JPH049582Y2 - - Google Patents

Description

[Detailed description of the invention] (Field of the invention) The present invention relates to a load disconnection detection circuit, and more specifically, in an on/off drive circuit whose load is a solenoid, a DC motor, etc., the present invention detects a disconnection of the load or a disconnection of the wiring leading to the load. The present invention relates to a load disconnection detection circuit that detects the operation of the drive circuit and also displays the operation of the drive circuit.

(Background of the invention) Conventional load disconnection detection circuits are provided independently of the load drive circuit, and detect load disconnection or disconnection of the wiring leading to the load by operating a test switch of the independent detection circuit. However, this circuit was not fully satisfactory in terms of cost and space occupied. Also, in order to know the health status of the load before the load is activated, it is troublesome to operate a test switch before the load is activated.For this reason, it is common practice to operate the test switch after confirming that the load is not activated to determine if the load is disconnected. It was hot.

On the other hand, Japanese Patent Laid-Open No. 58-38872 discloses a neon lamp that is connected in parallel to a relay contact that controls on/off of the heater, and if the heater is disconnected while the relay contact is open, the lamp will not turn on. A disconnection detection device is described that is configured so that the neon lamp goes out in the same way when the relay contact changes from the open state to the closed state and the heater goes into the operating state. . However, if such a configuration is applied to a load that is driven by being controlled on and off by a pulsed signal, the lamp will repeatedly blink and the pulse frequency will change when the load is in operation. If the value is too high, it will appear as if the lamp is on, causing the inconvenience that it will not be possible to confirm that the load is in operation.

In view of the problems of the prior art as described above, the present invention is capable of detecting load disconnection by turning off the light emitting diode when the load drive circuit is inactive, despite its inexpensive and compact configuration. An object of the present invention is to provide a load disconnection detection circuit that allows the load operation to be visually recognized by turning off a diode when the drive circuit is in operation, even if the drive signal to the drive circuit is pulsed.

(Structure of the invention) In order to achieve this purpose, the invention of the present invention
Connect a series circuit of a light emitting diode and a resistor of a size that does not operate the load in parallel with the switching member of the off-drive circuit, and connect a capacitor and a diode to the elements of the drive circuit that become energized when the switching member is on. The series circuits of the switching member are connected in parallel, and the capacitor is connected in parallel with the light emitting diode, and the charge charged in the capacitor during the off-time of the switching member is discharged during the on-time, and the time constant of the capacitor and the resistor is is selected so that the charging voltage of the capacitor does not reach the lighting voltage of the light emitting diode during the off-time, so that if the drive circuit is inactive and the load is healthy, the diode will turn on, and if the load is disconnected, the diode will turn off and the load will be turned off. Disconnection can be detected at all times, and the load operation can be visually recognized by turning off the diode when the drive circuit is in operation.

According to this, with an inexpensive and compact configuration, disconnection of the load can be detected by turning off the light emitting diode when the drive circuit is inactive, and even if the drive signal to the drive circuit is pulsed, Even during the off time, the light emitting diode is prevented from lighting up by the action of the capacitor, so that when the drive circuit is in operation, the load operation can be visually recognized by turning off the diode.

(Description of Embodiments) Embodiments of the present invention will be described below with reference to the accompanying drawings.

In FIGS. 1 to 3, Q ₁ , Q ₂ and Q ₃ are transistors, R ₁ , R ₂ , R ₃ and R ₄ are resistors, and R _L is a load.

FIG. 1 shows the configuration of the on/off drive circuit.

In this circuit, when the input becomes high level, transistor Q ₁ , transistor Q ₂ , and transistor Q ₃ are turned on in this order one after another, and a load current is supplied from the power supply through transistor Q ₃ .
When the input becomes low level, all three transistors are turned off and the supply of load current is stopped.

FIG. 2 shows the circuit that is the basis of the present invention, and the part surrounded by the dashed line is the on/off drive circuit.

As shown in this figure, a series circuit consisting of a resistor _R4 whose resistance value is large enough to not operate the load _RL and a light emitting diode D is connected in parallel with a transistor _Q3 , which is a switching member of an on/off drive circuit. are doing.

In this circuit, when there is no input signal, transistors Q ₁ , Q ₂ and Q ₃ are off, but the load R _L receives a small amount of power from the power supply +Vcc through the light emitting diode D and the resistor R ₄ that does not activate the load R _L. Since current is flowing, the light emitting diode D lights up. If the load R _L or the wiring leading to the load R _L is disconnected, the light emitting diode will not light up.

When the input signal is high level, transistors Q ₁ , Q ₂ and Q ₃ are turned on and the transistors
Load current is supplied to load R _L through Q ₃ . Collector when transistor _Q3 is on
The emitter voltage Vce is the lighting voltage of the light emitting diode.
Since V _f is selected to be smaller, the light emitting diode turns off, indicating that the load R _L is operating.

If the input signal is a pulse train such as pulse modulation, the light emitting diode will repeatedly blink while the load is operating according to the on/off state of the transistor _Q3 . If the frequency of this pulse train is high, it will look like intermittent lighting.

FIG. 3 shows an embodiment of the present invention in which blinking of the light emitting diode is avoided in response to such a pulse input signal.

The circuit shown in this example connects a series circuit of a capacitor C and a diode d in parallel between the emitter and collector of a transistor _Q2 .
The circuit is the same as the one shown in FIG. 2, except that it is connected in parallel to the light emitting diode D.

In this circuit, when a pulse train input signal is applied, the capacitor C, which has been charged to the terminal voltage of the light emitting diode D during the off time, is charged during the on time of the drive circuit.
The charge is discharged through transistor Q ₂ and diode d, thereby preventing capacitor C from lighting light-emitting diode D. During the next off-time of the drive circuit, the capacitor C is charged by the current flowing through the resistor R ₄ and the load R _L ;
The value of the capacitor C and the value of the resistor _R4 are selected so that the driving circuit is turned on before the capacitor C is charged to the lighting voltage of the light emitting diode D. This turns off the light emitting diode D while the drive circuit is in operation, thereby turning off the load R _L
This shows that it is working.

(Effects of the invention) As explained above, according to the invention, by simply adding a light emitting diode, a resistor, a rectifier diode, and a capacitor, the drive circuit can be converted into a pulse train drive circuit that receives a pulse signal by pulse width modulation, etc. Even in such cases, a load disconnection detection circuit can be obtained which can detect load disconnection and at the same time display the operation of the drive circuit. This type of circuit does not require special parts and has a small number of parts, so it can be installed in a small space at a low cost, and it is also convenient for circuit maintenance and inspection. Furthermore, by attaching a light emitting diode to the panel, it can be used to display the operation of a load such as a driving solenoid or motor.

Note that the present invention is not limited to the above-mentioned embodiments, and can be used in a wide variety of ways. For example, by using the light emitting diode D as an input light emitting diode of a photocoupler, the light emitted from this light emitting diode can be extracted as a disconnection detection signal or an operation signal to operate and control other circuits.

[Brief explanation of the drawing]

FIG. 1 shows the configuration of an on/off drive circuit, FIG. 2 shows a circuit that is the basis of the present invention, and FIG. 3 shows an embodiment of the present invention. Q ₁ , Q ₂ , Q ₃ ...transistor, R ₁ , R ₂ , R ₃ ,
_R4 ...Resistance, R _L ...Load, C...Capacitor,
D... Light emitting diode, d... Diode.

Claims (1)

[Scope of utility model registration request] Connect a series circuit of a light emitting diode and a resistor of a size that does not operate the load in parallel with the switching member of the on-off drive circuit, and connect a capacitor to the element of the drive circuit that becomes energized when the switching member is on. and a series circuit of diodes are connected in parallel, and the capacitor is connected in parallel with the light emitting diode, and the charge charged in the capacitor during the off-time of the switching member is discharged during the on-time, and the connection between the capacitor and the resistor is The time constant is selected so that the capacitor's charging voltage does not reach the lighting voltage of the light emitting diode during the off-time, so that if the drive circuit is inactive and the load is healthy, the diode will turn on, and if the load is disconnected, the diode will turn off. A load disconnection detection circuit is characterized in that load disconnection can be detected at all times, and load operation can be visually confirmed by turning off a diode when the drive circuit is in operation.