KR19980025924A - High Frequency Delay for Code Division Multiple Access (CDMA) Digital Cellular Mobile Communications - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

High Frequency Delay Device for CDMA Digital Cellular Mobile Communication

2. The technical problem to be solved by the invention

In the conventional CDMA digital cellular system, it is intended to solve the problem of deterioration of call quality and increase of installation space and installation cost due to the use of multiple antennas in implementing a space diversity time delay method using two antennas.

3. Summary of Solution to Invention

Distribution means for separating the high frequency received from the antenna into two high frequencies; High frequency delay means for delaying and outputting the high frequency separated by the distribution means by a predetermined time; Amplifying means for amplifying and outputting a high frequency delayed by the high frequency delay means to a predetermined level; And a frequency mixing means for mixing the high frequency amplified by the amplifying means and the high frequency separated by the distribution means to output the received high frequency.

4. Important uses of the invention

It is applied to relay data communication between base station and terminal in CDMA digital cellular mobile communication system.

Description

High Frequency Delay for Code Division Multiple Access (CDMA) Digital Cellular Mobile Communications

In general, in a cellular mobile communication system, a unique telephone number and a producer code (Electronic Serial Number) are assigned to each mobile terminal to make a call with a myriad of terminals based on these unique numbers.

The cellular mobile communication system includes a base station called a cell site, a terminal for communicating with another mobile communication terminal through the base station, and a repeater interposed between the base station and the terminal to perform a relay role. Will be done.

The repeater has a delay function to put a time difference between paths by changing a signal transmission path to improve call quality when processing a signal. In a general device, a delay function is not implemented in a device but is externally implemented. Spatial diversity method using the antenna of to form two paths to delay the time and to combine the signals of the two paths.

Looking at the configuration and operation of such a conventional repeater, although not shown in the drawings as follows.

First, a path for receiving a signal from a base station and transmitting the signal to a terminal includes: a receiving antenna for receiving a signal transmitted from the base station, a splitter for transmitting a signal to two antennas, and a band for limiting a band of a transmission signal It consists of a pass filter, a delay element for giving a constant time delay to two antennas, an amplifier, two antennas for transmitting a signal to a terminal, and a switch forming a path of a signal to be transmitted. Received and transmitted is divided by the distributor into signals of two paths. One of the divided signals is transmitted to the terminal through one of the two antennas through a band pass filter, and the other distributed signal is space diversity time through the delay element and the amplifier. As such, a predetermined time delay is transmitted to the terminal through the other one of the two antennas.

Next, a path for receiving a signal from a terminal and transmitting the signal to a base station includes two receiving antennas for receiving a signal transmitted from the terminal, a switch forming a path of the received signal, and a limit for a frequency band of the transmitted signal. It consists of a bandpass filter, a delay element for matching the time delay of the signals received from the two antennas, an amplifier, and a combiner for combining the signals received from the two antennas. Received through the signal, the received signal is routed to each of the signals transmitted by the transmission and reception switch, one of the signals is unnecessary signal is eliminated by the band pass filter for limiting the frequency band, the other signal Delay element and amplification for matching time delay of signals received from two antennas A predetermined time after the delay is made, and the operations after the delayed signal and non-delayed signal by a combiner coupled via a transmission antenna to the base station.

However, such a conventional cellular system performs a delay operation using two different antennas, thereby increasing the space and installation cost for installing two antennas.

In addition, there is a problem that it is difficult to implement accurate time delay because it is composed of two independent paths instead of being modularized in one circuit.

Accordingly, the present invention has been proposed to solve various problems of the conventional digital cellular mobile communication system as described above, and an object of the present invention is to implement a call quality by implementing a space diversity method used in a cellular system as one module. To provide a high frequency delay device for a cellular division multiple access (CDMA) cellular mobile communication, which is designed to reduce the size of the system as a whole.

Technical means for achieving the object of the present invention comprises: distribution means for separating the high frequency received from the antenna into two high frequencies; High frequency delay means for delaying and outputting the high frequency separated by the distribution means by a predetermined time; Amplifying means for amplifying and outputting a high frequency delayed by the high frequency delay means to a predetermined level; And a high frequency amplifying means for mixing the high frequency amplified by the amplifying means and the high frequency separated by the distributing means to output the received high frequency.

Hereinafter, described in detail with reference to the accompanying drawings of the present invention.

1 is a block diagram of a high frequency delay device for a code division multiple access (CDMA) digital cellular mobile communication according to the present invention;

FIG. 2 is a detailed circuit diagram of each part of FIG. 1. FIG.

* Description of the symbols for the main parts of the drawings *

10: splitter 20: high frequency delay

30 amplifier 40 frequency mixer

1 is a block diagram of a high frequency delay device for a code division multiple access (CDMA) digital cellular mobile communication according to the present invention.

As shown, a divider 10 for separating the high frequency received from the antenna into two high frequencies; A high frequency delay unit 20 for delaying and outputting the high frequency separated by the distributor 10 by a predetermined time; An amplifier (30) for amplifying and outputting the high frequency delayed by the high frequency delay (20) to a predetermined level; The high frequency amplified by the amplifier 30 and the high frequency separated by the splitter 10 is composed of a frequency mixer 40 for outputting the received high frequency.

Referring to Figure 2 attached to the operation of the high frequency delay apparatus according to the present invention configured as described above is as follows.

First, when a CDMA cellular high frequency (RF) signal is received through an antenna and then delivered to the divider 10, the divider 10 divides it into two high frequency signals and one of the high frequency signals to the high frequency mixer 40. And another high frequency signal to the high frequency delay unit 20.

At this time, the separated high-frequency transmitted to the high-frequency delay unit 20 is the DC component is removed by the coupling capacitor (C1), the time required in the high-frequency delay unit 20 (formerly two ways to form the spatial diversity method Delay time), and then is delivered to the amplifier 30.

Then, the amplifier 30 removes the DC component once again by the coupling capacitor C2 and amplifies the high frequency signal firstly input from the first amplifier 31 which is the primary amplifier to a predetermined level.

Thereafter, the DC component included in the high frequency amplified by the coupling capacitor C3 is removed, and the high frequency input to the second amplifier 32 which is the secondary amplifier is finally amplified.

The amplified high frequency is transmitted to the high frequency mixer 40 after the DC component is once again removed from the coupling capacitor C4.

Accordingly, the high frequency mixer 40 performs a relay by mixing the separated high frequency obtained from the distributor 10 and the high frequency delayed by the amplifier 30 and outputting the signal to the rear end of the received high frequency signal RF.

This not only improves the call quality but also simplifies the system configuration and improves the reliability of the device by easily implementing the signal delay previously implemented using two antennas by one antenna and an added delay module. Will be.

On the other hand, when the delay module is mounted at a predetermined position of the repeater, the high frequency delay unit 20 and the amplifier 30 should be supplied with power, and this power supply configuration is shown in FIG.

That is, the DC 24V input through the power input terminal is filtered by the filter F1 to remove line noise, and at the same time, make a desired DC level, and smooth the DC thus made through the capacitors C8 and C7, and then Minimize the AC component with R1) (R2), capacitor C5 and inductor L2 and convert it to the required voltage to supply between the first amplifier 31 and coupling capacitor C3, and the capacitor C7 ) To minimize the AC component to the resistor (R3), capacitor (C6) and inductor (L1) and to convert the voltage to the required voltage to be supplied between the second amplifier 32 and the coupling capacitor (C4). will be.

As described above, the present invention divides a high frequency input into one delay module into two signals, and transmits a high time signal in one path by combining a non-delayed signal by delaying one high frequency signal for a predetermined time. It is possible to transmit the high frequency signal, which can reduce the number of antennas required as in the past. By implementing the delay module on a single board, it is possible to simplify the overall system configuration and improve the reliability of circuit operation. There is.

The present invention relates to a high frequency delay for a CDMA cellular mobile communication. In particular, the present invention improves call quality by implementing a spatial diversity method used in a cellular system as one module, and at the same time, the size of the overall system. The present invention relates to a code division multiple access (CDMA) cellular high frequency delay device for reducing the number of times.

Claims (1)

Distribution means (10) for separating the high frequency received from the antenna into two high frequencies; High frequency delay means for delaying and outputting the high frequency separated by the distributor 10 by a predetermined time; Amplifying means (30) for amplifying and outputting the high frequency delayed by the high frequency delay means (20) to a predetermined level; Code division multiple access (CDMA) comprising a frequency mixing means 40 for mixing the high frequency amplified by the amplifying means 30 and the high frequency separated by the distribution means 10 and outputting the received high frequency. High frequency delay device for digital cellular mobile communication.