KR200193123Y1 - apparatus for monitoring of control board - Google Patents

Abstract

The present invention is to provide a device for accurately monitoring the CDMA analog power strength of the control board, a directional coupler sampling only a portion of the CDMA analog radio wave, and a detector for outputting the CDMA analog power detected by the directional coupler as RSSI voltage And a control board for converting and monitoring the RSSI voltage, wherein the control board is an integrating circuit for integrating the RSSI voltage and outputting the averaged value, and a continuous analog value output from the integrating circuit. It includes an ADC that converts RSSI voltages into discrete digital values, and a microprocessor that monitors the digital values converted by the ADCs to provide power control for proper operation of the entire CDMA system.

Description

Apparatus for monitoring of control board

The present invention relates to a CDMA system, and more particularly to an apparatus for accurately monitoring the CDMA analog power strength.

In general, in a mobile communication system using a code division multiple access (CDMA) method such as a cellular mobile communication system or a personal communication service, a plurality of mobile stations may be a base station or a cell-site. Sends and receives a frame composed of symbols representing digitized voice or other data.

Such transmission frames are affected by multipath fading, which is related to the characteristics of the transmission environment that reflects the transmission frame as the mobile station moves, and the high transmission power of a specific channel of a specific mobile station or base station. To the interference characteristics of the channels of other mobile stations or other base stations.

In addition, if the transmission power is too low, the data of the transmitted frame may not be recovered and data may be lost. Therefore, the base station or the mobile station may minimize the fading and interference through the multipath and may safely recover the transmitted data. Control frame transmission power.

1 is a view showing an apparatus for monitoring a CDMA analog power strength by a control board according to the prior art.

Referring to FIG. 1, in order to monitor the radio wave strength of the CDMA analog input and output to the base station, a directional coupler 10 sampling only a portion of the CDMA analog radio wave and the CDMA analog power detected by the directional coupler 10 are inputted with RSSI voltage. And a control board 30 for converting and monitoring the RSSI voltage output from the detector 20 into discrete digital values.

Referring to the operation of the monitor device according to the prior art configured as described above are as follows.

First, the CDMA analog signal that is amplified from the outside and transmitted to the end of the base station is transferred to the directional coupler 10.

The CDMA analog signal transmitted to the directional coupler 10 is separated and transmitted into a CDMA analog radio wave propagated by air from the base station and a sampled CDMA analog power.

In this case, the CDMA analog radio wave propagated or received by the base station is a signal for communication with the terminal.

The sampled CDMA analog power is sampled from the CDMA analog radio so that the control board monitors the strength of the CDMA analog.

The sampled CDMA analog power is converted into an RSSI voltage through a detector 20. The RSSI voltage is an analog signal representing the strength of the CDMA analog power.

6 illustrates an analog signal converted by the detector 20.

Referring to FIG. 6, the voltage on the Y axis changes rapidly with reference to an average value over time. If the instantaneous RSSI voltage value at any point T1 is used to monitor the power level on the control board, there may be a deviation between the monitored power level and the average power level at this moment T1. That is, in the case of FIG. 6, the power intensity monitored by the control board 30 may be much larger than the average power intensity.

As the CDMA analog propagation changes by up to 10dB over time, when the control board monitors, there can be a large difference between the instantaneous propagation intensity and the average propagation intensity. In such cases, propagation control at the base station may be poor, which puts a large load on the entire communication system.

In addition, the propagation intensity which is not average is unstable in time so that the propagation intensity at one moment T1 is different from the propagation intensity at the next moment T2. Therefore, they cannot be used for monitor applications without averaging time-varying CDMA analog radio waves.

Accordingly, an object of the present invention is to provide an apparatus for accurately monitoring the CDMA analog power strength, which has been devised to solve the above problems.

Features of the monitoring device of the control board according to the present invention for achieving the above object is a directional coupler for sampling only a portion of the CDMA analog radio wave, and a detector for outputting the CDMA analog power detected by the directional coupler as RSSI voltage And a control board for converting and monitoring the RSSI voltage, wherein the control board includes an integrating circuit for integrating an RSSI voltage and outputting the averaged value, and a continuous analog value output from the integrating circuit. And an ADC for converting the voltage into discrete digital values, and a microprocessor for monitoring the digital values converted by the ADC.

1 is a view showing an apparatus for monitoring a CDMA analog power strength by a control board according to the prior art;

2 is a diagram illustrating an apparatus for monitoring CDMA analog power by a control board according to the present invention;

3 is a view showing an integrated circuit according to the present invention

4 is a timing diagram showing a relationship between an input voltage Vi and an output voltage Vo of an integrated circuit according to the present invention.

5 is a flowchart illustrating an operation of allowing the control board according to the present invention to accurately read the CDMA analog power strength.

6 is a diagram illustrating an RSSI voltage and an average value according to the related art.

7 is a diagram illustrating an RSSI voltage and an average value according to the present invention.

8 is a diagram showing an integrated RSSI voltage and an average value according to the present invention.

9 illustrates RSSI voltages and average values converted to digital values according to the present invention.

* Explanation of symbols for main parts of the drawings

10: directional coupler 20: detector

30: control board 31: ADC

32: microprocessor 33: integrating circuit

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Referring to the accompanying drawings, a preferred embodiment of a monitoring device for a control board according to the present invention is as follows.

2 is a diagram illustrating an apparatus for monitoring CDMA analog power by a control board according to the present invention.

Referring to FIG. 2, in order to monitor the propagation strength of the CDMA analog input and output to the base station, a directional coupler 10 sampling only a portion of the CDMA analog radio wave and the CDMA analog power detected by the directional coupler 10 are inputted with RSSI voltage. And a control board 30 for converting and monitoring the RSSI voltage output from the detector 20.

In this case, the control board 30 integrates the integrated circuit 33 outputting the average value by integrating the output value of the detector 20 and the discrete digital value of RSSI voltage which is a continuous analog value output from the integration circuit 33. ADC 31 for converting the value and the microprocessor 32 for monitoring the digital value converted by the ADC (31).

In this case, the integrating circuit 33 includes an OP amplifier having an arithmetic function in a negative feedback method as shown in FIG. 3, a first resistor unit R1 connected in series with a power supply unit Vi and a first input terminal of the OP amplifier, It is composed of a capacitor (C) and a second resistor (R2) connected to the first input terminal and the output terminal of the OP amplifier after being connected in parallel with each other.

Therefore, an integral circuit 33 is added between the output terminal of the detector 20 and the ADC 31 in the control board 30 so that the RSSI voltage value, which is the output of the detector 20 and the input of the ADC 31, can be converted into hardware. Can have an average effect.

The relationship between the input voltage Vi and the output voltage Vo of the integrating circuit 33 configured as described above is shown in FIG. 4.

That is, in FIG. 3, the voltage gain Gv (jw) is expressed by Equation 1 below.

Here, C × R 2 is called the integral time constant.

The relationship between the integral time constant CR2 and the 3-dB cutoff frequency f and the period T is expressed by Equations 2 and 3 below.

At this time = 3.14 ....

Equations 2 and 3 can obtain an average value for a long time as shown in FIG. 4 by increasing the integral time constant CR2.

At this time, the integral time constant P of Vo2 is three times the time constant T of Vo1.

That is, since the integral time constant C × R2, which is the product of the capacitor and the resistance, is three times and is integrated for three times longer time (P), the deviation that is the difference between the average value (Vo2) and the actual value (Vi) during the time constant P is Very small as shown in FIG.

Referring to the accompanying drawings, the operation of the monitoring device of the control board according to the present invention configured as described in detail as follows.

First, the CDMA modulated CDMA analog signal, which is amplified and transmitted to the end of the base station, is delivered to a detector.

The CDMA analog signal transmitted to the detector is divided into CDMA analog radio waves that go out from the base station to air and sampled CDMA analog power.

At this time, the CDMA analog radio waves going to or from the base station are for communication with the terminal, and the sampled CDMA analog power is sampled from the CDMA analog radio waves so that the control board can monitor the CDMA analog radio wave strength.

The sampled CDMA analog power is converted into an RSSI voltage through a detector, which is an analog signal representing the CDMA analog power strength.

At this time, the voltage of the Y-axis changes rapidly with reference to the average value as shown in FIG.

If the instantaneous RSSI voltage value at any point (T1) is used to monitor the power level on the control board through an analog-to-digital converter (ADC), the deviation between the CDMA power level and the average power level read at this moment (T1) Can occur.

For example, when the RSSI voltage is as shown in FIG. 7, the power intensity read from the control board may be much larger than the average power intensity.

In order to solve this problem, integrating an integrated circuit as shown in Figure 3 between the detector output stage and the ADC of the control board in hardware, the analog RSSI voltage value is integrated as shown in Figure 4 and transferred to the ADC.

In this case, the integral value and the average value over a very long time (integral time constant) become the same as the integral time constant is larger.

The integrated RSSI voltage (the RSSI voltage through the integrating circuit) for a long time is transferred to the control board through an ADC that converts the analog signal into a digital signal, so that the processor reads the RSSI value converted into a digital value to obtain the CDMA analog power strength. Will be monitored.

However, this method is different from the average value (accurate CDMA analog power strength) as shown in FIG. 8 due to the limitation of the integral time constant (not infinitely large).

Therefore, the same value as the average value (accurate CDMA analog power strength) can be obtained through a software process as shown in FIG. 5.

5 is a flowchart illustrating an operation of allowing the control board according to the present invention to accurately read the CDMA analog power strength.

Referring to FIG. 5, the control board divides N times at regular intervals during a polling time, which is a period for monitoring CDMA analog power strength (S1).

And the control board reads the divided CDMA analog power strength (S2).

The read CDMA analog power strength is stored in the sample [i] (S30).

After the average of the stored CDMA analog power strength, the value is determined as the CDMA analog power strength to obtain the same value as the average value (accurate CDMA analog power) (S5).

The hardware-averaged RSSI voltage (analog voltage) is transferred to the control board through a converter that converts analog signals into digital signals so that the processor reads the values to obtain software average power, which is then converted into CDMA analog power. Determined by strength

The polling time and the number of reads N are determined by the system environment.

The monitoring device of the control board according to the present invention as described above can exhibit the average effect of the RSSI voltage value in a simple hardware configuration, the RSSI voltage (analog voltage) averaged in hardware is a processor in the control board through the ADC Obtains the software average power and determines the value as the CDMA analog power strength. This allows power control for the correct operation of the entire CDMA system.

From the above description, those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (2)

A monitoring device comprising a directional coupler for sampling only a portion of a CDMA analog radio wave, a detector for outputting CDMA analog power detected by the directional coupler as an RSSI voltage, and a control board for converting and monitoring the RSSI voltage. The control board includes an integrating circuit for outputting the average value by integrating the RSSI voltage; An ADC for converting the RSSI voltage, which is a continuous analog value output from the integrating circuit, into a discrete digital value; And a microprocessor for monitoring the digital value converted by the ADC. The method of claim 1, wherein the integrating circuit OP amplifier letting you have arithmetic function by way of negative feedback, A first resistor connected in series to the external power supply and the first input terminal of the OP amplifier, And a capacitor and a second resistor connected to the first input terminal and the output terminal of the OP amplifier after being connected in parallel with each other.