GSM, DCS, PCS, WCDMA, LTE 4G etc
Recommended Accessories:
1)Donor antenna: Log Periodic Antenna (9dBi, 806-960/1710-2700MHz)
2)Service antenna: Omni Ceiling Antenna (3dBi, 806-960/1710-2700MHz)
3)5D-FB coaxial cable with connecter (Cable length optional)
Application:
To expand signal coverage of fill signal blind area where the signal is weak or unavailable.
Indoor: Hotels, Home, Basements, Shopping Malls, Offices, Parking Lots, Shop. Etc.
FrequencyRange | Uplink | Downlink | ||
GSM850+AWS1700+PCS1900 | 824 - 849MHz 1710 - 1755MHz 1850- 1915MHz | 869- 894MHz 2110 - 2155MHz 1930- 1995MHz | ||
Max. Gain | 70dB | 75dB | ||
Max. Output Power | 20dBm±2 | 30dBm | ||
Bandwidth | Wide Band | |||
Manual Gain Control | 31dB / 1dB Step | |||
Automatic Gain Control | >20dB | |||
Ripple in-band | ≤6dB | |||
Return loss | ≤ -10dB | |||
Noise Figure | ≤ 6dB | |||
Spurious Emission &Intermodulation | 9KHz~1GHz | ≤ -36dBm | ||
1~12.75GHz | ≤ -30dBm | |||
WCDMA | Spurious Emission Mask | Meet 3GPP TS 25.143 ( V 6.2.0 ) | ||
Modulation Accuracy | ≤ 12.5% | |||
Peak Code Domain Error | ≤ -35dB@Spreading Factor 256 | |||
Time Delay | ≤ 1.5 μs | |||
Frequency stability | ≤ 0.01ppm | |||
MTBF | > 50000 hours | |||
Impedance | 50 ohm | |||
Power Supply | AC100-240V | |||
Power LED | Power Indicator | |||
ALC LED | Orange @ ALC 1~5dB, Red @ ALC 15dB~20dB, LED off after 5 seconds red color | |||
Mechanical Specification | ||||
RF Connector | N-Female | |||
Switch | Power Switch\Manual Gain Control Switch | |||
Cooling | Heatsink Convection cooling | |||
Humidity | < 90% | |||
Operating Temperature | -10c~55.c | |||
Environment Conditions | IP40 | |||
Installation Type | Wall Installation | |||
Size | 250*380*104mm | |||
Weight | < 10Kg |
FAQ:
Q1. Why is there still no signal after installing the equipment?
1. Check the power on booster and power supply.
2. Check the connector of the outdoor antenna is tight or not.
3. Check the connectors of RF cable are tight or not.
4. Check the outdoor signal is strong enough or not.
5. Check to make sure the antenna is installed correctly.
6. Check the connector of the indoor antenna is tight or not.
7. Check the cable type is suitable or not.
Q2. Why the signal strength is too weak on the edge of the area?
1. Check the outdoor signal and antenna direction.
2. Check booster is the full gain or not.
3. Check all of the connectors are tight.
4. Change the location of the outdoor/indoor antenna.
5. Check the cable type is suitable or not.
6. Deploy more indoor antennas.
Q3. After running a booster, why the signals are not stable?
1. Checking the distance between donor antenna and server antenna is too close to each other? Check LED
of a booster to make sure alarms are green.
2. Checking the signals from donor antenna whether to be stable or not?
3. Connect the system again if it is an incorrect connection.
Q4. Why the booster power LED is not bright?
1. Checking the input AC power range indicated on the power adapter whether is corresponding to the local power system.
2. Checking the power adapter whether connect the equipment correctly and stably or not.
3. Checking the power adapter whether damage or not. To test output voltage whether be corresponding to that indicated on a power adapter or not by the multimeter.