Wide input power supply and method of converting therefor

US 5,404,094 A
Filed: 03/18/1994
Issued: 04/04/1995
Est. Priority Date: 03/18/1994
Status: Expired due to Term

First Claim

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1. A wide input power supply system that converts a wide range of DC input voltages from a DC power source to a substantially lower desired DC output voltage, the power supply system comprising:

a switching regulator coupled to the DC power source for generating a pulse width modulated signal having a fixed frequency and a variable duty cycle through a rapid rate of switching of the switching regulator between an OFF state and an ON state, the duty cycle representative of a voltage of the pulse width modulated signal;

a voltage sensor coupled to the switching regulator for sensing the voltage of the pulse width modulated signal;

a comparator coupled to the voltage sensor for comparing the voltage of the pulse width modulated signal to a predetermined voltage reference and generating an error signal;

a controller coupled between the DC power source and the comparator for controlling the duty cycle of the pulse width modulated signal by controlling the switching rate of the switching regulator to obtain the desired DC output voltage based on the generated error signal; and

a high voltage protector coupled between the controller and the switching regulator for providing a high voltage protection to the controller from the wide range of DC input voltage from the DC power source when the switching regulator is switched to the OFF state.

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Abstract

A method and system of converting a wide range of DC input voltages from a DC power source to a substantially lower regulated DC output voltage is disclosed. A pulse width modulated (PWM) signal is generated from an applied DC input voltage to obtain a desired regulated DC output voltage. The PWM signal has a fixed frequency and a variable duty cycle. The PWM signal is filtered to provide a DC output voltage proportional to the amount of time the PWM signal spent in the ON or HIGH state. The duty cycle of the PWM signal is controlled based on an error signal generated by comparing an error voltage level that is proportional to the output voltage to a voltage reference. High voltage protection is provided to the controller during the period the PWM signal is in the OFF or LOW state.

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15 Claims

1. A wide input power supply system that converts a wide range of DC input voltages from a DC power source to a substantially lower desired DC output voltage, the power supply system comprising:
- a switching regulator coupled to the DC power source for generating a pulse width modulated signal having a fixed frequency and a variable duty cycle through a rapid rate of switching of the switching regulator between an OFF state and an ON state, the duty cycle representative of a voltage of the pulse width modulated signal;
  
  a voltage sensor coupled to the switching regulator for sensing the voltage of the pulse width modulated signal;
  
  a comparator coupled to the voltage sensor for comparing the voltage of the pulse width modulated signal to a predetermined voltage reference and generating an error signal;
  
  a controller coupled between the DC power source and the comparator for controlling the duty cycle of the pulse width modulated signal by controlling the switching rate of the switching regulator to obtain the desired DC output voltage based on the generated error signal; and
  
  a high voltage protector coupled between the controller and the switching regulator for providing a high voltage protection to the controller from the wide range of DC input voltage from the DC power source when the switching regulator is switched to the OFF state.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The power supply system as recited in claim 1, further comprising:
    - a filter coupled between the switching regulator and the voltage sensor for filtering the pulse width modulated signal to obtain a signal proportional to the average time the pulse width modulated signal spent in the ON state.
  - 3. The power supply system as recited in claim 1, wherein the switching regulator includes at least one switch having a junction breakdown of at least 200 VDC.
  - 4. The power supply system as recited in claim 3, wherein the switch includes a first pair of transistors connected in a Darlington arrangement.
  - 5. The power supply system as recited in claim 1, wherein the high voltage protector includes a second pair of transistors connected in a Darlington arrangement.
  - 6. The power supply system as recited in claim 1, wherein the comparator and the controller are combined in a single integrated circuit.
  - 7. The power supply system as recited in claim 1, further comprising:
    - a current sensor coupled between the switching regulator and the controller for sensing a current of the pulse width modulated signal; and
      
      a switch, response to the current sensor, for turning off the controller if excessive current is drawn by a load coupled to the desired DC output voltage.
  - 8. The power supply system as recited in claim 7, wherein said switch is a silicon-controlled rectifier.
  - 9. The power supply system as recited in claim 1, further comprising:
    - an overvoltage sensor coupled to the switching regulator for sensing the voltage level of the desired DC output voltage; and
      
      a fuse, response to the overvoltage sensor, for providing an open circuit at the switching regulator.
  - 10. The power supply system as recited in claim 9, wherein the overvoltage sensor is a high energy zener diode.
  - 11. The power supply system as recited in claim 1, further comprising:
    - a filter coupled to between the DC power source and the switching regulator for reducing reflected noise into the DC power source.

12. A wide input power supply system that converts a wide range of DC input voltages from a DC power source to a substantially lower desired DC output voltage, the power supply system comprising:
- a first pair of transistors coupled directly to the DC power source for generating a pulse width modulated signal having a fixed frequency and a variable duty cycle through a rapid rate of switching of the transistors between an OFF state and an ON state, the duty cycle representative of a voltage of the pulse width modulated signal, the first pair of transistors being connected in a Darlington arrangement;
  
  a voltage sensor coupled to the first pair of transistors for sensing the voltage of the pulse width modulated signal;
  
  a comparator coupled to the voltage sensor for comparing the voltage of the pulse width modulated signal to a predetermined voltage reference and generating an error signal;
  
  a controller coupled between the DC power source and the comparator for controlling the duty cycle of the pulse width modulated signal by controlling the switching rate of the switching regulator to obtain the desired DC output voltage based on the generated error signal; and
  
  a second pair of transistors coupled between the controller and the switching regulator for providing a high voltage protection to the controller from the wide range of DC input voltage from the DC power source when the switching regulator is switched to the OFF state, the second pair of transistors being connected in a Darlington arrangement.

13. A method of converting a wide range of DC input voltages from a DC power source to a substantially lower desired DC output voltage, the method comprising:
- generating a pulse width modulated signal from the DC input voltage having an ON state and an OFF state and having a fixed frequency and a variable duty cycle, the duty cycle representative of a voltage of the pulse width modulated signal;
  
  sensing the voltage of the pulse width modulated signal;
  
  comparing the sensed voltage of the pulse width modulated signal to a predetermined voltage reference and generating an error signal;
  
  controlling the duty cycle of the pulse width modulated signal based on the generated error signal to obtain the desired DC output voltage; and
  
  providing high voltage protection to the controller when the generated pulse width modulated signal is in the OFF state.
- View Dependent Claims (14, 15)
- - 14. The method as recited in claim 13, wherein step of generating a pulse width modulated signal is performed by rapidly switching the DC input voltage ON and OFF.
  - 15. The method as recited in claim 13, further comprising:
    - filtering the generated pulse width modulated signal to obtain a signal proportion to the amount of time the pulse width modulated signal spent in the ON state.

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Current Assignee
ABL IP Holding LLC (Acuity Brands, Inc.)
Original Assignee
Holophane Lighting Incorporated (Acuity Brands, Inc.)
Inventors
Green, John D., Thompson, Michael L., Hissong, John B.
Primary Examiner(s)
Dougherty, Thomas M.
Assistant Examiner(s)
NGUYEN, MATTHEW VAN

Application Number

US08/210,614
Time in Patent Office

382 Days
Field of Search

323/282, 323/284, 323/285, 323/289, 323/351, 363/16, 363/18, 363/19, 363/20, 363/21, 363/50, 363/78, 363/80, 363/97, 363/131, 361/18, 361/79, 361/86, 361/87, 361/91, 361/93, 361/100
US Class Current

323/282
CPC Class Codes

H02M 3/156 with automatic control of o...

Wide input power supply and method of converting therefor

First Claim

6 Assignments

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Abstract

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15 Claims

Specification

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Wide input power supply and method of converting therefor

First Claim

6 Assignments

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Abstract

Citations

15 Claims

Specification

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Solutions

Use Cases

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