Patent ID: 7498788
Filing Date: 2009-03-03
Classification: H02M,Y02B

Abstract:
1. A switching regulator, comprising: a switch, coupled to an input of said switching regulator to control power delivery to an output of said switching regulator; wherein a load is coupled to said output of said switching regulator; a feedback circuit, coupled to said output of said switching regulator to output a feedback signal in response to conditions of said load; a first control unit, for receiving said feedback signal and outputting an oscillation signal and an energy saving signal, wherein an off-time of said oscillation signal and said energy saving signal increases in response to said feedback signal; and a second control unit, for receiving said feedback signal and said oscillation signal and outputting a switching signal to control said switch, wherein a maximum on-time of said switching signal is fixed for preventing magnetic elements from saturation, wherein said first control unit comprises: a modulator, for receiving said feedback signal to output a discharge current and a light-load signal; an oscillation circuit, including a charge current source, a discharge current source, a charge switch, a discharge switch, a capacitor and an oscillation control circuit to generate said oscillation signal, wherein said discharge current source mirrors said discharge current for discharging said capacitor; and an energy saving circuit, receiving said oscillation signal and said light-load signal to output said energy saving signal, wherein said discharge current decreases as said load decreases, an enable time of said oscillation signal is increased as said discharge current decreases, said light-load signal is enabled once said load is lower than a threshold value, and said energy saving signal is outputted by said energy saving circuit as said light-load signal and said oscillation signal are enabled, wherein said modulator comprises: a first operational amplifier, for receiving said feedback signal; a second operational amplifier, coupled to a threshold voltage; a V-to-I converter, formed by a transistor, a resistor, said first operational amplifier and said second operational amplifier for outputting a first current, said first current being increased in response to a decrement of said feedback signal once said feedback signal being lower than said threshold voltage; a first current mirror circuit, receiving said first current to output a second current; a constant current source; a second current mirror circuit, coupled to said constant current source to generate a third current and a fourth current; a third current mirror circuit, coupled to said first current mirror circuit and said second current mirror circuit, said third current mirror circuit receiving a differential current of said second current and said third current for outputting a fifth current, a sixth current and a seventh current; a first switch, having a first terminal supplied with said sixth current; a second switch, having a first terminal supplied with said seventh current and a second terminal for outputting said discharge current; a buffer circuit, having an input terminal for receiving a differential current of said fifth current and said fourth current and for coupling to a second terminal of said first switch, an output terminal of said buffer circuit being coupled to control terminals of said first switch and said second switch for turning on/off said first switch and said second switch; and an inverter, coupled to said output terminal of said buffer circuit to output said light-load signal.