Method and apparatus for controlling the operation of a DC load

US 4,611,154 A
Filed: 03/28/1985
Issued: 09/09/1986
Est. Priority Date: 03/28/1985
Status: Expired due to Term

First Claim

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1. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a normal driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:

testing means for directing a testing current through said load circuit while said switch is in said nonconductive condition, said testing current having a magnitude substantially less than said normal driving current, sensing means for creating a control signal with a value indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said value of said control signal has a preselected value, and protecting means for interrupting said driving current flowing through said load circuit when said driving current exceeds a preselected current level.

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Abstract

A control circuit and method for using the same in operating a power switch such as a relay, FET, etc., having conductive and nonconductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the power switch is in the conductive condition. Such a power switch can be used to control small motors used extensively in motor vehicles. This control circuit comprises testing means for directing a low magnitude, low duty cycle testing current through the load or motor circuit while the power switch is in the nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic, such as current flow, in the load circuit, means for shifting the power switch into the conductive condition for energizing the load when the control signal from the sensing means has a predetermined value, i.e. exceeds a preselected level, and load protecting means for interrupting the high magnitude driving current passing through the load circuit when the driving current exceeds the preselected value. Preferably, the protective means involves no external resetting or time delay in operation.

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59 Claims

1. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a normal driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a testing current through said load circuit while said switch is in said nonconductive condition, said testing current having a magnitude substantially less than said normal driving current, sensing means for creating a control signal with a value indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said value of said control signal has a preselected value, and protecting means for interrupting said driving current flowing through said load circuit when said driving current exceeds a preselected current level.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. A control circuit as defined in claim 1 wherein said shifting means includes a comparator means having an output and means for setting said output to a given condition when said control signal value exceeds a reference signal and means for shifting said power switch to said conductive condition in response to said output being set to said given condition.
  - 3. A control circuit as defined in claim 2 including means for deactivating said testing means when said output is set to said given condition.
  - 4. A control circuit as defined in claim 2 including means for adjusting said reference signal in accordance with fluctuation in said power supply.
  - 5. A control circuit as defined in claim 1 wherein said protecting means includes detector means for detecting current flow above a given level to said motor circuit from said power supply when said power switch is in said conductive condition and means for shifting said power switch to said nonconductive condition when said current flow has been detected.
  - 6. A control circuit as defined in claim 1 wherein said testing means includes a transistor and a drive circuit for driving said transistor at a high frequency to pass said testing current to said load circuit and including an integrated circuit comprising said drive circuit and said shifting means and a printed circuit board onto which said integrated circuit is mounted and means for mounting onto said printed circuit board said power switch, said transistor and said protecting means.
  - 7. A control circuit as defined in claim 1 wherein said load circuit is a D.C. motor circuit of the type used in a motor vehicle.
  - 8. A control circuit as defined in claim 7 wherein said current responsive means is a magnetically operated switch means controlled by a magnetic field having a magnitude proportional to current flow in said motor circuit, said switch means being connected to discharge said capacitor below said preselected reference voltage whereby said power switch is shifted to said opened condition.
  - 9. A control circuit as defined in claim 1 wherein said load circuit is a lamp circuit of the type used in a motor vehicle.
  - 10. A control circuit as defined in claim 1 wherein said power switch is a mechanical relay.
  - 11. A control circuit as defined in claim 1 wherein said power switch is a FET.

12. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, wherein said low magnitude testing current is a series of pulses created by said power supply.
- View Dependent Claims (13, 14, 15)
- - 13. A control circuit as defined in claim 12 wherein said pulses form a high frequency chain of pulses having a duty cycle substantially less than 100%.
  - 14. A control circuit as defined in claim 13 wherein said duty cycle is less than 50%.
  - 15. A control circuit as defined in claim 13 including means for adjusting said duty cycle in response to changes in ambient temperature.

16. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, wherein said testing means includes a switch means connecting said load circuit with said power supply through a current limiting resistor and means for actuating said switch means at a high frequency.
- View Dependent Claims (17, 18, 19, 20)
- - 17. A control circuit as defined in claim 16 wherein said switch means is a transistor and said actuating means includes an oscillator means for creating a high frequency control signal and means for gating said transistor by said high frequency control signal.
  - 18. A control circuit as defined in claim 17 including gating means for applying said control signal to said transistor for a selected time.
  - 19. A control circuit as defined in claim 17 wherein said gating means includes a bistable oscillator having a first condition applying said control signal to said transistor for a first period matching said selected time and a second condition isolating said control signal from said transistor for a second period greater than said selected time.
  - 20. A control circuit as defined in claim 19 wherein said second period is several times said first period.

21. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, wherein said testing means includes an auxiliary circuit having a transistor and current limiting resistor in series with said load circuit, means for applying said power supply across said auxiliary circuit and said load circuit, and means for actuating said transistor at a controlled pulse rate by a pulsing control signal.
- View Dependent Claims (22, 23, 24)
- - 22. A control circuit as defined in claim 21 including gating means for applying said control signal to said transistor for a selected time.
  - 23. A control circuit as defined in claim 22 wherein said gating means includes a bistable oscillator having a first condition applying said control signal to said transistor for a first period matching said selected time and a second condition isolating said control signal from said transistor for a second period greater than said selected time.
  - 24. A control circuit as defined in claim 23 wherein said second period is several times said first period.

25. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, wherein said sensing means includes a capacitor connected between a selected location in said load circuit and to ground, means for charging said capacitor to an average voltage indicative of current flow in said load circuit at least when said testing current is applied through said load circuit and means for creating said control signal by the charged voltage on said capacitor.
- View Dependent Claims (26, 27, 28)
- - 26. A control circuit as defined in claim 25 wherein said charging means includes a relatively low resistance resistor and a relatively high resistance resistor connecting said capacitor to ground whereby said capacitor is charged rapidly and discharged slowly.
  - 27. A control circuit as defined in claim 25 wherein said shifting means includes a comparator means having an output and means for setting said output to a given condition when said control signal exceeds a reference signal and means for shifting said power switch in response to said output being set to said given condition.
  - 28. A control circuit as defined in claim 27 including means for deactivating said testing means when said output is set to said given condition.

29. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, including means for deactivating said testing means in response to actuation of said shifting means.

30. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, wherein said load circuit is a DC motor circuit and said control signal of said sensing means is a variable voltage signal created by flow of said testing current in said motor circuit and having a relatively low value below said preselected value when said motor circuit has a high current indicative of a stall of a motor in said motor circuit or a short in said motor circuit and said shifting means includes a comparator means for comparing said variable voltage signal with a reference voltage signal and said preselected value of said control signal occurring when said variable voltage signal exceeds said reference voltage signal.
- View Dependent Claims (31, 32, 33)
- - 31. A control circuit as defined in claim 30 wherein said variable voltage signal created by flow of said testing current in said motor circuit has a relatively high value above said preselected value when said motor circuit has low current indicative of an open circuit or a disconnected motor in said motor circuit and said shifting means includes a second comparator means for comparing said variable voltage signal with a second reference voltage and said preselected value of said control signal occurring when said variable voltage signal exceeds said first mentioned reference voltage signal and is less than said second reference voltage.
  - 32. A control circuit as defined in claim 31 including means for deactivating said testing means when said control signal has said selected value.
  - 33. A control circuit as defined in claim 30 including means for deactivating said testing means when said control signal has said selected value.

34. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, including means for deactivating said testing means when said control signal has said selected value.

35. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, said protecting means including detector means for detecting current flow above a given level to said motor circuit from said power supply when said power switch is in said conductive condition and means for shifting said power switch to said nonconductive condition when said current flow has been detected, wherein said detector means is a magnetically operated switch, means for operating said magnetically operated switch when said magnetically operated switch is exposed to a magnetic field above a given level, means for creating a magnetic field with a level proportional to current flow to said load circuit from said power supply when said power switch is in said conductive condition, means for exposing said created field to said magnetically operated switch and means for shifting said power switch to said nonconductive condition when said switch is operated.
- View Dependent Claims (36, 37)
- - 36. A control circuit as defined in claim 35 wherein said switch is a reed switch.
  - 37. A control circuit as defined in claim 35 wherein said switch is a Hall Effect switch.

38. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, wherein said control signal of said sensing means is a variable voltage created by flow of said testing current in said load circuit and said shifting means includes a comparator means for comparing said variable voltage signal with a reference voltage signal and said preselected value of said control signal occurring when said variable voltage signal exceeds said reference voltage signal.

39. A control circuit for operating a power switch having nonconductive and conductive conditions and adapted to direct a high magnitude driving current from a power supply through an electric load circuit when the switch is in its conductive condition, said control circuit comprising:
- testing means for directing a low magnitude testing current through said load circuit while said switch is in said nonconductive condition, sensing means for creating a control signal indicative of a predetermined electrical characteristic in said load circuit, shifting means for shifting said switch into said conductive condition only when said control signal has a preselected value, and protecting means for interrupting said high magnitude driving current flowing through said load circuit when said driving current exceeds a preselected value, including means for increasing said low magnitude testing current as ambient temperature decreases.

40. A control circuit for operating a power switch having opened and closed conditions and adapted to direct a driving, high magnitude current from a power supply through an electric motor circuit when the power switch is in the closed condition, said control circuit comprising:
- an auxiliary testing circuit for passing a low magnitude current from said power supply through said motor circuit at least during a testing cycle, said auxiliary testing circuit including a transistor and means for gating said transistor at a high frequency during said testing cycle to control the current flow while said power switch is in the opened condition to a relatively low level;
  
  a capacitor having a voltage indicative of the current flow in said motor citcuit;
  
  means for shifting said power switch into said closed condition only when said capacitor voltage exceeds a preselected reference voltage; and
  
  current responsive means for shifting said power switch to said opened condition when current flow through said motor circuit exceeds a preselected value.
- View Dependent Claims (41, 42, 43)
- - 41. A control circuit as defined in claim 40 wherein said power switch is a mechanical relay.
  - 42. A control circuit as defined in claim 40 wherein said power switch is a FET.
  - 43. A control circuit as defined in claim 40 including means for increasing said low magnitude testing current as ambient temperature decreases.

44. A method of sensing a stalled or short condition in a motor circuit including the winding of an electric motor to be driven by a relatively high current from a D.C. power supply, said method comprising the steps of:
- (a) passing a low magnitude testing current through said motor circuit;
  
  (b) measuring the average voltage across the motor of said motor circuit during a testing cycle of a given time length while only said testing current is flowing through said motor circuit;
  
  (c) comparing said average voltage with a reference signal; and
  
  ,(d) passing said high current through said motor circuit when said comparison is at a given relationship of the average voltage and the reference signal.

45. A method of sensing a stalled or short condition in a motor circuit including the winding of an electric motor to be driven by relatively high current from a D.C. power supply, said method comprising the steps of:
- (a) passing a low magnitude testing current through said motor circuit;
  
  (b) measuring the average voltage across the motor of said motor circuit during a testing cycle while only said testing current is flowing through said motor circuit;
  
  (c) comparing said average voltage with a reference signal;
  
  (d) passing said high current through said motor circuit when said comparison is at a given relationship of the average voltage and the reference signal; and
  
  ,(e) adjusting said testing current in accordance with changes in ambient temperature.

46. Apparatus for sensing a stalled or short condition in a motor circuit including the winding of an electric motor to be driven by a relatively high current from a DC power supply, said apparatus comprising:
- testing means for passing a low duty cycle limited current through said motor circuit;
  
  means for measuring the average voltage across the motor of said motor circuit during a testing cycle while only said limited current is flowing through said motor circuit;
  
  means for comparing said average voltage with a reference signal; and
  
  , means for passing said high current through said motor circuit when said comparison is at a given relationship of the average voltage and the reference signal.
- View Dependent Claims (47, 48, 49, 50, 51, 52, 53)
- - 47. An apparatus as defined in claim 46 including means for inhibiting said testing means when said high current is passing through said motor circuit.
  - 48. An apparatus as defined in claim 47 further including means responsive to a preselected high current in said motor circuit for deactivating said high current passing means and for initiating said testing means.
  - 49. An apparatus as defined in claim 46 wherein said testing means includes a current limiting resistor through which said limited current passes.
  - 50. An apparatus as defined in claim 49 futher including means responsive to a preselected high current in said motor circuit for deactivating said high current passing means and for initiating said testing means.
  - 51. An apparatus as defined in claim 46 further including means responsive to a preselected high current in said motor circuit for deactivating said high current passing means and for initiating said testing means.
  - 52. An apparatus as defined in claim 46 including compensating means for adjusting said limited current in accordance with ambient temperature.
  - 53. An apparatus as defined in claim 52 wherein said compensating means includes means for changing the duty cycle of said limited current in accordance with ambient temperature.

54. Apparatus for sensing a stalled or short condition in a motor circuit including the winding of an electric motor to be driven by a relatively high current from a DC power supply, said apparatus comprising:
- testing means for passing a low duty cycle limited current through said motor circuit;
  
  means for measuring the average voltage across the motor of said motor circuit during a testing cycle while only said limited current is flowing through said motor circuit;
  
  means for comparing said average voltage with a reference signal; and
  
  , means for passing said high current through said motor circuit when said comparison is at a given relationship of the average voltage and the reference signal, wherein said testing means includes means for applying pulses of current from said power supply through said motor circuit during said testing cycle, said pulses forming said limited current.
- View Dependent Claims (55, 56, 57, 58, 59)
- - 55. An apparatus as defined in claim 54 wherein said testing means includes means for repeating a testing cycle after a given time delay.
  - 56. An apparatus as defined in claim 55 including means for inhibiting said testing means when said high current is passing through said motor circuit.
  - 57. An apparatus as defined in claim 56 wherein said testing means includes a current limiting resistor through which said limited current passes.
  - 58. An apparatus as defined in claim 57 further including means responsive to a preselected high current in said motor circuit for deactivating said high current passing means and for initiating said testing means.
  - 59. An apparatus as defined in claim 54 further including means responsive to a preselected high current in said motor circuit for deactivating said high current passing means and for initiating said testing means.

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Litigation Campaign Assessment

Current Assignee
TRW Inc. (Northrop Grumman Corporation)
Original Assignee
Gulf & Western Manufacturing Company
Inventors
Lambropoulos, George P., Eilola, David H., Charboneau, Benjamin J.
Primary Examiner(s)
Shoop, Jr., William M.
Assistant Examiner(s)
Ro, Bentsu

Application Number

US06/718,722
Time in Patent Office

530 Days
Field of Search

318/490, 318/641, 318/647, 318/650, 318/430, 318/434, 361/23, 361/24, 361/28, 361/29, 361/189, 361/190, 324/177
US Class Current

318/490
CPC Class Codes

H02H 3/087 for dc applications

H02P 1/04 Means for controlling progr...

Method and apparatus for controlling the operation of a DC load

First Claim

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Method and apparatus for controlling the operation of a DC load

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