This paper presents a MIPI (Mobile Industry Processor Interface) D-PHY (physical layer) analog part that meets the MIPI Alliance standard that supports high-speed (HS) transmitter (HS-TX) and receiver (HS-RX) modes as well as low-power (LP)-TX, LP-RX, and LP-contention detection (CD) modes. MIPI is a flexible, source synchronous serial interface standard connecting a host processor to display and camera modules on mobile devices. The standard supports signal levels of 1.2Vpp at 10Mbps in LP mode and 0.2Vpp at 80–1000Mbps in HS mode.In the design, we propose the use of special circuits: LP-TX controls the slew-rate and limits current with a push–pull driver that reduces electromagnetic interference, LP-RX maintains good noise immunity using a hysteresis comparator and a set/reset (SR) latch, HS-TX supports synchronous differential high-speed data transmission based on Scalable Low Voltage Signaling (SLVS), and HS-RX stably receives transferred data with DC variations and AC noise using a very-wide-common-mode range differential amplifier (VCDA). We implemented the MIPI D-PHY analog chip using 0.13μm CMOS process under a 1.2V supply. We found that the HS-RX block shows a jitter of less than 5% at 1Gbps and a power consumption of 0.74mW that is suitable for the standard.