Universal power module

US 6,031,749 A
Filed: 03/31/1999
Issued: 02/29/2000
Est. Priority Date: 03/31/1999
Status: Expired due to Term

First Claim

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1. An electric power converter, comprising:

a rectifier for coupling to a power source, said rectifier having first and second rectified output terminals, said second rectified output terminal being connected to a first output terminal;

a first switch having a first and second current handling terminals and a control terminal, said first current handling terminal being coupled to said first output terminal of said rectifier;

an inductor having first and second terminals, said first terminal being connected to said second terminal of said electronic switch and said second terminal being connected to a second output terminal;

a diode having a cathode coupled to said second terminal of said electronic switch and an anode coupled to said second terminal of said rectifier;

a current sensor coupled in series with said inductor;

a voltage sensor for sensing the voltage between said first and second output terminals; and

a controller having a data processor, said controller having a first input terminal coupled to said current sensor, a second input terminal coupled to said voltage sensor, a first output terminal providing a first control signal coupled to said control terminal of said first switch, said controller controlling electrical energy applied to said first and second output terminals.

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Abstract

A switch-mode power converter uses a digital signal processor (DSP) to control operation of power semiconductors through gate drive amplifiers, further using the DSP'"'"'s internal analog-to-digital converters to measure necessary currents, voltages and timings within the main power circuit. Using values captured by the A-to-D converters, software controlling the DSP manipulates duty cycle and timing parameters of the main semiconductor switches to provide at least three different modes of operation for serving a wide range of lighting loads. This power system reduces the size, cost, and weight, of circuitry needed to operate stage lighting equipment. The DSP'"'"'s microprocessor eliminates most of the complex and dedicated analog circuitry commonly used for electronic power conversion, and a common power circuit topology provides an identical hardware platform for each luminaire circuit. Overall reliability is enhanced because of the reduction in circuit complexity.

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29 Claims

1. An electric power converter, comprising:
- a rectifier for coupling to a power source, said rectifier having first and second rectified output terminals, said second rectified output terminal being connected to a first output terminal;
  
  a first switch having a first and second current handling terminals and a control terminal, said first current handling terminal being coupled to said first output terminal of said rectifier;
  
  an inductor having first and second terminals, said first terminal being connected to said second terminal of said electronic switch and said second terminal being connected to a second output terminal;
  
  a diode having a cathode coupled to said second terminal of said electronic switch and an anode coupled to said second terminal of said rectifier;
  
  a current sensor coupled in series with said inductor;
  
  a voltage sensor for sensing the voltage between said first and second output terminals; and
  
  a controller having a data processor, said controller having a first input terminal coupled to said current sensor, a second input terminal coupled to said voltage sensor, a first output terminal providing a first control signal coupled to said control terminal of said first switch, said controller controlling electrical energy applied to said first and second output terminals.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 15, 16)
- - 2. The electric power converter of claim 1, further comprising at least one capacitor having a first terminal connected to said second terminal of said rectifier and a second terminal coupled through a second switch to said first terminal of said rectifier, said second switch having a control terminal coupled to a second output terminal of said controller, said second output terminal of said controller providing a second control signal.
  - 3. The electric power converter of claim 1, further comprising a voltage sensor coupled to said power source, said voltage sensor being further coupled to a third input terminal of said controller.
  - 4. The electric power converter of claim 1 wherein said first switch is a transistor.
  - 5. The electric power converter of claim 1 wherein said controller is a digital signal processor.
  - 6. The electric power converter of claim 1 wherein said first control signal is a pulse width modulated signal.
  - 7. The electric power converter of claim 1 wherein said current sensor measures current between said second terminal of said rectifier and said first output terminal.
  - 8. The electric power converter of claim 1 wherein said controller maintains a selected current level provided on said first and second output terminals.
  - 9. The electric power converter of claim 1 wherein said controller maintains a selected voltage level provided on said first and second output terminals.
  - 10. The electric power converter of claim 1 wherein said controller maintains a selected power level provided on said first and second output terminals.
  - 11. The electric power converter of claim 8 wherein said selected current level is as measured using the root mean square method.
  - 12. The electric power converter of claim 9 wherein said selected voltage level is as measured using the root mean square method.
  - 13. The electric power converter of claim 10 wherein said selected power level is as measured using the root mean square method.
  - 15. The electric power converter of claim 12 wherein said first, second, third, fourth and fifth switches are transistors.
  - 16. The electric power converter of claim 12 wherein said controller is a digital signal processor.

14. An electric power converter, comprising:
- a rectifier for coupling to a power source, said rectifier having first and second output terminals;
  
  a first switch having a first and second current handling terminals and a control terminal, said first current handling terminal being coupled to said first output terminal of said rectifier;
  
  an inductor having first and second terminals, said first terminal being connected to said second terminal of said first switch;
  
  a diode having a cathode coupled to said second terminal of said electronic switch and an anode coupled to said second terminal of said rectifier;
  
  a second switch having a control terminal, a first current handling terminal coupled to said second terminal of said inductor and a second current handling terminal connected to a first output terminal;
  
  a third switch having a control terminal, a first current handling terminal coupled to said second terminal of said inductor and a second current handling terminal connected to a second output terminal;
  
  a fourth switch having a control terminal connected to said control terminal of said third switch, a first current handling terminal coupled to said second terminal of said rectifier and a second current handling terminal connected to said first output terminal;
  
  a fifth switch having a control terminal connected to said control terminal of said second switch, a first current handling terminal coupled to said second terminal of said rectifier and a second current handling terminal connected to a second output terminal;
  
  a current sensor coupled in series with said inductor;
  
  a voltage sensor for sensing the voltage between said second terminal of said inductor and said first current handling terminal of said fourth switch; and
  
  a controller having a data processor, said controller having a first input terminal coupled to said current sensor, a second input terminal coupled to said voltage sensor, a first output terminal providing a first control signal coupled to said control terminal of said first switch, a second output terminal providing a second control signal coupled to said control terminal of said second switch and a third output terminal providing a third control signal coupled to said control terminal of said third switch, said controller controlling electrical energy applied to said first and second output terminals.
- View Dependent Claims (17, 18)
- - 17. The electric power converter of claim 14 wherein said first control signal is a pulse width modulated signal.
  - 18. The electric power converter of claim 14 wherein said second and third control signals are alternately turned on to provide an alternating current output on said first and second output terminals.

19. An electric power converter, comprising:
- a full-wave bridge rectifier for coupling to a power source having first and second output terminals;
  
  a first transistor having a first and second current handling terminals and a control terminal, said first current handling terminal being coupled to said first output terminal of said rectifier;
  
  an inductor having first and second terminals, said first terminal being connected to said second terminal of said first transistor;
  
  a diode having a cathode coupled to said second terminal of said electronic transistor and an anode coupled to said second terminal of said rectifier;
  
  a second transistor having a control terminal, a first current handling terminal coupled to said second terminal of said inductor and a second current handling terminal connected to an first output terminal;
  
  a third transistor having a control terminal, a first current handling terminal coupled to said second terminal of said inductor and a second current handling terminal connected to a second output terminal;
  
  a fourth transistor having a control terminal connected to said control terminal of said third transistor, a first current handling terminal coupled to said second terminal of said rectifier and a second current handling terminal connected to said first output terminal;
  
  a fifth transistor having a control terminal connected to said control terminal of said second transistor, a first current handling terminal coupled to said second terminal of said rectifier and a second current handling terminal connected to a second output terminal;
  
  a current sensor coupled in series with said inductor;
  
  a voltage sensor for sensing the voltage between said second terminal of said inductor and said first current handling terminal of said fourth transistor; and
  
  a digital signal processor having a data processor, said controller having a first input terminal coupled to said current sensor, a second input terminal coupled to said voltage sensor, a first output terminal providing a first control signal coupled to said control terminal of said first transistor, a second output terminal providing a second control signal coupled to said control terminal of said second transistor and a third output terminal providing a third control signal coupled to said control terminal of said third transistor, said controller controlling electrical energy applied to said first and second output terminals.

20. A method for performing electric power conversion, comprising the steps of:
- operating a current switch of a buck converter using a pulse width modulated signal provided by a controller;
  
  measuring the voltage applied by said buck converter and providing the measurement to said controller;
  
  measuring the current supplied by said buck converter and providing the measurement to said controller;
  
  adjusting the pulse width of the pulse width modulated signal provided by said controller in response to said current measurement, said voltage measurement and characteristics of the load connected to the output of said buck converter, said characteristics being stored in said controller.
- View Dependent Claims (21, 22, 23, 24, 25, 26, 27)
- - 21. A method for performing electric power conversion as in claim 20, wherein said current is measured by a method including the steps of:
    - sampling an instantaneous output current and an instantaneous output voltage once per buck cycle at a fixed time after a trailing edge of said pulse width modulated signal;
      
      calculating a current slope `m` as one plus said output voltage, the sum divided by an inductance value of an inductor coupled in series between said buck converter and a load;
      
      calculating a current correction value as IC={[TSD-(1-D)*P]/2}*m, wherein TSD is a sample delay time between a leading edge of said pulse width modulated signal and a time at which said instantaneous output current is sampled, D is a duty cycle of a previous cycle of said pulse width modulated signal, and P is a period of said pulse width modulated signal;
      
      calculating a true average output current as said instantaneous output current plus said current correction value IC.
  - 22. A method performing electric power conversion as in claim 21, wherein said inductance value is corrected for variations according to a magnitude of direct current through said inductor by reference to a table of data relating inductance to load current.
  - 23. A method for performing electric power conversion as in claim 20 wherein said controller is a digital signal processor.
  - 24. A method for performing electric power conversion as in claim 20 wherein said controller maintains a selected RMS current level provided by said buck converter.
  - 25. A method for performing electric power conversion as in claim 20 wherein said controller maintains a selected RMS current voltage provided by said buck converter.
  - 26. A method for performing electric power conversion as in claim 20 wherein said controller maintains a selected RMS current power level provided by said buck converter.
  - 27. A method for performing electric power conversion as in claim 24, further including the steps of:
    - receiving a commanded power level from an external controller;
      
      calculating a reciprocal of said voltage applied by said buck converter;
      
      multiplying said commanded power level by said reciprocal of said voltage to produce a target output current level;
      
      adjusting said pulse width of said pulse width modulated signal to reduce an error between said current measurement and said target current output level.

28. A method of performing electric power conversion, comprising the steps of:
- storing, in an electronic memory, characteristics of an electric load device;
  
  rectifying an alternating-current input line voltage;
  
  filtering a rectified input line voltage in dependence upon stored characteristics of said load device;
  
  controlling a high-speed electronic switch by pulse-width modulation of a control terminal of said switch in dependence upon stored characteristics of said load device;
  
  controlling an electrical-bridge output driver connected to said load device by complementary oscillating signals applied to control terminals of controllable conductive elements of said bridge and in dependence upon stored characteristics of said load device;
  
  sensing electrical parameters, including output current provided to said load and output voltage provided to said load, of said output driver and adjusting the pulse-width modulation of said electronic switch in dependence upon said sensed output current and output voltage.
- View Dependent Claims (29)
- - 29. The method of claim 28, further comprising the steps of sensing an input line voltage and synchronizing oscillating signals applied to said control terminals of said controllable conductive elements of said bridge in dependence upon said sensed input line voltage.

Specification

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Current Assignee
Philips Lighting North America Corporation (Signify N.V.)
Original Assignee
Vari-Lite, Inc. (Signify N.V.)
Inventors
Covington, John Henry, Newell, John Mark, Walsh, Thomas Edwin
Primary Examiner(s)
BERHANE, ADOLF D

Application Number

US09/283,141
Time in Patent Office

335 Days
Field of Search

363/16, 363/17, 363/34, 363/37, 363/40, 363/41, 363/95, 363/97, 363/98, 363/131, 363/132, 318/811
US Class Current

363/98
CPC Class Codes

H02M 5/458   using semiconductor devices...

H02M 7/2176   comprising a passive stage ...

H05B 47/165   following a pre-assigned pr...

Universal power module

First Claim

6 Assignments

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Abstract

Citations

29 Claims

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Universal power module

First Claim

6 Assignments

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0 Petitions

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Accused Products

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Abstract

Citations

29 Claims

Specification

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Solutions

Use Cases

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