JP2002374545A - Apparatus and method for detecting connection of connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an apparatus for detecting connection of connectors, that can detect a plurality of connectors for their connection while suppressing the size of the apparatus from being enlarged and the cost thereof from being increased. SOLUTION: The connectors 21, 22, 23 are respectively provided with resistors 202, 302, 402, a resultant resistance of the resistors connected in parallel of the connectors among the connectors 21, 22, 23 and connected to connectors 11, 12, 13 and the resistance of a resistor 104 are used to divide the voltage and the connection of the connectors 21, 22, 23 to the connectors 11, 12, 13 is detected on the basis of the voltage obtained by the result.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connector connection state detecting device and method for detecting connection states of a plurality of connectors.

[0002]

2. Description of the Related Art In a connector engagement state detecting device disclosed in Japanese Patent Application Laid-Open No. Hei 10-233257, voltages of different values are generated when one connector is connected and when it is not connected, Based on this voltage value, it is detected whether or not a microcomputer (hereinafter, “microcomputer”) is connected.

[0003]

However, in this prior art, when trying to detect the connection state with respect to a plurality of connectors, the same number of input ports as the connectors are required for the microcomputer, which results in an increase in the size and cost of the device. There was a problem of inviting.

Accordingly, an object of the present invention is to provide a connector connection state detecting apparatus and method capable of detecting connection states of a plurality of connectors while suppressing an increase in size and cost of the apparatus. And

[0005]

In order to achieve the above object, according to the present invention, a first connector group including a plurality of connectors and a second connector group including a plurality of connectors to be connected to the first connector group are provided. In detecting the connection state with the second connector group, the resistance value in the resistance voltage dividing circuit is configured to be different depending on the connection / non-connection between the first connector group and the second connector group, It is configured to detect that there is a connector that is not connected to the first connector group in the second connector group based on the value of the output voltage of the resistance voltage dividing circuit.

In another aspect of the present invention, a connection state between a first connector group including a plurality of connectors and a second connector group including a plurality of connectors to be connected to the first connector group is detected. In doing so, the value of the resistance in the resistance voltage dividing circuit is determined by the connection / connection of the connectors of the second connector group.
The number of connectors that are not connected to the first connector group among the second connector groups is detected based on the value of the output voltage of the resistance voltage dividing circuit. Like that.

In still another aspect of the present invention, a connection state between a first connector group including a plurality of connectors and a second connector group including a plurality of connectors to be connected to the first connector group is determined. In the detection, the resistance value in the resistance voltage dividing circuit is configured to be different depending on the connection / non-connection of the connector of the second connector group, and based on the value of the output voltage of the resistance voltage dividing circuit, A connector that is not connected to the first connector group is detected from the second connector group.

[0008]

Embodiments of the present invention will be described below with reference to the drawings. In FIG. 1, reference numeral 1 denotes a circuit board for a television receiver, and reference numerals 2, 3, and 4 denote external components to the circuit board 1 for a television receiver. External parts 2
Is a speed modulation coil 201 for changing the scanning speed of the electron beam, and a resistor 20 for detecting the connector connection.
2 is provided. The external component 3 includes a geomagnetic correction coil 30 for canceling the influence of geomagnetism on the electron beam.
1 and a resistor 302 for detecting connector connection. The external components include a predetermined circuit 401 and a resistor 402 for detecting connector connection.

A circuit board 1 includes a contour compensating circuit 101 for driving a velocity modulation coil 201 so that the contour of an image is enhanced by changing the scanning speed of an electron beam in a cathode ray tube of a television receiver. Geomagnetic correction coil 30 so that the influence of
1, a geomagnetic correction circuit 102, a microcomputer 103,
And a resistor 104.

Reference numeral 11 denotes a connector provided on the circuit board 1 for connecting the external component 2 to the circuit board 1.
In addition to the two terminals 11-1 and 11-2 connected to the contour compensation circuit 101, two connection detection terminals 11-A,
11-B.

Reference numeral 12 denotes a connector provided on the circuit board 1 for connecting the external component 3 to the circuit board 1.
Two terminals 12-connected to the geomagnetic correction circuit 102
1, 12-2 and two connection detecting terminals 12-
A, 12-B.

Reference numeral 13 denotes a connector provided on the circuit board 1 for connecting the external component 4 to the circuit board 1;
Terminal 13-1 connected to a circuit (not shown) in circuit board 1
13-n (n is an arbitrary positive integer) and two connection detection terminals 13-A and 13-B.

On the circuit board 1, the connector 1
One of the connection detection terminals 11-A, 12
-A and 13-A are connected in common, and these terminals are connected in common (hereinafter referred to as “connection detection point”).
The resistance 104 is connected between the bias point P and the power supply voltage V _CC, the other connection detecting terminal 11-B of the connector 11,12,13, 12-B, 13- B is grounded Have been.

Reference numeral 21 denotes a connector provided on the side of the external component 2 for connecting the external component 2 to the circuit board 1, and two terminals 2 connected to the speed modulation coil 201.
In addition to 1-1 and 21-2, two connection detection terminals 21-A and 21-B connected to each other via a resistor 202 are provided. When the connector 21 is connected to the connector 11 in the correct direction, the terminal 21-
1, 21-2, 21-A and 21-B are connected to terminals 11-1, 11-2, 11-A and 11-B of the connector 11, respectively.

Reference numeral 22 denotes a connector provided on the side of the external component 3 for connecting the external component 3 to the circuit board 1, and two terminals 22-1 and 22 connected to the geomagnetic correction coil 301. 2 and two connection detection terminals 22-A, 22-B connected to each other through a resistor 302.
It has. When the connector 22 is connected to the connector 12 in the correct direction, the terminal 22 of the connector 22
-1, 22-2, 22-A, and 22-B are terminals 12-1, 12-2, 12-A, and 12-B of the connector 12, respectively.
Is to be connected to.

Reference numeral 23 denotes a connector provided on the side of the external component 4 for connecting the external component 4 to the circuit board 1, and includes two terminals 23-1 connected to a predetermined circuit 401.
In addition to 23-2, two connection detection terminals 23-A and 23-B connected to each other via a resistor 402 are provided. When the connector 23 is connected to the connector 13 in the correct direction, the terminals 23-1 and 23-1
, 23-n, 23-A, 23-B are terminals 13-1, 13-2, ..., 13-n of the connector 13, respectively.
13-A and 13-B.

As described above, the resistances 202, 302, 402
Indicates that the connectors 21, 22, and 23 are the connector 1
1, 12, 13 are connected between the connection detection point P and the ground;
Of the resistors 2 and 23, the resistors 104 connected in parallel to the resistors provided in the connectors 11, 12, and 13 form a resistor voltage dividing circuit. The resistance values of the resistors 202, 302, and 402 are set to different values.

For example, if the resistance value of the resistor 104 is R,
02, 302, and 402 are R, 2R, and 3 respectively.
Let R be a connector 11, 12, and 1 in a second connector group consisting of connectors 21, 22, and 23.
Table 1 shows the relationship between the connector not connected to the first connector group 3 and the voltage value at the connection detection point P.

[0019]

[Table 1]

The microcomputer 103 stores, in its internal memory, data indicating the correspondence between the connector not connected to the first connector group in the second connector group and the voltage value at the connection detection point P. By referring to this data, a connector that is not connected to the first connector group is detected from the second connector group based on the voltage value of the connection detection point P.

Then, the microcomputer 103 operates the display unit 5 so that a connector of the second connector group that is not connected to the first connector group is notified to the outside. More specifically, a separate character is assigned to the connectors 21, 22, and 23, and the character assigned to the connector that is detected as not being connected is displayed on the CRT of the television receiver by an OSD (On Screen Display). May be displayed as

As described above, in the present embodiment, different voltages are generated by the connectors that are not connected to the first connector group in the second connector group.
When detecting a connector that is not connected to the first connector group in the second connector group, the number of ports required of the microcomputer 103 is 1 regardless of the number of connectors.
Therefore, a connector that is not connected to the first connector group can be detected from the second connector group without increasing the size and cost of the device.

Further, in the present embodiment, the connector which is detected as not being connected is notified to the outside, so that a worker in the manufacturing process can easily recognize the connector which is not connected. Become like In addition, this makes it possible for the operator to easily solve the problem that there is a connector that is not connected.

It should be noted that the general operation as a television receiver can be performed without any problem even if the coil for velocity modulation and the coil for terrestrial magnetism are not connected to the circuit board of the television receiver. It is difficult to detect that the connection is not made from the operation state of the receiver.Therefore, it is difficult to detect that the connection is not made and to provide a function of notifying the detection result to the outside. This is very effective in preventing the overlooking of the defect that there is not.

In this embodiment, the connectors 11, 1
Only connectors 21, 22 and 23 can be connected to 2 and 13, respectively. Also, the connector 11,
Connectors 12, 22 and 23 can be connected to 12 and 13 only in the correct direction. This allows you to connect connectors that should not be connected,
An operation error of connecting the connectors in the wrong direction is prevented beforehand.

Here, in the above-described embodiment, a connector that is not connected to the first connector group can be detected in the second connector group. However, the first connector group can be detected in the second connector group. When it is sufficient to detect that there is a connector that is not connected to the connector group, the connection detection point P depends on whether or not there is a connector that is not connected to the first connector group in the second connector group. Should be different from each other.

To give a specific example, resistors 202 and 30
2 and 402 may be set to the same resistance value. In this case, the relationship between the connection state of the connector and the voltage value at the connection detection point P is as shown in Table 2, and the microcomputer 1
At 03, if the voltage value at the connection detection point P is not V _CC / 4, the connectors 11, 22, and 23
It can be determined that there is a connector not connected to 2, 13. If it is determined that there is a connector that is not connected in the second connector group, the fact is notified to the outside, so that the worker in the manufacturing process can check the connector that is not connected. You can easily recognize something.

[0028]

[Table 2]

The resistors 202, 302, and 402
Are set to the same resistance value, the relationship between the number of connectors in the second connector group not connected to the first connector group and the voltage value of the connection detection point P is as shown in Table 2. That is, since the voltage value at the connection detection point P differs depending on the number of connectors in the second connector group that are not connected to the first connector group, It is also possible to detect the number of connectors that are not connected to the first connector group among the second connector groups based on the value. By notifying the number of unconnected connectors to the outside, an operator in the manufacturing process can easily recognize the number of unconnected connectors.

In the above embodiment, the number of connectors whose connection status is to be detected is three. However, the present invention can be applied to a case where there are a plurality of connectors whose connection status is to be detected. it can.

Further, when the connectors 21, 22, and 23 are connected to the connectors 11, 12, and 13, respectively, a resistor 2 is connected between the connection detection point P and the ground.
02, 302, and 402, external components 2, 3,
Although provided on the side of the circuit board 1, it may be provided on the side of the circuit board 1 as shown in FIG.

Further, one end of each of the resistors 201, 302, and 402 is connected to a bias point (ground in the above embodiment) on the circuit board 1 side. However, as shown in FIG. If there is a bias point on the side, it may be connected to the bias points on the external components 2, 3, and 4. With this configuration, the number of connection detection terminals required for the connector is only one, so that downsizing and cost reduction can be promoted.

[0033]

As described above, according to the present invention,
Different values of voltage are generated depending on whether or not there is an unconnected connector among a plurality of connectors, and based on this voltage value, it is detected whether or not there is an unconnected connector. Therefore, only one input port is required for the means for detecting whether or not there is an unconnected connector among a plurality of connectors, regardless of the number of connectors, thereby suppressing an increase in the size and cost of the apparatus. As described above, it is possible to detect whether or not any of the plurality of connectors is not connected.

According to the present invention, a voltage having a different value is generated depending on the number of unconnected connectors, and the number of unconnected connectors is detected based on this voltage value. Only one input port is required for the means for detecting the number of unconnected connectors regardless of the number of connectors, and the number of unconnected connectors is detected after suppressing an increase in size and cost of the apparatus. Will be able to

Further, according to the present invention, a voltage of a different value is generated according to a connector which is not connected among a plurality of connectors, and a connector which is not connected among the plurality of connectors is generated based on this voltage value. Is detected, only one input port is required for the means for detecting an unconnected connector among a plurality of connectors, regardless of the number of connectors. After the suppression, a connector that is not connected among the plurality of connectors can be detected.

Further, according to the present invention, the detection result of the connection state of the plurality of connectors is notified to the outside, so that the worker in the manufacturing process can easily recognize the connection state of the plurality of connectors. Will be able to This is effective in preventing an oversight of a defect that there is a connector that is not connected.

Further, according to the present invention, since only connectors in a combination to be connected can be connected, an operation error of connecting connectors which should not be connected is prevented beforehand.

Further, according to the present invention, since the connectors can be connected only in the correct direction, an operation error of connecting the connectors in the wrong direction is prevented beforehand.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing an embodiment of the present invention.

FIG. 2 is a configuration diagram showing another embodiment of the present invention.

FIG. 3 is a configuration diagram showing still another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Circuit board for television receivers 2, 3, 4 External parts 5 Display part 11, 12, 13 Connector 21, 22, 23 Connector 101 Contour compensation circuit 102 Geomagnetic correction circuit 103 Microcomputer 104 Resistance 201 Speed modulation coil 202 Resistance 301 coil for geomagnetism correction 302 resistor 401 predetermined circuit 402 resistance

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04N 3/32 H04N 5/208 5E051 5/208 H01R 13/64 Z

Claims (5)

[Claims] A first connector connected to a contour compensation circuit for enhancing a contour of an image by changing a scanning speed of an electron beam in a cathode ray tube of a television receiver by using a speed modulation coil; A third connector connected to a terrestrial magnetism correction circuit for canceling the effect of terrestrial magnetism on the electron beam by driving the terrestrial magnetism correction coil and a connection state with a second connector connected to the terrestrial magnetism coil; A connector connection state detection device for detecting a connection state with the fourth connector connected to a correction coil, comprising: a first terminal connected to a power supply voltage via a common resistor;
And a second terminal connected to the ground is provided on the first and third connectors, and the first,
Third and fourth terminals to be respectively connected to the second terminal are provided in the second and fourth connectors, and the second and fourth connectors have different resistance values and have different resistance values. The third and fourth terminals are connected, and are not connected from among the second and fourth connectors based on a voltage value at a connection point between the common resistor and the first terminal. A connector connection state detection device, comprising: a microcomputer for detecting a connector; and a display unit for displaying a detection result of the microcomputer. 2. A connector connection state detecting method for detecting a connection state between a first connector group including a plurality of connectors and a second connector group including a plurality of connectors to be connected to the first connector group. The resistance value in the resistance voltage dividing circuit is configured to be different depending on the connection / non-connection between the first connector group and the second connector group, and based on the value of the output voltage of the resistance voltage dividing circuit. A connector connection state detecting method for detecting that there is a connector not connected to the first connector group in the second connector group. 3. A connector connection state detection method for detecting a connection state between a first connector group including a plurality of connectors and a second connector group including a plurality of connectors to be connected to the first connector group. The resistance value in the resistance voltage dividing circuit is configured to be different depending on the connection / non-connection of the connectors of the second connector group, and the second connector is configured based on the output voltage value of the resistance voltage dividing circuit. A connector connection state detection method, wherein the number of connectors in the group that are not connected to the first connector group is detected. 4. A connector connection state detection method for detecting a connection state between a first connector group including a plurality of connectors and a second connector group including a plurality of connectors to be connected to the first connector group. The resistance value in the resistance voltage dividing circuit is configured to be different depending on the connection / non-connection of the connectors of the second connector group, and the second connector is configured based on the output voltage value of the resistance voltage dividing circuit. A connector connection state detecting method, wherein a connector not connected to the first connector group is detected in the group. 5. A first connector group including a plurality of connectors and a plurality of connectors to be connected to the first connector group, using the connector connection state detection method according to claim 2. A connector connection state detecting device for detecting a connection state with a second connector group consisting of the above-mentioned connectors.