With the advances of fabrication process, today’s electronic devices are capable of greater data capacity and faster data transmission in multimedia systems that require the serialized high speed interfaces such as PCI Express, HDMI and DisplayPort to be widely used these days. In other words, using high speed transmitters and receivers in these interfaces has become the trend of the next generation of high resolution displays. 　　A multi-rate AC-coupled receiver with automatic band selection is designed to support data rates of 1.62 Gb/s, 2.7 Gb/s and 5.4 Gb/s for DisplayPort Version 1.2 and an extra data rate of 8.1 Gb/s for specification extension. A wide bandwidth AC coupled interconnect is realized by using a pulse converter with positive feedback path to rapidly transform pulse signals into NRZ data. Half-rate architecture is adopted in the designed clock and data recovery (CDR) circuit so the half-rate linear phase detector and the half-rate digital quadricorrelator frequency detector are used to lock the phase and frequency respectively. The modified multi-band voltage controlled oscillator (VCO) is designed to provide a low VCO gain (KVCO). Because the VCO requires control signals to select the correct band, the automatic band selector enables the multi-rate operation of the receiver. 　　We fabricated this receiver using TSMC 90nm CMOS technology. When the input data rate is 5.4 Gb/s, the recovered 5.4 Gb/s data shows the peak-to-peak jitter of 20.2 ps and the rms jitter of 3.15 ps. The recovered 2.7 GHz clock shows the peak-to-peak jitter of 15.1 ps and the rms jitter of 2.13 ps. The BER is less than 10-12. The power dissipation without output buffers is 90 mW under a 1.2 V supply. This chip occupies a total area of 1 mm2 and the core area occupies an area of 0.23 mm2.