Dual power SMPS for a modular lighting system
First Claim
1. A light assembly comprising;
- a first input to receive power from an AC power source;
a second input to receive solar power from a solar power source;
a controllable power supply having a control input, a power input coupled to the first input, and an output to provide an output voltage having a voltage level controllable based on a control signal received at the control input;
a battery input coupled to the output of the controllable power supply, and configured to couple to a battery that is configured to provide battery power;
a light circuit coupled to the output of the controllable power supply and configured to provide output light based on power from the AC power source, the solar power and the battery power;
a feedback circuit configured to detect a current to the battery and a voltage across the battery and having an output coupled to the control input of the controllable power supply to provide the control signal to the controllable power supply based on at least one of the current to the battery input and the voltage across the battery; and
a resistor circuit coupled in series with a plurality of LEDs, the resistor circuit having a first configuration with a first resistance value in AC power mode of operation and a second configuration in battery mode of operation with a second resistance value in battery mode of operation, the first resistance value being less than the second resistance value.
1 Assignment
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Accused Products
Abstract
Methods and systems described herein provide efficient lighting where electric grid systems are unreliable. One aspect includes a light assembly that includes an input to receive power from a power source, a controllable power supply having a control input, a power input coupled to the first input, and an output to provide a voltage level controllable based on a control signal received at the control input, a light circuit coupled to the output of the controllable power supply and configured to provide output light in response to the output voltage, a feedback circuit configured to detect a current to a battery and a voltage across the battery and having an output coupled to the control input of the controllable power supply to provide the control signal to the controllable power supply based on at least one of the current to the battery input and the voltage across the battery.
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Citations
17 Claims
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1. A light assembly comprising;
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a first input to receive power from an AC power source; a second input to receive solar power from a solar power source; a controllable power supply having a control input, a power input coupled to the first input, and an output to provide an output voltage having a voltage level controllable based on a control signal received at the control input; a battery input coupled to the output of the controllable power supply, and configured to couple to a battery that is configured to provide battery power; a light circuit coupled to the output of the controllable power supply and configured to provide output light based on power from the AC power source, the solar power and the battery power; a feedback circuit configured to detect a current to the battery and a voltage across the battery and having an output coupled to the control input of the controllable power supply to provide the control signal to the controllable power supply based on at least one of the current to the battery input and the voltage across the battery; and a resistor circuit coupled in series with a plurality of LEDs, the resistor circuit having a first configuration with a first resistance value in AC power mode of operation and a second configuration in battery mode of operation with a second resistance value in battery mode of operation, the first resistance value being less than the second resistance value. - View Dependent Claims (2, 3, 4, 5)
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6. A light assembly comprising;
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a first input to receive power from an AC power source; a second input to receive solar power from a solar power source; a controllable power supply having a control input, a power input coupled to the first input, and an output to provide an output voltage having a voltage level controllable based on a control signal received at the control input; a battery input coupled to the output of the controllable power supply, and configured to couple to a battery that is configured to provide battery power; a light circuit coupled to the output of the controllable power supply and configured to provide output light based on power from the AC power source, the solar power and the battery power; a feedback circuit configured to detect a current to the battery and a voltage across the battery and having an output coupled to the control input of the controllable power supply to provide the control signal to the controllable power supply based on at least one of the current to the battery input and the voltage across the battery; a DC-DC converter having a converter control input, a power input coupled to the second input, and a converter output to provide a converter output voltage having a converter voltage level controllable based on a converter control signal received at the converter control input; and a converter feedback circuit configured to detect a current to the battery and a voltage across the battery and having an output coupled to the converter control input of the DC-DC converter to provide the converter control signal to the DC-DC converter based on at least one of the current to the battery input and the voltage across the battery, wherein the light circuit is coupled to the converter output and configured to provide output light in response to the converter output voltage.
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7. A method of controlling operation of a light assembly comprising:
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receiving power from an AC power source; receiving power from a solar power source; receiving power from a battery; generating a DC voltage derived from the received AC power, the DC voltage having a voltage level; selectively applying power from the AC power source the DC power source and the battery to a light circuit; applying the DC voltage to the battery; detecting a current to the battery; detecting a voltage across the battery; and controlling the voltage level based on at least one of the current to the battery and the voltage across the battery; wherein the light circuit includes a plurality of LEDs, and wherein the method further includes in an AC power mode of operation, providing a first current level through the LEDs, and in a battery mode of operation, providing a second current level through the LEDs, the second current level being less than the first current level. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A light assembly comprising:
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at least one input to receive power from an AC power source; a controllable power supply having a control input, a power input coupled to the at least one input, and an output; a battery input coupled to the output of the controllable power supply; a light circuit coupled to the output of the controllable power supply and configured to provide output light; means for controlling the power supply to provide a regulated voltage to the circuit and regulated charging current and charging voltage to a battery coupled to the battery input; and means for controlling the light circuit in an AC power mode of operation to provide a first current level through the light circuit based on power from the AC power source and for controlling the light circuit in a battery mode of operation to provide a second current level through the light circuit, the second current level being less than the first current level. - View Dependent Claims (14, 15, 16, 17)
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Specification