TY  - BOOK
AU  - Karim Mohamed AboZeid Khalifa,
AU  - Ahmed Hussein Mohamed Khalil
AU  - Hassan Mostafa Hassan Mostafa
TI  - Design of reconfigurable analog to digital converters and capacitance to digital converters for sensor fusion based iot applications
U1  - 621.38 
PY  - 2025///
KW  - Electronics and Communications Engineering
KW  - ÙÙØ¯Ø³Ø© Ø§ÙØ¥ÙÙØªØ±ÙÙÙØ§Øª ÙØ§ÙØ§ØªØµØ§ÙØ§Øª Ø§ÙÙÙØ±Ø¨ÙØ©
KW  - Successive approximation register (SAR)
KW  - Reconfigurable Analog to Digital converter (R-ADC)
KW  - Reconfigurable Capacitance to Digital converter (R-CDC)
KW  - Least significant bit (LSB)
KW  - Most significant bit (MSB)
KW  - (R-ADC) ÙØ­ÙÙ ØªÙØ§Ø¸Ø±Ù Ø±ÙÙÙ ÙØ§Ø¨Ù ÙØ§Ø¹Ø§Ø¯Ø© Ø§ÙØªØ´ÙÙÙ
KW  - (SAR) Ø§ÙØªØ³Ø¬ÙÙ Ø§ÙØªÙØ±ÙØ¨Ù Ø§ÙØªØ¹Ø§ÙØ¨Ù
N1  - Thesis (Ph.D)-Cairo University, 2025; Bibliography: pages 136-144; Issues also as CD
N2  - This thesis presents design of reconfigurable analog to digital converter and reconfigurable capacitance to digital converter for sensor fusion that have many important applications. The conversion of more than one analog signal is done using one converter to different digital output bits. The proposed design for the ADC and CDC use successive approximation register algorithm that provides low power consumption and small chip area compared to other algorithms. These designs are applied on multiplexed sensor fusion that has many applications in internet of things, biosensors, automotive sensors and weather sensors. In this work three weather analog signals are converted, these signals are temperature, pressure and humidity. All metrics of the converters are measured as effective number of bits, signal to noise ratio, power consumption, integral non-linearity, differential non-linearity, figure of merit and chip area for each number of bits (4, 8 and 12) using a supply voltage of 1V and sampling frequency 100 kHz; ÙÙØ¯Ù ÙØ°Ø§ Ø§ÙØ¹ÙÙ ØªØµÙÙÙ ÙÙØ­ÙÙØ§Øª ØªÙØ§Ø¸Ø±ÙØ© Ø±ÙÙÙØ© ÙØªØµÙÙÙ ÙÙØ­ÙÙØ§Øª ÙÙØ«ÙØ§ØªÙØ© Ø±ÙÙÙØ© ÙØ§Ø¨ÙØ© ÙØ§Ø¹Ø§Ø¯Ø© Ø§ÙØªØ´ÙÙÙ ÙÙØ³ØªØ´Ø¹Ø± Ø§ÙØ§ÙØ¯ÙØ§Ø¬ ÙØ§ÙØ°Ù ÙØ¯ÙÙ Ø§ÙØ¹Ø¯ÙØ¯ ÙÙ Ø§ÙØ§Ø³ØªØ®Ø¯Ø§ÙØ§Øª Ø§ÙÙØ§ÙØ©Ø Ø­ÙØ« ØªÙÙÙ Ø§ÙÙÙØ±Ø© Ø§ÙÙÙØ¯ÙØ© Ø¹ÙÙ ØªØ­ÙÙÙ Ø§ÙØ«Ø± ÙÙ Ø§Ø´Ø§Ø±Ø© ØªÙØ§Ø¸Ø±ÙØ© Ø§ÙÙ ÙØ®Ø±Ø¬Ø§Øª Ø±ÙÙÙØ© ÙØ®ØªÙÙØ© Ø¨Ø§Ø³ØªØ®Ø¯Ø§Ù ÙØ­ÙÙ ÙØ§Ø­Ø¯. Ø§ÙØªØµÙÙÙ Ø§ÙÙÙØªØ±Ø­ ÙÙÙ ÙØ­ÙÙ ÙØ¹ØªÙØ¯ Ø¹ÙÙ Ø·Ø±ÙÙØ© Ø§ÙØªØ³Ø¬ÙÙ Ø§ÙØªÙØ±ÙØ¨Ù Ø§ÙØªØ¹Ø§ÙØ¨Ù ÙØ§ÙØ°Ù ÙÙÙÙ ÙÙ Ø§ÙÙ ÙÙÙØ²Ø§ØªÙ ÙÙØ© Ø§Ø³ØªÙÙØ§Ù Ø§ÙØ·Ø§ÙØ© Ù ØµØºØ± ÙØ³Ø§Ø­Ø© Ø§ÙØ´Ø±ÙØ­Ø©. Ø§ÙØªØµÙÙÙÙÙ Ø§ÙÙÙØªØ±Ø­ÙÙ ÙÙ ÙØ¸Ø§Ù Ø§ÙÙØ³ØªØ´Ø¹Ø± Ø§ÙÙØªØ¹Ø¯Ø¯ ÙÙ Ø§ÙØ§ÙØ¯ÙØ§Ø¬ ÙØ¯ÙÙÙ Ø§ÙØ¹Ø¯ÙØ¯ ÙÙ Ø§ÙØªØ·Ø¨ÙÙØ§Øª Ø§ÙÙØ³ØªØ®Ø¯ÙØ© ÙØ«Ù Ø§ÙØªØ±ÙØª Ø§ÙØ£Ø´ÙØ§Ø¡Ø Ø§ÙÙØ³ØªØ´Ø¹Ø±Ø§Øª Ø§ÙØ­ÙÙÙØ©Ø ÙØ³ØªØ´Ø¹Ø±Ø§Øª Ø§ÙØ³ÙØ§Ø±Ø§Øª ÙÙØ³ØªØ´Ø¹Ø±Ø§Øª Ø§ÙØ·ÙØ³. ÙÙØ¯ ØªÙ ÙÙ ÙØ°Ø§ Ø§ÙØ¹ÙÙ ØªØ­ÙÙÙ Ø«ÙØ§Ø«Ø© Ø¥Ø´Ø§Ø±Ø§Øª ÙÙØ­Ø·Ø© Ø·ÙØ³ ÙÙØ°Ù Ø§ÙØ¥Ø´Ø§Ø±Ø§Øª ÙÙ Ø§ÙØ­Ø±Ø§Ø±Ø©Ø Ø§ÙØ¶ØºØ· Ù Ø§ÙØ±Ø·ÙØ¨Ø©. ØªÙ ÙÙØ§Ø³ Ø¬ÙÙØ¹ Ø®ØµØ§Ø¦Øµ Ø§ÙÙØ­ÙÙØ§Øª Ø§ÙÙØµÙÙØ© ÙØ«Ù Ø¹Ø¯Ø¯ Ø§ÙØ¨ØªØ§Øª Ø§ÙÙØ¹ÙÙØ ÙØ³Ø¨Ø© Ø§ÙØ¥Ø´Ø§Ø±Ø© Ø§ÙÙ Ø§ÙØ¶ÙØ¶Ø§Ø¡Ø Ø§ÙØ·Ø§ÙØ© Ø§ÙÙØ³ØªÙÙÙØ©Ø ÙØªÙØ§ÙÙ Ø§ÙÙØ§Ø®Ø·ÙØ©Ø ØªÙØ§Ø¶Ù Ø§ÙÙØ§Ø®Ø·ÙØ©Ø ØµÙØ±Ø© Ø§ÙØ§Ø³ØªØ­ÙØ§Ù ÙØ§ÙÙØ³Ø§Ø­Ø© Ø§ÙÙØ³ØªÙÙÙØ© ÙÙØ´Ø±ÙØ­Ø© ÙØ°ÙÙ ÙÙÙ ÙÙÙØ© ÙÙ Ø§ÙØ¨ØªØ§Øª Ø§ÙÙØ³ØªØ®Ø±Ø¬Ø© (4Ø8Ø12) ÙØ¨Ø§Ø³ØªØ®Ø¯Ø§Ù ÙØµØ¯Ø± ØªÙØ§Ø± 1 ÙÙÙØª Ù ØªØ±Ø¯Ø¯ Ø§ÙØ¹ÙÙØ§Øª 100 ÙÙÙÙ ÙØ±ØªØ²
ER  -