Electrically connecting blower to power supply stage providing higher voltage

US 8,508,182 B2
Filed: 11/09/2009
Issued: 08/13/2013
Est. Priority Date: 11/09/2009
Status: Expired due to Fees

First Claim

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1. A system comprising:

an alternating current-to-direct current (AC-to-DC) power supply having a first stage providing a first DC voltage and a second stage providing a second DC voltage, the second DC voltage less than the first DC voltage; and

,a blower electrically connected to the first stage of the AC-to-DC power supply to receive the first DC voltage from the AC-to-DC power supply to power the blower,wherein the first stage is to be directly connected to an AC signal and is to convert an AC voltage of the AC signal to the first DC voltage,wherein the second stage is directly connected to the first stage, is not to be directly connected to the AC signal, and is to convert the first DC voltage to the second DC voltage,wherein the AC-to-DC power supply has a first power-conversion efficiency at the first stage and a second power-conversion efficiency at the second stage, the second power-conversion efficiency less than the first power-conversion efficiency, such that electrical connection of the blower to the first stage of the AC-to-DC power supply instead of to the second stage of the AC-to-DC power supply wastes less power and is more efficient,wherein the first power-conversion efficiency is defined as a first stage output power that is output by the first stage divided by an input power that is input to the first stage from the AC signal,and wherein the second power-conversion efficiency is defined as a second stage output power that is output by the second stage divided by the input power that is input to the first stage from the AC signal.

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Abstract

An alternating current-to-direct current (AC-to-DC) power supply has a first stage providing a first DC voltage and a second stage providing a second DC voltage. The AC-to-DC power supply has a first efficiency at the first stage and a second efficiency at the second stage that is less than the first efficiency. The second DC voltage is also less than the first DC voltage. A blower is electrically connected to the first stage of the AC-to-DC power supply to receive the first DC voltage from the AC-to-DC power supply to power the blower. Electrical connection of the blower to the first stage of the AC-to-DC power supply instead of to the second stage of the AC-to-DC power supply wastes less power and is more efficient.

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18 Claims

1. A system comprising:
- an alternating current-to-direct current (AC-to-DC) power supply having a first stage providing a first DC voltage and a second stage providing a second DC voltage, the second DC voltage less than the first DC voltage; and
  
  ,a blower electrically connected to the first stage of the AC-to-DC power supply to receive the first DC voltage from the AC-to-DC power supply to power the blower,wherein the first stage is to be directly connected to an AC signal and is to convert an AC voltage of the AC signal to the first DC voltage,wherein the second stage is directly connected to the first stage, is not to be directly connected to the AC signal, and is to convert the first DC voltage to the second DC voltage,wherein the AC-to-DC power supply has a first power-conversion efficiency at the first stage and a second power-conversion efficiency at the second stage, the second power-conversion efficiency less than the first power-conversion efficiency, such that electrical connection of the blower to the first stage of the AC-to-DC power supply instead of to the second stage of the AC-to-DC power supply wastes less power and is more efficient,wherein the first power-conversion efficiency is defined as a first stage output power that is output by the first stage divided by an input power that is input to the first stage from the AC signal,and wherein the second power-conversion efficiency is defined as a second stage output power that is output by the second stage divided by the input power that is input to the first stage from the AC signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The system of claim 1, wherein the blower comprises:
    - a motor having an electrical connector to connect to the first stage of the AC-to-DC power supply; and
      
      ,a plurality of fan fins connected to and rotated by the motor.
  - 3. The system of claim 1, wherein the first stage of the AC-to-DC power supply comprises:
    - a rectifier to rectify the AC signal input to the first stage;
      
      an inductor and a diode connected in series to an output side of the rectifier;
      
      a capacitor connected between an output of the diode and the rectifier; and
      
      ,a transistor connected between the inductor and the diode and connected to the rectifier,wherein the transistor is opened and closed in a pulse width modulated manner to provide the first DC voltage of the first stage between the diode and the capacitor.
  - 4. The system of claim 3, wherein the first stage of the AC-to-DC power supply further comprises an electromagnetic compatibility (EMC) filter between the AC signal and the rectifier.
  - 5. The system of claim 3, wherein the first stage of the AC-to-DC power supply further comprises a pulse width modulator to modulate opening and closing of the transistor.
  - 6. The system of claim 1, wherein the second stage of the AC-to-DC power supply comprises:
    - a transformer having a first coil and a second coil, the first coil connected to an output of the first stage of the AC-to-DC power supply;
      
      an inductor and a first diode connected in series to the second coil;
      
      a capacitor connected to the inductor and to the second coil;
      
      a second diode connected between the inductor and the first diode and connected to the second coil; and
      
      ,a transistor connected to the first coil,wherein the transistor is opened and closed in a pulse width modulated manner to provide the second DC voltage of the first stage between the inductor and the capacitor.
  - 7. The system of claim 6, wherein the second stage of the AC-to-DC power supply further comprises a pulse width modulator to modulate opening and closing of the transistor.
  - 8. The system of claim 1, wherein the AC-to-DC power supply comprises:
    - a first transistor of the first stage;
      
      a second transistor of the second stage; and
      
      ,a pulse width modulator to modulate the first transistor and the second transistor to provide the first DC voltage at the first stage and to provide the second DC voltage at the second stage.
  - 9. The system of claim 1, wherein the second power-conversion efficiency is necessarily lower than the first power-conversion efficiency, even where identical loads are placed at both the first stage and the second stage, because the second stage directly connects to the first stage such that the second stage encompasses both a first power-conversion energy loss incurred at the first stage and a second power-conversion energy loss incurred at the second stage, while the first stage encompasses just the first power-conversion energy loss.

10. A method comprising:
- providing an alternating current-to-direct current (AC-to-DC) power supply having a first stage providing a first DC voltage and a second stage providing a second DC voltage, the second DC voltage less than the first DC voltage;
  
  providing a blower; and
  
  ,electrically connecting the blower to the first stage of the AC-to-DC power supply for the blower to receive the first DC voltage from the AC-to-DC power supply to power the blower,wherein the first stage is to be directly connected to an AC signal and is to convert an AC voltage of the AC signal to the first DC voltage,wherein the second stage is directly connected to the first stage, is not to be directly connected to the AC signal, and is to convert the first DC voltage to the second DC voltage,wherein the AC-to-DC power supply has a first power-conversion efficiency at the first stage and a second power-conversion efficiency at the second stage, the second power-conversion efficiency less than the first power-conversion efficiency, such that electrical connection of the blower to the first stage of the AC-to-DC power supply instead of to the second stage of the AC-to-DC power supply wastes less power and is more efficient,wherein the first power-conversion efficiency is defined as a first stage output power that is output by the first stage divided by an input power that is input to the first stage from the AC signal,and wherein the second power-conversion efficiency is defined as a second stage output power that is output by the second stage divided by the input power that is input to the first stage from the AC signal.
- View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
- - 11. The method of claim 10, wherein providing the blower comprises providing the blower as comprising:
    - a motor having an electrical connector to connect to the first stage of the AC-to-DC power supply; and
      
      ,a plurality of fan fins connected to and rotated by the motor.
  - 12. The method of claim 10, wherein providing the AC-to-DC power supply comprises providing the first stage of the AC-to-DC power supply as comprising:
    - a rectifier to rectify the AC signal input to the first stage;
      
      an inductor and a diode connected in series to an output side of the rectifier;
      
      a capacitor connected between an output of the diode and the rectifier; and
      
      ,a transistor connected between the inductor and the diode and connected to the rectifier,wherein the transistor is opened and closed in a pulse width modulated manner to provide the first DC voltage of the first stage between the diode and the capacitor.
  - 13. The method of claim 12, wherein providing the AC-to-DC power supply comprises providing the first stage of the AC-to-DC power supply as further comprising an electromagnetic compatibility (EMC) filter between the AC signal and the rectifier.
  - 14. The method of claim 12, wherein providing the AC-to-DC power supply comprises providing the first stage of the AC-to-DC power supply as further a pulse width modulator to modulate opening and closing of the transistor.
  - 15. The method of claim 10, wherein providing the AC-to-DC power supply comprises providing the second stage of the AC-to-DC power supply as comprising:
    - a transformer having a first coil and a second coil, the first coil connected to an output of the first stage of the AC-to-DC power supply;
      
      an inductor and a first diode connected in series to the second coil;
      
      a capacitor connected to the inductor and to the second coil;
      
      a second diode connected between the inductor and the first diode and connected to the second coil; and
      
      ,a transistor connected to the first coil,wherein the transistor is opened and closed in a pulse width modulated manner to provide the second DC voltage of the first stage between the inductor and the capacitor.
  - 16. The method of claim 15, wherein providing the AC-to-DC power supply comprises providing the second stage of the AC-to-DC power supply as further comprising a pulse width modulator to modulate opening and closing of the transistor.
  - 17. The method of claim 10, wherein providing the AC-to-DC power supply comprises providing the AC-to-DC power supply as comprising:
    - a first transistor of the first stage;
      
      a second transistor of the second stage; and
      
      ,a pulse width modulator to modulate the first transistor and the second transistor to provide the first DC voltage at the first stage and to provide the second DC voltage at the second stage.

18. A blower comprising:
- a motor having an electrical connector to connect to a first stage of an alternating current-to-direct current (AC-to-DC) power supply providing a first DC voltage for the blower to receive the first DC voltage to power the motor; and
  
  ,a plurality of fan fins connected to and rotated by the motor,wherein the AC-to-DC power supply further has a second stage providing a second DC voltage less than the first DC voltage,wherein the first stage is to be directly connected to an AC signal and is to convert an AC voltage of the AC signal to the first DC voltage,wherein the second stage is directly connected to the first stage, is not to be directly connected to the AC signal, and is to convert the first DC voltage to the second DC voltage,wherein the AC-to-DC power supply has a first power-conversion efficiency at the first stage and a second power-conversion efficiency at the second stage, the second power-conversion efficiency less than the first power-conversion efficiency, such that electrical connection of the blower to the first stage of the AC-to-DC power supply instead of to the second stage of the AC-to-DC power supply wastes less power and is more efficient,wherein the first power-conversion efficiency is defined as a first stage output power that is output by the first stage divided by an input power that is input to the first stage from the AC signal,and wherein the second power-conversion efficiency is defined as a second stage output power that is output by the second stage divided by the input power that is input to the first stage from the AC signal.

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Current Assignee
International Business Machines SA (International Business Machines Corporation)
Original Assignee
International Business Machines Corporation
Inventors
Malik, Randhir S., Lin, Jen-Ching, Chung, Chu Te, Dishman, Cecil C., Steinmetz, Michael J.
Primary Examiner(s)
Santana, Eduardo Colon
Assistant Examiner(s)
CARRASQUILLO, JORGE L

Application Number

US12/614,719
Publication Number

US 20110110806A1
Time in Patent Office

1,373 Days
Field of Search

363/15, 363/17, 363/141, 363/274.3, 363/142, 363/50, 363/65, 363/56.01, 363/71, 363/68, 363/95, 363/21.02, 363/21.03, 417/423.7, 318/799, 318/400.01, 318/400.02, 318/400.07, 318/400.04, 318/400.42, 318/400.39, 318/400.38, 318/400.37, 318/71, 318/248, 318/813, 318/3, 318/116, 318/268, 318/471, 315/247, 315/307, 315/291, 315/224, 315/209.R, 219/130.21, 219/130.1, 298/880.25
US Class Current

318/813
CPC Class Codes

F04D 25/06   the pump being electrically...

H02M 7/003   Constructional details, e.g...

Y10T 29/49245   Vane type or other rotary, ...

Electrically connecting blower to power supply stage providing higher voltage

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Abstract

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18 Claims

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Electrically connecting blower to power supply stage providing higher voltage

First Claim

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Abstract

Citations

18 Claims

Specification

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