| CPC G05F 1/565 (2013.01) [G05F 1/575 (2013.01)] | 5 Claims |
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1. A voltage regulator, for providing a regulated voltage to a double data rate (DDR) Physical Interface (PHY), the DDR PHY including a clock path and a plurality of data read paths, the clock path comprising a plurality of delay elements for receiving a clock signal and generating a delayed clock signal, respectively, each data read path of the plurality of data read paths comprising a bitskew circuit, the voltage regulator comprising:
an amplifier, for receiving a bandgap voltage at a first input terminal and generating an output voltage;
a first MOSFET having a first terminal coupled to the output voltage, a second terminal coupled to a supply voltage, and a third terminal coupled to a second input terminal of the amplifier;
a second MOSFET for generating a first current in response to a first enable signal, the second MOSFET coupled in parallel with the first MOSFET and having a second terminal coupled to the supply voltage, a first terminal coupled to a bias voltage, and a first switch coupled between the second terminal of the second MOSFET and the supply voltage, wherein the first switch is closed in response to the first enable signal;
a load, coupled to the third terminal of the first MOSFET and a third terminal of the second MOSFET, for generating the regulated voltage;
a load capacitor, coupled in parallel with the load, and coupled to ground;
a third MOSFET for generating a second current in response to a second enable signal, the third MOSFET coupled in parallel with the second MOSFET and having a second terminal coupled to the supply voltage, a first terminal coupled to the bias voltage, and a second switch coupled between the second terminal of the third MOSFET and the supply voltage, wherein the second switch is closed in response to the second enable signal;
a fourth MOSFET for generating a third current in response to a third enable signal, the fourth MOSFET coupled in parallel with the third MOSFET and having a second terminal coupled to the supply voltage, a first terminal coupled to the bias voltage, and a third switch coupled between the second terminal of the fourth MOSFET and the supply voltage, wherein the third switch is closed in response to the third enable signal; and
an auxiliary voltage regulator for generating the bias voltage, the auxiliary voltage regulator comprising:
an amplifier, for receiving the bandgap voltage at a first input terminal and a feedback voltage at a second input terminal, and generating the bias voltage;
a fifth MOSFET, having a first terminal coupled to the bias voltage, a second terminal coupled to a power supply, and a third terminal for outputting a reference current, wherein the third terminal is coupled to the second input terminal of the amplifier;
a bitskew circuit, coupled to the third terminal of the fifth MOSFET, the bitskew circuit corresponding to a bitskew circuit of the plurality of bitskew circuits of the DDR PHY, and receiving a clock signal input being the same clock signal that is input to the DDR PHY; and
a load capacitor, coupled in parallel with the bitskew circuit, and coupled to ground;
wherein the first enable signal is generated by inputting a gate enable signal into a first delay circuit, the gate enable signal for outputting a delayed clock signal from a first delay element of the plurality of delay elements, a delay of the first delay circuit equaling a delay of the first delay element, the second enable signal is generated by inputting the first enable signal into a second delay circuit, a delay of the second delay circuit equaling a delay of a second delay element of the plurality of delay elements, and the third enable signal is generated by inputting the second enable signal into a third delay circuit, a delay of the third delay circuit equaling a delay of a third delay element of the plurality of delay elements;
wherein the reference current generated by the auxiliary voltage regulator tracks with process, voltage and temperature (PVT) variations in the bitskew circuit, and the reference current tracks with frequency variations in the clock signal.
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