1 / 13

Eri Prasetyo

Design and Implementation a 8 bits Pipeline Analog to Digital Converter in The Technology 0.6 μ m CMOS Process. Eri Prasetyo. Introduction. ADC convert of pixel analogic value to digital value in the image CMOS sensor design. The goal : -ADC can run in the video rate

robertwjames
Télécharger la présentation

Eri Prasetyo

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Design and Implementation a 8 bits Pipeline Analog to Digital Converter in The Technology 0.6μm CMOS Process Eri Prasetyo

  2. Introduction • ADC convert of pixel analogic value to digital value in the image CMOS sensor design. • The goal : -ADC can run in the video rate -It must have small size in the layout design • We used the Pipeline ADC because it is simple and it have good conversation rate and good resolution

  3. Architecture Pipelined ADC • One bit per stage Stage 1 Stage 2 V residue V input 2V 3 V 1V 1V 4V 2V 1 0 0 0

  4. Architecture Pipelined ADC • One bit per stage Implemented by Switched Capacitor

  5. Architecture Pipelined ADC • Switched Capacitor • Each stage operates in two phase • Sampling phase • Multiplying phase If D(i) = 1 , Vout(i)=2xVin(i)-Di.Vrefp If D(i) = 0 , Vout(i) = 2xVin(i) – Ďi.Vrefn

  6. Architecture Pipelined ADC • Comparator • Consists of three blocks : • Preamplifier • Decission circuit • Output buffer

  7. Architecture Pipelined ADC • Operational Amplifier • It has a gain 55 dB for bias current 2.5 μA • with Vdd = 5 V and Vss = - 5V

  8. Architecture Pipelined ADC Result of simulation of Operational Amplifier The overall performance of the Op-Amp

  9. Architecture Pipelined ADC • Clock Management • We use latch technique • It is used to hold active condition at multiplying phase until • next stage begin to execute sampling phase • To keep output voltage of residu before conformity at input • next stage

  10. Architecture Pipelined ADC Clock Management The circuit of clock management • Use counter to count some clock to active the address decoder from • each stage • The clock begin working if reset signal • is actived • The clock finish working if reset signal • inactive

  11. Results One stage A/D converter layout Was estimated to occupy about 174 µm X 89 μm

  12. Results 8 bits ADC layout of CHIP photograph

  13. Results Curve linearity of ADC The overall specification And result

More Related