KR200192752Y1 - Gain control circuit having stabilizing device and connecter apparatus of board having gain control circuit - Google Patents

Abstract

The present invention relates to a gain control circuit, and in particular, a connector structure of a board having a gain control circuit and a gain control circuit having a stabilizing element adapted for initial stabilization of a gain control circuit for a base station of a board of a wireless base station of a mobile communication system. It is about. The gain control circuit having such a stabilizing element includes a charging device connected in series with a first power supply voltage terminal and a first power supply voltage terminal after the charging device is charged with the first power supply voltage between the first power supply voltage terminal and the charging device. The chip select signal is applied to the write port unit for receiving the first power supply voltage and outputting gain-related data and the first power supply voltage supplied from the first power supply terminal after the charging device is charged with the first power supply voltage. An output decoder and a second output voltage supplied through the second power supply voltage terminal when the first power supply voltage is charged to the charging device, and the transmission output related analog according to the output value of the write port unit and the address decoder. The digital / analog converter outputs data and the analog data output from the digital / analog converter. To the level converting the output levels to the base station it is composed of a high-power amplifier for outputting to the antenna.

Description

Gain control circuit with stabilizing element and connector structure of board with gain control circuit {Gain control circuit having stabilizing device and connecter apparatus of board having gain control circuit}

The present invention relates to the initial stabilization of the gain control circuit, in particular a gain control circuit having a stabilizing element suitable for the initial stabilization of the gain control circuit for the base station of the boards for the mobile communication base station and a connector of the board having the gain control circuit It's about structure.

The mobile communication system is composed of a mobile station, a base station, a base station controller, and a mobile switching center. Among them, a mobile station is a mobile terminal such as a digital cellular network (DCN) and a personal communication service (PCS). The base station changes the signal format between the mobile terminal and the base station controller to be suitable for the wireless link and the wired link. The base station controller serves as a means of access between the cell operator and the function of each element of the base station. It performs service functions such as hardware and software service status management, resource allocation and configuration of call traffic, information collection of base station operation, base station operation, monitoring and fixed sub-devices. The mobile switching center then configures access points for user traffic between the base station controller management and the mobile communications network and the mobile switching center of the general telephone network or the same mobile communication system.

Hereinafter, a gain control circuit for a base station of a conventional mobile communication system will be described with reference to the accompanying drawings.

1 is a block diagram of a gain control circuit for a base station of a conventional mobile communication system.

A gain control circuit for a base station of a conventional mobile communication system is a general-purpose standard integrated circuit that operates by receiving a power supply voltage (Vcc), which is composed of flip flops (DF / F), and transmits gain-related data transmitted from an upper processor. A write port unit 1 for outputting (DATA) and a general-purpose programmable logic circuit that also operates by being supplied with a power supply voltage, and includes a digital / analog (D / A) converter (3) related to a transmission output. Address decoder 2 for outputting a chip select signal (CS Signal) for selecting a signal, and operates by applying a voltage of ± 12v to a power source, and the chip select signal (CS Signal) of the address decoder 2 D / A converter 3 for converting the transmission output level related data according to the data of the light port unit 1 into analog and outputting the analog gain level value output from the D / A converter 3 According to snow A is the HPA (High Power Amplifier) (4) for amplifying the output level of the base station to the gain level, the configuration of a signal amplified by the high power amplifier 4 to the antenna 5 for transmitting in the air (Air).

FIG. 2 is a diagram showing the connector structure of the gain control circuit board for the base station shown in FIG.

The gain control circuit board connector for the conventional base station is ± 12v to the Vcc connector and the D / A converter 13 to supply the power supply voltage Vcc to the write port unit 1 and the address decoder 2 as shown in FIG. There is a connector for ± 12v, which has the same length (A). Therefore, when a power supply connector (VCC connector) or a ± 12v connector is mounted on the back board 6, the back board 6 is simultaneously fired. After such a power supply voltage connector and a ± 12v connector are mounted on the back board 6, the light port unit 1, the address decoder 2 and the D / A converter 3 are actually operated to operate the base station and the mobile station. It operates regardless of the inter-perspective problem and the interference problem between other cells.

3 is a timing diagram of the gain control circuit shown in FIG. 1.

Referring to the timing diagram shown in FIG. 3, Vcc is applied to the write port unit 1 and the address decoder 2, and ± 12v is also applied to the D / A converter 3 at the same time. This can be easily seen with reference to Fig. 2, because the power voltage connector and the ± 12v connector have the same length (A), especially when the edges are simultaneously contacted with the back board when mounted on the back board 6. At the same time it is high.

After the address decoder 2 and the write port unit 1 are turned on, the upper processor sends the data A (3 to 0) related to the chip select to the address decoder 2, thereby causing the chip to select the address decoder. Depending on the signal, one of several D / A converters 3 is selected.

Gain-related data DATA (7 to 0) are then transmitted to the write port unit 1 in the upper processor, and the write port unit 1 transmits the gain-related data to the selected D / A converter 3.

In the timing diagram of the gain control circuit shown in FIG. 3, reference should be made to the light port unit 1 described in FIG. 1 and the power supply voltage Vcc applied to the address decoder 2 at a time equal to ± 12v. rising).

In the gain control circuit for the base station of the conventional mobile communication system, different voltages, the power supply voltage Vcc and ± 12v, are simultaneously applied to the write port unit, the address decoder, and the D / A converter. Since the undesired output V value is output to the high power amplifier for a long time (until the system is set to the desired output), the amplification of the abnormal signal in the high power amplifier can cause the base station output failure problem.

An object of the present invention has been made in view of the above-mentioned problems of the prior art, and has a gain control circuit and a gain control circuit having a stabilizing element capable of stabilizing the output of a gain control circuit for a base station of a mobile communication system. To provide a connector structure for one board.

According to one feature of the present invention for achieving the above object, the charging device is connected between the first power supply voltage terminal and the first power supply voltage terminal and the charging device by the first power supply voltage After being charged, the charging element is charged by the first power voltage through a light port unit receiving a first power voltage supplied from the first power voltage terminal and outputting gain related data, and a same line as the light port unit. An address decoder configured to receive a first power supply voltage supplied from the first power supply voltage terminal and to output a chip select signal, and to be supplied through a second power supply voltage terminal when the charging device is charged with the first power supply voltage. A transmission output related analog is driven by a second power supply voltage and according to an output value of the write port unit and the address decoder. And a digital / analog converter for outputting the data, and a high power amplifier for converting the base station output level to a level set according to the analog data output from the digital / analog converter.

And according to another feature of the present invention for achieving the above object through a light port unit for receiving the first power supply voltage supplied from the first power supply voltage terminal to output the gain-related data, and through the same line as the light port unit An address decoder that receives the first power supply voltage and outputs a chip select signal, and receives a second power supply voltage through a second power supply voltage terminal, and transmits transmission-related analog data according to output values of the write port unit and the address decoder. A first power voltage terminal in a gain control circuit including a digital / analog converter for outputting and a high power amplifier for converting a base station output level to a level set according to analog data output from the digital / analog converter and outputting the signal to an antenna; Is composed of a first connector of a first length, and the second power voltage terminal It is composed of a second connector having a first connector which is different from the second length having a first length.

Preferably, when the first connector and the second connector are in contact with a back board supplying different power voltages to each of the first connector and the second connector, the second connector is first contacted with the back board. The length of the second connector is configured to be longer than the length of the first connector such that the first connector is in contact.

1 is a block diagram of a gain control circuit for a base station of a conventional mobile communication system

2 is a diagram showing the connector structure of the gain control circuit board for the base station shown in FIG.

3 is a timing diagram of the gain control circuit shown in FIG.

4 is a view showing a gain control circuit having a stabilizing element according to a first embodiment of the present invention;

5 is a view showing a connector structure of a base station board having a gain control circuit according to a second embodiment of the present invention;

FIG. 6 is a timing diagram of a gain control circuit having the stabilization device shown in FIGS. 4 and 5.

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

11 light port unit 12 address decoder

13: D / A Converter 14: High Power Amplifier

15 antenna 16: back board

Hereinafter, with reference to the accompanying drawings, the configuration and operation according to an embodiment of the present invention will be described.

4 is a diagram illustrating a gain control circuit having a stabilizing device according to a first embodiment of the present invention.

The gain control circuit including the stabilization device according to the first embodiment of the present invention includes a charging device C connected in series with a first power supply voltage Vcc terminal, and a first power supply voltage output after charging the charging device C. A light port unit 11 for receiving the first power supply voltage Vcc output between Vcc and the charging element C and outputting gain-related data, and the same line as the light port unit 11 The address decoder 12 outputs the chip select signal CD signal by receiving the first power supply voltage Vcc through the second power supply voltage, and the second power supply voltage ± 12v through the second power supply voltage ± 12v terminal. A digital / analog converter 13 for receiving and outputting analog data related to the transmission output according to the output values DATA (7 to 0) of the write port unit 11 and the address decoder 12, and the digital / analog conversion Known level is set according to the analog data output from section 13 Converting an output level by a high-power amplifier consists of a unit 14 for output to the antenna 15.

In the first embodiment of the present invention having such a configuration, in order to solve the problem of the connector of the gain control circuit board for the base station as shown in FIG. 2, the power supply voltage Vcc is applied to the write port 11 and the address decoder 12. ) And when the D / A converter 13 is supplied with ± 12v of power at the same time, a capacitor is used as a charging element, and the power is supplied to the capacitor C so that the capacitor C is fully charged and then the light port part Power is supplied to 11 and the address decoder 12.

Here, the capacitor C uses a capacitor C having a capacity of 2000 mV or more when the power supply voltage Vcc is 5v.

5 is a view showing a connector structure of a base station board having a gain control circuit according to a second embodiment of the present invention.

The connectors of the gain control circuit according to the second embodiment of the present invention have different lengths.

That is, the Vcc connector, which is a power supply voltage connector for supplying the power supply voltage Vcc to the write port 11 and the address decoder 12, has a length of B, and ± 12v is applied to the D / A converter 13. The supplied ± 12v connector has a length of A. Here, as shown in FIG. 5, the length of A is longer than the length of B. FIG. At this time, when 16 is the backplane and the Vcc connector and the ± 12v connector contact the backplane 16, the power supply voltage Vcc is supplied to the write port 11 and the address decoder 12 through the connector. 12v is supplied to the D / A converter 13.

Therefore, when the ± 12v connector and the Vcc connector having different lengths A and B are in contact with the backplane 16, the edges of the ± 12v connector are first contacted with the backplane 16. Power is first supplied to the D / A converter 13, and then power is supplied to the write port section 11 and the address decoder 12 when the Vcc connector contacts. For reference, the difference in length between the Vcc connector and the ± 12v connector should be 2 mm or more.

The connector structure of the base station board having the gain control circuit according to the second embodiment of the present invention as shown in FIG. 4 is the connector structure of the base station board having the gain control circuit according to the first embodiment of the present invention as shown in FIG. Even when applied to the connector structure of the base station board having the gain control circuit of FIG. 1 described in the related art, the initial stabilization effect of the gain control circuit can be obtained by the difference in the length of the Vcc connector and the ± 12v connector. As such, the difference in length between the capacitor of FIG. 4 and the connector of FIG. 5 may be used for initial stabilization, or may be simultaneously used, but when applied simultaneously, problems caused in the prior art may be more surely eliminated.

6 is a timing diagram of the gain control circuit shown in FIGS. 4 and 5.

Referring to the timing diagram illustrated in FIG. 6, when the Vcc is applied to the write port 11 and the address decoder 12, and ± 12v is also applied to the D / A converter 13, the D / A converter ( It can be seen that ± 12v, which is the power supply voltage of 13, becomes high first, and then Vcc, which is the power supply voltage of the write port unit 11 and the address decoder 12, becomes high.

After the address decoder 12 and the write port unit 11 are turned on, the upper processor sends the data A (3 to 0) related to the chip select to the address decoder 12, thereby causing the chip to select the address decoder. One of several D / A converters 13 is selected according to the signal.

Then, gain related data DATA (7 to 0) are transmitted from the upper processor to the write port unit 11, and the write port unit 11 transmits the gain related data to the selected D / A converter 13.

In the connector structure of the gain control circuit having the stabilization element and the board including the gain control circuit of the present invention as described above, the power supply voltage Vcc and ± 12v, which are different voltages, include the write port unit, the address decoder, and the D. Since it is not applied at the same time when applied to the / A converter, the stable operation of the initialization state is guaranteed in the gain control circuit including the D / A converter, thereby increasing the reliability of the base station output terminal.

Claims (3)

A charging device connected in series with the first power voltage terminal; A light port unit receiving the first power voltage supplied from the first power voltage terminal after the charging device is charged by the first power voltage between the first power voltage terminal and the charging device to output gain-related data. Wow, An address decoder configured to output a chip select signal by receiving a first power supply voltage supplied from the first power supply voltage terminal after the charging device is charged with the first power supply voltage through the same line as the light port unit; When the charging device is charged by the first power supply voltage, the charging device is driven by a second power supply voltage supplied through a second power supply voltage terminal, and outputs transmission output related analog data according to output values of the write port unit and the address decoder. With digital / analog converter to do, And a stabilizing element comprising a high power amplifier configured to convert a base station output level to a level set according to analog data output from the digital / analog converter and output the same to an antenna. A light port unit receiving a first power supply voltage supplied from a first power supply voltage terminal and outputting gain-related data; and an address receiving the first power supply voltage through the same line as the light port unit and outputting a chip select signal A digital / analog converter configured to receive a second power supply voltage through a decoder, a second power supply voltage terminal, and output analog data related to transmission output according to output values of the write port unit and the address decoder, and the digital / analog converter In the gain control circuit consisting of a high power amplifier for converting the base station output level to the set level according to the analog data output from The first power supply voltage terminal is configured as a first connector having a first length, and the second power supply voltage terminal is configured as a second connector having a second length different from the first connector having the first length. Board structure with a gain control circuit. 2. The connector of claim 1, wherein the first connector and the second connector are first contacted with the backboard when the first connector and the second connector are in contact with a backboard supplying different power voltages to each of the first connector and the second connector. And the length of the second connector is configured to be longer than the length of the first connector such that the first connector is contacted after being contacted.