Parallel connected switching regulator system

US 4,194,147 A
Filed: 12/05/1977
Issued: 03/18/1980
Est. Priority Date: 12/05/1977
Status: Expired due to Term

First Claim

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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:

(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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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.

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21 Claims

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.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 2. The switching regulator of claim 1 further including a reference voltage conductor and a free-wheeling diode coupled between said inductor and said reference voltage conductor for conducting the current in said inductor when said switching transistor is off.
  - 3. The switching regulator of claim 2 further including a capacitor coupled between said reference voltage conductor and the output of the switching regulator for cooperating with said inductor to integrate the voltage at a junction between said inductive means and said switching transistor.
  - 4. The switching regulator of claim 3 wherein said comparator means includes error amplifier means having a first input and a second input.
  - 5. The switching regulator of claim 4 further including reference means coupled between the reference voltage conductor and the output of said switching regulator for producing a reference voltage at the first input of said error amplifier means.
  - 6. The switching regulator of claim 5 further including means for coupling a portion of the regulated output voltage to the second input of said error amplifier means, wherebyy said error amplifier means amplifies the voltage difference between the reference voltage and the portion of the regulated output voltage.
  - 7. The switching regulator of claim 6 wherein the first input of said error amplifier means is a non-inverting input and wherein the second input of said error amplifier means is an inverting input.
  - 8. The switching regulator of claim 6 wherein said first input of said error amplifier means is an inverting input, and wherein said second input of said error amplifier means is a non-inverting input.
  - 9. The switching regulator of claim 6 wherein said coupling means includes a voltage divider network coupled between the output of the switching regulator and said reference voltage conductor for producing the portion of the regulated output voltage and coupling said portion of the regulated output voltage to the second input of said error amplifier means.
  - 10. The switching regulator of claim 5 wherein said reference means includes a reference voltage circuit for producing a constant reference voltage at a second node, a first resistor connected between the second node and the first input of said error amplifier means, and a second resistor coupled between the first input of said error amplifier means and the output of the switching regulator.
  - 11. The switching regulator of claim 6 wherein said second means includes an open collector buffer circuit, the output of said open collector buffer being coupled to said second means.
  - 12. The switching regulator of claim 6 wherein said third means includes buffer circuit means responsive to the voltage of the first node and coupled to the base of said switching transistor for turning said switching transistor on and off in response to the voltage of the first node.
  - 13. The switching regulator of claim 12 wherein said buffer circuit means includes a non-inverting buffer and a second transistor, said non-inverting buffer having its input coupled to the first node and its output coupled to the base of said second transistor, said second transistor having its emitter coupled to the reference voltage conductor and its collector coupled to the base electrode of said switching transistor.
  - 14. The switching regulator of claim 13 further including a resistor coupled between the base and collector electrodes of said switching transistor.
  - 15. The switching regulator of claim 12 wherein said buffer circuit means includes an inverting buffer and a second transistor, said inverting buffer having its input coupled to the first node and its output coupled to the base of said second transistor, said second transistor having its emitter coupled to the reference voltage conductor and its collector coupled to the base of said switching transistor, wherein the first input of said error amplifier means is an inverting input and said second input of said error amplifier means is a non-inverting input.

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:
- (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)
- - 17. The switching regulator system of claim 16 wherein said control means includes:
    - (a) a plurality of open-output buffer circuits, one located in each of said switching regulators, the input of each open-output inverter being coupled to the output of the corresponding comparator means;
      
      (b) a control conductor coupled to the outputs of each of the open-output inverters; and
      
      (c) charging means coupled to said control conductor for charging said control conductor to a predetermined voltage when an open-output impedance is presented to said control conductor by all of said open-output inverters.
  - 18. The switching regulator system of claim 17 wherein said first means includes a buffer circuit located in each of the individual switching regulators, said buffer circuit having an input coupled to said control conductor and an output providing drive current for the base electrodes of said respective switching transistors.

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.

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:
- (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.

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:
- (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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Current Assignee
Burr-Brown Corporation (Texas Instruments, Inc.)
Original Assignee
Burr-Brown Research Corporation
Inventors
Payne, Francis L., Godsey, Ernest E.
Primary Examiner(s)
Shoop, William M.

Application Number

US05/857,089
Time in Patent Office

834 Days
Field of Search

323/23, 323/25, 323/17, 323/DIG. 1, 307/44, 307/52, 307/53, 307/62, 307/82, 307/242, 307/297
US Class Current

323/284
CPC Class Codes

H02M 3/10 using discharge tubes with ...

Parallel connected switching regulator system

First Claim

1 Assignment

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Abstract

157 Citations

21 Claims

Specification

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Parallel connected switching regulator system

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

157 Citations

21 Claims

Specification

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Solutions

Use Cases

Quick Links