This paper describes the design method for highorder multi-bit incremental converters aiming at high resolution (> 14 bits) with Smart-DEM algorithm. Traditional 2^nd and 3^rd-order incremental ADCs use 1-bit quantizer. These structures lead to long conversion time for each sample to achieve the expected resolution and high power consumption due to the large output swing of the op-amps. Also, the fractional coefficients along the accumulation path that avoid instability degrade the performance. On the contrary, modulators employing multi-bit quantizer and DAC do not suffer from these problems. Although the mismatch of unity elements in the DAC causes non-linearity issue, this can be suppressed by Smart-DEM algorithm. Because the Smart-DEM algorithm is quite compact and easy to implement, the modulator benefits extra bits performance directly from the multi-bit DAC with affordable digital circuits overhead. In this paper several structures for incremental ADCs utilizing multi-bit quantizer are presented. The positive-and-negative DAC and the Smart-DEM algorithm are explained. With 3-bit quantizer, the simulation results show that the 2^nd-order incremental ADC obtains 18-bit resolution with 256 clock periods.