KR20000040067A - Base station remote optical repeater of three wave length division multiplex method - Google Patents

Abstract

PURPOSE: A base station remote optical repeater of three wave lengths division multiplex method is provided to transmit simultaneously a plurality of channels by using a light with different wave lengths. CONSTITUTION: A base station remote optical repeater of three wave lengths division multiplex method comprises a hub outdoor unit(20), an optical signal conversion portion(51), an optical line(9), and a multitude of remote repeater(31). The hub outdoor unit performs communication through an optical relay. The optical signal conversion portion converts a reception signal and a transmission signal of the hub outdoor unit to an optical signal. The optical line transmits the converted optical signal. The remote repeaters transmits the optical signal by using an antenna or controls a reception level of a received relay signal, and transmits the controlled signal to the hub outdoor unit.

Description

3 wavelength division multiplexing base station remote optical repeater

The present invention relates to a base station remote optical relay, and more particularly, to a base station remote optical relay of a three wavelength division multiplexing method.

In general, wave length division multipex (hereinafter referred to as WDM) is a communication method using optical fibers, and transmits a plurality of channels simultaneously using light of different wavelengths. Two types of optical wavelengths, 1.3㎛ and 1.55㎛, or three wavelengths of 0.85㎛, 1.3㎛ and 1.55㎛ are used.Communication channel using WDM method in FTTH (fiber-to-the-home) where fiber is laid to subscriber's house It is possible to aggregate channels for CATV and CATV into a single fiber.

In addition, a typical repeater is a equipment mainly used in a shielded space or an area where it is not suitable to establish a base station in a small blocked area (underground mall, tunnel, underground parking lot, etc.) or to operate a relay vehicle at all times. It is possible to receive mobile phone and radio call in dead zone by using amplifying weak signal to be relayed with low / noise signal in shadow or shadow area and re-radiating through re-amplification (250mW / ch) antenna. It is a equipment that lets you.

Figure 1 is a block diagram showing a base station remote optical relay of the conventional two wavelength division multiplexing method.

Referring to FIG. 1, a conventional remote optical relay apparatus includes a base station apparatus 20 for communicating by optical relay and an optical signal converter 10 for converting a transmission / reception signal of the base station apparatus 20 into an optical signal. ), An optical path 9 for transmitting the optical signal converted through the optical signal converter 10, and a signal transmitted through the optical path 9 to the antenna ANT1 or a relay signal And a plurality of remote repeaters (1 to 1-n) that receive and shape waveforms, adjust and reconstruct timing, and retransmit the signals to the base station apparatus 20 through the optical signal converter 10.

The remote relay apparatuses 1 to 1-n are a duplexer 2 for switching the relay signal received from the antenna ANT1 and the transmission signal of the base station apparatus 20, and the noise of the relay signal is amplified at a high frequency. A low noise amplifier 3, a frequency up / down converter 4 for up / down converting the high frequency to a constant level, and an optical photoelectric conversion for the optical signal transmitted from the level-converted frequency signal or optical path 9 And a plurality of remote repeaters (1) to 1-n composed of a transceiver (5) and a linear amplifier (7) for linearly amplifying the photoelectrically converted frequency signal.

In addition, the optical signal converter 10 and the optical transceiver 12, 15 for photoelectric conversion of the optical signal transmitted to each other via the optical path 9 between the plurality of remote relay device 1 and the base station device 20 and Transmit / receive level adjusters 14, 17 (13, 16) for adjusting the levels of the transmit / receive signals of the optical transceivers 12, 15, and frequency signals of the receive level adjusters 13, 16; A combiner 18 which combines and outputs to the base station apparatus 20, and a divider 19 which distributes the transmission signals of the base station apparatus 20 to the transmission level adjusters 14 and 17, respectively.

In the conventional remote optical repeater configured as described above, the signal transmitted from the base station apparatus 20 is distributed by the RF splitter 19, and is level adjusted through the transmission level adjusters 14 and 17, and the photoelectric transceiver 5 is used to It is converted and transmitted to each of the remote repeaters 1 to n through the optical path 9.

The remote repeater 10 then photoelectrically converts the transmission signal transmitted through the optical path 9 through the optical transceiver 5, and the photoelectrically converted radio signal is transmitted to the transmission level regulator 6 and the linear amplifier 7 and It radiates to the antenna ANT1 through the duplexer 2.

On the other hand, the signal received from the antenna ANT1 is noise canceled in the duplexer 2 and the low noise amplifier 3 and converted to a constant frequency level through the frequency up / down converter 4.

The level-converted frequency is photoelectrically converted in the optical transceiver 5 and then transmitted to the optical transceivers 12 and 15 of the optical signal converter 10 through the optical path 9.

The photoelectrically converted frequency signal at the optical transceivers 12 and 15 is then level adjusted via the receive level adjusters 13 and 16, coupled via the combiner 18 and then applied to the base station apparatus 20.

The conventional remote optical repeater configured and operated as described above has the following problems.

First, when installing a plurality of remote repeaters in one sector, the installation cost is high because the corresponding optical transceiver must be configured for each remote repeater.

Second, a separate optical cable must be used for diversity of received signals, and there is a hassle of separately installing an optical transceiver in the optical signal converter.

Third, the diversity of the received signal may not have a combined gain in the digital signal processor of the CDMA, and it is difficult to minimize fading effects due to multiple paths.

Accordingly, the present invention has been made to solve the above-mentioned disadvantages of the conventional remote optical repeater, and an object of the present invention is a 3 wavelength division multiplexing base station remote suitable for a CDMA base station in a 3WDM remote optical repeater. An optical relay device is provided.

1 is a block diagram showing a base station remote optical repeater of a conventional two wavelength division multiplexing method;

2 is a block diagram showing a base station remote optical relay apparatus of a three wavelength division multiplexing method according to the present invention;

Explanation of symbols for main parts of the drawings

1, 31: remote repeater 2, 32, 39: duplexer

3, 33, 40: low noise amplifier 4: frequency up / down converter

5, 12, 15, 36, 53: optical transceiver

6, 14, 17, 37, 56: Transmission level regulator

7 linear amplifier 9 light path

13, 16, 54, 55: reception level adjuster 20: base station apparatus

34, 41: Notch filter 38: DSP control amplifier

52: optical coupling and splitter

A feature of the three-wavelength division multiplexing base station remote optical relay apparatus for achieving the above object is a base transceiver station for performing communication by optical relay, and the transmission and reception signals of the base station apparatus and one optical transceiver and optical An optical signal converter converting an optical signal through a distribution and combiner, an optical path for transmitting the optical signal converted through the optical signal converter, and radiating a signal transmitted through the optical path to an antenna through a DSP control amplifier Or, it consists of a plurality of remote repeaters for waveform shaping the relay signal received through the antenna and adjusting the reception level, and then retransmitted to the base station through the optical signal conversion device.

Hereinafter, a preferred embodiment of a three-wavelength division multiplexing base station remote optical relay apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing a base station remote optical relay apparatus of a three wavelength division multiplexing method according to the present invention.

Referring to FIG. 2, the three-wavelength division multiplexing base station remote optical relay device of the present invention includes a base station apparatus 20 for performing communication by optical relaying, and a transmission / reception signal of the base station apparatus 20 as one unit. An optical signal converter 51 for converting the optical signal through the optical transceiver 53 and the optical distribution and combiner 52, and an optical path for transmitting the optical signal converted through the optical signal converter 50; 9) and radiating the signal transmitted through the optical path 9 to the antenna ANT2 through the DSP control amplifier or waveform shaping the relay signal received through the antenna ANT2 and adjusting the reception level. And a plurality of remote relay devices 31 to 31-n which retransmit to the base station apparatus 20 through the optical signal conversion device 51.

The remote relay apparatuses 31 to 31 -n may include a duplexer 32 for switching the relay signal received from the antenna ANT2 and the transmission signal of the base station apparatus 20, and amplifying the relay signal at a high frequency with low noise. A low noise amplifier 33, a notch filter 34 for removing a certain band of the high frequency, a reception level adjuster 35 for controlling a reception level of the high frequency with which the predetermined band has been removed, and the frequency signal or light beam with the level adjustment An optical transceiver 36 for photoelectrically converting an optical signal transmitted from the furnace 9, a transmission level adjuster 37 for controlling a transmission level for adjusting a signal level of the photoelectrically converted frequency signal, and the level controlled frequency And a plurality of remote repeaters 31 to 31-n composed of DSP control amplifiers 38 for amplifying and outputting signals.

In addition, the optical signal converter 51 is an optical coupling and splitter for combining and distributing optical signals transmitted through the optical path 9 between the plurality of remote repeaters 31 to 31-n and the base station apparatus 20. (52), an optical transceiver (53) for photoelectric conversion of the optical signal, and a transmit / receive level adjuster (54, 55, 56) for adjusting the level of the transmit / receive signal of the optical transceiver (53). It is.

In the three-wavelength multiplexing base station remote optical relay apparatus according to the present invention configured as described above, the multi-frame signal transmitted from the base station apparatus 20 is level-adjusted through the transmission level adjuster 56, and the optical transceiver Photoelectric conversion via (5) is distributed to the transmission level via light coupling and splitter (52) and then transmitted via optical path (9) to each remote repeater (9).

Subsequently, the remote repeater 31 photoelectrically converts the transmission signal transmitted through the optical path 9 through the optical transceiver 36, and the photoelectrically converted radio signal is transmitted through the transmission level regulator 37 to a signal suitable for the transmission level. Are level leveled, level amplified to sufficient magnitude by the DSP control amplifier 38, and then radiated through the duplexer 32 to the antenna ANT2.

At this time, the signal radiated through the antenna ANT2 is sufficiently band-passed by the dielectric resonance characteristic of the duplexer 32 so as not to affect the frequency signal of another operator.

On the other hand, the signals received from the antennas ANT2 and ANT3 are noise canceled by the duplexers 32 and 39, the low noise amplifiers 33 and 40, and the notch filters 34 and 42, respectively, and the reception level adjuster 35 ( Is converted to a constant frequency level. At this time, the signal received from the antenna (ANT2) (ANT3) is a received signal of several paths, and the notch filter 34, 42 is from the antenna (ANT2) (ANT3) so as not to be affected by the frequency signal of another operator The filter removes a predetermined band of low noise amplified high frequency after received.

The optical signals of various paths transmitted through the optical line 9 are optically coupled through the optical coupling and splitter 52 and then photoelectrically converted by the optical transceiver 36 and then transmitted to the optical transceiver 52.

Subsequently, the frequency signal photoelectrically converted by the optical transceiver 53 is level adjusted through the reception level adjusters 54 and 55 and applied to the base station apparatus 20.

Therefore, the base station remote optical relay apparatus of the present invention configured and operated in this way does not require a separate optical cable for diversity of received signals, and eliminates the need to separately install an optical transceiver in the optical signal converter. .

As described in detail above, the three-wavelength division multiplexing base station remote optical repeater can reduce the installation cost since the optical transceiver can be processed per sector when connecting multiple remote optical repeaters.

In addition, the present invention improves the reception noise characteristics compared to the configuration of combining radio frequencies using a plurality of optical transceivers.

In addition, the present invention can be processed by a single optical cable using a three-wavelength division multiplexing method can reduce the rent of the optical fiber, and by using a DSP control amplifier can configure the remote optical repeater in units of macro and micro cells .

Claims (3)

A base station apparatus for performing communication by optical relay; An optical signal conversion device for converting a transmission / reception signal of the base station apparatus into an optical signal through one optical transceiver, an optical splitter and a combiner; An optical path for transmitting the optical signal converted through the optical signal converter; And A plurality of signals that radiate a signal transmitted through the optical path to an antenna through a DSP control amplifier or waveforms the relay signal received through the antenna and adjusts a reception level and then retransmits the signal to the base station through the optical signal converter. A three-wavelength division multiplexing base station remote optical relay device, characterized in that composed of a remote relay device. 2. The apparatus of claim 1, wherein the remote repeater comprises: a duplexer for switching a relay signal to be received from an antenna and a transmission signal of a base station device; a low noise amplifier for lowering the noise of the relay signal and amplifying the relay signal at a high frequency; A notch filter for removing, a reception level regulator for controlling a reception level of the high frequency frequency band removed, an optical transceiver for photoelectrically converting the optical signal transmitted from the level-adjusted frequency signal or the optical path, and the photoelectrically converted frequency signal And a plurality of remote repeaters comprising a transmission level regulator for controlling a transmission level for adjusting a signal level of the signal and a DSP control amplifier for amplifying and outputting the level controlled frequency signal. Base station remote optical repeater. The optical signal converter of claim 1, further comprising: an optical combiner / divider for combining and distributing optical signals transmitted through optical paths between a plurality of remote repeaters and a base station apparatus, and an optical transceiver for photoelectrically converting the optical signals. And a transmit / receive level adjuster for adjusting the level of the transmit / receive signal of the optical transceiver.