KR20070081311A - Connector joining condition judgment apparatus and control method of the same - Google Patents

Abstract

An apparatus for judging a connector connecting condition and a method of controlling the apparatus are provided to confirm easily whether a connector is connected without driving a load. An apparatus for judging a connector connecting condition includes a power supply(6), a power input switch(1), a connector(2), a signal detector(5), and a microcomputer(4). The power supply supplies power for driving loads(3) which perform selected operations for operating a system. The power input switch switches the power supplied to the loads according to a power switching signal. The connector provides the power to the loads. The signal detector outputs a detection signal which varies with a connecting condition of the connector. The microcomputer outputs the power switching signal and judges the connecting condition of the connector according to the detection signal.

Description

Connector joining condition judgment apparatus and control method of the same

1 is a circuit diagram showing a conventional load driving device

2 is a circuit diagram showing a connector connection state determination apparatus according to the present invention

3 is a flowchart illustrating a method of controlling a connector connection state determining apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Power input switching unit 2: Connector

3: load 4: microcomputer

5: signal detection circuit 6: AC power

The present invention relates to a connector, and more particularly, to an apparatus capable of conveniently checking whether a connector is connected.

Generally speaking, a connector is a component for electrically connecting two devices, and is usually attached to the end of a wire. Wire-to-wire, wire-to-board, board-to-board connection, and the like are used, and the counterpart may be the same type of connector and board to form a male and female pair.

The structure of the connector is composed of an outer case, a terminal portion built in or external to the outer case to conduct electricity, and a T.P.A which prevents the terminal portion from being removed from the outer case.

The outer case is made of a material such as nylon, PBT, composite PPP, and the like, and a material having high insulation and flame retardant grade is mainly used.

The terminal part is a metal conductor, and copper, tin, zinc and other alloys are widely used, and the terminal is used by pressing the ends of the stripped wires.

The TI is often different from the outer case in order to check the mounting, and nylon and the like are used as a material.

A conventional load driving apparatus using a connector having the above structure will be described with reference to FIG. 1 as follows.

The load 3 using the AC power supply 6 is connected to the AC power supply 6 as a connector 2, and the power input switching unit 1 is connected to the front end of the connector 2, thereby providing a microcomputer 4. It is determined whether or not to input the current flowing to the load (3) according to the input signal of. The triac (TRIAC) of the power input switching unit 1 has two stable states (blocking state and energizing state or on and off state) and can be switched from one state to another state, or two terminals, three terminals, or As a semiconductor switching element with more terminals, it is used for switching circuits and special signal generating circuits of electronic systems.

When the triac is turned on, an alternating current flows into the load 3 via the triac.

However, in the conventional load driving apparatus as described above, in order to check whether the connector 2 of the lead wire (not shown) connecting the load 3 and the AC power supply 6 is properly inserted, the assembled system is disassembled. It could be confirmed by checking or by directly operating the load (3). Therefore, even if the load 3 is operated directly, there is a problem that it is difficult to check the operation or takes a long time to operate.

The present invention is to solve the above problems, it is an object of the present invention to provide an apparatus for determining the connection state of a connector that can conveniently check whether the connector is connected without driving the load.

In order to achieve the above object, the present invention provides a load for performing a selected operation for driving the system and a power supply for driving the load; A power input switching unit for switching the power supplied to the loads by a power switching signal; A connector for supplying the power to the loads; A signal sensing circuit for outputting a sensing signal changed according to a connection state of the connector; The present invention provides a connector connection state determination device including a microcomputer outputting the power switching unit signal and determining a connection state of a connector based on the detection signal.

In this case, the signal sensing circuit is preferably connected in parallel with the load.

The signal sensing circuit may include a power terminal connected to a DC power supply and a diode for rectifying an AC signal, and is branched to both sides.

In addition, the direction in which the signal flows is different according to the magnitude of the signal in the signal sensing circuit.

On the other hand, the present invention is a control of the device including a connector for supplying power to the load of the system and the microcomputer for the system control, the step of outputting a control signal for applying power to the system; Switching to supply power to the loads of the system by the control signal; Detecting a current value changed depending on whether the connector is connected; It provides a control method of a connector connection state determination device comprising the step of determining the connection state of the connector according to the current value.

At this time, the current value is preferably a DC current value is detected when the connector is not normally connected.

In addition, the current value is characterized in that the AC current value is detected when the connector is normally connected and the power is supplied to the load.

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 describes a connector connection state determination apparatus according to the present invention.

The other components are the same as in the related art, but the signal sensing circuit 5 is added after the power input switching unit 1, so that it is connected in parallel with the load 3. The signal sensing circuit 5 is preferably installed on a circuit board (not shown) together with the microcomputer 4.

The signal sensing circuit 5 has a first diode D1 and a second diode D2 such that one end of the second diode D2 is connected to a 5V terminal in the signal sensing circuit 5 and thereafter a resistor. Since this is not connected, a voltage signal exceeding 5V flows to the second diode D2. On the other hand, the voltage signal of 5V or less does not flow to the second diode D2 due to the potential difference and flows to the first diode D1 having a relatively low potential, and only the half-wave signal remains while passing through the first diode D1.

At this time, if the resistance R5 is increased to 10 times or more than the combined resistance of the rear end of the first diode D1 including the internal resistance of the microcomputer, the signal input from the 5V DC power supply on the top of the power input switching unit 1 is 0V. Getting closer to On the other hand, the signal supplied from the AC power supply 6 is clearly distinguished from the case where the magnitude of the voltage at the first connection point N1 is less than 5V but the 5V DC power supply is supplied.

In addition, the microcomputer 4 has an input port P0 to receive the current signal via the signal sensing circuit 5. Here, the purpose of the microcomputer 4 to receive the current signal is to detect the connection state of the circuit.

When the connector 2 is connected and an alternating current flows through the load 3, the alternating current is similarly inputted to the signal sensing circuit 5.

However, when the connector 2 is not connected or is not electrically connected due to a poor contact, no alternating current flows in the load 3 and the signal sensing circuit 5.

At this time, the microcomputer 4 detects an AC current component in the input signal and determines whether the connector 2 is connected.

Referring to Figure 3 describes the control method of the connector connection state determination apparatus according to the present invention.

First, when power is applied to the system (S10), the microcomputer 4 outputs a control signal, and a switching operation occurs in the triac of the power input switching unit 1 by the control signal input from the microcomputer 4. Therefore, the current is energized (S20).

At this time, if the connector 2 is connected (S30), the AC current by the AC power supply 6 is supplied to the load 3 together with the DC current by the DC power supply 5V, and the signal sensing circuit 5 DC and AC current is mixed to flow (S50). At this time, the AC power supply 6 is 110V or 220V, which is a much larger value than the DC power supply of 5V, so that the DC current may be ignored.

When the current passes through the signal sensing circuit 5, only the half-wave signal, which is rectified by the diode and is blocked, either positive or negative, remains. Then, the half-wave signal repeated at a constant period is input to the input port P0 of the microcomputer 4 (S60). At this time, the microcomputer 4 detects the half-wave signal as a high signal.

Then, when the high signal is input, the microcomputer 4 determines that the connector 2 is connected (S70), and continues to drive the load 3 (S90).

On the other hand, when the connector 2 is not connected (S30), the AC power supply 6 is open so that no alternating current flows through the load 3 and the signal sensing circuit 5 (S40). Therefore, only the direct current flows through the signal sensing circuit 5. Here, since the level of the signal input to the microcomputer 4 is constant and contrasts with the high signal described above, the microcomputer 4 detects this signal as a low signal.

At this time, when the low signal is detected for a predetermined time T, the microcomputer 4 determines that the connector 2 is not connected (S70) and informs the user through an alarm (S80). .

Therefore, the microcomputer 4 can check whether the connector 2 is connected through the signal difference without having to disassemble the assembled system or operate the load 3 directly.

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

Referring to the effects of the connector connection state determination apparatus according to the present invention described above are as follows.

First, it is possible to check whether the connector is connected without operating the load, thereby reducing the power consumption of operating the system.

Secondly, no disassembly of the system is required, and unnecessary time and effort is avoided.

Claims (7)

Loads for performing a selected operation for driving a system and a power source for driving the loads; A power input switching unit for switching the power supplied to the loads by a power switching signal; A connector for supplying the power to the loads; A signal sensing circuit for outputting a sensing signal changed according to a connection state of the connector; And a microcomputer for outputting the power switching unit signal and determining a connection state of the connector based on the detection signal. The method of claim 1, And said signal sensing circuit is connected in parallel with a load. The method of claim 1, The signal detection circuit, A power supply terminal connected to a DC power supply, and a diode for rectifying an AC current, the connector connection state determination device, characterized in that the branched to the power supply terminal and the diode. The method of claim 3, wherein In the signal sensing circuit, A device connection state determination device, characterized in that the direction in which the signal flows according to the magnitude of the signal. In the control of the device comprising a microcomputer for system control and a connector for supplying power to the loads of the system, Outputting a control signal for applying power to the system; Switching to supply power to the loads of the system by the control signal; Detecting a current value changed depending on whether the connector is connected; And determining a connection state of the connector according to the current value. The method of claim 5, The current value is a control method of the connector connection state determination device, characterized in that the DC current value is detected when the connector is not normally connected. The method of claim 5, The current value is a control method of the connector connection state determination device, characterized in that the AC current value is detected when the connector is normally connected to the power supply to the load.

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