3DJAM is a novel 3D image sensor, implemented with a 3.3V, 0.35mum CMOS technology, that combines the optical triangulation (OT) and the indirect time of flight (I-TOF) techniques in a single chip for range finding scanners. It has been designed to cover very large depth scenes (up to 20 meters), achieving sub-millimeter resolution over the OT range (below 2 meters), working with a single pulsed laser source and also taking advantage of ambient light removal. The chip embeds also a programmable logic unit, which supervises over all the internal functions (like timing, pipelining, data transfer), a power supply unit (for both the analogue and the digital subsystems) and an analogue output buffer that can drive an external ADC for data acquisition
3DJAM: A Linear CMOS Sensor for 3D Vision with Merged I-TOF and OT Techniques
Ficorella, F.;Viarani, L.;Perenzoni, M.;Stoppa, D.;Gonzo, L.
2006-01-01
Abstract
3DJAM is a novel 3D image sensor, implemented with a 3.3V, 0.35mum CMOS technology, that combines the optical triangulation (OT) and the indirect time of flight (I-TOF) techniques in a single chip for range finding scanners. It has been designed to cover very large depth scenes (up to 20 meters), achieving sub-millimeter resolution over the OT range (below 2 meters), working with a single pulsed laser source and also taking advantage of ambient light removal. The chip embeds also a programmable logic unit, which supervises over all the internal functions (like timing, pipelining, data transfer), a power supply unit (for both the analogue and the digital subsystems) and an analogue output buffer that can drive an external ADC for data acquisitionI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
