Switching power supply circuit having constant output for a wide range of input voltage
First Claim
1. A switching regulator comprising, in combination:
- an input rectifier circuit means, an inverter circuit comprising transformer means and transistor switching means in series with said transformer means and connected to the output of said input rectifier circuit means;
an output circuit magnetically coupled to said transformer means for producing a relatively high frequency output a-c voltage at the frequency of switching of said transistor switching means;
output rectifier means connected to said output circuit for rectifying said output a-c voltage and for producing a relatively constant output d-c voltage;
said transistor switching means having a control electrode control circuit means connected to said transistor switching means control electrode for varying the conduction time of said transistor switching means in a manner to maintain said output d-c voltage at a constant value regardless of variation of the voltage output of said input rectifier circuit means within a given, relatively wide range; and
unidirectional clamping circuit means connected in parallel with said transformer means to clamp one polarity of the instantaneous voltage across said transformer means to a value which is lower than the instantaneous value of voltage of the opposite polarity across said transformer means, and producing an asymmetry in the voltage wave form appearing across said transformer means;
said unidirectional clamping circuit means being conductive for at least a substantial portion of the time when said transistor switching means is not conductive, so that energy stored in said transformer means when said transistor switching means is conductive is dissipated by said clamping circuit means over said substantial portion of the time when said transistor switching means is not conductive, whereby the peak-to-peak voltage across said transistor switching means is reduced from that which would be produced in the absence of said clamping circuit means;
said input rectifier circuit means being connected to an input a-c source which has a voltage within the range from 85 volts to about 265 volts, said transistor switching means consisting of a single power MOSFET;
said single power MOSFET transistor having a voltage rating which is less than the peak-to-peak voltage of the maximum voltage within said range of said input a-c source.
2 Assignments
0 Petitions
Accused Products
Abstract
A switching power supply is disclosed using a single transistor circuit which provides a constant output voltage for a range of input voltages extending from a nominal 115 volt power supply to a nominal 220/240 volt power supply without requiring a change in the circuit configuration throughout the range of input voltages. The circuit is disclosed in connection with a single transistor forward converter circuit, in which the transformer winding of the converter circuit is provided with a uni-directional clamp to prevent the transformer voltage of a given polarity from exceeding the clamping voltage magnitude. By clamping one polarity of the transformer voltage which is in series with the switching transistor, the maximum peak-to-peak voltage on the transistor is reduced from that which would be produced in the absence of clamping and enables the use of a power MOSFET transistor for the circuit. The clamping circuit is disclosed as a zener clamp and as a circuit including a parallel resistor and capacitor and series diode.
71 Citations
4 Claims
-
1. A switching regulator comprising, in combination:
- an input rectifier circuit means, an inverter circuit comprising transformer means and transistor switching means in series with said transformer means and connected to the output of said input rectifier circuit means;
an output circuit magnetically coupled to said transformer means for producing a relatively high frequency output a-c voltage at the frequency of switching of said transistor switching means;
output rectifier means connected to said output circuit for rectifying said output a-c voltage and for producing a relatively constant output d-c voltage;
said transistor switching means having a control electrode control circuit means connected to said transistor switching means control electrode for varying the conduction time of said transistor switching means in a manner to maintain said output d-c voltage at a constant value regardless of variation of the voltage output of said input rectifier circuit means within a given, relatively wide range; and
unidirectional clamping circuit means connected in parallel with said transformer means to clamp one polarity of the instantaneous voltage across said transformer means to a value which is lower than the instantaneous value of voltage of the opposite polarity across said transformer means, and producing an asymmetry in the voltage wave form appearing across said transformer means;
said unidirectional clamping circuit means being conductive for at least a substantial portion of the time when said transistor switching means is not conductive, so that energy stored in said transformer means when said transistor switching means is conductive is dissipated by said clamping circuit means over said substantial portion of the time when said transistor switching means is not conductive, whereby the peak-to-peak voltage across said transistor switching means is reduced from that which would be produced in the absence of said clamping circuit means;
said input rectifier circuit means being connected to an input a-c source which has a voltage within the range from 85 volts to about 265 volts, said transistor switching means consisting of a single power MOSFET;
said single power MOSFET transistor having a voltage rating which is less than the peak-to-peak voltage of the maximum voltage within said range of said input a-c source. - View Dependent Claims (2, 3, 4)
- an input rectifier circuit means, an inverter circuit comprising transformer means and transistor switching means in series with said transformer means and connected to the output of said input rectifier circuit means;
Specification