This paper presents the design and implementation of a digital-to-time converter with coupled phase-rotating LC oscillators. Unlike conventional quadrature signal generation where circuit symmetry is carefully maintained, in the proposed design, the coupling circuits are intentionally skewed for phase and timing adjustments, while the total phase delay through the coupling circuits is set properly to ensure resonant operation. With 7-bit control across a full cycle, the proposed design can provide unlimited adjustment range. A prototype is designed and implemented with a 90-nm CMOS process, and a phase-locked loop is adopted to stabilize the operating frequency. With the core oscillators operating at 9.87 GHz, measurement results show an effective timing resolution of 1.71 ps. Phase noise at 1 MHz and 10 MHz offset aie -117.7 dBc/Hz and -124.7 dBc/Hz, respectively. The entire DTC design consumes less than 50 mW at all output settings.