Ultra-low AC-DC power converter to mitigate energy emission
First Claim
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1. An ultra-low power converter comprising:
- a primary side having a primary side ultra-low power regulator being configured to turn on in response to rectified incoming power (CONT) and to regulate its output (VCC), the ultra-low power regulator being configured to operate using dynamic ultra-low bias current of nano-amps or lower, said primary side further comprising a primary winding and a controllable switch connected between the primary winding and ground;
a control circuit being configured to control the controllable switch frequency in order to mitigate energy emissions from the primary side by adjusting a gate drive slew rate of the controllable switch; and
a secondary side communication circuit configured to signal the primary side ultra-low power regulator in response to a load condition;
whereby the primary side ultra-low power regulator allows the ultra-low power converter to operate in an ultralow power mode such that the device state of the ultra-low power converter is not lost and regulation is maintained with a low power loss overhead.
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Abstract
An AC to DC converter system is disclosed in which a conversion circuit for converting an AC input signal to a DC output signal is operably coupled with a communication circuit designed for sensing output indicative of the presence or absence of a load at the DC output. The system is designed so that the conversion circuit operates in an inactive standby state when there is no load, and in an active state for supplying DC power when a load is present. The system is configured to operate using ultra-low power.
27 Citations
11 Claims
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1. An ultra-low power converter comprising:
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a primary side having a primary side ultra-low power regulator being configured to turn on in response to rectified incoming power (CONT) and to regulate its output (VCC), the ultra-low power regulator being configured to operate using dynamic ultra-low bias current of nano-amps or lower, said primary side further comprising a primary winding and a controllable switch connected between the primary winding and ground; a control circuit being configured to control the controllable switch frequency in order to mitigate energy emissions from the primary side by adjusting a gate drive slew rate of the controllable switch; and a secondary side communication circuit configured to signal the primary side ultra-low power regulator in response to a load condition; whereby the primary side ultra-low power regulator allows the ultra-low power converter to operate in an ultralow power mode such that the device state of the ultra-low power converter is not lost and regulation is maintained with a low power loss overhead. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An AC to DC converter system comprising:
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an AC input configured for receiving an AC power input signal; a conversion circuit for converting the AC input signal to a DC output signal, the conversion circuit operably coupled with the input, and also coupled with an output for outputting the DC output signal; and a communication circuit configured to signal the conversion circuit in response to a load condition; a capacitive circuit coupling a primary side of the conversion circuit and the communication circuit, the capacitive circuit further comprising a Zener diode operably coupled between an enabling circuit, a capacitor element, and ground, in a configuration for limiting a voltage which may be provided from the primary side of the conversion circuit to the communication circuit; whereby the conversion circuit is configured to selectively operate in a conversion mode and in an ultra-low power standby mode. - View Dependent Claims (10, 11)
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Specification