Design of the circuit blocks for successive approximation register analog to digital converter in 0.35 um CMOS technology

Autor: Miletić, Tomislav
Přispěvatelé: Koričić, Marko
Jazyk: chorvatština
Rok vydání: 2014
Předmět:
Popis: U ovom radu projektirani su sklopovski blokovi SAR A/D pretvornika korištenjem 0.35 µm CMOS tehnologije. Za postizanje željenih specifikacija analizirana je konfiguracija S&H sklopa s mogućnosti poništavanja napona pomaka pojačala. U S&H sklopu korištene su CMOS sklopke. Komparator je projektiran u konfiguraciji pretpojačala i bistabila radi postizanja vrlo brzog odziva. Kontrolna logika koja se sastoji od kružnog brojila i posmačnog registra ostvarena je asinkronim D bistabilima. Nadalje, projektirani D/A pretvornik s raspodijeljenim nabojem sadrži kapacitivnu mrežu i ugrađeni S&H sklop. Blokovi su projektirani za tipičan tehnološki proces i radne uvjete na razini električke sheme. Postignute su karakteristike koje zadovoljavaju primjenu u SAR ADP-u razlučivosti 12 bita i frekvencije uzorkovanja 1 MS/s. In this thesis the circuit blocks of an SAR A/D converter were designed in 0.35 µm CMOS technology. To achieve the target specifications, a configuration of an S&H circuit with the cancellation of amplifier offset voltage was analysed. CMOS transmission gates were used in the S&H circuit. The comparator was designed in a configuration of a preamplifier and a latch, in order to achieve a very short response time. The control logic consisting of ring counter and shift register was realised using asynchronous D-type flip-flops. Moreover, designed charge redistribution D/A converter has capacitive network and inherent S&H circuit. The Blocks were designed for typical process corners on the schematic level. The required performance for the application in a 12-bit 1 MS/s SAR ADC was achieved.
Databáze: OpenAIRE
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