Dimmer switch with adjustable high-end trim

US 7,906,916 B2
Filed: 09/01/2006
Issued: 03/15/2011
Est. Priority Date: 06/08/2006
Status: Expired due to Fees

First Claim

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1. A load control device with an adjustable high-end trim for controlling the amount of power delivered to an electrical load from an AC power source, the load control device comprising:

a semiconductor switch operable to be coupled in series electrical connection between the source and the load, the semiconductor switch having a control input for controlling the semiconductor switch;

a timing circuit coupled in parallel electrical connection with the semiconductor switch for generating a firing voltage signal;

a triggering circuit for rendering the semiconductor switch conductive each half-cycle of the AC power source in response to the firing voltage signal; and

a user-accessible adjustment actuator for reducing the adjustable high-end trim of the load control device from a first level to a second level lower than the first level, the user-accessible adjustment actuator having substantially no affect upon a low-end trim of the load control device;

wherein the adjustment actuator comprises a mechanical switch, and the timing circuit comprises;

a first resistor;

a capacitor coupled to the first resistor and operable to conduct a charging current from the power source through the first resistor such that the firing voltage signal is produced across the capacitor; and

a transient voltage suppressor coupled in series electrical connection with the mechanical switch, the series combination of the transient voltage suppressor and the mechanical switch coupled in parallel electrical connection with the first resistor.

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Abstract

A dimmer switch has a user adjustable high-end trim. The dimmer switch includes a bidirectional semiconductor switch, such as a triac, for controlling the amount of power delivered from a source of alternating current power to a lighting load, such as an electric lamp. A user-adjustable timing circuit controls the conduction time of the triac from a minimum time to a maximum time. The maximum possible conduction time of the triac is the high-end trim. The minimum possible conduction time of the triac is the low-end trim. The timing circuit includes a user-accessible switch that allows a user to reduce the high-end trim from a first nominal level to a second reduced level, lower than the first level, without substantially affecting the low-end trim. The switch allows a user to switch a transient voltage suppressor into and out of parallel connection with a resistor that is part of an RC timing circuit for the triac. The dimmer switch advantageously uses less energy and the lifetime of the lamp is extended when the second reduced level of the high-end trim is selected.

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22 Claims

1. A load control device with an adjustable high-end trim for controlling the amount of power delivered to an electrical load from an AC power source, the load control device comprising:
- a semiconductor switch operable to be coupled in series electrical connection between the source and the load, the semiconductor switch having a control input for controlling the semiconductor switch;
  
  a timing circuit coupled in parallel electrical connection with the semiconductor switch for generating a firing voltage signal;
  
  a triggering circuit for rendering the semiconductor switch conductive each half-cycle of the AC power source in response to the firing voltage signal; and
  
  a user-accessible adjustment actuator for reducing the adjustable high-end trim of the load control device from a first level to a second level lower than the first level, the user-accessible adjustment actuator having substantially no affect upon a low-end trim of the load control device;
  
  wherein the adjustment actuator comprises a mechanical switch, and the timing circuit comprises;
  
  a first resistor;
  
  a capacitor coupled to the first resistor and operable to conduct a charging current from the power source through the first resistor such that the firing voltage signal is produced across the capacitor; and
  
  a transient voltage suppressor coupled in series electrical connection with the mechanical switch, the series combination of the transient voltage suppressor and the mechanical switch coupled in parallel electrical connection with the first resistor.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The load control device of claim 1, wherein the mechanical switch comprises a single-pole single-throw (SPST) switch.
  - 3. The load control device of claim 2, wherein the load control device is operable to operate with a nominal high-end trim level when the SPST switch is closed, and with a reduced high-end trim level when the SPST switch is open.
  - 4. The load control device of claim 2, wherein the timing circuit further comprises a second resistor coupled in series electrical connection with the transient voltage suppressor and the SPST switch.
  - 5. The load control device of claim 1, wherein the mechanical switch comprises a multi-position switch having a plurality of switch positions, and the timing circuit further comprises a plurality of resistors, each coupled in series electrical connection with one of the plurality of switch positions, the plurality of resistors all coupled in series with the transient voltage suppressor.
  - 6. The load control device of claim 5, wherein the load control device is operable to operate with a nominal high-end trim level when the multi-position switch is in a first switch position, and with a plurality of reduced high-end trim levels when the multi-position switch is in one of the plurality of switch positions, different from the first switch position.
  - 7. The load control device of claim 1, wherein the mechanical switch comprises a multi-position switch having a plurality of switch positions, and the timing circuit further comprises a plurality of resistors, each coupled in series electrical connection with one of the plurality of switch positions, and a plurality of transient voltage suppressors, each coupled in series electrical connection with one of the plurality of resistors.
  - 8. The load control device of claim 7, wherein the load control device is operable to operate with a nominal high-end trim level when the multi-position switch is in a first switch position, and with a plurality of reduced high-end trim levels when the multi-position switch is in one of the plurality of switch positions, different from the first switch position.
  - 9. The load control device of claim 1, wherein the transient voltage suppressor comprises two zener diodes connected in series in reverse order.

10. A timing circuit for allowing the adjustment of a high-end trim of a load control device, the timing circuit operable to generate a firing voltage signal, the load control device operable to control the amount of power delivered to an electrical load from an AC power source in response to the firing voltage signal, the timing circuit comprising:
- a capacitor operable to conduct a charging current from the power source such that the firing voltage signal is produced across the capacitor;
  
  a first circuit for causing the firing voltage signal to increase from substantially zero volts to a predetermined voltage in a first amount of time, the first circuit comprising a transient voltage suppressor in series electrical connection with a single-pole single-throw (SPST) switch; and
  
  a second circuit for causing the firing voltage signal to increase from substantially zero volts to the predetermined voltage in a second amount of time greater than the first amount of time, the second circuit comprising a first resistor in parallel electrical connection with the series combination of the transient voltage suppressor and the SPST switch of the first circuit.
- View Dependent Claims (11, 12, 13)
- - 11. The timing circuit of claim 10, wherein the load control device is operable to operate with a nominal high-end trim level when the SPST switch is closed, and with a reduced high-end trim level when the SPST switch is open.
  - 12. The timing circuit of claim 10, further comprising:
    - a second resistor coupled in series electrical connection with the transient voltage suppressor and the SPST switch for limiting the magnitude of the charging current through the transient voltage suppressor.
  - 13. The timing circuit of claim 10, wherein the transient voltage suppressor comprises two zener diodes connected in series in reverse order.

14. A timing circuit for allowing the adjustment of a high-end trim of a load control device, the timing circuit operable to generate a firing voltage signal, the load control device operable to control the amount of power delivered to an electrical load from an AC power source in response to the firing voltage signal, the timing circuit comprising:
- a capacitor operable to conduct a charging current from the power source such that the firing voltage signal is produced across the capacitor;
  
  a first resistor coupled to the capacitor such that the capacitor is operable to conduct the charging current through the first resistor from the power source;
  
  a single-pole double-throw (SPDT) switch having a moveable contact coupled to the first resistor;
  
  a first circuit for causing the firing voltage signal to increase from substantially zero volts to a predetermined voltage in a first amount of time, the first circuit operable to conduct the charging current when the SPDT switch is in a first position such that the charging current has a first magnitude; and
  
  a second circuit for causing the firing voltage signal to increase from substantially zero volts to the predetermined voltage in a second amount of time greater than the first amount of time, the second circuit comprising a current limiting circuit and operable to conduct the charging current when the SPDT switch is in a second position, the current limiting circuit operable to limit the magnitude of charging current to a second magnitude less than the first magnitude.
- View Dependent Claims (15, 16)
- - 15. The timing circuit of claim 14, wherein the load control device is operable to operate with a nominal high-end trim level when the SPDT switch is in the first position, and with a reduced high-end trim level when the SPDT switch is in the second position.
  - 16. The timing circuit of claim 14, wherein the current limiting circuit comprisesa shunt regulator zener diode having an anode coupled to a second fixed contact of the SPDT switch;
    - a first current-limiting resistor coupled between the anode and a shunt connection of the shunt regulator zener diode;
      
      an NPN bipolar junction transistor having a base coupled to a cathode of the shunt regulator zener diode and an emitter coupled to the shunt connection of the shunt regulator zener diode; and
      
      a second current-limiting resistor coupled between the cathode of the shunt regulator zener diode and a collector of the transistor.

17. A timing circuit for allowing the adjustment of a high-end trim of a load control device, the timing circuit operable to generate a firing voltage signal, the load control device operable to control the amount of power delivered to an electrical load from an AC power source in response to the firing voltage signal, the timing circuit comprising:
- a capacitor operable to conduct a charging current from the power source such that the firing voltage signal is produced across the capacitor;
  
  a first circuit for causing the firing voltage signal to increase from substantially zero volts to a predetermined voltage in a first amount of time; and
  
  a second circuit for causing the firing voltage signal to increase from substantially zero volts to the predetermined voltage in a second amount of time greater than the first amount of time, the second circuit comprising a first resistor coupled in parallel electrical connection with the first circuit;
  
  wherein the first circuit comprises;
  
  a multi-position switch having a movable wiper contact having a first end and a second end, a plurality of first fixed terminals adapted to make electrical connection with the first end of the movable wiper, and a plurality of second fixed terminals adapted to make electrical connection with the second end of the movable wiper, each of the plurality of first and second fixed terminals corresponding to one of a plurality of switch positions of the multi-position switch, the plurality of second fixed terminals coupled together;
  
  a plurality of resistors, each coupled in series electrical connection with one of the plurality of switch positions; and
  
  a transient voltage suppressor coupled in series electrical connection with the parallel combination of the resistors and switch positions.
- View Dependent Claims (18)
- - 18. The timing circuit of claim 17, wherein the load control device is operable to operate with a nominal high-end trim level when the multi-position switch is in a first switch position, and with a plurality of reduced high-end trim levels when the multi-position switch is in one of the plurality of switch positions, different from the first switch position.

19. A timing circuit for allowing the adjustment of a high-end trim of a load control device, the timing circuit operable to generate a firing voltage signal, the load control device operable to control the amount of power delivered to an electrical load from an AC power source in response to the firing voltage signal, the timing circuit comprising:
- a capacitor operable to conduct a charging current from the power source such that the firing voltage signal is produced across the capacitor;
  
  a first circuit for causing the firing voltage signal to increase from substantially zero volts to a predetermined voltage in a first amount of time anda second circuit for causing the firing voltage signal to increase from substantially zero volts to the predetermined voltage in a second amount of time greater than the first amount of time, the second circuit comprising a first resistor coupled in parallel electrical connection with the first circuit;
  
  wherein the first circuit comprises;
  
  a multi-position switch having a plurality of switch positions;
  
  a plurality of resistors, each coupled in series electrical connection with one of the plurality of switch positions; and
  
  a plurality of transient voltage suppressors, each coupled in series electrical connection with one of the plurality of resistors.
- View Dependent Claims (20)
- - 20. The timing circuit of claim 19, wherein the load control device is operable to operate with a nominal high-end trim level when the multi-position switch is in a first switch position, and with a plurality of reduced high-end trim levels when the multi-position switch is in one of the plurality of switch positions, not the first switch position.

21. A timing circuit for allowing the adjustment of a high-end trim of a load control device, the timing circuit operable to generate a firing voltage signal, the load control device operable to control the amount of power delivered to an electrical load from an AC power source in response to the firing voltage signal, the timing circuit comprising:
- a capacitor operable to conduct a charging current from the power source such that the firing voltage signal is produced across the capacitor;
  
  a first circuit for causing the firing voltage signal to increase from substantially zero volts to a predetermined voltage in a first amount of time, the first circuit comprising a transient voltage suppressor and a potentiometer, the transient voltage suppressor coupled in series electrical connection with a wiper lead of the potentiometer; and
  
  a second circuit for causing the firing voltage signal to increase from substantially zero volts to the predetermined voltage in a second amount of time greater than the first amount of time, the second circuit comprising a first resistor coupled to the transient voltage suppressor and a main lead of the potentiometer such that the series combination of the transient voltage suppressor and the potentiometer is coupled in parallel electrical connection with the first resistor.
- View Dependent Claims (22)
- - 22. The timing circuit of claim 21, wherein the load control device is operable to operate with a nominal high-end trim level when the potentiometer has a minimum resistance, and with a minimum reduced high-end trim level when the potentiometer has a maximum resistance;
    - andwherein the adjustable high-end trim of the load control device is continuously variable between the nominal high-end trim level and the minimum reduced high-end trim level.

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Current Assignee
Lutron Technology Company LLC
Original Assignee
Lutron Electronics Company Incorporated (Lutron Electronics)
Inventors
Gehman, Jackson
Primary Examiner(s)
Vu; David Hung

Application Number

US11/514,659
Publication Number

US 20070285027A1
Time in Patent Office

1,656 Days
Field of Search

315/DIG.5, 315/DIG.4, 315/DIG.7, 315/291, 315/307, 315/308, 315/360, 315/362, 307/115, 307/139, 307/140, 307/141
US Class Current

315/291
CPC Class Codes

H01H 23/02 Details

H05B 39/085 by touch control

Dimmer switch with adjustable high-end trim

First Claim

2 Assignments

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Abstract

26 Citations

22 Claims

Specification

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Dimmer switch with adjustable high-end trim

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

26 Citations

22 Claims

Specification

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Solutions

Use Cases

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