BOOSTING DRIVER CIRCUIT FOR LIGHT-EMITTING DIODES
First Claim
1. A circuit to deliver current from a current source to a light-emitting diode (LED) string, the circuit comprising:
- a pulse width modulator controller for generating a pulse-width modulated (PWM) drive signal having a duty cycle and driving the LED string with a regular current during an active period of the PWM drive signal;
a forward voltage sense controller for driving a sense current, the sense current being driven into the LED string during an inactive period of the duty cycle of the PWM drive signal;
a forward voltage sense measuring controller for measuring a forward voltage in the LED string created by the sense current and for outputting the forward voltage;
a temperature controller for receiving the forward voltage from the forward voltage sense measuring controller and controlling the regular current, so that the LED string operates at a junction temperature below a maximum allowed operational junction temperature; and
a current correction controller for receiving the forward voltage from the forward voltage sense measuring controller and controlling the regular current, wherein the flux of an LED in the LED string is stabilized by driving the LED with a constant power.
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Accused Products
Abstract
Various embodiments relate to an light-emitting diode (LED) driver and related method that drives various LEDs in an LED string beyond their isolated nominal luminance. Individual LEDs in an LED string may be thermally dependent so that specific LEDs may operate at higher temperatures without degradation. This may include driving specific LEDs beyond isolated nominal luminance when associated LEDs dim below their isolated nominal luminance. Such operation allows the LED to receive higher amounts of current and therefore exhibit higher luminous intensity. A control circuit may monitor the forward voltage and temperature in a feedback loop to ensure that the LEDs in the string are operating below a defined maximum junction temperature. The control circuit may signal a processing unit to adjust adjacent circuits to compensate when the controlled LEDs cannot produce a requested luminance without operating beyond a maximum junction temperature.
34 Citations
20 Claims
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1. A circuit to deliver current from a current source to a light-emitting diode (LED) string, the circuit comprising:
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a pulse width modulator controller for generating a pulse-width modulated (PWM) drive signal having a duty cycle and driving the LED string with a regular current during an active period of the PWM drive signal; a forward voltage sense controller for driving a sense current, the sense current being driven into the LED string during an inactive period of the duty cycle of the PWM drive signal; a forward voltage sense measuring controller for measuring a forward voltage in the LED string created by the sense current and for outputting the forward voltage; a temperature controller for receiving the forward voltage from the forward voltage sense measuring controller and controlling the regular current, so that the LED string operates at a junction temperature below a maximum allowed operational junction temperature; and a current correction controller for receiving the forward voltage from the forward voltage sense measuring controller and controlling the regular current, wherein the flux of an LED in the LED string is stabilized by driving the LED with a constant power. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A system for supplying power for a light-emitting diode (LED) string, the system comprising:
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a first circuit to deliver current from a current source to the LED string, the first circuit comprising; a pulse width modulator controller for generating a pulse width modulated (PWM) drive signal and driving the LED string with a regular current during an active period of the PWM driver signal; a forward voltage sense controller for driving a sense current, the sense current being driven into the LED string during an inactive period of the duty cycle of the PWM drive signal; a forward voltage sense measuring controller for measuring a first forward voltage in the LED string created by the sense current and for outputting the first forward voltage; a temperature controller for; receiving the first forward voltage from the first forward voltage sense measuring controller and controlling the regular current, wherein the LED string operates below a maximum allowed operational junction temperature, and generating an alarm signal when at least either a junction temperature of at least one LED is above the maximum allowed operational temperature of the LED or the LED string cannot produce a first requested luminance; and a current correction controller for receiving the first forward voltage from the forward voltage sense measuring controller and controlling the regular current, wherein the flux of the LED in the LED string is stabilized by driving the LED with a constant power; and a second circuit to deliver current from a second current source to a second LED string in response to the alarm signal received from the first circuit. - View Dependent Claims (9, 10)
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11. A method for supplying power for a light-emitting diode (LED) string, the method comprising:
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generating a pulse width modulated (PWM) drive signal; supplying the LED string with a regular current in response to the PWM drive signal having a duty cycle, the regular current being supplied during an active period of the duty cycle of the PWM drive signal; supplying the LED string with a sense current during an inactive period of the duty cycle of the PWM drive signal; measuring a forward voltage of the LED string during the inactive period of the duty cycle; and modulating the regular current in response to the measured forward voltage, wherein the flux of an LED in the LED string is stabilized by driving the LED with a constant power and the LED string operates below a maximum allowed operational junction temperature. - View Dependent Claims (12, 13, 14, 15, 16, 18, 19)
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17. The method of 16, further comprising:
modulating the second regular current, wherein the second regular current generates a luminance in the second LED string that is equal to the sum of a second requested luminance and the difference of the first requested luminance and the luminance produced by the first LED string.
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20. The method of 19, further comprising:
modulating the second regular current, wherein the second regular current generates a luminance in the second LED string that is equal to the sum of a second requested luminance and the difference of the first requested luminance and the luminance produced by the first LED string.
Specification