Abstract: A method is provided for providing indirect voltage detection in a power supply of an IHS. The method may include providing output current and voltage to an IHS via a power cable and monitoring the output current within the power supply. Furthermore, the method may include adjusting the output voltage if the output current reaches a threshold value.

Abstract: An AC-DC adapter is provided with an auto-sensing capability to sense when no DC load is present at the output (secondary side) of the adapter by monitoring for absence of load-indicative signals, such as power supply identifier (PSID) signals communicated to the adapter from a coupled DC-powered device. Upon detection of a no load condition, the adapter enters a no load mode during which the adapter output is turned off in order to reduce energy consumption by the adapter, and only produces short recurring voltage pulses (hiccups) at the adapter output. Upon detection of load-indicative signals communicated to the adapter from a coupled DC-powered device, the adapter output enters normal mode and provides its normal regulated power value to the adapter output for powering the coupled DC-powered device.

Abstract: A method is provided for providing indirect voltage detection in a power supply of an IHS. The method may include providing output current and voltage to an IHS via a power cable and monitoring the output current within the power supply. Furthermore, the method may include adjusting the output voltage if the output current reaches a threshold value.

Abstract: An AC-DC adapter is provided with an auto-sensing capability to sense when no DC load is present at the output (secondary side) of the adapter by monitoring for absence of load-indicative signals, such as power supply identifier (PSID) signals communicated to the adapter from a coupled DC-powered device. Upon detection of a no load condition, the adapter enters a no load mode during which the adapter output is turned off in order to reduce energy consumption by the adapter, and only produces short recurring voltage pulses (hiccups) at the adapter output. Upon detection of load-indicative signals communicated to the adapter from a coupled DC-powered device, the adapter output enters normal mode and provides its normal regulated power value to the adapter output for powering the coupled DC-powered device.

Abstract: A control system for delivering a constant fuser temperature despite variations in the line voltage is effected by a control circuit which employs closed loop feedback control to control the rms voltage across the load. This is accomplished by a circuit and method which functionally provides a continuous solution to the equation which describes the relationship between the temperature of the fuser and the temperature of a desired control setpoint. Briefly, the solution of this equation is obtained by monitoring, i.e. sampling, the temperature of the fuser, subtracting the desired control temperature, and then integrating the difference over time. The resultant time integral is used to control the operating point of a pulse width modulated power controller. The integrator has a time constant sufficiently long and the power controller operates at a frequency sufficiently high so as to render lighting flicker imperceptible.

Abstract: A control system for delivering a constant fuser temperature despite variations in the line voltage. In general, this is effected by a control circuit which employs closed loop feedback control to control the rms voltage across the load. This is accomplished by a circuit and method which functionally provides a continuous solution to the equation which describes the relationship between the temperature of the fuser and the temperature of a desired control setpoint. Briefly, the solution of this equation is obtained by monitoring, i.e. sampling, the temperature of the fuser, subtracting the desired control temperature, and then integrating the difference over time. The resultant time integral is used to control the operating point of a pulse width modulated power controller. The integrator has a time constant sufficiently long and the power controller operates at a frequency sufficiently high so as to render lighting flicker imperceptible.