With the growing development for portable devices, such as cellular phones, mobile TV, camera recorder and PDAs, these portable devices use battery as the power source and customers are concerned about the battery life. As a result, how to use the battery energy efficiently is the most concerned problem. There has been an increasing power consumption concern for wireless communication. One of the major reasons is the demand for higher data rates and wider bandwidth in portable devices. The power amplifier (PA) is a main part, which accounts for a major portion of the power consumption in wireless communication systems, (e.g., wideband code-division multiple access (WCDMA), and long-term evolution (LTE)). To reduce power dissipation in these power amplifiers, one promising solution is to employ a supply modulator (SM) that tracks the envelope of the RF input and modulates the PA supply voltage accordingly. Therefore, it can improve the whole efficiency of PA. This technique is known as envelope-tracking (ET) technique. In this thesis, the supply modulator includes two parts. First part is the dual-switching converter, which provides low frequency content of the envelope waveform, increases the output current of the switching converter, and decreases the current demand from the linear amplifier. The additional linear amplifier provides high frequency content of the envelope waveform, which has high bandwidth and low output noise. The chip is fabricated in a 0.35 μm CMOS process, and its size is 1.51×1.05 mm2. The test signals are 1/5/10/20 MHz sine waves and 20 MHz LTE envelope. The output voltage range and the peak efficiency are 0.4 ~3.9 V and 82.3 %, respectively.