Power supply down-conversion, regulation and low battery detection system

US 4,868,908 A
Filed: 10/18/1988
Issued: 09/19/1989
Est. Priority Date: 10/18/1988
Status: Expired due to Term

First Claim

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1. A voltage downconverter for generating a selected intermediate voltage is which is less than or equal to a predetermined source voltge having a dc component, the downconverter comprising:

(a) N equal-valued capacitors, where N is an integer greater than or equal to 2;

(b) means for selectively connecting the N capacitors in series between the source voltage and ground in a sequence of series-connected configurations to generate N intermediate voltages, each intermediate voltage comprising an integer multiple of the source voltage divided by N, up to an including the source voltage; and

(c) means for providing one of the N intermediate voltages as the selected intermediate voltage.

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Abstract

A power supply down-conversion, regulation, and low battery detection system has application in an implantible defirillator but is also directly applicable to any battery powered implantible device. Battery voltage is down-converted by a high efficiency switched capacitor voltage divider to a suitable intermediate voltage. This voltage is then linearly regulated down to the desired output voltage. A second regulator, which takes current directly from the battery, supports the output voltage in the event that the load current cannot be supplied by the voltage downconverter. A low battery detect circuit shuts down high current circuitry in the system in the event that battery voltage drops to a level such that the regulated output voltage is endangered.

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8 Claims

1. A voltage downconverter for generating a selected intermediate voltage is which is less than or equal to a predetermined source voltge having a dc component, the downconverter comprising:
- (a) N equal-valued capacitors, where N is an integer greater than or equal to 2;
  
  (b) means for selectively connecting the N capacitors in series between the source voltage and ground in a sequence of series-connected configurations to generate N intermediate voltages, each intermediate voltage comprising an integer multiple of the source voltage divided by N, up to an including the source voltage; and
  
  (c) means for providing one of the N intermediate voltages as the selected intermediate voltage.
- View Dependent Claims (2)
- - 2. A voltage downconverter as in claim 1 wherein the means for selectively connecting the N capacitors in series comprises means for generating N clock phases and switching means responsive to the N clock phases for selectively connecting the N capacitors in series between the source voltage and ground in a different order during each of the N clock phases.

3. A control circuit for providing a controlled output current to an electrical circuit, the control circuit comprising:
- (a) means for generating a source voltage having a dc component;
  
  (b) means for generating an intermediate voltage which is less than or equal to the source voltage;
  
  (c) means for generating a regulated voltage;
  
  (d) means for comparing the intermediate voltage and the regulated voltage such that when the intermediate voltage is greater than the regulated voltage, the controlled output current is drawn from the means for generating an intermediate voltage and when the intermediate voltage is less than the regulated voltage, the controlled output current is drawn from the means for generating a source voltage.

4. A control circuit for providing a controlled output current to an electrical circuit, the control circuit comprising:
- (a) a battery for generating a battery terminal voltage;
  
  (b) a voltage downconverter responsive to the battery terminal voltage for generating a selected intermediate voltage which is less than or equal to the battery terminal voltage;
  
  (c) a voltage regulator for generating a regulated voltage which serves as a supply for the electrical circuit, the voltage regulator including means for comparing the selected intermediate voltage and the regulated voltage such that when the intermediate voltage is greater than the regulated voltage, the controlled output current is drawn through the voltage downconverter and when the intermediate voltage is less than the regulated voltage, the controlled output current is drawn directly from the battery.
- View Dependent Claims (5, 6, 7, 8)
- - 5. A control circuit as in claim 4 wherein the voltage downconverter comprises means for generating N intermediate voltages, each intermediate voltage comprising an integer multiple of the battery terminal voltage divided by N, up to and including the battery terminal voltage, where N is an integer greater than or equal to 2.
  - 6. A control circuit as in claim 4 wherein the voltage downconverter comprises:
    - (a) N equal-valued capacitors, where N is an integer greater than or equal to 2;
      
      (b) means for selectively connecting the N capacitors in series between the battery terminal voltage and ground in a sequence of series-connected configurations to generate N intermediate voltages, each intermediate voltage comprising an integer multiple of the battery terminal voltage divided by N, up to and including the battery terminal voltage; and
      
      (c) means for providing one of the N intermediate voltages as the selected intermediate voltage.
  - 7. a voltage downconverter as in claim 6 wherein the means for selectively connecting the N capacitors in series comprises means for generating N clock phases and switching means responsive to the N clock phases for selectively connecting the N capacitors in series between the battery terminal voltage and ground in a different order during each of the N clock phases.
  - 8. A control circuit as in claim 4 wherein the voltage regulator comprises:
    - (a) a first operational amplifier having the battery terminal voltage as its power supply for generating a first regulated voltage based on a reference voltage input;
      
      (b) a second operational amplifier having the selected intermediate voltage as its power supply for generating a second regulated voltage based on the reference voltage in response to an enable signal, the second regulated voltage being greater than the first regulated voltage; and
      
      (c) a comparator for comparing the selected intermediate voltage and the regulated voltage and for generating the enable signal for the second operational amplifier only when the intermediate voltage is greater than the regulated voltage such that when the intermediate voltage is greater than the regulated voltage, the regulated voltage is the second regulated voltage and when the intermediate voltage is less than the regulated voltage, the regulated voltage is the first regulated voltage.

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Current Assignee
Pacesetter Incorporated (Abbott Laboratories)
Original Assignee
Ventritex Incorporated (Abbott Laboratories)
Inventors
Pless, Benjamin, Ryan, John G.
Primary Examiner(s)
Wong, Peter S.

Application Number

US07/259,382
Time in Patent Office

336 Days
Field of Search

323/267, 323/271, 323/284, 307/29, 307/39, 307/41, 307/50, 307/71, 307/110, 363/62, 368/204
US Class Current

323/267
CPC Class Codes

A61N 1/378   Electrical supply

A61N 1/3931   Protecting, e.g. back-up sy...

A61N 1/3975   Power supply A61N1/378 take...

H02J 2310/23   The load being a medical de...

H02J 7/0031   using battery or load disco...

H02M 3/07   using capacitors charged an...

Power supply down-conversion, regulation and low battery detection system

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Abstract

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Power supply down-conversion, regulation and low battery detection system

First Claim

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Abstract

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8 Claims

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