Accurate sample latch offset compensation scheme

1 . A receiver, comprising: a latch configured to sample a data signal according to a sampling clock signal; a plurality of offset-compensation segments, wherein each of the segments is coupled to an internal node of the latch, and each of the segments comprises: a compensation transistor; and a step-adjustment transistor coupled in series with the compensation transistor; an offset controller configured to selectively turn on one or more of the compensations transistors to reduce an offset voltage of the latch; and a bias circuit configured to apply a bias voltage to a gate of each of one or more of the step-adjustment transistors. 2 . The receiver of claim 1 , wherein the offset controller is configured to output a code to the bias circuit indicating one of k different voltages, k is an integer, and the bias circuit is configured to set the bias voltage to the one of the k voltages indicated in the code. 3 . The receiver of claim 2 , wherein k is three or greater. 4 . The receiver of claim 1 , wherein the offset controller is configured to output a plurality of control bits, each of the control bits controlling whether a respective one of the compensation transistors is turned on. 5 . The receiver of claim 1 , wherein the latch comprises: cross-coupled inverters, wherein an input of a first one of the inverters is coupled to an output of a second one of the inverters, and an output of the first one of the inverters is coupled to an input of a second one of the inverters; and first and second input transistors coupled to the cross-coupled inverters, wherein the first and second inputs transistors are configured to drive the cross-coupled inverters into one of two output states based on the data signal, and the internal node of the latch is between the cross-coupled inverters and the first and second input transistors. 6 . The receiver of claim 5 , wherein each of the segments is coupled between a drain and source of the first input transistor. 7 . The receiver of claim 6 , further comprising a switching transistor configured to couple the source of the first input transistor to a ground during a sensing phase of the sampling clock signal and to decouple the source of the first input transistor during a reset phase of the sampling clock signal. 8 . The receiver of claim 6 , wherein the offset controller is configured to output a code to the bias circuit indicating one of k different voltages, k is an integer, and the bias circuit is configured to set the bias voltage to the one of the k voltages indicated in the code. 9 . The receiver of claim 8 , wherein k is three or greater. 10 . The receiver of claim 1 , wherein the bias circuit comprises: first and second resistors coupled in series between first and second inputs of the latch; and a current source coupled to a node between the first and second resistors, wherein the bias voltage is generated at the node between the first and second resistors. 11 . A method for offset-voltage compensation, comprising: turning on one or more compensation transistors, wherein each of the one or more compensation transistors provides an offset-compensation current for reducing an offset voltage of a latch; and applying a bias voltage to a gate of each of one or more step-adjustment transistors, wherein each of the one or more step-adjustment transistors is coupled in series with a respective one of the one or more compensation transistors. 12 . The method of claim 11 , further comprising: receiving a code indicating one of k different voltages, wherein k is an integer; and setting the bias voltage to the one of the k voltages indicated in the code. 13 . The method of claim 12 , wherein k is three or greater. 14 . The method of claim 11 , further comprising supplying a current to a resistor network to generate the bias voltage. 15 . The method of claim 14 , further comprising: receiving a code indicating one of k different voltages, wherein k is an integer; and setting a level of the current based on the one of the k voltages indicated in the code. 16 . The method of claim 15 , wherein k is three or greater. 17 . An apparatus for offset-voltage compensation, comprising: means for turning on one or more compensation transistors, wherein each of the one or more compensation transistors provides an offset-compensation current for reducing an offset voltage of a latch; and means for applying a bias voltage to a gate of each of one or more step-adjustment transistors, wherein each of the one or more step-adjustment transistors is coupled in series to a respective one of the one or more compensation transistors. 18 . The apparatus of claim 17 , further comprising: means for receiving a code indicating one of k different voltages, wherein k is an integer; and means for setting the bias voltage to the one of the k voltages indicated in the code. 19 . The apparatus of claim 18 , wherein k is three or greater. 20 . The apparatus of claim 17 , further comprising means for supplying a current to a resistor network to generate the bias voltage. 21 . The apparatus of claim 20 , further comprising: means for receiving a code indicating one of k different voltages, wherein k is an integer; and means for setting a level of the current based on the one of the k voltages indicated in the code. 22 . The apparatus of claim 21 , wherein k is three or greater.