JP3471746B2 - Switching power supply - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a switching power supply device for detecting an abnormal current in a switching power supply circuit.

[0002]

2. Description of the Related Art As a conventional switching power supply device, there is one shown in FIG. 5, for example. This switching power supply device has a switching power supply circuit in which a switching element 3 is connected in series to a DC power supply 1 via a primary coil 2a of a transformer 2 and a primary coil 4a of a current transformer 4.
A resistor 6 is connected in parallel to the secondary coil 4b of the current transformer 4 via a diode 5. The diode 5 and the resistor 6 convert the secondary current of the current transformer 4 into a voltage −. It constitutes the voltage conversion circuit A.

A capacitor 9 is connected in parallel to the current-voltage conversion circuit A via a diode 19. The diode 19 and the capacitor 9 form a rectifying / smoothing circuit B that rectifies and smoothes the output voltage of the current-voltage conversion circuit A, and the cathode of the diode 19 is connected to the power supply controller 12 described later. further,
The output voltage of the current-voltage conversion circuit A can be input to the power supply control unit as a pulse current detection signal described later.

In such a conventional switching power supply device, a current pulse flowing through the switching power supply circuit is detected by the current transformer 4, and the detected voltage is converted into a current-voltage conversion circuit A including a diode 5 and a resistor 6. Convert voltage. Further, the voltage obtained by the conversion is rectified and smoothed by the rectifying and smoothing circuit B including the diode 19 and the capacitor 9 in the subsequent stage, and the obtained current detection signal 1 is obtained.
1 is supplied to the power supply controller 12. On the other hand, the pulse voltage obtained by the current-voltage conversion circuit A is input to the power supply control unit 12 as the pulse current signal 10, and when the peak voltage value of this pulse voltage exceeds the specified value, this power supply control unit 12 outputs the control signal. To shorten the time for which the switch element 3 is turned on (shorten the pulse width of the switching power supply circuit current), and prevent the peak value of the current flowing through the switch element 3 from exceeding a specified value. .

[0005]

However, in such a conventional switching power supply device, when the current flowing through the switching power supply circuit increases due to a short circuit of a load (not shown), that is, the current transformer 4 When the output current increases, the pulse voltage output from the current-voltage conversion circuit A rises as compared with the current flowing in the primary coil 29 of the transformer 2 due to the charging operation of the smoothing capacitor 9 of the output current. However, there is a problem that the overcurrent protection operation is delayed.

The present invention solves the above problems, and an object of the present invention is to provide a switching power supply device which can realize an overcurrent protection operation with a simple structure without delay even if a smoothing capacitor is provided. And

[0007]

[Means for Solving the Problems] To achieve the above object,
A switching power supply device according to a first aspect of the present invention is a switching power supply device connected in series to a DC power supply via a primary side coil of a transformer for supplying load power and a current transformer; A current-voltage conversion circuit that converts the current obtained on the secondary side of the transformer into a voltage, a rectification smoothing circuit that rectifies and smoothes the output of the current-voltage conversion circuit and outputs a current detection signal, and the current-voltage When the peak voltage value of the output of the conversion circuit exceeds a specified value, the switching power supply unit including a power supply control unit that outputs the overcurrent detection signal while narrowing the switching-ON pulse width by the switching element, A circuit, a transistor for receiving the output voltage of the current-voltage conversion circuit in a base via a resistor and rectifying the output voltage; It is configured to output voltage transistor and a capacitor for smoothing, the secondary side of the transformer
A DC load is connected to the coil through a rectifying and smoothing section.
It is characterized in that it constitutes the current-voltage conversion circuit . As a result, overcurrent protection can be performed without delay when overcurrent is detected while detecting the current of the switching power supply circuit and protecting the switch element.

Further, in the switching power supply device according to a second aspect of the present invention, the rectifying / smoothing circuit receives the output voltage of the current-voltage converting circuit at its gate via a resistor and rectifies it.
It is composed of an OSFET and a capacitor for smoothing the output voltage of the MOSFET. This makes it possible to configure a peak voltage rectifier circuit with high input impedance that does not cause a delay in overcurrent detection.

[0009]

In the switching power supply device according to the invention of claim 3 , the power supply control unit is operated in parallel with the current detection circuit including the power supply control unit, the switch element, the current-voltage conversion circuit and the rectifying / smoothing circuit. A parallel operation control unit is connected to control the output currents of these switching power supply circuits so as to have the same value by receiving current information from other current detection circuits. As a result, overcurrent protection during the parallel operation can be realized without delay.

According to a fourth aspect of the present invention, in the switching power supply device, the current-voltage conversion circuit comprises a diode and a resistor connected in parallel to the secondary coil of the current transformer via the diode. It is composed. As a result, the current-voltage conversion circuit can be realized with a simple configuration.

Further, in the switching power supply device according to the invention of claim 5 , the power supply control unit is made to output the overcurrent detection signal inputted from the rectifying / smoothing circuit to the upper power supply system control unit. . As a result, circuits and devices can be protected from overcurrent.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a circuit diagram showing a switching power supply device of the present invention, which is a switching power supply circuit in which a switching element 3 is connected in series to a DC power supply 1 via a primary coil 2a of a transformer 2 and a primary coil 4a of a current transformer 4. have. A resistor 6 is connected in parallel to the secondary coil 4b of the current transformer 4 via a diode 5. These diode 5 and resistor 6 are
Current for converting the secondary side current of the current transformer 4 into voltage −
It constitutes the voltage conversion circuit A.

Further, the current-voltage conversion circuit A is connected via a resistor 7 to the base of a transistor 8 whose collector is connected to a power supply Vcc, and the emitter of this transistor 8 is connected to a power supply control unit 12 which will be described later. At the same time, it is grounded via the capacitor 9. These resistor 7, transistor 8 and capacitor 9 form a rectifying / smoothing circuit C that rectifies and smoothes the output voltage of the current-voltage conversion circuit A. Further, the output voltage of the current-voltage conversion circuit A is used as a pulse current detection signal, which will be described later, in the power supply controller 1.
It is possible to input to 2.

In the switching power supply device according to the present invention, the current pulse flowing through the switching power supply circuit is detected by the current transformer 4, and the detected voltage is detected by the diode 5
And current-voltage conversion through the resistor 6. Further, the voltage obtained by the conversion is rectified and smoothed by the rectifying and smoothing circuit C having a high input impedance composed of the resistor 7, the transistor 8 and the capacitor 9 in the subsequent stage, and the obtained current detection signal
1 is supplied to the power supply controller 12. On the other hand, the pulse voltage obtained by the current-voltage conversion circuit A is input to the power supply control unit 12 as the pulse current signal 10, and when the peak voltage value of this pulse voltage exceeds the specified value, the power supply control unit 12 immediately controls. A signal is output to shorten the time during which the switch element 3 is turned on (shorten the pulse width of the switching power supply circuit current) to prevent the peak value of the current flowing through the switch element 3 from flowing beyond a specified value. To do.

The pulse voltage obtained from the current-voltage conversion circuit A is supplied to the base of the transistor 8 via the resistor 7 and rectified and smoothed by the transistor 8 and the capacitor 9. The rectified and smoothed voltage is equal to a value obtained by subtracting the voltage Vbe between the base and the emitter of the transistor 8 from the peak value of the pulse voltage, and this DC voltage is used as the current detection signal 11 by the power supply control unit 12
Sent to. Then, when this DC voltage exceeds the specified value, the power supply control unit 12 reports the overcurrent detection signal 13 indicating the overcurrent abnormality to the higher power supply system control unit.

FIG. 2 shows another embodiment of the present invention. In this embodiment, in the secondary coil 2b of the transformer 2,
A rectifying / smoothing unit 14 that rectifies and smoothes the secondary pulse voltage and outputs a DC voltage, and a DC load 15 that operates by receiving the output voltage of the rectifying and smoothing unit 14 are connected. Therefore, in this switch power supply device, it is possible to detect an overcurrent in the switching power supply circuit and prevent damage to the switch element due to a short circuit occurring in the DC load.

As described above, when an overcurrent abnormality occurs in the switching power supply circuit, the primary current of the transformer 2 is detected, and the width of the ON pulse of the switching element 3 is narrowed to protect the switch element 3. When the detection circuit for reporting to the higher-order power supply system unit is provided, the input impedance of the resistor 7, the transistor 8, and the capacitor 9 is provided after the current transformer 4 including the current transformer 4, the diode 5, and the resistor 6. By using the high rectification smoothing circuit C, when the output current suddenly increases due to a load short circuit, the output current of the current transformer 4 becomes
Since the amount flowing to the resistor 7 side can be reduced, the pulse voltage waveform of the pulse current detection signal 10 becomes similar to the primary current waveform of the transformer 2 and there is an effect that overcurrent protection can be performed without delay.

FIG. 3 shows another embodiment of the present invention. The basic configuration of this embodiment is as described above, except that the transistor 8 of the rectifying / smoothing circuit is changed to a MOSFET (metal oxide semiconductor field effect transistor) 16. The MOSFET 16 has a high input impedance due to the insulated gate, and therefore its operation is the same as that described with reference to FIG.

FIG. 4 shows still another embodiment of the present invention. This is because when the switching power supply circuits are operated in parallel, the current detection signal 11 is sent to the parallel operation control unit 17 as output current information, and the currents of other switching power supply circuits operating in parallel by this parallel operation control unit 17 are changed. A case where information is taken in as the parallel operation control signal 18 and the output currents of the respective switching power supply circuits are controlled to be equal is shown. Also in this case, the operation is the same as that of the above-mentioned embodiment,
Even when a current detection signal necessary for performing parallel operation control is created and transmitted, overcurrent protection can be performed without delay.

[0021]

As described above, according to the present invention, a resistor, a transistor, or a MOS is provided at the subsequent stage of the current-voltage conversion circuit which constitutes the output current detection circuit of the switching power supply circuit.
Since a high input impedance rectifying and smoothing circuit consisting of an FET and a capacitor is connected, it is possible to avoid a delay in the rise of the peak voltage of the pulse current from the current-voltage conversion circuit due to load short-circuiting, etc. The effect is that it can be realized without delay.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a switching power supply device according to an embodiment of the present invention.

FIG. 2 is a circuit diagram showing a switching power supply device according to another embodiment of the present invention.

FIG. 3 is a circuit diagram showing a switching power supply device according to another embodiment of the present invention.

FIG. 4 is a circuit diagram showing a switching power supply device according to another embodiment of the present invention.

FIG. 5 is a circuit diagram showing a conventional switching power supply device.

[Explanation of symbols]

1 DC power supply 2 transformers 2a, 4a Primary coil 2b, 4b Secondary coil 3 switch elements 4 current transformer 5 diode 6, 7 resistance 8 transistors 9 capacitors 12 Power control unit 14 Rectifying and smoothing section 15 DC load 16 MOSFET 17 Parallel operation control unit A current-voltage conversion circuit C rectification smoothing circuit

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁷ identification code FI H02M 3/335 H02M 3/335 B (58) Fields investigated (Int.Cl. ⁷ , DB name) H02M 3/28 H02H 3 / 087 H02H 7/20 H02M 3/335

Claims (5)

(57) [Claims] 1. A switch element connected in series to a DC power source via a primary coil of a transformer for supplying load power and a current transformer, and a switch element connected to a secondary side of the current transformer by switching the switch element. A current-voltage conversion circuit for converting the obtained current into a voltage, a rectification / smoothing circuit for rectifying and smoothing the output of the current-voltage conversion circuit and outputting a current detection signal, and a peak voltage of the output of the current-voltage conversion circuit When the value exceeds a specified value, in the switching power supply device including a power supply control unit that narrows the pulse width of switching on by the switch element and outputs an overcurrent detection signal, the rectifying / smoothing circuit is configured to reduce the current-voltage. A transistor that receives the output voltage of the conversion circuit at the base via a resistor and rectifies it, and a transistor that smoothes the output voltage of the transistor. It is composed of a capacitor, the transformer of the secondary coil through the rectifying smoothing section
A DC load is connected to form the current-voltage conversion circuit.
Switching power supply apparatus characterized by there. 2. A switch element connected in series to a DC power source via a primary coil of a transformer for supplying load power and a current transformer, and a switch element connected to the secondary side of the current transformer by switching the switch element. A current-voltage conversion circuit for converting the obtained current into a voltage, a rectification / smoothing circuit for rectifying and smoothing the output of the current-voltage conversion circuit and outputting a current detection signal, and a peak voltage of the output of the current-voltage conversion circuit When the value exceeds a specified value, in the switching power supply device including a power supply control unit that narrows the pulse width of switching on by the switch element and outputs an overcurrent detection signal, the rectifying / smoothing circuit is configured to reduce the current-voltage. A MOSFET that rectifies the output voltage of the conversion circuit by receiving the output voltage of the conversion circuit at its gate through a resistor and a MOSFET that smoothes the output voltage of the MOSFET. It is composed of a capacitor, the transformer of the secondary coil through the rectifying smoothing section
A DC load is connected to form the current-voltage conversion circuit.
Switching power supply apparatus characterized by there. 3. The power supply control unit receives current information of another current detection circuit that is operated in parallel with a current detection circuit including the power supply control unit, the switch element, a current-voltage conversion circuit, and a rectifying / smoothing circuit. Te, according to claim 1 or claims, characterized in that the parallel operation control unit for controlling the output current of the switching power supply circuit to be the same value is connected
Item 3. The switching power supply device according to item 2 . Wherein said current - voltage conversion circuit, a diode and, via the diode, according to claim 1 to claim characterized by comprising the parallel resistors connected to the current transformer of the secondary coil 3. The switching power supply device according to any one of 3 above. Wherein said power control unit, one of the claims 1 to 4 and outputs an overcurrent detection signal inputted from the rectifying smoothing circuit to the power system controller of the upper
The switching power supply device of crab according.