KR100686027B1 - Security circuit for limiting current in electric application - Google Patents

Abstract

A current limiting security circuit in an electric application is provided to prevent an erroneous operation of a micom by having an additional security circuit to limit driving of a load in connection with a power detecting unit and a load driving unit. In a current limiting security circuit in an electric application, more than two loads are provided. Load driving units are connected to the loads each other to drive each load. A first power detecting unit(30) is connected to first and second live lines(L1,L2) of input power to detect a potential difference between the first and second live lines(L1,L2). A second power detecting unit(30) is connected to the first live line(L1) and a third live line(L3) to detect a power type according to a detection result of a potential difference between the first and third live lines(L1,L3) and a detection result of the first power detecting unit(30). A micom(50) controls the load driving unit to drive the load within a range in which a corresponding allowable current does not exceed a standard value according to the power type sensed by the second power detecting unit(40). A current limiting unit(70) limits driving of some loads within the range in which the corresponding allowable current does not exceed the standard value by receiving the power type detected through the second power detecting unit(40) and a control signal outputted from the micom(50).

Description

Safety circuit for limiting current in electric application

1 is a circuit diagram illustrating a current limiting circuit of an electric apparatus according to the prior art.

2 is a circuit diagram illustrating a current limiting safety circuit of an electric apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

30: first power detector 40: second power detector

50: microcomputer 60: heater driving unit

70: current limit

PC1, PC2: Photo Coupler

RY1, RY2, RY3: relay

Q0, Q1, Q2, Q3: Transistor

The present invention relates to a current limiting safety circuit of an electrical device, and more particularly, to a current according to a standard according to the type of input power supply (single-phase, two-phase, three-phase). It relates to a limit safety circuit.

In general, in the case of electronic products requiring high power, it is desirable to limit the total power for the safety of the standard and the power supply.

That is, it detects the wiring status in the power cord of the product so that the entire output can consume only the allowable current corresponding to the standard according to the condition of the home power, and judges the type of power (single-phase, two-phase, three-phase) and then corresponds to the power. This limits the overall output of the load (ie total current).

Referring to Figure 1, the current limiting circuit of the electric apparatus according to the prior art will be described.

Hereinafter, a current limiting circuit for a cooking apparatus using a heater as an example will be described.

As shown in the drawing, a conventional current limiting circuit includes a power cord 1 for connecting to a commercial power source in a home, a terminal block 2 for distributing power input through the power cord 1, and And a power detector 3 connected to a power line distributed from the terminal block 2 to detect the type of input power (single phase and two phase), and a plurality of heaters (heaters 1, 2, 3) and a relay (RY1, RY2, RY3) 6 connected 1: 1 to the heater to switch driving of the heater, and the heater according to the type of power detected by the power detector 3. It consists of a microcomputer 4 which controls the on / off of the relay 6 to selectively drive.

Here, the power detecting unit 3 is connected to live lines L1 and L2 of power lines distributed at both ends of the terminal block 2, respectively, so that the line between the live lines L1 and L2 is connected. The photo coupler PC1 is turned on / off according to the potential difference, and the output terminal of the photo coupler PC1 is connected to the input port P0 of the microcomputer 4.

According to this configuration, the microcomputer 4 individually outputs control signals for the heaters to the relays RY1, RY2, and RY3 to selectively drive the heaters 1, 2, and 3 according to the driving conditions. .

At this time, the relays (RY1, RY2, RY3) are connected one-to-one to each heater (heater 1, 2, 3) and on (on) / off (off) in accordance with the control signal of the microcomputer (4) Control the drive.

In such a cooking apparatus, when the power cord 1 of the product is single-phase or three-phase, the allowable current is relatively large because the allowable current is 40 A, whereas in the case of a product using a two-phase power, the allowable current is 16 A. Since it is standardized below, the equivalent output should be limited within the allowable current.

To this end, the power detector 3 detects the connection state of the power cord 1 and transmits the detection result to the microcomputer 4.

Here, the photo coupler PC1 of the power detector 3 maintains an off state when the line voltage across the live lines L1 and L2 is coincidence, that is, a single phase, and outputs a low signal. Output to 4).

In this case, when the output of the photo coupler PC1 is at a low level, the microcomputer 4 determines the single phase and controls the driving of the heaters 1, 2, and 3 without limiting the output current without limiting the output to the load.

On the other hand, when the potential difference between the lines of the live lines L1 and L2 is detected, the photo coupler PC1 is turned on and outputs a high signal to the microcomputer 4.

The microcomputer 4 determines that the output of the photo coupler PC1 is two-phase when a high level is input and limits the total output to the load within a corresponding allowable current corresponding to the specification.

If the power cord 1 has a two-phase (two-phase use of three phases) connection, driving three heaters (heater 1, 2, 3) simultaneously will exceed the allowable current, so all three heaters are driven. Even if a driving condition is applied, some heaters are restricted for safety of input power.

In the conventional current limiting circuit, for the two-phase power supply, the microcomputer 4 selectively restricts the driving of some of the plurality of loads so that the total output does not exceed a considerable allowable current.

However, conventionally, the total output is limited according to the specifications of the power supply only by the microcomputer. Therefore, when a malfunction of the microcomputer occurs, a large amount of current instantly exceeds the allowable current, causing a breaker of the home power supply or a fire due to overheating of the power line. There was a risk of a safety accident.

That is, a safety circuit for limiting a considerable allowable current is not provided in preparation for a malfunction of the microcomputer, which causes a decrease in the safety and reliability of the system.

In addition, the product using the three-phase (L1, L2, L3) power supply does not require a current limit for the entire output as with a single phase, but when applying a conventional current limiting circuit it detects only the potential difference between the two lines 3 There is a case where the output is unnecessarily limited by mistaken phase power as 2 phase.

As a result, the conventional current limiting circuit cannot be applied to a product designed with a three-phase power supply, so there is a problem that the compatibility of the circuit design is reduced.

The present invention is to solve the above problems, the object of the present invention is to provide a current limiting circuit that can be applied to all products designed as a single-phase, two-phase, three-phase power supply in common.

It is another object of the present invention to provide a current safer circuit which is safer in limiting the considerable allowable current depending on the type of power supply (single phase, two phase, three phase).

Still another object of the present invention is to provide a double safety circuit capable of limiting a considerable allowable current according to the power supply standard in preparation for a malfunction of the microcomputer.

In order to achieve the above object, the present invention provides two or more loads, a load driver for one-to-one connection with the loads to drive each load, and first and second live lines L1 and L2 of input power. Is connected to the first power detector for detecting the potential difference between the lines, and is connected to the first and third live lines L1 and L3 of the input power to detect the potential difference between the lines, and the detection result and the first power detector are detected. According to the result of the second power detector for sensing the power type, the microcomputer to control the load driving unit to drive the load in a range in which a considerable allowable current does not exceed the standard value according to the power type detected through the second power detection unit And a part of a range in which a corresponding allowable current does not exceed a standard value by receiving a type of power detected by the second power detector and a control signal of the load driver output from the microcomputer. It provides a current limiting safety circuit for an electric machine composed of a current limiting section for limiting the driving of the load.

The first power detector may be configured of a first photo coupler PC1 that is turned on / off according to a potential difference between the first live line L1 and the second live line L2.

The second power detection unit may include a second photo coupler PC2 that is turned on / off according to a potential difference between the first live line L1 and the third live line L3, and the base is the first power detection unit. It is preferable that the transistor is connected to the output terminal, the emitter is connected to the ground terminal, and the collector is composed of a transistor Q0 connected to the output terminal of the second photo coupler PC2.

The current limiting unit may be connected to any one of the load driving units to control the output of the load driving unit.

In this case, the current limiting unit, the first transistor Q1 is connected to any one of the output port of the microcomputer, the base is connected to the load driver, and the collector is connected to the other of the output port of the microcomputer, and the base is the A second transistor Q2 connected to an output terminal of a second power detector, a collector connected to an emitter of the first transistor Q1, an emitter connected to a ground terminal, and a base connected to the first transistor Q1 It is preferable that the third transistor Q3 is connected to the collector and the ground terminal in common, the emitter is connected to the ground terminal, and the collector is connected to the input terminal of the load driver.

The first, second, and third transistors are npn type transistors, and the first and second transistors are transistors in which an emitter and a base terminal are commonly connected.

Therefore, the present invention provides a current limiting circuit that can be applied in common regardless of the type of power supply and connects the power sensing unit and the load driving unit in order to prepare for the malfunction of the microcomputer so that the driving of the load does not exceed the allowable current. Provide additional safety circuitry to limit.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention that can specifically realize the above object will be described.

Referring to Figure 2, when describing the current limit safety circuit of the electric device according to the present invention.

Hereinafter, the configuration and operation of the current limiting safety circuit to which single-phase, two-phase (using two-phase of three phases), and three-phase power supply can be described using an electric range using a high output heater as an example.

As shown, the current limiting safety circuit of the electric machine according to the present invention comprises at least two or more heaters (heater 1, 2, 3), and a 1: 1 connection with the heater to drive each heater ( A first power detector 30 connected to RY1, RY2, RY3) 60, the first and second live lines L1 (L2) of the power cord 1, and detecting a potential difference between the lines; A first power source connected to the first and third live lines L1 and L3 of the cord 1 to detect a potential difference between lines and a power type according to the detection result and the detection result of the first power detection unit 30; 2 relays RY1 and RY2 to selectively drive the heaters within a range in which a corresponding allowable current does not exceed the standard value according to the type of power detected by the second power detector 40 and the second power detector 40. RY3) to the microcomputer 50 for controlling the 60, the type of power detected by the second power sensor 40 and the microcomputer 50 Receives the control signal of the output relays (RY1, RY2, RY3) (60) consists of a current limiting section 70 for limiting the driving of the heater portion in a range that does not allow significant current is greater than the standard value.

Here, the first power detector 30 is connected to the first and the second live line (L1) (L2) of the power line, the both ends of the input line is distributed from the terminal block (2) on / off according to the potential difference between the lines Consisting of a first photo coupler PC1.

The second power detector 40 is connected to the first and third live lines L1 and L3 of the power lines distributed from the terminal block 2, respectively, and is turned on / off according to the potential difference between the lines. The photo coupler PC2 and the base are connected to the output terminal of the first photo coupler PC1 of the first power detector 30, the emitter is connected to the ground terminal, and the collector is connected to the output terminal of the second photo coupler PC2. It is composed of a transistor (Q0) connected to.

In this case, the output terminal of the second photo coupler PC2 is connected to the input port P0 of the microcomputer 50.

According to this configuration, the first photo coupler PC1 outputs a low signal when the line voltages of the first and second live lines L1 and L2 are coincidence, and outputs a high signal when there is a potential difference between lines. .

The second photo coupler PC2 outputs a low signal when the line voltages of the first and third live lines L1 and L3 are coincidence and a high signal when a potential difference between lines occurs.

In this case, the output signal of the first photo coupler PC1 is applied as the base input signal of the transistor Q0 of the second power detection unit 40. When the transistor Q0 is a npn type, a low signal is applied. It turns off and turns on when a high signal is applied.

That is, when the input power is a three-phase power supply, as the high signal is output from both the first and second photo couplers PC1 and PC2, the transistor of the second power detection unit 40 is turned on, and as a result, the microcomputer ( The low signal is input to the input port P0 of 50).

In the case of a single-phase power supply, a low signal is output from both the first and second photo couplers PC1 and PC2 to output a low signal from the second power detector 40 to the microcomputer 50.

On the other hand, when the input power supply is a two-phase power supply (using only two of three phases) (assuming that the first and second live lines L1 and L2 are shorted), the first photo coupler ( A low signal is output from the PC1) and a high signal is output from the second photo coupler PC2. At this time, the transistor Q0 of the second power detection unit 40 is turned off to turn on the high signal of the second photo coupler PC2. Is output to the microcomputer 50.

In other words, the microcomputer 50 determines the input power as a single-phase or three-phase power when a low signal is input through the input port P0, and determines that the microcomputer 50 is a two-phase power when a high signal is input.

The microcomputer 50 determines the type of input power and determines the operation of the heater according to the signal input through the input port P0. In the case of single-phase and three-phase power, the microcomputer 50 drives the heater without restriction on the total output. In the case of two-phase power supply, the operation of the heater is restricted so that the allowable current does not exceed the standard value.

The microcomputer 50 determines whether to operate the heater according to external driving conditions and the type of power supply (single phase, two phase, three phase) and selectively outputs a high signal or a low signal to the relays RY1, RY2, and RY3. . The relay receiving the high signal from the microcomputer 50 is turned on to start driving of the heater, and the relay receiving the low signal is turned off to stop driving of the heater.

The microcomputer 50 should output a high signal to all the relays RY1, RY2, and RY3 when all the heaters are to be driven according to an external driving condition, but the type of power detected by the second power detector 40 In the case of two-phase, the low signal is output to the corresponding relay to limit the driving of some of the heaters despite the external driving conditions.

In addition, the current limiting unit 70 considers the output signal of the second power detecting unit 40 and the relay driving signal of the microcomputer 50 to limit the driving of some heaters in preparation for the malfunction of the microcomputer 50. To the input of any one of the relay (RY1, RY2, RY3) (60).

In the case of single-phase and three-phase power, even if all the heaters are driven, it does not exceed the allowable current according to the relevant power standard, so there is no need to limit the driving of the heaters. Since the current is exceeded, first, the driving of the heater is limited in the microcomputer 50, and when the malfunction of the microcomputer 50 is detected, the driving of some heaters is directly limited through the current limiting unit 70.

For example, when the current limiting unit 70 is connected to the input terminal of the relay corresponding to (RY3), the base of the output port (P1, P1) of the microcomputer 50 to the relay (RY1, RY2, RY3) 60 A first transistor Q1 connected to any one of P2 and P3 (P1 or P2) and connected to an output port P3 of the microcomputer 50 connected to a collector RY3; A second transistor (Q2) having a base connected to an output terminal of the second power detector (40), a collector connected to an emitter of the first transistor (Q1), and an emitter connected to a ground terminal; The base is connected to the collector and ground terminal of the first transistor Q1 in common, the emitter is connected to the ground terminal, and the collector is composed of a third transistor Q3 connected to the input terminal of the relay RY3.

In this case, the first, second, and third transistors Q1, Q2, and Q3 are npn type transistors, and among the first and second transistors Q1 and Q2, the emitter and the base terminal are commonly connected. It is preferable to comprise a transistor.

According to this configuration, the first transistor Q1 uses the relay drive signal "b" output from the output port P1 of the microcomputer 50 as a base input signal, and the second transistor Q2 is a second input signal. The output signal " a " of the power detecting unit 40 is used as the base input signal.

In this case, when at least one of the base input signals of the first and second transistors Q1 and Q2 is a low signal, the driving signal “c” of the microcomputer 50 outputted to the relay RY3 is shorted to a second value. It is transmitted to the input signal of the relay RY3 via the three transistors Q3.

This is because the single-phase or three-phase power is detected from the first and second power detectors 30 and 40 or the microcomputer 50 does not drive any one of the heaters. It is not necessary to limit the relay driving signal "c" for the heater output from the current limiter 70.

On the other hand, when the base input signals of the first and second transistors Q1 and Q2 are both high signals, they are simultaneously turned on to form a closed circuit with the ground terminal, and drive signals of the microcomputer 50 to the relay RY3. ("c") flows to the ground terminal and disappears.

That is, when two-phase power is detected by the first and second power detectors 30 and 40, the driving of some heaters should be restricted in the microcomputer 50, but at the same time a high signal is output from the output port P1. When the high signal is also output from the output port P3 to which the current limiter 70 is connected, the first and second transistors Q1 and Q2 are turned on at the same time, and the high signal output from the output port P3 is connected to the ground terminal. Bypass it.

In the situation where the two-phase power is detected, the simultaneous output of the high signal through the two output ports P1 and P3 of the microcomputer 50 is determined to be a malfunction of the microcomputer 50, and thus the current limiting unit 70 is connected. The signal "c" of the output port P3 is forcibly shut down.

Therefore, in the present invention, when all the heaters are driven at the same time in the case of a two-phase power supply, the total output exceeds a considerable allowable current. Therefore, first, the driving of the heater is restricted in the microcomputer 50, and the current limiting unit is provided for the malfunction of the microcomputer 50. Use 70 to directly limit the drive of some heaters.

In addition, the present invention provides a current limiting circuit with high compatibility of the product by designing in common to be applicable to any type of power supply (single-phase, two-phase, three-phase).

The present invention is not limited to the above-described embodiments, and can be modified by those skilled in the art as can be seen from the appended claims, and such modifications are within the scope of the present invention.

The current limiting safety circuit of the electric device according to the present invention described above has the following effects.

First, it is possible to provide a product compatible current limiting circuit by designing in common to be applicable regardless of power supply type (single phase, two phase, three phase).

Second, in providing a current limiting circuit limiting a considerable allowable current according to the power supply standard, it is possible to improve the safety and reliability of the product by adding a safety circuit forcibly restricting the driving of some loads even if a malfunction of the microcomputer occurs.

Claims (6)

Two or more loads, A load driver connected one-to-one with the load to drive each load; A first power detector connected to first and second live lines L1 and L2 of an input power source and detecting a potential difference between lines; A second power detector connected to the first and third live lines L1 and L3 of the input power to sense a potential difference between the lines and a power type according to the detection result and the detection result of the first power detector; A microcomputer that controls the load driving unit to drive the load in a range in which a considerable allowable current does not exceed a standard value according to the type of power detected by the second power detecting unit; And a current limiting unit configured to limit the driving of some loads in a range in which a corresponding allowable current does not exceed a standard value by receiving the power type sensed by the second power detecting unit and the control signal of the load driving unit output from the microcomputer. Current limit safety circuit of electrical equipment. The method of claim 1, The first power detector is And a first photo coupler (PC1) on / off according to the potential difference between the first live line (L1) and the second live line (L2). The method of claim 1, The second power detector is A second photo coupler PC2 turned on / off according to a potential difference between the first live line L1 and the third live line L3; The base is connected to the output terminal of the first power detector, the emitter is connected to the ground terminal, the collector is an electrical device comprising a transistor (Q0) is connected to the output terminal of the second photo coupler (PC2) Current limiting safety circuit. The method of claim 1, The current limiter The current limiting safety circuit of the electric device, characterized in that connected to any one of the load driver to control the output of the load driver. The method of claim 4, wherein The current limiter A first transistor Q1 having a base connected to one of the output ports of the microcomputer connected to the load driver, and a collector connected to the other of the output ports of the microcomputer; A second transistor Q2 having a base connected to an output terminal of the second power detector, a collector connected to an emitter of the first transistor Q1, and an emitter connected to a ground terminal; A base is connected to the collector and the ground terminal of the first transistor (Q1) in common, the emitter is connected to the ground terminal, characterized in that the collector is composed of a third transistor (Q3) connected to the input terminal of the load driver. Current limit safety circuit of electrical equipment. The method of claim 5, The first, second, and third transistors are npn type transistors, wherein the first and second transistors are transistors in which an emitter and a base terminal are commonly connected.

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