KR0167168B1 - Voltage decision method for digital instrument - Google Patents

Abstract

The present invention relates to an input signal processing technology of digital relays or digital measuring devices used in switchgear. In the conventional measuring device, input of all channels in a rated voltage adjustment step for supplying a rated voltage signal to an analog / digital converter is performed. Since the variable resistor has to be manually adjusted until a predetermined voltage is output for the signal, there are defects such as increase in labor cost and manufacturing cost, and cost increase. To solve this problem, the present invention solves this problem through the power line of the switchboard. The output electrical signal is converted to a value near the rated voltage that can be processed by the adopted A / D converter, and then the voltage signal (V _R ), (V _S ), (V _S ) within a predetermined range using passive elements. _T ) and current signals (I _R ), (I _S ), (I _T ), and the effective and average values are taken for the digital signals of each A / D converted channel.

Description

How to determine the rated voltage of digital measuring instruments for water / distribution boards

1 is a block diagram of a typical digital instrument for water / distribution boards.

2 is a block diagram of a digital meter for a switchboard, to which the rated voltage determination method of the present invention is applied.

3 is a signal flowchart of a method of determining a rated voltage of a central processing unit.

* Explanation of symbols for main parts of the drawings

11 power supply 12 load stage

13: switchboard CT / PT section 14: digital relay CT / PT section

15: converted voltage / current output unit 16: low pass filter

17: sample / holder 18: multiplexer

19: A / D converter 20: Central processing unit

21: memory for backup

The present invention relates to an input signal processing technology of digital relays or digital measuring devices used in switchgear, and in particular, is automatically adjusted by using a central processing unit in an automatic step of adjusting a rated voltage supplied to an analog / digital converter. The present invention relates to a method for determining the rated voltage of a digital meter for a water / distribution board.

Digital relays and digital measuring devices used in switchboards receive analog electrical signals from power lines using PT (Potential Transformer) or CT (Current Transformer). The converted analog signal is converted into a digital value in order to be processed by various digital elements in the measuring device.

The A / D converter adopted by using passive elements such as a resistor is processed until the analog type input signal is received from the secondary side of PT or CT and converted into digital value by using analog (A) / digital (D) converter. It should be adjusted to the rated voltage as possible, and various algorithms are executed with A / D converted digital value inside the device.

FIG. 1 is a block diagram of a general digital meter for water / distribution board.

The electrical signals output through the power lines R, S, T, and N of the male / distribution panel are connected to the transformers T _R1 , T _S1 , and T _T1 of the CT / PT section 3 of the male / distribution panel. To the transformers (T _R2 ), (T _S2 ), (T _T2 ), (T ₁ ), (T ₂ ), and (T ₃ ) of the CT / PT section 4 inside the device for processing within the device. It is reconverted to the signal level.

When the manufacture of the device is completed before normal operation of the digital relay or the instrument, the rated voltage adjustment step is performed to supply the rated voltage signal to the A / D converter 9 because the CT / PT part (4) Passive element (T _R2 ), (T _S2 ), (T _T2 ), (T ₁ ), (T ₂ ), and (T ₃ ) from the transformer until the signal is supplied to the A / D converter (9). Due to the inevitable error of resistance, etc., even though the same parts are used for the same design, the difference is slightly different from the rated voltage set in the design.

In order to overcome this error, all of the variable resistors VR1-VR6 of the rated voltage adjusting unit 5 were manually adjusted to have a predetermined rated voltage. That is, the voltage V1 is supplied to the primary sides of the transformers T _R2 , T _S2 , T _T2 , T ₁ , T ₂ , and T ₃ in the device, and the transformer According to the turns ratio of (T _R2 ), (T _S2 ), (T _T2 ), (T ₁ ), (T ₂ ), and (T ₃ ), the preset voltage V2 is output to the secondary side.

For example, in the case of adopting a transformer having a conversion ratio of 100V: 5V, V1 = 110V and V2 = 5V, and the variable resistors VR1-VR6 are adjusted again so that the voltage is the same level as the rated voltage.

Then, the signal of the rated voltage adjusted through the above adjustment process is supplied to the A / D converter 9 through the low pass filter 6 → sample / holder 7 → multiplexer 8 and converted into a digital signal. Again supplied to the central processing unit 10, to perform various algorithms based on the input data.

However, in such a conventional measuring apparatus, the variable resistor must be manually adjusted until a predetermined voltage is output for the input signals of all channels in the rated voltage adjusting step for supplying the rated voltage signal to the analog / digital converter. As a result, the man-hour and manufacturing costs are increased, and since it is manually operated using a human sensory organ, it lacks accuracy. Especially in the case of a digital measuring instrument, it may act as a source of error. If necessary, there was a problem to dismantle the device in normal operation.

Accordingly, an object of the present invention is to adjust the rated voltage supplied to an A / D converter for a device that performs an algorithm by converting an analog input signal into a digital signal such as a digital measuring instrument or a digital measuring instrument. The present invention provides a method for automatically determining a rated voltage using a processing apparatus.

In order to achieve the above object, the present invention provides a method for processing an input signal of a digital meter for a switchgear / distribution board, in which an electrical signal outputted through a power line (R, S, T, N) of the switchboard is adopted for measuring equipment. Convert the voltage to a value near the rated voltage that the converter can handle, and then use the passive element to set the voltage signals (V _R ), (V _S ), (V _T ) and current signals (I _R ), (I _S) ), A first step of converting to (I _T ), a second step of calculating an effective value and taking an average value of digital signals of each A / D converted channel, and checking whether the average value is within a preset reference range. In this case, a third step of setting the rated voltage and storing the rated voltage in the nonvolatile memory is performed.

2 is a block diagram of a digital meter for a hand / switch panel to which the rated voltage determination method of the present invention is applied, and as shown therein, the voltage outputted through the power lines R, S, T, N of the hand / switch panel is shown. The output voltage of the digital relay CT / PT unit 14 using a male / distribution board CT / PT unit 13 and a digital relay CT / PT unit 14 and a passive element that convert to a level that can be processed internally. Is converted to a predetermined level, and then converted into a value near a rated voltage that can be processed by the adopted A / D converter 19, and the corresponding voltage signals (V _R ), (V _S ), (V _T ) and the corresponding current signals. The output voltage of the conversion voltage / current output unit 15 outputting to (I _R ), (I _S ) and (I _T ) and the output signal of the conversion voltage / current output unit 15 are low-pass filtered and included in the input voltage. A low pass filter 16 for removing high-order harmonic components, a sample / holder 17 for sampling a signal of each channel output from the low pass filter 16, and A multiplexer 18 for sequentially selecting and outputting the output signal of the sample / holder 17 one by one, an A / D converter 19 for converting an analog signal output from the multiplexer 18 into a digital signal, and A backup memory for storing a rated voltage value determined by the central processing unit 20 and the central processing unit 20 to determine the rated voltage by performing a predetermined algorithm based on the output signal of the A / D converter 19 It will be described in detail with reference to FIG.

The electrical signals output through the power lines R, S, T, and N of the male / distribution panel are connected to the transformers T _R1 , T _S1 , T _T1 of the CT / PT section 13 of the male / distribution panel. Are transmitted to the transformers (T _R2 ), (T _S2 ), (T _T2 ), (T ₁ ), (T ₂ ), and (T ₃ ) of the digital relay or digital relay CT / PT unit 14 It is reconverted to a signal level that can be processed inside the device.

In other words, digital devices that perform arithmetic algorithms by converting analog values to digital values undergo a rated voltage adjustment step of adjusting a rated voltage to be input to the A / D converter 19. This is done before completion of normal operation. If the transformer has a voltage corresponding to the rated conversion ratio of the adopted current transformer or transformer (for example, a transformer having a conversion ratio of 110V: 5V, 110V voltage may be applied to the primary side of the transformer).

Taking the R phase transformer T _R2 among the CT / PT sections 14 inside the apparatus as an example, if the voltage applied to the primary side of the R phase transformer T _R2 according to the rating is V1, the R phase transformer according to the conversion ratio. It is converted to the primary side of the V2 2 (T _R2)).

Each of the output voltages of the digital relay CT / PT unit 14 is supplied to the conversion voltage / current output unit 15 to provide resistors R11-R13, R14-R16, and R17-R19, which are passive elements. The converted A / D converter 19 is converted into a value near the rated voltage that can be processed through the output, and is output as a corresponding voltage signal (V _R ), (V _S ), (V _T ), and the resistance (R20-R22). ), (R23-R25) and (R26-R28) convert the current signal (I _R ), (I _S ) to a value near the rated voltage that the adopted A / D converter 19 can handle. , (I _T ) is output.

Three conversion voltages (V _R ), (V _S ), (V _T ) and three conversion currents (I _R ), (I _S ), (I) output from the conversion voltage / current output unit 15 _T ) is supplied to the low pass filter 16 to remove higher-order harmonics included in the input signal. However, in the case of a device that reflects the electric signal flowing through the power lines R, S, T, and N of the actual hand / switch panel, such as a digital meter, the low pass filter 16 may be omitted.

The electrical signal of each channel output from the low pass filter 16, that is, the six-phase electrical signal is supplied to the multiplexer 18 through the sample / holder 17 and sequentially supplied to the A / D converter 19 one by one. The analog signal is converted into a digital signal and then supplied to the central processing unit 20 through the data bus.

In this case, the CPU 20 performs an algorithm for determining a rated voltage. In general, the CPU 20 calculates a digital value through the A / D converter 19. The actual value obtained from is given by the following equation.

In addition, the rated voltage value determined by the central processing unit 20 is stored in the backup memory 21 which is a nonvolatile RAM in order to continue to preserve the power even when the power supply of the device is cut off.

In the conventional rated voltage determination method, the rated voltage is set in advance, and the variable voltage is adjusted until the value calculated by the central processing unit reaches the rated voltage. However, in the present invention, the value itself calculated by the central processing unit 20 is calculated. Since is taken as the rated voltage, the value calculated by the central processing unit 20 in the above formula (1) becomes the same as the rated voltage, and the actual value remains the primary voltage of the transformer or current transformer.

At this time, the value calculated by the central processing unit 20 is a value that reflects the hardware state such as the error of the passive element as it is to ensure more accuracy.

3 shows an algorithm for calculating the rated voltage in the CPU 20, which will be described below.

For the digital signal of 6 channels, the effective value is calculated as in the following Equation 2, and the average value of the four period values for the result is calculated as shown in Equation 3 below. This is to withhold the determination of the rated voltage in the event of an abnormal input signal.

The criterion for determining whether the averaged effective value is within a valid range is to determine whether a value between A and B is output in FIG. 3, where A and B are the secondary sides of the digital relay CT / PT unit 14 inside the apparatus. In consideration of the error of the passive element (resistance) used for the purpose of voltage division, it is decided in consideration of a certain error amount before and after the result of A / D conversion of the rated voltage.

That is, A = set rated voltage-error, B = set rated voltage + error

When the calculation process of the average value for each of the six channels is completed, it is checked whether those values fall within the preset reference range. The reason for this process is to the degree of voltage level near the rated voltage using the resistors (R11-R28). This is because the value is not set to the rated voltage when an exorbitant value is inputted.

When a reliable value is input as a result of the above confirmation, that is, when a voltage belonging to the reference range is input, it is set as a rated voltage and stored in the backup memory 21. This method of adjusting the rated voltage can be performed by the user without dismantling the device. It can be done at any time in software on demand.

As described in detail above, the present invention does not require a variable resistor and its adjustment process by automatically determining the rated voltage through the calculation process at the step of adjusting the rated voltage supplied to the A / D converter. There is an effect to reduce the cost, and by using the operation of the central processing unit there is an effect to ensure the accuracy does not reflect the error of the passive element.

Claims (1)

The electrical signals output through the power lines (R, S, T, N) of the male / distribution board are converted to values near the rated voltage that can be handled by the A / D converter adopted in the measuring equipment. A first step of converting the voltage signals (V _R ), (V _S ), (V _T ) and current signals (I _R ), (I _S ), (I _T ) within a range; A second step of calculating an effective value for a digital signal of a channel and taking an average value; and a third step of checking whether the average value is within a preset reference range and setting the rated voltage to store the rated voltage value in a nonvolatile memory. Method for determining the rated voltage of the digital meter for water / switchboard, characterized in that consisting of steps.