A modified variable resolution semiflash ADC, based on ‘bit segmentation scheme’, is presented. Its speed and comparator count are identical to a normal flash ADC. An 8-bit ADC has 256 different bit combinations. Sixteen consecutive bit combinations from the MSB side – beginning with the first one, remain unaltered for such an ADC. It continues this way till the last group of sixteen bits. In the designed circuit, the four MSB and four LSB bits are determined in the first and second part of the clock. Following the same logic, the bits in a 16-bit ADC can be found out in only two clock cycles by employing only fifteen comparators. It implies that a higher resolution ADC can easily be determined with low power and small die area. It is tested in P-SIM Professional 9 for an 8-bit ADC and curves drawn to establish the validity of the proposal.

P. Ghoshal, C. Dey and S. K. Sen, "Design of a combinational modified 8-bit semiflash analog to digital converter", In Proceedings of the 4th International Conference on Devices for Integrated Circuits (DevIC), 2021, Kalyani, India, pp. 1–5.

A. Razzaq and S. M. Chaudhry, "A 15-Bit 85 MS/s hybrid flash-SAR ADC in 90-nm CMOS", Circuits, Syst. Signal Process., vol. 37, pp. 1452–1478, Aug. 2017.

B. D. Kumar, S. K. Pandey, N. Gupta and H. Shrimali, "Design of hybrid flash-SAR ADC using an inverter based comparator in 28 nm CMOS", Microelectron. J., vol. 95, p. 104666, Jan. 2020.

A. Cremonesi, F. Maloberti, G. Torelli and C. Vacchi, "An 8-bittwo step flash A/D converter for video application", In Proceedings of the IEEE Custom Integrated Circuits Conference (CICC), pp. 6.3/1–6.3/4, 1989.

D. P. Dimitrov and T. K. Vasileva, "Eight-bit semi flash A/D converter", Hindawi Publishing Corporation, VLSI Design, vol. 2007, pp. 1–7, 2007.

P. Ghoshal and S. K. Sen, "A bit swap logic (BSL) based bubble error correction (BEC) method for flash ADCs", In Proceedings of the International Conference on Control, Instrumentation, Energy and Communication, CIEC, 2016, pp. 111–115.

P. Ghoshal and S. K. Sen, "Performance evaluation of flash ADCs in presence of offsets using hot code generator and bit swap logic (BSL)", In Proceedings of the International Conference on Industry Interactive Innovations in Science, Engineering and Technology, I3SET-2016, Springer-LNNS, published in Industry interactive innovations in science, engineering and technology, 2016, pp. 435–445.

M. Gurjar and S. Akashe, "Design low power encoder for threshold inverter quantization based flash ADC Converter", Int. J. VLSI Des. Commun. Syst., vol. 4, no. 2, pp. 83–90, Apr. 2013.

D. Liu, L. He, F. Lin, T. Li and Y.-K. Chou, "A time interleaved statistically-driven two step flash ADC for high-speed wire line applications", J. Circ. Syst. Comput., vol. 26, no. 7, p. 1750118, July 2017.

M. K. Mayes and S. W. Chin, "A multi step A/D converter family with efficient architecture", IEEE J. Solid State Circ., vol. 24, no. 6, pp. 1492–1497, Dec. 1989.

M. S. Njinowa, H. T. Bui and F-R. Boyer, "Design of low power 4-bit flash ADC based on standard cells", In Proceedings of IEEE 11th International New Circuits and Systems Conference, (NEWCAS), 2013, pp. 1–4.

E. Rahul, E, R. K. Siddharth, V. Sharma, M. H. Vasantha and Y. B. Nitin Kumar, "Two-step flash ADC using standard cell based flash ADCs", In Proceedings of the IEEE International Symposium on Smart Electronic Systems, 2019, pp. 292–295.

R. K. Siddharth, K. Y. B. Nithin and M. H Vasantha, "Design of low power 5-Bit hybrid flash ADC", In Proceedings of the IEEE Computer Society Annual Symposium on VLSI (ISVLSI), 2016, pp. 585–588.

P. B. Y. Tan, A. V. Kordesch and O. Sidek, "Simplified half flash CMOS Analog to Digital Converter", In Proceedings of the NSTI-Nanotech 2004, pp. 191–194.

D. Liu, L. He, F. Lin, T. Li and Y-K. Chou, "A time interleaved statistically driven two step flash ADC for high speed wireless applications", J. Circ. Syst. Comput., vol. 26, no. 7, p. 1750118, July 2017.

M. N. A. Bajg and R. Ranjan, "Design and implementation of 3-bit high speed flash ADC for wireless LAN applications", Int. J. Adv. Res. Comput. Commun. Eng., vol. 6, no. 3, pp. 428–433, March 2017.

S. Shahramian, S. P. Voinigescu and A. C. Carusone, "A 35-GS/s, 4-Bit flash ADC with active data and clock distribution trees", IEEE J. Solid-State Circ., vol. 44, no. 6, pp. 1709–1720, June 2009.

M. P. Ajanya and G. T. Varghese, "Low power Wallace tree encoder for flash ADC", IOP Conference Series: Materials Science and Engineering, vol. 396, 2018, p. 012042.

G. Prativa and M. Santhi, "Design of low power fault tolerant flash ADC for instrumentation applications", Microelectron. J., vol. 98, p. 104739, Apr. 2020.

A. Amini, A. Baradararanrezaeii and M. Hassanzadazar, "A novel online offset cancellation mechanism in a low power 6-bit 2GS/s flash ADC", Analog Integr. Circuits Signal Process., vol. 99, no. 2, pp. 219–229, May 2019.