KR200406676Y1 - Apparatus for relay control and monitoring - Google Patents

Abstract

The repeater control and monitoring device is to include the MCU function in the CDMA modem to monitor the control and operation status of the repeater. The present invention mounts MCU board equipped with CDMA modem in DC-DC converter position, forms a PLL for the forward and reverse paths with one local oscillator in the repeater configuration circuit, and ALC for the forward and reverse paths. An attenuator is added to the donor antenna, and a directional coupler for RF signal connection with the CDMA modem is connected to the donor antenna side. CDMA modem with MCU function is RS-232C communication with GUI such as notebook PC and monitors repeater control and operation by wireless communication with remote base station. Therefore, the present invention can reduce the number of components and occupied space of the repeater to reduce the cost and miniaturization, and can provide the effect of improving the reliability by managing the remote monitoring and fault history.

Repeater, CDMA Modem, Surveillance

Description

Repeater control and monitoring device {Apparatus for relay control and monitoring}

1 is a block diagram showing a repeater system to which the present invention is applied,

2 is a view showing the mounting position of the MCU board,

3 is a block diagram showing an MCU board,

4 shows a PLL forming portion of a repeater configuration circuit.

<Description of the symbols for the main parts of the drawings>

10: AC / DC adapter 20: MCU board

21: CDMA Modem 30: GUI

40: repeater 41A, 41B: ALC attenuator

42: local oscillator (LO OSC) 43: branch point

50: Directional Coupler

The present invention relates to a wireless repeater for mobile communication, and in particular, the repeater is miniaturized by installing a CDMA modem having a main control unit (MCU) function at a DC-DC converter position without separately configuring a control circuit. The present invention relates to a repeater control and monitoring device that enables repeater control and operation status monitoring by GUI and RS-232C communication and wireless communication with a remote base station.

With the development of mobile communication, users' use forms and demands are also diversified, and they want to communicate without being restricted by time and space. By the way, the radio wave emitted from the base station is difficult to reach the inside of a large building, or behind a mountain or hill, a tunnel or a subway, and thus becomes a poor area.

There is a shaded area due to the location of the base station or the terrain. In order to eliminate such shaded areas, additional base stations or additional repeaters are used to design wireless networks. In terms of performance, the base station is much better than the repeater. However, in terms of cost, the base station is more expensive than the repeater, so the wireless network design and service provider generally solves the problem of eliminating the shadow area with the repeater.

A repeater is a device that amplifies a signal so that a signal of a base station can reach a radio wave blocking area or a shaded area that is difficult to reach, and serves a shadow area, and a device that connects a signal of a shadow area terminal to a base station. it means. The repeater separates the transmission signal received from the donor antenna toward the base station from the mobile uplink signal using the duplexer, inputs it to the power amplifier through the LNA and mixer, amplifies it to a predetermined level, and then moves the mobile station through another duplexer. The radiator is radiated to the mobile communication device of the subscriber, and the signal received from the mobile communication device of the mobile station and received through the server antenna is also input to the power amplifier through the duplexer, the LNA, and the mixer, and amplified to a predetermined level. It is configured to radiate to the base station through.

As such, the repeater must not only be kept in an optimal state because the transmission of mobile communication signals is very important, but also must be quickly restored in the event of a failure. To this end, the state of the repeater must be transmitted to the base station so that the base station can observe the fault condition.

In addition, the existing mobile communication repeater is very large in size, not only to produce a lot of production cost of the product, but also to use a lot of cases and parts, resulting in economic loss, and the weight and bulky Installation was very difficult, of course, there was a problem that takes up a lot of installation space.

Therefore, the object of the present invention was devised in view of the above-mentioned points, and the MCU board including the CDMA modem is mounted at the DC-DC converter position without configuring the control circuit separately in the repeater, thereby minimizing the repeater and the GUI or the like. The present invention provides a repeater control and monitoring device that facilitates repeater control and operation state monitoring through communication with a base station.

The repeater control and monitoring device of the present invention for achieving the above object, in the device for controlling and monitoring the wireless repeater for mobile communication, is mounted in the DC-DC converter position of the repeater, the CDMA modem is mounted to the remote MCU board for controlling and monitoring the repeater by communication with a base station and transmitting the result to the base station, and a directional coupler inserted into the donor antenna side of the repeater for signal connection with the CDMA modem. .

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 shows a configuration diagram of a repeater system to which the present invention is applied. The repeater system shown in FIG. 1 is connected to an AC / DC adapter 10 for converting AC 220V into DC 6V and an AC / DC adapter 10 at the rear, and has a MCU function for repeater control and monitoring. MCU 30 including a CDMA modem 21 provided therein, and a GUI 30 such as a notebook PC for transmitting and receiving repeater control signals and operation status monitoring results through RS-232C communication with the MCU board 20 side. ). The repeater 40 is configured to include a general wireless repeater circuit as it is. Only ALC attenuators 41A and 41B with an attenuator added to an automatic level control (ALC) on the forward / reverse path, and forward / reverse paths to secure space for the attenuator to be added to the ALC. Instead of the two local oscillators corresponding to each, one local oscillator 42 is used to distribute the oscillation frequency through the branch point 43. On the other hand, the repeater of Figure 1 is a directional coupler 50 for transmitting and receiving the repeater 40 control signal and operation status monitoring results by connecting the RF signal between the remote base station and the MCU board 20 side to the donor antenna side Is inserted. Repeater control and monitoring operations of the repeater system of FIG. 1 having such a configuration will be described in detail with reference to FIGS. 2 to 4.

Since the operation principle of the repeater components of the repeater system of FIG. 1 is the same as the conventional one, only the modified parts will be described herein.

First, when commercial power AC 220V flows in, the adapter 10 converts AC 220V into DC 6V and supplies it. Here, the reason for using the 6V adapter 10 is to secure the mounting position of the CDMA modem 21. That is, as shown in (a) of FIG. 2, the existing repeater system needed a DC-DC converter to transform the voltage using a 9V adapter again. However, in this embodiment, it is not necessary to transform the DC voltage using the 6V adapter 10 so that the DC-DC converter can be deleted. Instead of deleting the DC-DC converter, as shown in (b) of FIG. 2, the MCU board 20 including the CDMA modem 21 is mounted at the position to reduce cost and improve reliability.

The MCU board 20 mounted at the DC-DC converter position is configured as shown in FIG. The MCU board 20 shown in FIG. 3 converts the DC 6V supplied from the AC / DC adapter 10 through the DC / DC converter 23 into power required for the operation of the CDMA modem 21. In this embodiment, DC 6V is converted to 3.5V. The CDMA modem 21 communicates with a remote base station (not shown) through the directional coupler 50 inserted into the donor antenna to transmit and receive an RF signal for controlling the repeater 40 and monitoring the operation state. In the proximal position of the repeater 40, the repeater 40 is controlled by RS-232C communication with the GUI 30 such as a notebook PC, and the operating state is received and monitored. That is, through mutual communication with the GUI 30 and the remote base station (not shown), the CDMA modem 21 performs the MCU function of controlling the repeater 40 configuration circuit, and thus the call quality and the repeater 40 operating state. Check and watch.

MCU functions include forward / reverse manual control (forward / reverse attenuation), forward / reverse output control (forward / reverse amp off), forward / reverse system gain, forward / reverse alc control (Based on Forward / Reverse ALC Ref Level), Local / Reverse Output Value Display (Output Power), PLL Status (Lock / Unlock), Local Monitoring and Control Function, Forward Over / Low Output Alarm, Power Supply Alarm Alarm Functions such as PLL Fault Alarm, Shutdown Alarm, Forward / Reverse RF Power On / Off, Forward / Reverse Gain Control, ALC Control / Off), Shutdown On / Off, ALC Attenuation Initial Value and Window Size Control, Alarm Threshold Adjustment (Over / Low Power Level, ALC Reference Level and Window Size, Shutdown Level and Count, Shutdown On / Off) Off time), alarm reset control function, alarm threshold value control and status monitoring function. In addition, RX Power, TX Power, TX ADJ, FER, Ec / Io, pilot strength, pilot PN monitoring and call trace statistics (call count, success count, failure count statistics) are monitored.

The CDMA modem 21 is capable of transmitting and receiving mutual signals via a buffer 24 which acts as a buffer between the RS-232C or the repeater 40 configuration circuit. That is, the buffer 24 temporarily buffers the control value and the monitoring state transmitted and received between the components on the forward / reverse path of the CDMA modem 21 and the repeater 40. In addition, the buffer 24 is transmitted to the CDMA modem 21 when the command according to the GUI 30 operation of the repeater 40 manager is input through the RS-232C, and the repeater 40 of the repeater 40 is transferred from the CDMA modem 21. The state is passed to the GUI 30.

The switches SW1 and SW2 are connected to DC 6V and 3.5V paths of the MCU board 20, respectively. The switch SW1 is in the "ON / OFF" state under the control of the CDMA modem 21, and the switch SW2 is the "ON / OFF" under the control of the CPU 22. OFF) "state. When the CDMA modem 21 monitors an abnormal state such as a failure of the repeater 40, the CDMA modem 21 controls the switch SW1 to reset the power of the repeater 40 side to prevent malfunction of the repeater 40. That is, the switch SW1 is used for the repeater 40 reset. The CDMA modem 21 applies a watchdog signal in the form of a square wave at a specific time to the CPU 22 to cause the CPU 22 to monitor abnormal operation of the CDMA modem 21. The CPU 22 checks the watchdog signal applied from the CDMA modem 21, and when the abnormal operation of the CDMA modem 21 is monitored, turns on / off the state of the switch SW2. The power supply on the (21) side is reset to prevent malfunction of the CDMA modem 21.

On the other hand, Figure 4 is a configuration to form a PLL of the repeater 40, (a) and (b) shows the configuration of the existing and the subject innovation, respectively.

Referring to FIG. 4A, two local oscillators (LO OSCs) oscillating at frequencies of 1705 MHz and 1935 MHz are used for the relay forward (FWD) and reverse (RVS) paths, respectively. However, in the embodiment of the present invention, one local oscillator (LO OSC) oscillating at a frequency of 1705 MHz as shown in FIG. 4B for the forward (FWD) and reverse (RVS) paths of the repeater 40. (42) is used to form the PLL. As such, since the number of local oscillators constituting the PLL of the repeater 40 is reduced, cost reduction and space are secured. Space savings allow the addition of a 15 kHz attenuator to the ALCs 41A and 41B in the forward and reverse paths. ALC (41A, 41B) is to maintain a constant output even in the environment changes, traffic changes.

As described above, the repeater control and monitoring device of the present invention, by mounting the MCU board equipped with a CDMA modem in the DC-DC converter position to monitor and control the repeater operation state through communication with the GUI and the base station, It is possible to reduce the cost and secure the space by interlocking forward and reverse control with one local oscillator, so that the repeater can be manufactured in a very small size, and it is convenient to install and operate, and it also has the effect of managing the repeater monitoring and fault history in the remote base station. .

Claims (5)

An apparatus for controlling and monitoring a wireless repeater for mobile communication, A MCU board mounted at a position of the DC-DC converter of the repeater, and equipped with a CDMA modem to control and monitor the repeater by communication with a remote base station and to transmit a result to the base station; And And a directional coupler inserted into the donor antenna side of the repeater for signal connection with the CDMA modem. The method of claim 1, wherein the MCU board A DC / DC converter for converting the supplied power into a power required for CDMA modem operation; A plurality of switches for resetting the repeater and the CDMA modem, respectively; RS-232C for communicating with a GUI near the repeater; The RF signal is connected to the directional coupler to communicate with a remote base station, or to communicate with the GUI through the RS-232C to control and monitor the repeater, and to transmit the result. A CDMA modem for resetting the repeater; And And a CPU for controlling the switch state to reset the CDMA modem when the abnormal operation is monitored by monitoring the CDMA modem operation state. The method of claim 2, wherein the plurality of switches A switch coupled to the repeater side power path, the switch being in an " ON / OFF " state under the control of the CDMA modem to reset the power of the repeater constituting circuit; And It is connected on the power path between the DC / DC converter and the CDMA modem, and is in the "ON / OFF (OFF) state under the control of the CPU, and consists of a switch for resetting the power of the CDMA modem Repeater control and monitoring equipment. 2. The repeater control and monitoring according to claim 1, wherein the PLL is composed of one local oscillator oscillating at a predetermined frequency and a branch point for branching the oscillation frequency of the local oscillator into the forward and reverse paths of the repeater. Device. 5. The repeater control and monitoring device of claim 4, further comprising an attenuator in an ALC configuration on the forward and reverse paths of the repeater.

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