Switching incandescent lamps and other variable resistance loads with a solid state, smart, high side driver having overcurrent and temperature sensing protection circuits

US 7,672,106 B1
Filed: 01/22/2008
Issued: 03/02/2010
Est. Priority Date: 01/22/2008
Status: Active Grant

First Claim

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1. A method for controlling a solid state, smart, high side driver for controlling the application of electrical power from a DC electrical source to a load when the load has a transient characteristic that the load increases in electrical impedance following the application of power to the load, the high side driver having overcurrent and driver temperature sensing and protection circuits, a control input terminal for applying an ON state or an OFF state command to the high side driver and a power output terminal for connection to the electrical load, the method comprising:

(a) sensing the output terminal of the high side driver for detecting that the high side driver has turned to an OFF state; and

(b) in response to the coexistence of an ON command applied to the control input of the high side driver and the output terminal of the high side driver switching to an OFF state, applying an OFF command to the control input of the high side driver, maintaining the OFF command at the control input of the high side driver for a selected cooling time interval, and applying an ON command to the control input of the high side driver after the selected cooling time interval.

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Abstract

A circuit and method for controlling a smart, high side driver with current and temperature sensing so that it can turn ON a relatively high current load of incandescent lamps or similar loads within a practical time. The output of the high side driver is sensed. In response to the coexistence of an ON command applied to the control input of the high side driver and the output terminal of the high side driver switching to an OFF state, an OFF command is applied to the control input of the high side driver. That OFF command is maintained for a selected cooling time interval. An ON command is applied to the control input of the high side driver after the selected cooling time interval. The selected cooling time interval is at least long enough to allow the MOS/FET temperature to cool to the thermal reset of its status temperature T_RS, which is the temperature below which the driver operates with its highest current limit I_LIMHwhen it is turned back on.

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14 Claims

1. A method for controlling a solid state, smart, high side driver for controlling the application of electrical power from a DC electrical source to a load when the load has a transient characteristic that the load increases in electrical impedance following the application of power to the load, the high side driver having overcurrent and driver temperature sensing and protection circuits, a control input terminal for applying an ON state or an OFF state command to the high side driver and a power output terminal for connection to the electrical load, the method comprising:
- (a) sensing the output terminal of the high side driver for detecting that the high side driver has turned to an OFF state; and
  
  (b) in response to the coexistence of an ON command applied to the control input of the high side driver and the output terminal of the high side driver switching to an OFF state, applying an OFF command to the control input of the high side driver, maintaining the OFF command at the control input of the high side driver for a selected cooling time interval, and applying an ON command to the control input of the high side driver after the selected cooling time interval.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. A method in accordance with claim 1, wherein the high side driver has programmed logic that, in response to an ON command continuously applied to its control input, switches the driver to an ON state at a higher current limit I_LIMHif the driver'"'"'s sensed temperature does not exceed a lower, reset status temperature T_RS, switches the driver to an OFF state if its sensed temperature exceeds a thermal shutdown temperature T_TSD, and switches the driver to an ON state at a lower current limit I_LIML, if its temperature falls from the thermal shutdown temperature T_TSDto an intermediate temperature T_Rand wherein the method further comprises:
    - maintaining the OFF command at the control input of the high side driver for a selected cooling time interval that is at least as long as a heat dissipation time required for the sensed temperature of the driver, while in an OFF state, to cool from its thermal shutdown temperature T_TSDto its reset status temperature T_RS.
  - 3. A method in accordance with claim 2, wherein the selected cooling time interval is selected by first experimentally measuring a heat dissipation time required for the sensed temperature of the driver, while in an OFF state, to cool from a thermal shutdown temperature T_TSDto a reset status temperature T_RS, the heat dissipation time being measured by applying progressively longer selected cooling time intervals until the shortest cooling time interval is found after which the driver can be turned on at its higher current limit I_LIMH.
  - 4. A method in accordance with claim 3, wherein the OFF command at the control input of the high side driver is maintained for a selected cooling time interval that is at least 3 times the experimentally measured heat dissipation time.
  - 5. A method in accordance with claim 3, wherein the OFF command at the control input of the high side driver is maintained for a selected cooling time interval that is within the range of 3 milliseconds to 8 milliseconds.
  - 6. A method in accordance with claim 1, wherein the OFF command at the control input of the high side driver is maintained for a selected cooling time interval that is within the range of 1 millisecond to 20 milliseconds.

7. An electronic switch for controlling the application of electrical power from a DC electrical source to a load, the load having a transient characteristic that the load increases in electrical resistance following the application of power to the load, the electronic switch comprising:
- (a) a solid state, smart, high side driver having overcurrent and driver temperature sensing and protection circuits, a control input terminal for applying an ON state command or an OFF state command and a power output terminal for connection to the electrical load, the high side driver including an internal control circuit having stored instructions causing the driver(i) in response to an ON command continuously applied to its control input, to switch to an ON state at a higher current limit I_LIMHif the driver'"'"'s sensed temperature does not exceed a lower, reset status temperature T_RS,(ii) in the absence of an OFF command, to protectively switch to an OFF state if its sensed temperature exceeds a thermal shutdown temperature T_TSD, and(iii) in the absence of an OFF command, to switch to an ON state at a lower current limit I_LIMLif its temperature falls from the thermal shutdown temperature T_TSDto an intermediate reset temperature T_R; and
  
  (b) a solid state, digital logic, controller externally of the high side driver and having at least one external control input for application of an OFF command or an ON command, an output connected to the control input of the high side driver and an input connected to the power output terminal of the high side driver for sensing the ON and OFF state of the output of the high side driver, the external digital controller having stored instructions causing the external controller, in the absence of an OFF command at the external control input,(i) to apply an OFF command to the input terminal of the high side driver in response to sensing that the high side driver has turned to an OFF state while an ON command was applied at the control input of the high side driver,(ii) to maintain the OFF command at the input terminal of the high side driver for a selected cooling time interval, and(iii) to apply an ON command to the input terminal of the high side driver after the selected time interval.
- View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
- - 8. An electronic switch in accordance with claim 7, wherein the high side driver has programmed logic that, in response to an ON command continuously applied to its control input, switches the driver to an ON state at a higher current limit I_LIMHif the driver'"'"'s sensed temperature does not exceed a lower, reset status temperature T_RS, switches the driver to an OFF state if its sensed temperature exceeds a thermal shutdown temperature T_TSD, and switches the driver to an ON state at a lower current limit I_LIMLif its temperature falls from the thermal shutdown temperature T_TSDto an intermediate temperature T_Rand wherein the external controller has a stored selected cooling time interval that is at least as long as a heat dissipation time required for the sensed temperature of the driver, while in an OFF state, to cool from its thermal shutdown temperature T_TSDto its reset status temperature T_RS.
  - 9. An electronic switch in accordance with claim 8, wherein the stored selected cooling time interval is at least 3 times the heat dissipation time.
  - 10. An electronic switch in accordance with claim 7, wherein the solid state, digital logic, control circuit has a stored, selected cooling time interval that is within the range of 1 millisecond to 20 milliseconds.
  - 11. An electronic switch in accordance with claim 10, wherein the solid state, digital logic, control circuit has a stored, selected cooling time interval that is within the range of 3 milliseconds to 8 milliseconds.
  - 12. An electronic switch in accordance with claim 7 wherein the load includes incandescent lamps.
  - 13. An electronic switch in accordance with claim 12 wherein the high side driver is a member of the VND5004 family.
  - 14. An electronic switch in accordance with claim 12 wherein the high side driver is a member of the VND920 family.

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Current Assignee
James D. Sullivan
Original Assignee
James D. Sullivan
Inventors
Sullivan, James D.
Primary Examiner(s)
Fureman; Jared J
Assistant Examiner(s)
BROOKS, ANGELA D

Application Number

US12/017,513
Time in Patent Office

770 Days
Field of Search

361/93.8, 361/93.1, 361/91.9, 361/72, 361/101, 361/103
US Class Current

361/93.8
CPC Class Codes

H05B 39/02 Switching on, e.g. with pre...

Switching incandescent lamps and other variable resistance loads with a solid state, smart, high side driver having overcurrent and temperature sensing protection circuits

First Claim

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14 Claims

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Switching incandescent lamps and other variable resistance loads with a solid state, smart, high side driver having overcurrent and temperature sensing protection circuits

First Claim

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0 Petitions

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Accused Products

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Abstract

23 Citations

14 Claims

Specification

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Use Cases

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Others