Boost converter with improved stability

What is claimed is: 1. A method to achieve a boost converter having an improved stability, comprising the following steps: (1) providing the boost converter comprising a main switch, a control circuit, an inverting means, and an output voltage port; (2) deploying a sample and hold circuit connected between the output voltage port and an input of the control circuit of the boost converter, wherein the sample and hold circuit is connected to the output voltage port of the boost converter via a resistive voltage divider; (3) using a sample and hold circuit output as a sole feedback voltage to the control circuit; and (4) using an inverted main switch PWM drive signal to control the sample and hold circuit, wherein the sample and hold circuit is configured to sample an output voltage of the boost converter at an end of main switch OFF period and to hold the output voltage during the main switch ON period and wherein the main switch PWM drive signal for the boost converter is configured to control the sample and hold circuit after changing its polarity by said inverting means. 2. The method of claim 1 wherein the sample and hold circuit comprises a switch and a capacitor. 3. The method of claim 1 wherein said sample and hold circuit comprises a switch, which is set by a control signal, wherein a first terminal of the switch is connected to the output voltage port of the boost converter; and a capacitor that is deployed between ground and a second terminal of said switch. 4. A boost converter having an improved stability comprises: a main switch; an inverting means configured to invert a PWM driver signal; an output stage comprising a main switch and an output voltage port; a pulse width modulated (PWM) control circuit configured to control the main switch by the PWM driver signal and to receive a feedback signal from an output of a sample and hold circuit; an output capacitor; and said sample and hold circuit, configured to receive a voltage feedback from the output port of the output stage and to be controlled by the inverted main switch PWM driver signal, providing a feedback signal to the PWM control circuit, wherein the sample and hold circuit is connected between the output voltage port and the input of the PWM control circuit of the boost converter, and wherein the sample and hold circuit is enabled to sample an output voltage of the boost converter at the end of the main switch OFF period and to hold the output voltage during the main switch ON period, wherein a feedback voltage is increased immediately after a duty cycle is changed and wherein the PWM drive signal for the boost converter is configured to control the sample and hold circuit after changing its polarity by said inverting means, wherein the sample and hold circuit is connected to the output voltage port of the boost converter via a resistive voltage divider. 5. The boost converter of claim 4 wherein the sample and hold circuit comprises a switch and a capacitor. 6. The boost converter of claim 4 wherein any timing signal can be used for said control signal as long a desired sample & hold behavior is maintained. 7. The boost converter of claim 4 wherein said sample and hold circuit comprises a switch, which is set by said control signal, wherein a first terminal of the switch is connected to the output voltage port of the boost converter; and a capacitor that is deployed between ground and a second terminal of said switch. 8. The boost converter of claim 4 wherein said boost converter is a PWM boost converter. 9. The method of claim 1 wherein the inverting means is an inverting diode. 10. The boost converter of claim 4 wherein the inverting means is an inverting diode.