In the field of high-speed ADC, an 8-bit 700MS/s single-channel SAR and 7-bit 2.4GS/s calibration-free time-interleaved ADC in 40nm CMOS are presented. In the first design, in order to skip the comparator metastability, a delay-shift technique is proposed to shift the comparator delay to generate the 1.5-bit redundancy range which is similar to pipelined ADC, and it also accelerates the comparison speed. This SAR ADC in 40nm CMOS technology achieves an ENOB of 7 in Nyquist and consumes 5mW. It results in a FoM of 56fJ/conversion-step. Due to no extra calibration circuit, the core circuit only occupies an area of 0.006mm2. In the second design, in order to solve offset mismatch, an offset-compensation algorithm is proposed. It transforms offset mismatch to nonlinearity, and creates redundancy range to compensate it, so no calibration is required. This time-interleaved ADC in 40nm CMOS technology achieves an ENOB of 5.4 with low-frequency input and consumes 14mW. It results in a FoM of 130fJ/conversion-step.