An external signal is necessary in the locking process of the traditional multiplying delay-locked loop. It is used to set total delay of the cyclic delay line in acquisition range of the phase detector, or the whole loop would be out of control. The output clock range of the clock synthesizer using cyclic pulse generation technique is limited by the acquisition range of the PD, and the clock synthesizer could not change its output clock frequency from low to high. An approach to solve the above question by using a phase detector with frequency selection is proposed in this thesis. The control algorithm of the approach is introduced and implemented in CMOS 0.35μm process to verify it. This circuit design can synthesize output clock frequency from 37.5MHz to 444MHz without extra start-up circuit and the external signal to control the initial total delay. This work overcomes the drawbacks of the clock synthesizer using MDLL technique, and is incorporated into the systems which use traditional PLL as clock synthesizer. More effects are done to simplify the circuit design and control algorithm in the rest part of the thesis, and the algorithm is verified by software tool, SIMULINK.