Systems and methods for dimming control using TRIAC dimmers
First Claim
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1. A system for dimming control of one or more light emitting diodes, the system comprising:
- a first comparator configured to receive a first threshold signal and an input signal associated with a TRIAC dimmer and generate a comparison signal based on at least information associated with the first threshold signal and the input signal;
a driving component configured to receive the comparison signal, generate an output signal based on at least information associated with the comparison signal, and send the output signal to a switch;
a modulation component configured to receive a current sensing signal associated with a primary current flowing through a primary winding of a transformer and a third signal associated with the input signal and output a modulation signal to the driving component based on at least information associated with the current sensing signal and the third signal, the transformer further including a secondary winding and an auxiliary winding;
a multiplexer configured to receive the input signal and a fourth signal and generate a fifth signal based on at least information associated with the input signal and the fourth signal; and
an offset component configured to receive the fifth signal and output the third signal by adding a predetermined offset to the fifth signal to cause the third signal to be larger than the current sensing signal in magnitude when the input signal is smaller than the first threshold signal in magnitude;
wherein;
the first comparator is further configured to generate the comparison signal at a first logic level if the input signal is larger than the first threshold signal in magnitude and generate the comparison signal at a second logic level if the input signal is smaller than the first threshold signal in magnitude; and
the driving component is further configured to generate the output signal and cause the switch to remain closed for a period of time until at least the comparison signal changes from the second logic level to the first logic level;
wherein the modulation component is further configured to;
if the current sensing signal is larger than the third signal in magnitude, generate the modulation signal at a third logic level to cause the switch to be opened; and
if the current sensing signal is smaller than the third signal in magnitude, generate the modulation signal at a fourth logic level to cause the switch to be closed.
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Abstract
System and method for dimming control of one or more light emitting diodes. An example system includes one or more signal processing components configured to receive a first signal associated with a TRIAC dimmer, process information associated with the first signal, determine whether the TRIAC dimmer is in a first condition or a second condition, generate a second signal based on at least information associated with the first signal, and send the second signal to a switch. The one or more signal processing components are further configured to, if the TRIAC dimmer is determined to be in the first condition, generate the second signal to cause the switch to be opened and closed corresponding to a modulation frequency.
148 Citations
26 Claims
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1. A system for dimming control of one or more light emitting diodes, the system comprising:
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a first comparator configured to receive a first threshold signal and an input signal associated with a TRIAC dimmer and generate a comparison signal based on at least information associated with the first threshold signal and the input signal; a driving component configured to receive the comparison signal, generate an output signal based on at least information associated with the comparison signal, and send the output signal to a switch; a modulation component configured to receive a current sensing signal associated with a primary current flowing through a primary winding of a transformer and a third signal associated with the input signal and output a modulation signal to the driving component based on at least information associated with the current sensing signal and the third signal, the transformer further including a secondary winding and an auxiliary winding; a multiplexer configured to receive the input signal and a fourth signal and generate a fifth signal based on at least information associated with the input signal and the fourth signal; and an offset component configured to receive the fifth signal and output the third signal by adding a predetermined offset to the fifth signal to cause the third signal to be larger than the current sensing signal in magnitude when the input signal is smaller than the first threshold signal in magnitude; wherein; the first comparator is further configured to generate the comparison signal at a first logic level if the input signal is larger than the first threshold signal in magnitude and generate the comparison signal at a second logic level if the input signal is smaller than the first threshold signal in magnitude; and the driving component is further configured to generate the output signal and cause the switch to remain closed for a period of time until at least the comparison signal changes from the second logic level to the first logic level; wherein the modulation component is further configured to; if the current sensing signal is larger than the third signal in magnitude, generate the modulation signal at a third logic level to cause the switch to be opened; and if the current sensing signal is smaller than the third signal in magnitude, generate the modulation signal at a fourth logic level to cause the switch to be closed. - View Dependent Claims (2, 3)
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4. A system for dimming control of one or more light emitting diodes, the system comprising:
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a first comparator configured to receive a first threshold signal and an input signal associated with a TRIAC dimmer and generate a comparison signal based on at least information associated with the first threshold signal and the input signal; a driving component configured to receive the comparison signal, generate an output signal based on at least information associated with the comparison signal, and send the output signal to a switch; a modulation component configured to receive a current sensing signal associated with a primary current flowing through a primary winding of a transformer and a third signal associated with the input signal and output a modulation signal to the driving component based on at least information associated with the current sensing signal and the third signal, the transformer further including a secondary winding and an auxiliary winding; and a second comparator configured to receive the current sensing signal and a second threshold signal and output a fourth signal to the driving component based on at least information associated with the current sensing signal and the second threshold signal; wherein; the first comparator is further configured to generate the comparison signal at a first logic level if the input signal is larger than the first threshold signal in magnitude and generate the comparison signal at a second logic level if the input signal is smaller than the first threshold signal in magnitude; and the driving component is further configured to generate the output signal and cause the switch to remain closed for a period of time until at least the comparison signal changes from the second logic level to the first logic level; wherein the modulation component is further configured to; if the current sensing signal is larger than the third signal in magnitude, generate the modulation signal at a third logic level to cause the switch to be opened; and if the current sensing signal is smaller than the third signal in magnitude, generate the modulation signal at a fourth logic level to cause the switch to be closed; wherein the second comparator is further configured to, if the current sensing signal is smaller than the second threshold signal in magnitude, generate the fourth signal at a fifth logic level to cause the switch to be closed.
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5. A system for dimming control of one or more light emitting diodes, the system comprising:
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a first comparator configured to receive a first threshold signal and an input signal associated with a TRIAC dimmer and generate a comparison signal based on at least information associated with the first threshold signal and the input signal; a driving component configured to receive the comparison signal, generate an output signal based on at least information associated with the comparison signal, and send the output signal to a switch; a modulation component configured to receive a current sensing signal associated with a primary current flowing through a primary winding of a transformer and a third signal associated with the input signal and output a modulation signal to the driving component based on at least information associated with the current sensing signal and the third signal, the transformer further including a secondary winding and an auxiliary winding; and a multiplexer configured to receive the input signal and a fourth signal and output the third signal to the modulation component based on at least information associated with the input signal and the fourth signal; wherein; the first comparator is further configured to generate the comparison signal at a first logic level if the input signal is larger than the first threshold signal in magnitude and generate the comparison signal at a second logic level if the input signal is smaller than the first threshold signal in magnitude; and the driving component is further configured to generate the output signal and cause the switch to remain closed for a period of time until at least the comparison signal changes from the second logic level to the first logic level; wherein the modulation component is further configured to; if the current sensing signal is larger than the third signal in magnitude, generate the modulation signal at a third logic level to cause the switch to be opened; and if the current sensing signal is smaller than the third signal in magnitude, generate the modulation signal at a fourth logic level to cause the switch to be closed. - View Dependent Claims (6)
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7. A system for dimming control of one or more light emitting diodes, the system comprising:
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a first comparator configured to receive a first threshold signal and an input signal associated with a TRIAC dimmer and generate a comparison signal based on at least information associated with the first threshold signal and the input signal; a driving component configured to receive the comparison signal, generate an output signal based on at least information associated with the comparison signal, and send the output signal to a switch; a modulation component configured to receive a current sensing signal associated with a primary current flowing through a primary winding of a transformer and a third signal associated with the input signal and output a modulation signal to the driving component based on at least information associated with the current sensing signal and the third signal, the transformer further including a secondary winding and an auxiliary winding; and a second comparator configured to receive a fourth signal associated with the auxiliary winding and a second threshold signal and output a fifth signal to the driving component based on at least information associated with the fourth signal and the second threshold signal, the fifth signal indicating whether a demagnetization process associated with the transformer has completed; wherein; the first comparator is further configured to generate the comparison signal at a first logic level if the input signal is larger than the first threshold signal in magnitude and generate the comparison signal at a second logic level if the input signal is smaller than the first threshold signal in magnitude; and the driving component is further configured to generate the output signal and cause the switch to remain closed for a period of time until at least the comparison signal changes from the second logic level to the first logic level; wherein the modulation component is further configured to; if the current sensing signal is larger than the third signal in magnitude, generate the modulation signal at a third logic level to cause the switch to be opened; and if the current sensing signal is smaller than the third signal in magnitude, generate the modulation signal at a fourth logic level to cause the switch to be closed.
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8. A system for dimming control of one or more light emitting diodes, the system comprising:
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a first comparator configured to receive a first threshold signal and a first signal associated with a TRIAC dimmer and generate a first comparison signal based on at least information associated with the first threshold signal and the first signal; a detection component configured to receive the first comparison signal, determine a duty cycle of the first comparison signal, process information associated with the duty cycle and a threshold value, and generate a detection signal based on at least information associated with the first comparison signal; and a driving component configured to receive the detection signal, generate a second signal based on at least information associated with the detection signal, and output the second signal to a switch; wherein; the first comparator is further configured to generate the first comparison signal at a first logic level if the first signal is larger than the threshold signal in magnitude and generate the first comparison signal at a second logic level if the first signal is smaller than the threshold signal in magnitude; the detection component is further configured to generate the detection signal at a third logic level if the duty cycle of the first comparison signal is larger than the threshold value in magnitude and generate the detection signal at a fourth logic level if the duty cycle of the first comparison signal is smaller than the threshold value in magnitude; and the driving component is further configured to, if the detection signal is at the fourth logic level, generate the second signal to cause the switch to remain open for a first period of time. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A system for detecting a duty cycle of a signal, the system comprising:
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a voltage generator configured to receive an input signal and generate a first voltage signal based on at least information associated with the input signal; a comparator configured to receive the first voltage signal and a threshold signal and generate a comparison signal based on at least information associated with the first voltage signal and the threshold signal; and a signal processor configured to receive the comparison signal and the input signal and generate an output signal based on at least information associated with the comparison signal and the input signal; wherein the comparator is further configured to; if the first voltage signal is larger than the threshold signal in magnitude, generate the comparison signal at a first logic level; if the first voltage signal is smaller than the threshold signal in magnitude, generate the comparison signal at a second logic level; wherein the signal processor is further configured to; if a duty cycle of the input signal is larger than a threshold value, generate the output signal at a third logic level; and if the duty cycle of the input signal is smaller than the threshold value, generate the output signal at a fourth logic level; wherein the signal processor is further configured to, if the input signal changes from a fifth logic level to a sixth logic level and if the comparison signal is at the first logic level, change the output signal from the third logic level to the fourth logic level. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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21. A method for dimming control of one or more light emitting diodes, the method comprising:
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receiving a threshold signal and an input signal associated with a TRIAC dimmer; generating a comparison signal based on at least information associated with the threshold signal and the input signal; receiving the comparison signal; determining a duty cycle of the comparison signal; processing information associated with the duty cycle and a threshold value; and generating a detection signal based on at least information associated with the comparison signal; receiving the detection signal; generating an output signal based on at least information associated with the detection signal; and sending the output signal to a switch; wherein the process for generating a comparison signal based on at least information associated with the threshold signal and the input signal includes; if the input signal is larger than the threshold signal in magnitude, generating the comparison signal at a first logic level; and if the input signal is smaller than the threshold signal in magnitude, generating the comparison signal at a second logic level; wherein the process for generating a detection signal based on at least information associated with the comparison signal includes; if the duty cycle of the comparison signal is larger than the threshold value in magnitude, generating the detection signal at a third logic level; and if the duty cycle of the comparison signal is smaller than the threshold value in magnitude, generating the detection signal at a fourth logic level; wherein the process for generating an output signal based on at least information associated with the detection signal includes if the detection signal is at the fourth logic level, generating the output signal to cause the switch to remain open for a first period of time. - View Dependent Claims (22, 23, 24, 25)
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26. A method for detecting a duty cycle of a signal, the method comprising:
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receiving an input signal; generating a first voltage signal based on at least information associated with the input signal; receiving the first voltage signal and a threshold signal; generating a comparison signal based on at least information associated with the first voltage signal and the threshold signal; receiving the comparison signal and the input signal; and generating an output signal based on at least information associated with the comparison signal and the input signal; wherein the process for generating a comparison signal based on at least information associated with the first voltage signal and the threshold signal includes; if the first voltage signal is larger than the threshold signal in magnitude, generating the comparison signal at a first logic level; and if the first voltage signal is smaller than the threshold signal in magnitude, generating the comparison signal at a second logic level; wherein the process for generating an output signal based on at least information associated with the comparison signal and the input signal includes; if a duty cycle of the input signal is larger than a threshold value, generating the output signal at a third logic level; if the duty cycle of the input signal is smaller than the threshold value, generating the output signal at a fourth logic level; and if the input signal changes from a fifth logic level to a sixth logic level and if the comparison signal is at the first logic level, changing the output signal from the third logic level to the fourth logic level.
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Specification
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Current AssigneeOn-Bright Electronics (Shanghai) Co., Ltd. (Orthosie Investment Holdings Ltd.)
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Original AssigneeOn-Bright Electronics (Shanghai) Co., Ltd. (Orthosie Investment Holdings Ltd.)
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InventorsZhu, Liqiang, Zhou, Jun, Su, Yongsheng, Fang, Lieyi
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Primary Examiner(s)Owens, Douglas W
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Assistant Examiner(s)Sathiraju, Srinivas
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Application NumberUS14/459,167Publication NumberTime in Patent Office1,357 DaysField of Search315210, 315209 R, 315307US Class CurrentCPC Class CodesH05B 45/10 Controlling the intensity o...H05B 45/37 Converter circuitsH05B 45/382 with galvanic isolation bet...H05B 45/385 using flyback topologyH05B 47/10 Controlling the light sourceY02B 20/30 Semiconductor lamps, e.g. s...
