Abstract: A DLL circuit includes a clock selection control unit configured to generate a clock selection signal on the basis of a phase difference between a reference clock and a feedback clock and, after the clock selection signal is generated, to generate an initialization signal. A delay control unit, when the initialization signal is enabled, transfers an initial voltage to be generated by dividing an external power supply voltage to a delay unit as a control voltage, and controls a delay operation of a delay reference clock to be selected on the basis of the clock selection signal.
Abstract: A DLL circuit includes a clock selection control unit configured to generate a clock selection signal on the basis of a phase difference between a reference clock and a feedback clock and, after the clock selection signal is generated, to generate an initialization signal. A delay control unit, when the initialization signal is enabled, transfers an initial voltage to be generated by dividing an external power supply voltage to a delay unit as a control voltage, and controls a delay operation of a delay reference clock to be selected on the basis of the clock selection signal.
Abstract: A delay apparatus, and a delay locked loop circuit and a semiconductor memory apparatus using the same are provided. A delay locked loop circuit includes a register controlled delay part that delays a plurality of clocks input during an initial operation by delay amounts among initial delay amounts to be varied, which are set according to initial state setting signals, and increases or decreases the set delay amounts according to a phase detecting signal after the initial operation, a phase comparator that compares a phase of any one of the plurality of clocks and a phase of any one of the plurality of clocks delayed by the register controlled delay part and outputs the phase detecting signal, and an initial state setting unit that generates the initial state setting signals.
Abstract: A semiconductor memory apparatus includes: a compensation voltage input node; a core voltage generator configured to generate a core voltage using an external power source voltage and supply the core voltage to the compensation voltage input node; a compensation controlling unit configured to generate a compensation control signal to determine power compensation, in response to a refresh signal; a power compensating unit configured to selectively supply the external power source voltage to the compensation voltage input node in response to the compensation control signal; and a power supply unit configured to supply a voltage at the compensation voltage input node or the external power source voltage to a sense-amp driver in response to a first power control signal or a second power control signal.