Description:
Digital Fiber Optic Repeater(FOR) adopts software wireless technology, digital filter technology and digital transmission technology, conquer the limiting disadvantage of simulate fiber optic transmission distance, satisfy the requirements of large dynamic and low noise while long distance transmission. In a situation of changeless hardware platform, Digital FOR realizes function extension of device via upgrade device software, and the way is flexible and convenient for using. Digital FOR much excellent than Simulate FOR no matter in frequency selectivity, anti-jamming ability or in function extension.
Working Principle: the Donor Unit of Digital FOR couple the base station downlink signal, convert radio signal to intermediate frequency(IF) by Duplexer and frequency conversion module, then sample the simulate IF signal to digital signal by High Speed A/D Converter of IF Slab, thereby achieve Digital Down Converting. According to the mobile network requirements of different systems, FPGA achieve channelized processing, accomplish AGC and automatism noise elimination. FPGA also implement CPRI agreement to convert optic module to optic signal and send to Remote Unit. The Remote Unit of Digital FOR convert the optic signal to digital signal, IF Slab convert DUC which through FPGA and send it to D/A Converter. After D/A signal conversion, the signal transform to radio signal by frequency conversion module, then amplified by Power Amplifier and Low-noise Power Amplifier Integrative Module, lastly send via forwarding antenna. In the same way, forwarding antenna receive the uplink radio signal from mobile, after reverse similar amplification, transmit the enhanced uplink signal via optic transmission to radio signal which can be recognized by base station, then send it to base station antenna.
In the whole process, there is no interaction between Digital FOR digital signal transmission and optic transmission, thus the digital signal don’t attenuate with the attenuation of optic signal, counteract the path loss of wireless signal between base station and repeater. So while high-speed long distance transmission, Digital FOR can still keep high dynamic range, ensure signal quality, and maximize the usage of spectrum source and network devices, corresponding to provide a bidirectional and transparent channel between base station and mobile phone, makes wireless signal expanded.
Products series:
Our products, covering 2G (CDMA450, CDMA800, CDMA1900, GSM, EGSM, GSM1800, GSM1900, DCS, PCS), 3G and 4G (WCDMA, UMTS, CDMA2000), Trunking Communication(TETRA, iDEN, GoTa, GT800, 350Mhz Police Communication), Digital TV Communication(CMMB, DVB-H, T-DMB, S-DMB), Railway Communication System(450MHz Radio Train Dispatch Communication Series, GSM-R Series), Military Communication, FM Broadcast Communication, VHF, UHF Interphone Communication, Marine Communication, Sea Area Coverage Systems, output power can be chose from 0.5W(27dBm) to 60W(48dBm).
Product Features:
1.Adopting transmission interface comply with CPRI regulation, and applying Digital Optical Terminal Technology
2.Radio signal won’t attenuate with the attenuation of optic signal, and its dynamic range will keep steady in long distance and Multi-Channel Shunt transmission system
3.Transmission BER is less than 10exp-12
4.Digitized RF signal via software wireless and dispose the signal in digital area, which greatly enhance the signal disposal and controllability of device
5.Track and process signal in every carrier and every time slot with a rate of ns-grade, comb-out the uplink noise interference.
6.Rectangle coefficient of Digital Filter perfect than Surface Acoustic Wave Filter
7.completely support EDGE
8.Realization of kinds of networking ways, such as: Multi-Channel Parallel Type, Multi-Channel Series Active Type and Daisy-Chain Type, which greatly economize fiber source and make system networking more flexible
9.Realizes perfect uplink and downlink flat while high power coverage by combine with uplink noise control technology.
Digital Fiber Optic Repeater(FOR) adopts software wireless technology, digital filter technology and digital transmission technology, conquer the limiting disadvantage of simulate fiber optic transmission distance, satisfy the requirements of large dynamic and low noise while long distance transmission. In a situation of changeless hardware platform, Digital FOR realizes function extension of device via upgrade device software, and the way is flexible and convenient for using. Digital FOR much excellent than Simulate FOR no matter in frequency selectivity, anti-jamming ability or in function extension.
Working Principle: the Donor Unit of Digital FOR couple the base station downlink signal, convert radio signal to intermediate frequency(IF) by Duplexer and frequency conversion module, then sample the simulate IF signal to digital signal by High Speed A/D Converter of IF Slab, thereby achieve Digital Down Converting. According to the mobile network requirements of different systems, FPGA achieve channelized processing, accomplish AGC and automatism noise elimination. FPGA also implement CPRI agreement to convert optic module to optic signal and send to Remote Unit. The Remote Unit of Digital FOR convert the optic signal to digital signal, IF Slab convert DUC which through FPGA and send it to D/A Converter. After D/A signal conversion, the signal transform to radio signal by frequency conversion module, then amplified by Power Amplifier and Low-noise Power Amplifier Integrative Module, lastly send via forwarding antenna. In the same way, forwarding antenna receive the uplink radio signal from mobile, after reverse similar amplification, transmit the enhanced uplink signal via optic transmission to radio signal which can be recognized by base station, then send it to base station antenna.
In the whole process, there is no interaction between Digital FOR digital signal transmission and optic transmission, thus the digital signal don’t attenuate with the attenuation of optic signal, counteract the path loss of wireless signal between base station and repeater. So while high-speed long distance transmission, Digital FOR can still keep high dynamic range, ensure signal quality, and maximize the usage of spectrum source and network devices, corresponding to provide a bidirectional and transparent channel between base station and mobile phone, makes wireless signal expanded.
Product Category:
As per working method of frequency selection, the Digital FOR can be divided into Carrier-based Digital FOR and Wideband Digital FOR.
As per working method of frequency selection, the Digital FOR can be divided into Carrier-based Digital FOR and Wideband Digital FOR.
Products series:
Our products, covering 2G (CDMA450, CDMA800, CDMA1900, GSM, EGSM, GSM1800, GSM1900, DCS, PCS), 3G and 4G (WCDMA, UMTS, CDMA2000), Trunking Communication(TETRA, iDEN, GoTa, GT800, 350Mhz Police Communication), Digital TV Communication(CMMB, DVB-H, T-DMB, S-DMB), Railway Communication System(450MHz Radio Train Dispatch Communication Series, GSM-R Series), Military Communication, FM Broadcast Communication, VHF, UHF Interphone Communication, Marine Communication, Sea Area Coverage Systems, output power can be chose from 0.5W(27dBm) to 60W(48dBm).
Product Features:
1.Adopting transmission interface comply with CPRI regulation, and applying Digital Optical Terminal Technology
2.Radio signal won’t attenuate with the attenuation of optic signal, and its dynamic range will keep steady in long distance and Multi-Channel Shunt transmission system
3.Transmission BER is less than 10exp-12
4.Digitized RF signal via software wireless and dispose the signal in digital area, which greatly enhance the signal disposal and controllability of device
5.Track and process signal in every carrier and every time slot with a rate of ns-grade, comb-out the uplink noise interference.
6.Rectangle coefficient of Digital Filter perfect than Surface Acoustic Wave Filter
7.completely support EDGE
8.Realization of kinds of networking ways, such as: Multi-Channel Parallel Type, Multi-Channel Series Active Type and Daisy-Chain Type, which greatly economize fiber source and make system networking more flexible
9.Realizes perfect uplink and downlink flat while high power coverage by combine with uplink noise control technology.
Technical parameters:
Maximum output power(dBm)
|
27~46
|
Gain(dB)
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37~56
|
Gain adjustment range(dB)
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≥30
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Noise factor(dB)
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≤4.0(at maximum gain)
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VSWR
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≤1.4
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Power requirement
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AC220V±20% 45~55Hz, DC-48V±20% or solar cell supply
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Fiber Optic
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Single Mode Fiber wavelength 1.31μm and 1.55μm
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Optical receiver sensitivity(dBm)
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-18(carrier noise ratio of transmission≥24dB)
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Interface
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FC/APC
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Local and remote monitoring
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power, gain, standing wave, input power sign, output power, temperature, fault alarm, etc.
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Remote monitoring mode
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GPRS or Internet or SMS
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Work temperature(℃)
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-20~+40 (indoor);-40~+55(outdoor)
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Average faultless working time (H)
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50000
|
Typical Application:
Digital FOR is widely applicable to all kinds of actual wireless coverage sites, such as: city, indoor distributing, roadway, high-railway, villages’ communication, base station remote, beauty spot, campus, etc.