Parallel connected switching regulator system
First Claim
1. A switching regulator having a switching transistor, an inductor, and input, and an output for producing a regulated output voltage at the output in response to an unregulated input voltage applied to the input, said switching regulator comprising in combination:
- (a) comparator means responsive to the regulated output voltage for producing a first signal indicative of whether the regulated output voltage exceeds a predetermined voltage level;
(b) first means coupled to a first node and to said comparator means for producing a first logical level at the first node if the first signal is at a first voltage and for presenting an open circuit impedance to the first node if the first signal is at a second voltage;
(c) second means coupled to the first node for producing a second logical level at the first node if an open circuit impedance is presented to the first node;
(d) a control conductor coupled to the first node for conducting the voltage of the first node, whereby the voltage of the first node may be coupled to corresponding first nodes of other switching regulators coupled in parallel with said switching regulator in order to effect uniform loading of said switching regulator and the other switching regulators; and
(e) third means coupled to said first means and to the base of said switching transistor for turning said switching transistor on when the first node is at the first logical level and for turning said switching transistor off when the first node is at the second logical level.
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Accused Products
Abstract
A switching regulator system and method for producing regulated output voltage and current in response to an unregulated input voltage, including a plurality of switching regulators connected in parallel and control circuitry to accomplish uniform loading of each of the switching regulators according to the rated current producing capacity of each regulator. The switching regulators each include a switching transistor, an inductor responsive to the switching transistor, a free-wheeling diode responsive to the inductor, and a comparator for providing an output signal representative of whether the regulated output voltage exceeds a threshold. The control circuitry poroduces a control signal repesentative of the logical OR of the comparator output signals. Each of the indivdual switching regulators includes buffer circuit responsive to the control signal and coupled to the base electrodes of the respective switching transistors for turning all of the switching transistors on and off substantially simultaneously in response to the control signal. The individual switching regulators thereby supply the output current of the switching regulator system proportinately to the designed current producing capacities of the individual regulators. For identical switching regulators, each will supply an equal current to the load. For circuits with unequal design capacities the switching transistors have equal duty cycles, thereby proportioning the load current from each regulator according to its designed current producing capacity.
157 Citations
21 Claims
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1. A switching regulator having a switching transistor, an inductor, and input, and an output for producing a regulated output voltage at the output in response to an unregulated input voltage applied to the input, said switching regulator comprising in combination:
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(a) comparator means responsive to the regulated output voltage for producing a first signal indicative of whether the regulated output voltage exceeds a predetermined voltage level; (b) first means coupled to a first node and to said comparator means for producing a first logical level at the first node if the first signal is at a first voltage and for presenting an open circuit impedance to the first node if the first signal is at a second voltage; (c) second means coupled to the first node for producing a second logical level at the first node if an open circuit impedance is presented to the first node; (d) a control conductor coupled to the first node for conducting the voltage of the first node, whereby the voltage of the first node may be coupled to corresponding first nodes of other switching regulators coupled in parallel with said switching regulator in order to effect uniform loading of said switching regulator and the other switching regulators; and (e) third means coupled to said first means and to the base of said switching transistor for turning said switching transistor on when the first node is at the first logical level and for turning said switching transistor off when the first node is at the second logical level. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A switching regulator system having an output and an input for producing a regulated output voltage at the output in response to an unregulated input voltage applied to the input, said switching regulator system comprising in combination:
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(a) a plurality of switching regulators, each of the switching regulators including a switching transistor, an inductor responsive to the switching transistor for supplying current to the output of the switching regulator, a free-wheeling diode responsive to the inductor, and comparator means responsive to the regulated output voltage for producing an output signal representative of whether the regulated output voltage exceeds a threshold of the comparator; (b) control means responsive to each of the comparator means for producing a control signal which is equivalent to the logical NOR function of the output signals of all of the comparator means; and (c) first means coupled to said control means and to the base electrodes of each of said switching transistors for turning said switching transistors on and off simultaneously in response to said control signal, thereby producing substantially uniform currents in the conductors of each of said switching regulators. - View Dependent Claims (17, 18)
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19. A method of operating a plurality of switching regulators in parallel to achieve loading of the switching regulators each in proportion to its designed power output capacity, each of the switching regulators including a switching transistor for controlling the regulated output voltage and an error amplifier for detecting whether the output voltage exceeds a threshold voltage of the switching regulator;
- the invention comprising the steps of;
(a) detecting whether the output voltage exceeds a threshold voltage of each of the error amplifiers, thereby causing each of the error amplifiers to produce an output signal indicative of the results of the detecting; (b) producing a control signal by logically ORing the error amplifier output signals; and (c) turning all of the switching transistors off or on in response to the control signal.
- the invention comprising the steps of;
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20. A method of operating a plurality of switching regulator circuits in parallel to produce a regulated output voltage in response to an unregulated input voltage and to maintain uniform loading of each of the switching regulator circuits according to the respective current producing capacity of each, each of the switching regulator circuits including an error amplifier means responsive to the output voltage, control circuitry responsive to the error amplifier, and a switching transistor responsive to the control circuit for increasing the regulated output voltage, and a common control conductor coupled to the control circuitry of each switching regulator, each of the error amplifier means having an upper threshold voltage and a lower threshold voltage, the method comprising the steps of:
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(a) charging the output voltage to a level which exceeds the upper threshold of the amplifier means having the highest threshold voltage; (b) turning off all of the switching transistors in response to the first state of the amplifier means having the highest upper threshold voltage; (c) discharging the regulated output voltage to a level lower than the lower threshold voltage of the error amplifier having the highest lower threshold voltage, thereby causing the error amplifier having the highest lower threshold voltage to switch to a second state; and (d) turning all of the switching transistors on in response to the second state of the error amplifier having the highest lower threshold voltage.
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21. A method of operating a plurality of switching regulator circuits in parallel to produce a regulated output voltage in response to an unregulated input voltage and to maintain uniform loading of each of the switching regulator circuits according to the respective current producing capacity of each, each of the switching regulator circuits including an error amplifier means responsive to the output voltage, control circuitry responsive to the error amplifier, and a switching transistor responsive to the control circuit for increasing the regulated output voltage, and a common control conductor coupled to the control circuitry of each switching regulator, each of the error amplifier means having an upper threshold voltage and a lower threshold voltage, the method comprising the steps of:
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(a) charging the output voltage to a level which exceeds the upper threshold of the amplifier means having the lowest threshold voltage; (b) turning off all of the switching transistors in response to the first state of the amplifier means having the lowest upper threshold voltage; (c) discharging the regulated output voltage to a level lower than the lower threshold voltage of the error amplifier having the lowest lower threshold voltage, thereby causing the error amplifier having the lowest lower threshold voltage to switch to a second state; and (d) turning all of the switching transistors on in response to the second state of the error amplifier having the lowest lower threshold voltage.
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Specification