JP3306698B2 - Overvoltage prevention circuit and power supply - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a power conversion circuit.
Output voltage can be stabilized, and over-voltage occurs when adjusting output voltage.
Overvoltage prevention circuit to prevent pressure generation and this overvoltage prevention circuit
The present invention relates to a power supply device having a path.

[0002] Supplying an operating voltage to a load such as a semiconductor circuit
Power supply protects load against excessive output voltage rise
A lock-type overvoltage protection circuit is
You. Their to, in the manufacturing process of the power supply, the operation electric
Pressure is set, but during the adjustment work,
The operating voltage of the overvoltage protection circuit is not set to the correct value.
Adversely affect the load due to overvoltage
When the overvoltage protection circuit operates, restarting
It is necessary to prevent this from happening.
It is desired.

[0003]

2. Description of the Related Art FIG . 3 shows an essential part of an example of a conventional power supply device.
1 is a power supply conversion circuit, 2 is a control circuit, 3 is an operation
Amplifier (OP), 4 is an overvoltage protection circuit (OVP circuit),
R ₁ and R ₂ are resistors, and RV is a variable resistor. Power conversion times
The path 1 includes, for example, a DC / DC converter, and
For example, the ON period of the switching is controlled by the path 2
You. Output voltage V _D of the power supply conversion circuit 1 includes a resistor R ₁
The voltage is divided by the variable resistor RV.
The voltage V _RV and the reference voltage V _r are used to compose a comparison circuit.
The control voltage V _{OP is} compared by the operational amplifier 3 and corresponds to the difference.
Is input to the control circuit 2, and the voltage conversion circuit
The output is controlled by controlling the switching period and ON period of 1
It is possible to stabilize the voltage V _D. Therefore, the variable resistor
By adjusting the anti-RV, the output voltage V _D desired value
Can be set to

The overvoltage protection circuit 4 is provided with a
When the output voltage V _D is overvoltage condition exceeding a predetermined value, control
A stop signal is input to the control circuit 2 to operate the power conversion circuit 1.
To stop. As a result, the output power
When pressure V _D becomes overvoltage condition, the dynamic power conversion circuit 1
Operation to prevent damage to the load due to overvoltage.
Can be.

[0005]

SUMMARY OF THE INVENTION Semiconductor circuits are
When the voltage to be applied becomes an overvoltage
The child will be destroyed or malfunction. There
Then, an overvoltage protection circuit 4 is provided to prevent such an overvoltage state.
And stops the operation of the power supply conversion circuit 1.
Overvoltage of 120-140% of rated voltage
The operation of the power supply conversion circuit 1 is stopped and the locked state is established.
You. Therefore, if you do not release this locked state,
The circuit 1 cannot be restarted.

The semiconductor circuit is a TTL (transistor
When configuring a transistor / logic) circuit,
Since the withstand voltage is relatively high, the overvoltage protection circuit as described above
4 can be protected by C-MOS (complementary).
MOS) transistors, the withstand voltage is
Low, the output voltage of the power supply
The demands have become stricter, and the overvoltage protection circuit 4
The allowable width of the operating voltage tends to be narrow.

The operating voltage of the overvoltage protection circuit 4 is set low.
If was boss has compared the output voltage V _D of the power supply
For example, during the adjustment by the variable resistor RV, the operation of the overvoltage protection circuit 4 is performed.
The operating voltage may be exceeded. In that case, overvoltage protection circuit
4 operates to stop the operation of the power conversion circuit 1
State. Therefore, after releasing this locked state,
Since the adjustment of the output voltage V _D is started again ,
There was a problem that the smoothness of the adjustment work was hindered.

In order to avoid such a problem, an overvoltage protection
It is conceivable to set the operating voltage of the protection circuit 4 high.
But during the adjustment of the output voltage V _D of the power supply, incorrect
Te, even by increasing the output voltage V _D, the overvoltage protection circuit 4 is moving
Semiconductor elements that make up the load semiconductor circuit
There is a problem of destroying.

The present invention provides a method for adjusting the output voltage of a power supply device.
Even if there is, prevent the output voltage from rising above a predetermined value
The purpose is to:

[0010]

An overvoltage protection circuit according to the present invention is provided.
The output of the power supply conversion circuit 1 will be described with reference to FIG.
Enter the voltage set by dividing the voltage V _D and the reference voltage
An operational amplifier 3 for outputting a control voltage corresponding to the difference,
Power supply by inputting the control voltage from the operational amplifier 3
A control circuit 2 for controlling the output voltage V _D of the circuit 1 ;
Shunt resistor to the input terminal of the reference voltage of the operational amplifier 3
The shunt regulator 5 is connected.
The control terminal, the divided voltage of the output voltage V _D of the power conversion circuit 1
It is configured to apply voltage.

The power supply according to the present invention has a
Enter the setting voltage by dividing the output voltage V _D and the reference voltage and
Operational amplifier 3 which outputs a control voltage corresponding to the difference
And the control voltage from the operational amplifier 3
Yes and a control circuit 2 for controlling the output voltage V _D of circuit 1
And shunt to the terminal for inputting the reference voltage of the operational amplifier 3.
Regulator 5 is connected and this shunt regulator 5
The control terminal of the divided potential of the output voltage V _D of the power conversion circuit 1
Overvoltage protection circuit configured to apply voltage
When the output voltage of the conversion circuit 1 rises above a predetermined value, the power supply
An overvoltage protection circuit 4 for stopping the operation of the conversion circuit 1 is provided.
It is a thing.

[0012]

FIG . 1 shows an embodiment of the present invention.
1 is a power supply conversion circuit, 2 is a control circuit, and 3 is an operational amplifier.
(OP), 4 is an overvoltage protection circuit (OVP circuit), 5 is a system
Catcher cement regulator, R ₁ to R ₇ are resistors, RV is a variable resistor
Show anti. The operational amplifier 3 outputs the output voltage of the power conversion circuit 1.
A voltage V obtained by dividing V _D by a resistor R ₁ and a variable resistor RV.
_RV and, the reference voltage V _R the resistor R _3, R _4, the R ₅ partial pressure
The voltage V is compared with the compared voltage V.
The corresponding control voltage V _OP is input to the control circuit 2 and the control circuit 2
In the power supply conversion circuit 1 according to the control voltage V _OP
And controls the switching operation, the stabilization of the output voltage V _D
It is intended. Further, the output voltage V _D is the variable resistance RV
Can be set by adjusting.

[0013]Also, the reference voltage V of the operational amplifier 3 _R Was divided
Shunt regulation at the terminal for inputting voltage V (reference voltage)
Controller 5 and the control terminal of this shunt regulator 5.
Output voltage V _D Is the resistance R ₆ , R ₇ To
More divided voltage V _REF Is connected so as to apply. Shi
As is well known, the shunt regulator 5 has its control terminal. Child
(Trigger terminal) _REF Is the predetermined value V
_th (Threshold voltage) or less, it is off,
If the voltage exceeds the fixed value, the voltage at both ends will be almost constant.
The current flows.

[0014] Then, before the output voltage V _D reaches the upper limit
The voltage V _REF across the resistor R ₇ is a shunt regulator
5 so as not to exceed a predetermined value V _th (threshold voltage),
Until the output voltage V _D reaches the upper limit, the shunt regulator
The lator 5 maintains the off state. In this state, the variable resistor
By adjusting the RV, it will set the output voltage V _D
But during the adjustment of the output voltage V _D by the variable resistor RV,
If the voltage V _RV across the variable resistor RV is erroneously increased,
The output voltage V _D of the source conversion circuit 1 rises, and this output voltage V _{D
When D} reaches the upper limit, the voltage V _REF across the resistor R ₇ becomes
Exceeds a predetermined value V _th (threshold voltage) of the shunt regulator 5
The shunt regulator 5 is off to on
Becomes

[0015] Thus, in parallel with the resistor R _5, the on state
Shunt regulator 5 is connected.
Ri, a reference voltage V _R the voltage V obtained by dividing reduced. Follow
Therefore, the voltage V _RV across the variable resistor RV is
High state, and becomes the control voltage V _OP of the output of the operational amplifier 3.
Accordingly, the control circuit 2 controls the output voltage V _D of the power conversion circuit 1
Control to lower. That is, the upper limit of the output voltage V _D
Values, the divided voltage at which the voltage across the resistor R ₇ of the output voltage
V _REF and a predetermined value V _th of the shunt regulator 5 (threshold
Voltage) to set the variable resistor RV
During the adjustment of the output voltage V _D with an upper limit of the output voltage V _D
It can be controlled not to rise above the value.

[0016]Also, as shown in FIG.
As the voltage, the voltage V across the variable resistor RV _RV And the resistance R
_Five And the control voltage V _OP And the output voltage V
_O (Output voltage V of power supply conversion circuit 1 in FIG. 1) _D )
Then, the variable resistor RV is adjusted so that the voltage V _RV
Is gradually reduced, the resistance R _Five Voltage V across the
Since the state is constant, the control voltage V _OP Rises. in addition
The output voltage V _O Is rising I do. Point A is in this adjustment process
Show midway.

Then, the adjustment of the variable resistor RV is continued,
When the input voltage V _O reaches the point B at which the upper limit voltage V _X is reached, the system
The resistance R ₇ applied to the control terminal of the shunt regulator 5
When the voltage V _REF between both ends of the
When the regulator 5 changes from off to on, the resistance
Lowering the voltage V across the R _5. As a result,
The rise of the control voltage V _OP of the output of the width band 3 is prevented, and
It will be constant. Therefore, the output voltage V _O is control the upper limit value V _X
Since the control can be prevented from exceeding the upper limit value V _X.

[0018] Thus, in FIG. 1, the variable output voltage V _D
When setting by adjusting the variable resistance RV,
The voltage V _RV across the anti-RV is increased, and the output voltage
When V _D exceeds the upper limit, the voltage at both ends of the resistor R ₇ is increased .
Divided voltage V _REF is applied to the control terminal of shunt regulator 5.
And the voltage V _REF exceeds a predetermined value.
Ri, is lower the voltage V across the resistor R ₅ as a reference voltage
So, it is possible to suppress an increase in the output voltage V _D.

Further, the overvoltage protection circuit of the present invention is applied to a power supply device.
Apply and set the variable resistor RV for some reason
The output voltage V _D of the power supply is abnormal
To dangerous operating conditions.
The overvoltage protection circuit (OVP circuit) indicated by the dotted line in FIG.
Path) 4 and convert power when overvoltage condition occurs
Stop the operation of the circuit 1 to protect the load semiconductor circuit, etc.
Can be

The overvoltage protection circuit in this case is, for example,
First, set so that the overvoltage protection circuit does not
Adjust the output voltage of the device, and in the final stage
Setting to enable predetermined overvoltage protection. It
Overvoltage protection circuit during adjustment of the output voltage of the power supply.
To prevent the lock state due to the operation of
Set by the shunt regulator 5 of the pressure prevention circuit.
Can be controlled so as not to exceed the upper limit.

In the power supply device shown in FIG.
The conversion circuit 1 is not limited to a DC / DC converter,
For example, an inverter may be used.
Power conversion circuit that generates an output voltage by
All are applicable. As the control circuit 2,
The output voltage is changed by pulse width control
Not limited to this, use various formats such as RCC system
be able to.

[0022]

As described above, as described above, the overvoltage protection of the present invention is achieved.
The shutdown circuit is activated when the output voltage exceeds the upper limit during adjustment.
Then, the shunt regulator 5 operates and its output voltage
Can be controlled so as not to exceed the upper limit. Follow
During output voltage adjustment, the output voltage may exceed the upper limit.
State, the shunt regulator 5 changes from off to on.
The output voltage rise to the upper limit.
Wear. This makes it possible to adjust the output voltage of the power converter
It can be done smoothly. It can be composed of relatively few parts
There are advantages.

In addition, a power supply device provided with an overvoltage protection circuit
By providing the overvoltage protection circuit described above, the overvoltage protection circuit
Even if the protection voltage of the road is set low,
If the output voltage exceeds the upper limit during output voltage adjustment,
In this case, the overvoltage protection circuit does not operate, but the overvoltage protection circuit does not operate.
Output voltage can be suppressed to the upper limit value, so overvoltage protection
No lock state of the circuit will occur and the output voltage will be adjusted.
Adjustment work is smooth and incorrect adjustments can be made.
It can be protected reliably.

[Brief description of the drawings]

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

FIG. 2 is a diagram showing an operation time chart of the circuit of the present invention.

FIG. 3 is a diagram illustrating a configuration example of a conventional power supply device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Power supply conversion circuit 2 Control circuit 3 Operational amplifier (OP) 4 Overvoltage protection circuit (OVP circuit) 5 Shunt regulator

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-6-98532 (JP, A) JP-A-7-306725 (JP, A) Japanese Utility Model 63-138880 (JP, U) (58) Survey Field (Int.Cl. ⁷ , DB name) G05F 1/10 G05F 1/56 H02H 3/20 H02H 9/04 H02J 1/00

Claims (2)

(57) [Claims] 1. A control voltage the output voltage of the power supply conversion circuit to input the divided the setting voltage and the reference voltage corresponding to the difference
An operational amplifier for outputting the control signal, and the control from the operational amplifier
Controlling the output voltage of the power conversion circuit by inputting a voltage
A control circuit, and a terminal for inputting the reference voltage of the operational amplifier.
Connected to the shunt regulator.
The divided voltage of the output voltage of the power conversion circuit is imprinted on the control terminal.
An overvoltage protection circuit, characterized in that the overvoltage protection circuit is configured to be added . 2. A setting in which an output voltage of a power supply conversion circuit is divided.
Control voltage equivalent to the difference by inputting the application voltage and the reference voltage
An operational amplifier for outputting the control signal, and the control from the operational amplifier
Controlling the output voltage of the power conversion circuit by inputting a voltage
And a control circuit for receiving the reference voltage of the operational amplifier.
Connect a shunt regulator to the
Output terminal of the power conversion circuit
Equipped with an overvoltage protection circuit configured to apply a divided voltage
And the output voltage of the power conversion circuit rises above a predetermined value.
Overvoltage protection circuit that stops the operation of the power conversion circuit when
A power supply device provided with a road .