1. Field of the Invention
The present invention is related to a voltage regulator and related method, and more particularly, to a voltage regulator which provides sequentially and arbitrarily shaped regulated voltage and related method.
2. Description of the Prior Art
In electronic products, voltage regulators are usually disposed between a power supply circuit and a load circuit. The function of a voltage regulator is to provide a stable output voltage and a wide-ranged output current. When the load current suddenly changes, the output voltage can then be stabilized at its original level for providing efficient voltage conversion. For portable devices such as mobile phones, personal digital assistants (PDAs) and notebook computers, the voltage of the battery drops with time and is unable to maintain at a stable level. A low dropout (LDO) regulator can continuously provide a stable output voltage to the load circuit of an electronic device as long as the voltage difference between the input voltage provided by the battery and the estimated output voltage of the LDO regulator is larger than a dropout voltage.
Reference is made to
VOUT=(R1+R2)*VREF/R1
where (R1+R2)/R1 has a constant value.
In a modern wireless transceiver, its receiver RX and transmitter TX operate alternatively, in which only one of the receiver RX and the transmitter TX is activated at a specific time. The transmitter TX is activated only during the transmitting bursts of communication packages, and is otherwise deactivated in order to reduce power consumption. The transmitter TX is required to provide output signal of unvarying characteristics (such as constant output power and phase) anytime during a transmitting burst. However, the circuit of the transmitter TX (such as a power amplifier) has a certain turn-on response time and a certain turn-off response time, both of which normally vary with temperature. In order to maintain unvarying signal characteristics, the time response of the transmitter needs to be compensated by, for instance, adjusting the bias voltage of the transmitter TX or the supply voltage of the receiver RX as the time elapses. In both cases, the bias voltage and the supply voltage are normally generated by the voltage regulator.
Reference is made to
The present invention provides a voltage regulator which provides sequentially and arbitrarily shaped regulated voltage. The voltage regulator comprises an amplifier, a power device, and a voltage-generating circuit. The amplifier is coupled to a reference voltage and a feedback voltage for generating a control signal, the amplifier comprising a first input end coupled to the reference voltage; a second input end coupled to the feedback voltage; and an output end for outputting the control signal. The power device comprises a first input end coupled to an input voltage; a second input end coupled to the output voltage; and a control end coupled to the control signal. The delay signal generator is coupled to an externally applied power-on burst signal for generating a plurality of sequential delay signals each having distinct delay time with respect to the power-on burst signal. The voltage-generating circuit is coupled to the output voltage and the plurality of sequential delay signals for generating the feedback voltage.
The present invention further provides a method for sequentially and arbitrarily regulating an output voltage. The method comprises generating a plurality of sequential delay signals according to an externally applied power-on burst signal, wherein each sequential delay signal has a distinct delay time with respect to the power-on burst signal; adjusting an equivalent resistance according to the plurality of sequential delay signals; generating a feedback voltage by voltage-dividing the output voltage according to the equivalent resistance; and regulating the output voltage according to the feedback voltage.
The present invention further provides a voltage regulator which sequentially and arbitrarily regulates an output voltage. The voltage regulator generates a plurality of sequential delay signals according to an externally applied power-on burst signal, each sequential delay signal having a distinct delay time with respect to the power-on burst signal. And the voltage regulator regulates the output voltage according to the plurality of sequential delay signals so as to maintain the output voltage at a predetermined level at a specific time.
These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
Reference is made to
The delay signal generator 340, which operates according to an externally applied power-on burst signal POWER_ON_BURST, is configured to generate a plurality of delay signals DLY1-DLYn each having distinct delay time with respect to the power-on burst signal POWER_ON_BURST. The voltage-generating circuit 330 can adjust the predetermined value of the output voltage Vour at different time by varying the value of K according to the delay signals DLY1-DLYn, thereby regulating the waveform of the output voltage VOUT.
Reference is made to
VOUT=(R1+R2)*VREF/REQ1=K*VREF,
where K=(REQ1+REQ2)*REQ1
The resistor circuit 331, coupled between the nodes N1 and N2, includes a resistor R1 which determines the equivalent resistance REQ1 of the resistor circuits. The resistor circuit 332, coupled between the node N2 and ground, includes (n+1) resistors R20-R2n and n switches SW1-SWn. The switches SW1-SWn respectively operate according to the delay signals DLY1-DLYn received from the delay signal generator 240. The equivalent resistance REQ2 of the resistor circuit 332 is determined by the resistors R20-R2n, as well as by the number of turned-on switches in the switches SW1-SWn. For example, if all of the switches SW1-SWn are turned off (open-circuited), the value of the equivalent resistance REQ2 is infinite; if all of the switches SW1-SWn are turned on (short-circuited), the value of the equivalent resistance REQ2 is equal to
Therefore, the present invention can adjust the predetermined value of the output voltage Vour at different time by varying the value of K according to the delay signals DLY1-DLYn, thereby regulating the waveform of the output voltage VOUT. In the embodiment depicted in
Reference is made to
Reference is made to
The LDO regulator of the present invention operates according to an externally applied power-on burst signal, and is configured to generate a plurality of delay signals each having distinct delay time with respect to the power-on burst signal. The predetermined value of the output voltage at different time can be adjusted accordingly for providing a stable output voltage or an arbitrarily shaped regulated output voltage.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention.
Number | Date | Country | Kind |
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Number | Date | Country | |
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20110156667 A1 | Jun 2011 | US |