A shift register includes a control unit, a signal switching unit and a buffer unit. The control unit determines whether to transfer an input signal from a first input terminal to a first output terminal according to a first control signal, and determines whether to conduct a first pre-defined voltage to a second output terminal according to a second control signal. The signal switching unit uses the signal output from the first output terminal as one of the considerations for determining whether to conduct a second pre-defined voltage to a third output terminal, and uses the second control signal as one of the considerations for determining whether to conduct the second pre-defined voltage to the first output terminal. The buffer unit outputs signal according to the signals from the first/third output terminals. Further, at least once, the second control signal is enabled after the first control signal has been enabled.

An improved dynamic shift register circuit is disclosed. A circuit design is provided to minimize overlapping between two adjacent output pulses in the dynamic shift register circuit. In an application of analog sample-and-hold circuit, the circuit design effectively improves a distortion of sampled data caused by significant overlapping of two adjacent output pulses as control signals.

A shift register circuit includes a shift register unit and a buffer. The buffer is coupled to the output terminal of the shift register unit to delay the output signal from the shift register unit. The overlapped voltage of two output signals from two adjacent shift register units can be reduced.

A shift register unit. The shift register unit outputs a shift register signal according to a clock signal, an inverse clock signal and a start signal. The shift register has first and second clock inversion circuits, and an inverter. In the first clock inversion circuit, a third PMOS transistor has a third source coupled to the first voltage, a third gate and a third drain. A fourth PMOS transistor has a fourth source coupled to the third drain, a fourth gate and a fourth drain coupled to the second voltage. A fifth PMOS transistor has a fifth source coupled to the third drain, a fifth drain coupled to the first gate, and a fifth gate. A sixth PMOS transistor having a sixth source coupled to the third gate, a sixth drain coupled to the second gate, and a sixth gate coupled to the fifth gate.

A disable circuit for using in a dynamic shift register unit comprising: a first input, a second input, an output, a first reference line for receiving a first supply voltage, a second reference line for receiving a second supply voltage, and six transistors. The disable circuit is capable of being coupled with a dynamic shift register unit having an input for receiving an input pulse and an output for outputting a shifted pulse. The disable circuit generates an output signal during an input pulse period or an output pulse period for the dynamic shift register unit, wherein the input pulse period and the output pulse period are responsive to a first input pulsed signal from the first input and a second input pulsed signal from the second input, respectively.