tag:blogger.com,1999:blog-19092890.post7608062952003584787..comments2024-03-28T17:41:43.970+02:00Comments on Image Sensors World: Polarization Sensitive Current-Mode SensorVladimir Koifmanhttp://www.blogger.com/profile/01800020176563544699noreply@blogger.comBlogger7125tag:blogger.com,1999:blog-19092890.post-62431845924465677972014-10-15T02:07:28.118+03:002014-10-15T02:07:28.118+03:00PRNU is slightly less than 1% actually, ex. 93/950...PRNU is slightly less than 1% actually, ex. 93/9504*100%=0.98%.Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-19092890.post-22762592821794855652014-10-05T17:47:41.576+03:002014-10-05T17:47:41.576+03:00Yes. In Mead team's circuits, all the pixels s...Yes. In Mead team's circuits, all the pixels share a single transimpedance amplifier made by an OP-AMP outside (TL074). I've used such circuit too. The key advantage is that the bus voltage is clamped and you can get higher speed. It works pretty well till several Mhz. <br /><br />In this design also, the key advantage for me is that in current-mode, we can vehicle 2 signals at the same time: voltage and current, since an ideal current source value is not influenced by the voltage on the bus.<br /><br />All these are the good things so long time ago !<br /><br />-yang niAnonymousnoreply@blogger.comtag:blogger.com,1999:blog-19092890.post-5633353832562442682014-10-05T14:41:18.911+03:002014-10-05T14:41:18.911+03:00One amplifier for all pixels ??
In this case, it i...One amplifier for all pixels ??<br />In this case, it is possible.Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-19092890.post-5704232285971557712014-10-05T13:58:18.839+03:002014-10-05T13:58:18.839+03:00yes, but I think the Caltech retina work was quite...yes, but I think the Caltech retina work was quite different, focused on biomemetic circuits esp. logarithmic, adaptive and motion detection, usually with a BJT as the phototransducer. I think the work I cited above is much closer to what Gruev's group is using for readout. I have to say I am not 100% knowledgeable about all the things Mead's group looked at. Eric R Fossumhttps://www.blogger.com/profile/09740612324630105312noreply@blogger.comtag:blogger.com,1999:blog-19092890.post-24512565531940861032014-10-05T12:54:42.618+03:002014-10-05T12:54:42.618+03:00CalTech work was around 1985...1990CalTech work was around 1985...1990Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-19092890.post-76812124082909429422014-10-05T11:58:30.163+03:002014-10-05T11:58:30.163+03:00For current mode, Lisa McIlrath reported on this i...For current mode, Lisa McIlrath reported on this in 1997: McIlrath, L.G.; Clark, V.S.; Duane, P.K.; McGrath, R.D.; Waskurak, W.D., "Design and analysis of a 512×768 current-mediated active pixel array image sensor," Electron Devices, IEEE Transactions on , vol.44, no.10, pp.1706,1715, Oct 1997 as did Junichi Nakamura in the same special issue on image sensors: Nakamura, J.; Pain, B.; Nomoto, T.; Nakamura, T.; Fossum, E.R., "On-focal-plane signal processing for current-mode active pixel sensors," Electron Devices, IEEE Transactions on , vol.44, no.10, pp.1747,1758, Oct 1997. While quite good results were obtained, esp. with the more complex circuits of Nakamura et al., current-mode is really not used often. I think the polarization sensors that Gruev's team have been developing are quite interesting and have come a long way in performance.Eric R Fossumhttps://www.blogger.com/profile/09740612324630105312noreply@blogger.comtag:blogger.com,1999:blog-19092890.post-42059714253359633312014-10-05T10:46:05.818+03:002014-10-05T10:46:05.818+03:00The current mode readou by using linear mode MOS s...The current mode readou by using linear mode MOS should be firstly used by CalTech Mead team. I've experienced this also in an early circuit. In order to get good linearity, the drain voltage should be kept very small. In column parallel mode, the error on the clamping voltage will be transformed into gain offset. What is the fundamental advantage compared to classic voltage mode readout then V-I conversion please ? Tobi, you are expert on this, could you please say more ? <br />Anonymousnoreply@blogger.com