JP2536111Y2 - Switch circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial application field) The present invention relates to a switch circuit for performing on / off control of a supply current to a load having a relatively large capacity, and particularly to control of turning on and off a light bulb or the like. It relates to a suitable switch circuit.

2. Description of the Related Art Conventionally, various switch circuits for controlling on / off of a current supplied to a load having a relatively large capacity have been known, but control a supply current to a load having a small resistance value such as a light bulb. As such, a switch circuit as shown in FIG. 3 is known.

In FIG. 1, reference numeral 11 denotes an amplifying unit connected to a power supply 14, which operates based on a signal voltage output when a switch (not shown) is turned on, amplifies the power supply voltage and supplies the amplified voltage to a current limiting unit 12. The current limiter 12 prevents overcurrent, and limits the output voltage from the amplifier 11 to control the controller.
13 to supply. The control unit 13 has an input terminal connected to the power supply 14 and an output terminal connected to the load L, and controls a supply current to the load L in response to an output voltage of the current limiting unit 12.

In the switch circuit having the above-described configuration, in the case where an incandescent lamp or the like is connected to the load L to perform blinking control, first, when the switch is turned on, the amplifier 11 operates based on the switch-on signal to amplify the power supply voltage. Then, when the output voltage of the amplifier 11 is provided to the controller 13 via the current limiter 12,
The control unit 13 raises the current supplied to the light bulb L within the range of the set value of the current limiting unit 12. As a result, the light bulb L is turned on, and the normal lighting state is maintained. On the other hand, when the switch is turned off in this state, the amplifying unit 11 is turned off, so that the supply current from the control unit 13 is cut off and the light bulb L is turned off.

(Problem to be Solved by the Invention) By the way, since the load L such as an incandescent lamp has a low resistance value and a current easily flows, the life of the load L is extremely short if the switch L is controlled to blink by this type of switch circuit. There was a problem. That is, when the switch ON signal is given to the amplifier 11, the amplified signal voltage is given to the controller 13 within the range of the maximum set value of the current limiter 12, but the controller 13 rises rapidly. In response to the signal voltage, the light bulb L
The supply current to is rapidly increased. That is, a rush current flows through the bulb L. On the other hand, when the switch is turned off, the amplifying unit 11 is turned off to cut off the supply current, so that the light bulb L is immediately turned off.
Therefore, the deterioration of the filament made of tungsten or the like is promoted, and the life of the bulb L is shortened. In addition, when the light bulb L is turned on, the power supply voltage is rapidly dropped, which may adversely affect peripheral circuits connected to the same power supply.

The present invention has been made in view of the above circumstances, and has as its object to prevent a rush current and prevent a shortening of the life of a load by gradually increasing or decreasing a supply current during on / off control of the load. Another object of the present invention is to provide a switch circuit that does not adversely affect peripheral circuits.

(Means for Solving the Problems) In order to solve the above problems, the switch circuit of the present invention includes:
A switch for turning on / off a power supply voltage, a current detection unit that detects a current flowing to a load when the switch is turned on, and outputs a voltage proportional to the detected current, and gradually increases an output voltage when the switch is turned on. A reference voltage generator for gradually decreasing the output voltage when the switch is off by a capacitor connected between the middle point of two resistors connected in series to the switch and a ground potential; and a reference voltage generator. The output voltage from the current detection unit is used as a reference voltage, the output voltage from the current detection unit is used as the detection voltage, the two are compared, and a comparison amplification unit that amplifies the difference voltage is provided. And a control unit for controlling a current supplied to the power supply.

(Operation) With the above configuration, when the switch is turned on, a detection voltage is extracted based on the current flowing through the load. At this time, the reference voltage gradually increased when the switch is turned on and the detected voltage are compared and amplified, and in response to the amplified voltage, the control unit gradually increases the supply current to the load side. At this time, since the detected voltage and the load current are proportional, the current flowing through the load rises gently as the reference voltage gradually increases, and is finally maintained at a predetermined level.

On the other hand, when the switch is turned off, the reference voltage gradually decreases, and the current supplied from the control unit to the load also gradually decreases. Also at this time, as the reference voltage gradually decreases, the current flowing through the load slowly falls and is finally cut off.

(Embodiment) Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing an electrical configuration of the switch circuit of the present invention.

In the figure, the reference voltage generator 2 for the power supply voltage V ₁ is given from the power source 1, and another power supply voltage V ₂ is applied as the signal voltage, the output of the reference voltage generating unit 2, compares It is provided to one comparison input of unit 4. The output of the comparator unit 4 through the amplifier 5, is guided to the control unit 10 the supply voltage V ₁ is given. The output of the control unit 10 is the load L
, And the other terminal of the load L is
Supply voltages V ₁ is guided to the current detecting unit 6 given.
The output of the current detector 6 is guided to the other comparison input of the comparator 4.

FIG. 2 shows a more specific circuit diagram of the switch circuit shown in FIG.

The switch circuit connects the incandescent lamp as the load L, supplied with power supply voltages V ₁ for applying a voltage to the peripheral circuits not shown, it is to blink controlling incandescent lamp L.

Of the movable contact switch 1 fixed contact to the supply voltage V ₂ is connected one end of a resistor 2a is connected to the other end of the resistor 2a, the bias resistor 2b having one end connected to the power line
And the other end of the capacitor 2c. The other end of the resistor 2a is connected via a resistor 2d to an inverting input terminal of a comparison amplifier 3 (corresponding to the comparison unit 4 and the amplification unit 5 shown in FIG. 1). The output terminal of 3
The resistor 2d is connected to the other end of the resistor 2d via a capacitor 7 for preventing oscillation, and is connected to the base of the transistor Q via a base resistor 8. Further, the emitter of the transistor Q is connected to a power supply line of the power supply voltage V ₁ , and the collector is connected to one end of the incandescent lamp L. The other end of the incandescent lamp L is connected to a non-inverting input terminal of the comparison amplifier 3 and to a power supply line via a resistor (current detector) 6. The current detector 6 is configured to extract a voltage proportional to a load current appearing at both ends of the resistor as a detection voltage based on a current supplied to the incandescent lamp L. Note that the power supply terminal of the comparison amplifier 3 is given a power supply voltage V _2, also the resistor 9 is interposed between the emitter and base of the transistor Q.

In the above configuration, the reference voltage generator 2 is constituted by the resistors 2a and 2d, the bias resistor 2b and the capacitor 2c, and the output voltage is gradually increased or decreased in response to the on / off of the switch 1, and The reference voltage is applied to the inverting input terminal of the comparison amplifier 3. Further, the control unit 10 is constituted by the transistor Q.
That is, the control unit 10 is configured to control the current supplied to the incandescent lamp L in response to the output voltage from the comparison amplifier 3.

Such a configuration of the switch circuit, although it is possible to blink controlling incandescent lamp L, of which the power supply voltage in this embodiment the two types of V ₁ and V ₂ is the overcurrent or the like to the load This is to prevent the influence. In other words, apart from the power supply voltages V ₁ supplies a voltage to the peripheral circuit, by providing the power supply voltage V ₂ for supplying a signal voltage to the reference voltage generator 2, a signal voltage to the reference voltage generator 2 stable , And the current flowing through the incandescent lamp L can be set accurately within the limit value. For example, even when the power supply voltage V ₁ is too high, since the switching circuit operates based on the power supply voltage V _2, the over current is supplied is prevented against incandescent lamp L. On the other hand, the power supply voltage V ₂ is shut off, the output terminal 3c of the comparison amplifier 3 becomes a high impedance, to reduce the current conducted to the incandescent lamp L,
The influence on the incandescent lamp L can be controlled.

 Next, the operation of the switch circuit having the above configuration will be described.

First, when the switch 1 is in the OFF state, since the power supply voltage V ₂ is not supplied to the inverting input terminal 3b of the comparison amplifier 3, the inverting input terminal 3b is maintained at 0V. At this time, assuming that a current is flowing through the incandescent lamp L, a current flows through the resistor which is the current detecting unit 6 and a potential difference is generated between both ends of the resistor, so that the current is supplied to the non-inverting input terminal 3a of the comparison amplifier 3. The detection voltage will be higher than 0V. Therefore, the output voltage of the output terminal 3c increases, and the current flowing between the emitter and the collector of the transistor Q decreases, and accordingly, the potential difference between both ends of the current detection unit 6 also decreases. Then, the voltage at the output terminal 3c of the comparison amplifier 3 increases until the voltage at the non-inverting input terminal 3a becomes 0 V, the current flowing between the emitter and the collector of the transistor Q also becomes zero, and the current flows through the incandescent lamp L. It does not flow. That is, even when a current flows through the incandescent lamp L when the switch 1 is in the OFF state, the incandescent lamp L is kept off by the above operation.

Next, switch 1 is turned on to light the incandescent lamp L.
If the state, the power supply voltage V ₂ is applied as a signal voltage to the reference voltage generator 2. At this time, since the output voltage of the reference voltage generator 2 gradually increases due to charging and discharging of the capacitor 2c, the terminal voltage applied to the inverting input terminal 3b of the comparison amplifier 3 also gradually increases. As a result, the voltage of the output terminal 3c decreases, the base current of the transistor Q increases, and the transistor Q is turned on.
Will be supplied with current. Therefore, the load current of the incandescent lamp L gradually rises, and the incandescent lamp L is turned on.

By the way, when the terminal voltage of the non-inverting input terminal 3a of the comparison amplifier 3 is higher than the terminal voltage of the inverting input terminal 3b,
The output voltage of the output terminal 3c increases. As a result, the base current of the transistor Q decreases, and the current flowing between the emitter and the collector and supplied to the incandescent lamp L also decreases. Therefore, the potential at both ends of the current detection unit 6 decreases, and the non-inverting input terminal 3a , The detection voltage supplied to is reduced. That is, the detection voltage supplied to the non-inverting input terminal 3a is
The circuit will work to be equal to the reference voltage supplied to

On the other hand, the terminal voltage of the non-inverting input terminal 3a is
If the terminal voltage is lower than the terminal voltage of the output terminal 3c, the output voltage of the output terminal 3c decreases. Therefore, the base current of the transistor Q increases, and the current flowing between the emitter and the collector and supplied to the incandescent lamp L also increases, so that the potential at both ends of the current detection unit 6 increases, and the non-inverting input terminal 3a , The detection voltage supplied to is increased. That is, the circuit works so that the detection voltage supplied to the non-inverting input terminal 3a becomes equal to the reference voltage supplied to the inverting input terminal 3b.

That is, in response to a change in the reference voltage supplied to the inverting input terminal 3b of the comparison amplifier 3, the current flowing through the incandescent lamp L gradually rises, and the incandescent lamp L gradually increases in brightness, and thereafter becomes stable. It turns on.

Here, when the transistor Q is completely turned on,
Since the supply current is limited by the resistance value of the incandescent lamp L,
No current exceeding the limit value flows through the incandescent lamp L, and the detection voltage at the non-inverting input terminal 3a is kept lower than the reference voltage at the inverting input terminal 3b. As a result, the voltage variation caused by the incandescent lamp L does not occur.

Next, in order to turn off the incandescent lamp L, and the switch 1 to the OFF state, since the supply of the power supply voltage V ₂ to the reference voltage generator 2 is stopped, the output voltage of the reference voltage generator 2 is gradually The terminal voltage of the inverting input terminal 3b gradually decreases. At this time, the comparison amplifier 3 is connected to the switch 1 described above.
, The terminal voltage of the non-inverting input terminal 3a becomes equal to the terminal voltage of the inverting input terminal 3b. Therefore, the current supplied from the transistor Q to the incandescent lamp L gradually decreases, and the brightness of the incandescent lamp L gradually decreases, and finally, the lamp is turned off.

As described above, according to the switch circuit of the present invention,
By turning on and off the switch 1, the incandescent lamp L can be flickered with a gradual change in brightness. In addition, this at the time of the lighting of the incandescent light bulb L is, because it does not even give a rapid change to the power supply voltage V _1, also affects almost eliminated on the peripheral circuit.

In the above embodiment, the configuration using the transistor Q for the control unit 10 has been described. However, a configuration using a switching regulator instead of the transistor Q can be adopted. Also, the case where the incandescent lamp is connected as the load L to perform the blinking control has been described. However, the switch circuit of the present invention is also applicable to the case where not only the incandescent lamp L but also various electric appliances are connected as the load and the on / off control is performed. Of course it is possible.

(Effects of the Invention) The switch circuit of the present invention can gradually increase the current flowing to the load when the switch is connected to turn on the switch, while gradually decreasing the supply current to the load when the switch is turned off. Because it was configured to be able to
In a load having a relatively large capacity, rush current can be prevented, and the life of the load can be maintained long. In addition, since a problem such as a sudden drop in the power supply voltage when the switch is turned on is eliminated, a problem that the voltage fluctuation adversely affects peripheral circuits and the like connected to the same power supply is also eliminated.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an electrical configuration of the switch circuit of the present invention, FIG. 2 is a more specific circuit diagram of the switch circuit, and FIG.
FIG. 1 is a block diagram showing an electrical configuration of a conventional switch circuit. DESCRIPTION OF SYMBOLS 1 ... Switch 2 ... Reference voltage generation part 3 ... Comparison amplifier 6 ... Current detection part (resistance) 10 ... Control part (transistor) L ... Load (incandescent lamp)

Claims (1)

(57) [Scope of request for utility model registration] 1. A switch for turning on / off a power supply voltage, a current detection unit for detecting a current flowing to a load when the switch is turned on, and outputting a voltage proportional to the detected current, and a switch connected in series to the switch. A reference voltage generator for gradually increasing the output voltage when the switch is on and gradually decreasing the output voltage when the switch is off by a capacitor connected between the middle point of the two resistors and the ground potential; A comparison amplifier that compares the output voltage from the reference voltage generator as a reference voltage, compares the output voltage from the current detector as a detection voltage, and amplifies the difference voltage, And a control unit for controlling a current supplied to the load side in response.