KR20180047057A - Voltage measurement Circuit with dual voltage divider circuit - Google Patents

Abstract

The present invention relates to a voltage measuring device which comprises: a line terminal and a neutral terminal of a power line; a first voltage distribution stage (13) connected to the line terminal; a second voltage distribution stage (14) connected to the neutral terminal; and a voltage measuring circuit (15) connected between the first voltage distribution stage (13) and the second voltage distribution stage (14). The voltage measuring device prevents a short circuit of the voltage measuring device, thereby increasing reliability of an electronic device and performance of a product.

Description

[0001] The present invention relates to a voltage measurement circuit using a dual voltage divider circuit,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic circuit design technique for solving the problem of shorting a line terminal and a neutral in an RS-485 communication, which is an electromagnetic period long-distance serial communication in an electronic communication apparatus such as a power measuring apparatus.

Generally, serial communication is used in various fields of communication between devices in electronic communication devices such as power measuring devices. RS-232, RS-485, and current loop communication methods are used for serial communication methods. RS-485 and current loop communication method are used when the distance between important system and device is long.

1 shows an example of a serial communication device having one RS-232C and one RS-485 channel. The UART (Universal Asynchronous Receiver / Transmitter) of an MPU (Micro Processor Unit) and an RS-232C driver, an RS- And transmits data by making RS-485 + and RS-485- signals as output ports when the transmission control signal is in a high state. When the transmission control signal is in a low state, And transmits the received data to the MPU 11. That is, the channel 1 converts the signal to the RS-232C level through the RS-232C driver 12 to perform the RS-232C communication, and the channel 2 transmits the signal to the RS-485 level through the RS- And performs RS-485 communication. At this time, since the signal levels of RS-232C and RS-485 are different, channel 1 can communicate only with RS-232C, and channel 2 can communicate with RS-485 only. These communication signals are often used to measure the signal voltage in order to check the communication status of each device. When a plurality of measuring devices measure the communication signal such as RS-485 at the same time, Neutral terminals are short-circuited. The results of investigating the prior art literature related to conventional voltage measurement are as follows.

Korean Patent No. 10-1619483 discloses a battery voltage measuring circuit, which includes a battery module including a plurality of battery cells connected in series, a battery controller connected to the battery module to monitor and control the charging / discharging state of battery cells of the battery module, A plurality of first lines connecting the positive or negative electrode of each battery cell of the battery module and the battery control unit, respectively; And a plurality of second lines for respectively connecting the positive or negative electrode of each battery cell of the battery module to the battery control unit separately from the first line and the battery control unit controls the voltage of the battery cells applied through the plurality of first lines to a plurality of The voltage of the battery cells applied through the second line is compared to determine whether the first line and the second line are abnormal,

Korean Patent No. 10-1632931 discloses a measurement method and system based on a two-wire low-voltage power line communication. When the second voltage of the second battery unit of the remote commanding unit dropped by the current limiting resistor is smaller than the first voltage of the first battery unit of the facility meter, the measurement method based on the two-wire type low- And when the second voltage of the second battery unit of the remote commanding unit dropped by the current limiting resistor is greater than or equal to the first voltage of the first battery unit of the facility meter, The power supply via the power line to the facility meter is performed,

Japanese Patent Laid-Open Publication No. 10-2014-0106240 discloses a voltage / current efficiency measuring system for a power module, comprising: a power receiving unit for receiving and outputting an external power source; An input power monitoring unit for receiving power outputted from the power receiving unit and outputting the received power, measuring input voltage and input current based on the received power, and outputting the measured input voltage and input current; A primary power module receiving the power output from the input power monitoring unit, generating a primary output power, and outputting the generated primary output power; An output power monitoring unit for receiving a primary output power outputted from the primary power module, measuring an output voltage and an output current based on the received primary output power, and outputting the measured output voltage and output current; And a power supply control unit for receiving the input voltage and the input current output from the input power monitoring unit and the output voltage and the output current output from the output power monitoring unit to calculate the efficiency of the voltage and the current, However, such circuits are also short-circuited because the ground terminals are short-circuited when a plurality of measuring devices are connected to a voltage at one point, and the above- There was a problem that measurement could not be performed.

Korean Patent No. 10-1619483 Korean Patent No. 10-1632931 Korean Patent Registration No. 10-1599423 Korean Registration No. 10-1564254

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art and to provide a method and apparatus for detecting a short circuit between measurement circuits when a plurality of voltage measurement circuits are connected in parallel, There was a challenge.

In order to solve such a technical problem, the present invention solves this problem by a method of measuring an AC voltage having a dual voltage distribution circuit using a resistor. More specifically, as shown in Fig. 4, a resistive divider circuit is formed in the red square box portion on the Neutral line as well as the line line.

Therefore, the AC circuit voltage measuring method using the resistor according to the present invention can reduce leakage and short circuit between the measuring circuits even when several voltage measuring circuits to be measured are connected in parallel. .

1 is a diagram showing a communication method of a CPU.
2 is a block diagram of a voltage measuring circuit of a communication terminal.
3 is a voltage distribution diagram.
4 is a circuit diagram for measuring the voltage of the communication terminal.
5 is a diagram showing a short between a line terminal and a neutral terminal of a communication terminal.
6 is a circuit diagram for preventing a short circuit when measuring the voltage of the communication terminal.
7 is a circuit diagram for conceptually illustrating a circuit for preventing a short circuit between communication terminals.
Fig. 8 is an improved circuit diagram for preventing a short circuit.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

Hereinafter, the present invention will be described in detail with reference to the drawings.

As shown in FIG. 2 in the serial communication method such as RS-485 serial communication, when measuring the voltage between the line terminal and the neutral terminal, the load effect by the input resistance of the measuring device (not shown) A voltage divider circuit 1 is provided in order to prevent a fluctuation of a measured voltage value due to a load effect and to prevent an over current due to a short between the line terminal and the neutral terminal Such a voltage decomposition circuit is configured such that the voltage is divided by connecting the resistors in series as shown in FIG. The output voltage distributed in FIG.

A voltage between a line terminal and a neutral terminal is distributed by a voltage divider circuit which converts it to an analog-to-digital converter Digital converter) and then displays the voltage on the voltage display circuit 4. The voltage display circuit 4 may be a digital display device.

6, a signal having passed through the input filter 5 is divided by resistors R7 and R8 of a voltage divider circuit (not shown), and the divided voltage is filtered by an output filter circuit 7, And the voltage is measured by the circuit (8). The input filter 5 is constituted by a resistor connected in parallel with a coil connected in series as shown in Fig. The output filter 7 consists of a resistor connected in series with a capacitor connected in parallel.

5, the voltage measurement module 1 (9) and the module 2 (10), the line terminal of the module 2 (10) and the neutral terminal of the module 1 (9) And the line terminal voltage of the module 2 10 is connected to the neutral terminal of the module 1 9 and the module N 11 when the neutral terminal of the module N 11 is connected, A phenomenon occurs in which the neutral terminal of the battery pack is short-circuited.

6, an input filter 12 is connected between a line terminal and a neutral terminal, and a first voltage divider stage 13 and a second voltage generator And a voltage measuring circuit 16 is placed between the first voltage dividing stage 13 and the second voltage dividing stage 14. In this case,

6, the first voltage measurement circuit and the second voltage measurement circuit of FIG. 6 are respectively connected to a single voltage measurement terminal, and the neutral terminal of the first voltage measurement circuit and the second terminal of the second voltage measurement circuit When a line terminal of a voltage measuring circuit is connected to the first voltage measuring circuit 14, a short circuit occurs in the related art. However, the short circuit is caused by the resistances R3 and R4 of the second voltage dividing stage 14 of the first voltage measuring circuit ). Therefore, the improved invention has an effect of preventing a short-circuit phenomenon even when a plurality of voltage measurement terminals are connected to a single voltage measurement point.

An output filter 15 is placed in front of the voltage measuring circuit 16. The output filter has resistors R5 and R6 connected in series and capacitors C1, C2 and C3 connected in parallel. The resistors R5 and R6 prevent the overcurrent from being transmitted to the voltage measuring circuit, and generally connect the resistor having a small resistance value.

As a more detailed example, a resistor R5 is connected between the rear end of the resistor R1 of the first voltage divider stage 13 and the voltage measuring circuit 16, and the resistor R5 has a small value , Typically about 10 ohms. A resistor R6 is connected between the rear end of the resistor R3 of the second voltage divider stage 14 connected to the neutral terminal and the negative voltage terminal V- of the voltage measuring circuit 16, The resistor R6 is provided to prevent the overcurrent from being supplied to the voltage measuring circuit 16, and has a small resistance value, and is preferably about 10 ohms. Also, a capacitor C2 is connected between the positive voltage terminal (V +) terminal and the negative voltage terminal (V-) of the voltage measuring circuit 16, typically 15 nF. A capacitor C1 is connected between the positive voltage terminal (V +) terminal of the voltage measurement circuit 16 and the ground terminal (GND). Normally, the capacitance value of the capacitor C1 is suitably 47 pF. A capacitor C3 is connected between the negative terminal (V-) terminal of the voltage measurement circuit 16 and the ground terminal (GND). Normally, the capacitance value of the capacitor C3 is suitably 47 pF. The capacitors C1, C2, and C3 are configured to remove noise from the communication signal such as RS-485 communication to transmit the signal to the voltage measuring circuit, and provide the stable voltage to the voltage measuring circuit 16 It is for this reason.

In general, the voltage measurement circuit 16 is composed of an analog-to-digital converter and a voltage display circuit.

8, in order to reduce noise of the voltage measurement circuit, a capacitor C4 is connected in parallel with a resistor R1 of the first voltage distribution stage 13, and a resistor R3 of the second voltage distribution stage 14 It is preferable that the capacitor C5 is connected in parallel with the capacitor C5 in parallel.

1 voltage divider circuit 2 voltage measuring unit
3 Analog-to-digital converter 4 Voltage display circuit
5 Input filter 6 Voltage distribution resistor
7 Output filter 8 Voltage measuring circuit
9 Voltage measurement module 1 10 Voltage measurement module 2
11 Voltage measurement module N 12 input filter
13 first voltage divider 14 second voltage divider
15 Output filter 16 Voltage measuring circuit
17 Input filter 18 First voltage distributor
19 Output filter 20 Voltage measuring circuit

Claims (5)

In a circuit for measuring a voltage when a plurality of power measuring devices are connected in parallel,
Line and Neutral terminals of power line;
A first voltage distribution stage (13) connected to the line terminal;
A second voltage distribution stage (14) connected to the neutral terminal;
And a voltage measurement circuit (15) connected between the first voltage distribution stage (13) and the second voltage distribution stage (14)
The method according to claim 1,
The first voltage divider stage 13 includes a resistor R1 and a resistor R2 connected in series to distribute the voltage,
And the second voltage divider stage (14) is connected in series between a resistor (R3) and a resistor (R4) to distribute the voltage.
The method according to claim 1 or 2,
An input filter 12 is connected in series to the line terminal and the neutral terminal and an output filter 15 is connected to the front end of the voltage measuring circuit 15. [
The method of claim 3,
The output filter is connected in series between the resistors R5 and R6 and the capacitor C1 is connected between the positive polarity (V +) of the voltage measuring circuit and the ground GND and the capacitor C3 is connected to the negative polarity (V-) and ground (GND), and the capacitor (C2) is connected between the positive polarity (V +) and the negative polarity (V-) of the voltage measuring circuit
The method according to claim 1 or 2,
Characterized in that the capacitor (C4) is connected in parallel with the resistor (R1) of the first voltage distribution stage (13) and the capacitor (C5) is connected in parallel with the resistor (R3) of the second voltage distribution stage (14)

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