Title :
An all digital delay lock loop architecture for high precision timing generator
Author :
Waris, Mohammad ; Mehta, Urvi ; Kumaran, Rajiv ; Mehta, Sanjeev ; Chowdhury, Arup Roy
Author_Institution :
Sensors Electron. Group, Sensors Dev. Area, Space Applic. Centre, Ahmedabad, India
Abstract :
Remote sensing satellites use Charge Coupled Detectors (CCD) to achieve lower noise and higher dynamic range. Operation of a CCD requires high precision clocks/sequences. Generally it is achieved by using Phase Locked loop (PLL) or Delay Lock Loop (DLL). DLL are preferred for their low noise. An All Digital Delay Lock Loop (ADDLL) is designed to be used in the timing generation core. It is implemented using RTL design flow. This paper discusses design and implementation of an All Digital Delay lock loop suitable for implementation using RTL design methodology. It shows detailed blocks and implementation. It also discusses the challenges faced and their solutions in using RTL design for implementing this DLL. The resolution achieved was 620 ps in 180nm technology with phase error of 232 ps.
Keywords :
charge-coupled devices; clocks; delay lock loops; integrated circuit design; CCD; DLL; PLL; RTL design flow; all digital delay lock loop architecture; charge coupled detectors; high precision clocks; high precision timing generator; phase locked loop; remote sensing satellites; size 180 nm; time 620 ps; timing generation core; Clocks; Delay lines; Delays; Detectors; Noise; Phase locked loops; Radiation detectors; ADDLL; DLL; Delay Line; PLL;
Conference_Titel :
VLSI Design and Test (VDAT), 2015 19th International Symposium on
Conference_Location :
Ahmedabad
Print_ISBN :
978-1-4799-1742-6
DOI :
10.1109/ISVDAT.2015.7208138
