Control circuit for use in a switching-type regulator
First Claim
1. For use in a switching type regulator which includes a source of unregulated DC voltage, a switching circuit for interrupting said unregulated DC voltage to produce an AC voltage having a duty cycle which is a function of the operation of said switching circuit, a converter for converting said AC voltage to a regulated DC voltage, a controllable pulse generator for supplying pulses of controllable duration to said switching circuit thereby determining the duty cycle of said AC voltage, feedback means responsive to variations in said regulated DC voltage for controlling the duration of said generated pulses to maintain said regulated DC voltage at a desired level, and means for selectively limiting the operation of said pulse generator, a control circuit for resetting said last-mentioned means to an initial state and for gradually changing the duration of said pulses generated by said pulse generator in response to a predetermined condition, said control circuit comprising voltage generating means for generating a control voltage having a first rate of change with respect to time;
- reset means for resetting said means for selectively limiting the operation of said pulse generator when said control voltage attains a first level;
means for changing the rate at which said control voltage changes once said means for selectively limiting the operation of said pulse generator is reset such that said control voltage then changes at a second rate of change with respect to time, said second rate of change being slower than said first rate of change; and
means for using said control voltage at said second rate of change to correspondingly change the duration of said pulses generated by said pulse generator, whereby the level of said regulated DC voltage gradually changes.
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Abstract
A control circuit is disclosed for use in a switching-type regulator which includes a source of unregulated DC voltage, a switching circuit for interrupting the unregulated DC voltage to produce an AC voltage having a duty cycle which is a function of the operation of the switching circuit, a converter for converting the AC voltage to a regulated DC voltage, a controllable pulse generator for supplying pulses of controllable duration to the switching circuit so as to determine the duty cycle of the AC voltage, a feedback circuit responsive to variations in the regulated DC voltage for controlling the duration of the generated pulses to maintain the regulated DC voltage at a desired level, and disabling circuit for selectively limiting the operation of the pulse generator. The control circuit is used to reset the disabling circuit to an initial state and to change gradually the duration of the pulses which are generated by the pulse generator when the regulator first is turned ON. By resetting the disabling circuit, there is no limitation on the operation of the pulse generator at the outset. By gradually increasing the duration of the pulses generated by the pulse generator, the so-called "soft start" operation is performed, whereby the regulated DC voltage gradually is increased from a zero level to its desired level. The control circuit includes a voltage generator for generating a control voltage which increases rapidly during an initial interval and then increases at a significantly slower rate after it attains a first level. The disabling circuit is reset when the control voltage reaches its first level; and when the control voltage thereafter increases at a much slower rate, the slowly-increasing control voltage is used to correspondingly increase the duration of the generated pulses, whereby the level of the regulated DC voltage likewise increases.
37 Citations
10 Claims
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1. For use in a switching type regulator which includes a source of unregulated DC voltage, a switching circuit for interrupting said unregulated DC voltage to produce an AC voltage having a duty cycle which is a function of the operation of said switching circuit, a converter for converting said AC voltage to a regulated DC voltage, a controllable pulse generator for supplying pulses of controllable duration to said switching circuit thereby determining the duty cycle of said AC voltage, feedback means responsive to variations in said regulated DC voltage for controlling the duration of said generated pulses to maintain said regulated DC voltage at a desired level, and means for selectively limiting the operation of said pulse generator, a control circuit for resetting said last-mentioned means to an initial state and for gradually changing the duration of said pulses generated by said pulse generator in response to a predetermined condition, said control circuit comprising voltage generating means for generating a control voltage having a first rate of change with respect to time;
- reset means for resetting said means for selectively limiting the operation of said pulse generator when said control voltage attains a first level;
means for changing the rate at which said control voltage changes once said means for selectively limiting the operation of said pulse generator is reset such that said control voltage then changes at a second rate of change with respect to time, said second rate of change being slower than said first rate of change; and
means for using said control voltage at said second rate of change to correspondingly change the duration of said pulses generated by said pulse generator, whereby the level of said regulated DC voltage gradually changes. - View Dependent Claims (2, 3, 4, 5, 6)
- reset means for resetting said means for selectively limiting the operation of said pulse generator when said control voltage attains a first level;
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7. For use in a switching type regulator which includes a source of unregulated DC voltage, a switching circuit for interrupting said unregulated DC voltage to produce an AC voltage having a duty cycle which is a function of the operation of said switching circuit, a convertor for converting said AC voltage to a regulated voltage, a controllable multivibrator for supplying pulses of controllable duration to said switching circuit thereby determining the duty cycle of said AC voltage, feedback means responsive to variations in said regulated DC voltage for controlling the duration of said generated pulses to maintain said regulated DC voltage at a desired level, and means for selectively limiting the operation of said multivibrator, a control circuit for resetting said last-mentioned means and for gradually changing the duration of the pulses generated by said multivibrator when said regulator is turned ON, said control circuit comprising a condensor;
- a first current mirror circuit having one current conducting channel connected in common to said condensor for supplying a charging current thereto and to one current conducting channel included in a second current mirror circuit, said first current mirror circuit having a second current conducting channel connected to a second current conducting channel included in said second current mirror circuit;
a switching transistor connected to said second current conducting channel included in said first current mirror circuit and being conductive when said regulator is turned ON so that substantially all of the current in said second current conducting channel of said first current mirror circuit flows therethrough and substantially all of the current in said first current conducting channel of said first current mirror circuit flows as a charging current to said condensor to rapidly increase the voltage thereacross;
transistor means coupled to said condensor and having the conductivity thereof controlled by said voltage across said condensor, said transistor means causing said switching transistor to be non-conductive when said voltage across said condensor increases to a first level, whereby said second current mirror circuit becomes conductive to reduce the charging current flowing to said condensor, and said transistor means additionally causing said means for selectively limiting the operation of said multivibrator to be reset; and
a third current mirror circuit having one current conducting channel thereof connected in series with said transistor means to have the current flowing therethrough determined by the conductivity of said transistor means, said third current mirror circuit having a second current conducting channel connected to said multivibrator to control the duration of the pulses generated by said multivibrator as a function of the current flowing therethrough. - View Dependent Claims (8, 10)
- a first current mirror circuit having one current conducting channel connected in common to said condensor for supplying a charging current thereto and to one current conducting channel included in a second current mirror circuit, said first current mirror circuit having a second current conducting channel connected to a second current conducting channel included in said second current mirror circuit;
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9. For use in a switching type regulator which includes a source of unregulated DC voltage, a switching circuit for interrupting said unregulated DC voltage to produce an AC voltage having a duty cycle which is a function of the operation of said switching circuit, a convertor for converting said AC voltage to a regulated DC voltage, a controllable multivibrator for supplying pulses of controllable duration to said switching circuit thereby determining the duty cycle of said AC voltage, feedback means responsive to variations in said regulated DC voltage for controlling the duration of said generated pulses to maintain said regulated DC voltage at a desired level, and means for selectively limiting the operation of said multivibrator;
- a control circuit for resetting said last-mentioned means and for gradually changing the duration of the pulses generated by said multivibrator when said regulator is turned ON, said control circuit comprising a condensor;
a first current mirror circuit having one current conducting channel connected to said condensor for supplying a charging current thereto, a second current conducting channel connected to a constant impedance and a third current conducting channel, the magnitude of said charging current being determined by the sum of the currents flowing through said second and third current conducting channels, a switching transistor connected to said third current conducting channel included in said first current mirror circuit and being conductive when said regulator is turned ON so that current flows in said third current conducting channel;
transistor means coupled to said condensor and having the conductivity thereof controlled by the voltage across said condensor, said transistor means causing said switching transistor to be non-conductive when said voltage across said condensor increases to a first level, whereby current substantially ceases to flow in said third current conducting channel, thereby reducing the magnitude of said charging current, and said transistor means additionally causing said means for selectively limiting the operation of said multivibrator to be reset; and
a second current mirror circuit having one current conducting channel thereof connected in series with said transistor means to have the current flowing therethrough determined by the conductivity of said transistor means, said second current mirror circuit having a second current conducting channel connected to said multivibrator to control the duration of the pulses generated by said multivibrator as a function of the current flowing therethrough.
- a control circuit for resetting said last-mentioned means and for gradually changing the duration of the pulses generated by said multivibrator when said regulator is turned ON, said control circuit comprising a condensor;
Specification