| Integrated electronic and optoelectronic circuits and devices for pulsed time-of-flight laser rangefinding | ||
|---|---|---|
| Prev | ||
Ahola R (1979) Design of the transmitter and receiver of a laser rangefinder system for moving targets. (Liikkuvan kohteen Laser-etäisyysmittauslaitteiston lähettimen ja vastaanottimen suunnittelu). Dipl. Eng. thesis, University of Oulu, Department of Electrical Engineering.
Ahola R (1987) A pulsed time-of-flight laser rangefinder for fast, short-range, high resolution applications. Acta Univ Oul C 38.
Araki T & Yoshida H (1996) Optical distance meter using a pulsed laser diode and fast avalanche photo diodes for measurement of molten steel levels. Transactions of the ASME 118:800-803.
Banner (2002) L-gage LT3, Long-Range Time-of-Flight Laser Distance-Gauging Sensors. Banner Engineering Corp., Minneapolis, U.S.A.
Bertolini G (1968) Pulse shape and time resolution. In: Bertolini G & Coche A (eds) Semiconductor Detectors. North-Holland Publishing, Amsterdam, Holland.
Biber A, Seitz P & Jäckel H (2001) Avalanche photodiode image sensor in standard silicon BiCMOS technology. Sensors and Actuators A 2885: 1-7.
Binkley DM & Casey ME (1988) Performance of fast monolithic ECL voltage comparators in constant-fraction discriminators and other timing circuits. IEEE Transactions on Nuclear Science 35(1): 226-230.
Cherry EM & Hooper DE (1963) The design of wide-band transistor feedback amplifiers. Proceedings I.E.E, 110(2): 375-389.
Gedcke DA & McDonald WJ (1968) Design of the constant fraction of pulse height trigger for optimum time resolution. Nuclear Instruments and Methods 58: 253-260.
Ghioni M, Zappa F, Kesan VP & Warnock J (1996) A VLSI-compatible high-speed silicon photodetector for optical data link applications. IEEE Transactions on Electron Devices 43(7): 1054-1060.
Gilbert B (1968) A precise four-quadrant multiplier with subnanosecond response. IEEE Journal of Solid-State Circuits 3(4): 365-373.
IEEE (1996) The IEEE Standard Dictionary of Electrical and Electronics Terms. IEEE Standard 100-1996. IEEE Standards Office, Piscataway, New Jersey, USA.
Jackson RG, Blalock TV, Simpson ML, Wintenberg AL & Young GR (1997) Integrated constant-fraction discriminator shaping techniques for the PHENIX lead-scintillator calorimeter. IEEE Transactions on Nuclear Science 44(3): 303-307.
Kaisto I, Kostamovaara J, Manninen M & Myllylä R (1993) Laser radar based measuring system for large scale assembly applications. Proc. SPIE International Conference on Laser Dimensional Metrology: Recent Advances for Industrial Application, Brighton, United Kingdom, 2088: 121-130.
Kawashima S, Watanabe K & Kobayashi K (1995) Traffic condition monitoring by laser radar for advanced safety driving. Proc. of the Intelligent Vehicles ‘95 Symposium, Detroit, USA, 299-303.
Kinbara S & Kumahara T (1969) A leading-edge time pickoff circuit. Nuclear Instruments and Methods 69: 261-266.
Kostamovaara J & Myllylä R (1985) A time-to-amplitude converter with constant fraction timing discriminators for short time interval measuring. Nuclear Instruments and Methods in Physics Research A239: 568-578.
Kostamovaara J (1986) Techniques and devices for positron lifetime measurement and time-of-flight laser rangefinding. Acta Univ Oul C 37.
Kyomasu M (1995) Development of an integrated high speed silicon PIN photodiode sensor. IEEE Transactions on Electron Devices 42(6): 1093-1099.
Lange R & Seitz P (2001) Solid-state time-of-flight range camera. IEEE Journal of Quantum Electronics 37(3): 390-397.
Lim PJW, Tzeng AYC, Chuang HL & Onge SAS (1993) A 3.3-V monolithic photodetector/CMOS preamplifier for 531 Mb/s optical data link applications. Proc. IEEE International Solid-State Circuits Conference, ISSCC’93 : 96-97.
Myllylä R, Marszalec J, Kostamovaara J, Mäntyniemi A & Ulbrich G-J (1998) Imaging distance measurements using TOF lidar. Journal of Optics 29(3): 188-193.
Määttä K, Kostamovaara J & Myllylä R (1990) On the measurement of hot surfaces by pulsed time-of-flight laser radar techniques. Proc. SPIE International Congress on Optical Science and Engineering: Industrial Inspection II, Hague, Netherlands, 1265: 179-191.
Määttä K, Kostamovaara J & Myllylä R (1993) Profiling of hot surfaces by pulsed time-of-flight laser range finder techniques. Applied Optics 32(27): 5334-5347.
Määttä K & Kostamovaara J (1997) Accurate liquid level gauge based on pulsed time-of-flight principle. SPIE Proceeding 3100: 268-277.
Määttä K (1995) Pulsed time-of-flight laser rangefinding techniques and devices for hot surface profiling and other industrial applications. Acta Univ Oul C 81.
Palojärvi P, Ruotsalainen T & Kostamovaara J (1997) A variable gain transimpedance amplifier channel with a timing discriminator for a time-of-flight laser radar. Proc. IEEE European Solid-State Circuits Conference, ESSCIRC"97 : 384-387.
Paulus TJ (1985) Timing electronics and fast timing methods with scintillation detectors. IEEE Transactions on Nuclear Science NS-32(3): 1242-1249.
Pennala R, Kilpelä A & Kostamovaara J (2000) An integrated receiver channel for picosecond range laser radar pulses. Proc. 43rd IEEE Midwest Symposium on Circuits and Systems, MWSCAS’00 : 702-705.
Phang K & Johns DA (1999) A CMOS optical preamplifier for wireless infrared communications. IEEE Transactions on Circuits and Systems II: Analog and Digital Signal Processing 46(7): 852-859.
Ruotsalainen T, Palojärvi P & Kostamovaara J (1995a) A 160 MHz BiCMOS differential amplifier channel with gain control for the receiver of a portable laser rangefinding device. Proc. 38th Midwest Symposium on Circuits and Systems, MWSCAS’95 : 1030-1033.
Ruotsalainen T, Palojärvi P & Kostamovaara J (1995b) BiCMOS and CMOS timing detectors for the receiver of a portable laser rangefinding device. Proc. 38th Midwest Symposium on Circuits and Systems, MWSCAS’95 : 1022-1025.
Ruotsalainen T (1999a) Integrated receiver channel circuits and structures for a pulsed time-of-flight laser radar. Acta Univ Oul C 136.
Ruotsalainen T, Palojärvi P & Kostamovaara J (1999b) A current-mode gain control scheme with constant bandwidth and propagation delay for a transimpedance preamplifier. IEEE Journal of Solid-State Circuits 34(2): 253-258.
Räisänen-Ruotsalainen E, Rahkonen T & Kostamovaara J (1995) A low-power CMOS time-to-digital converter. IEEE Journal of Solid-State Circuits 30(9): 984-990.
Räisänen-Ruotsalainen E (1998) Integrated time-to-digital converter implementations. Acta Univ Oul C 122.
Räisänen-Ruotsalainen E, Rahkonen T & Kostamovaara J (2000) An integrated time-to-digital converter with 30-ps single-shot precision. IEEE Journal of Solid-State Circuits 35(10): 1507-1510.
Samuels M, Patterson S, Eppstein J & Fowler R (1992) Low cost, handheld lidar system for automotive speed detection and law enforcement. Proc. SPIE International Conference on Laser Radar VII: Advanced Technology for Applications, Los Angeles, California, USA, 1633: 147-159.
Simpson ML, Britton CL, Wintenberg AL & Young GR (1997) An integrated CMOS time interval measurement system with subnanosecond resolution for the WA-98 calorimeter. IEEE Journal of Solid-State Circuits 32(2): 198-205.
Simpson ML & Paulus MJ (1998) Discriminator design considerations for time-interval measurement circuits in collider detector systems. IEEE Transactions on Nuclear Science 45(1): 98-104.
Schow CL, Schaub JD, Li R, Qi J & Campbell JC (1999) A monolithically integrated 1-Gb/s silicon photoreceiver. IEEE Photonics Technology Letters 11(1): 120-121.
van de Plassche R (1994) Integrated Analog-to-Digital and Digital-to-Analog Converters. Kluwer Academic Publishers, Netherlands.
Vanisri T & Toumazou C (1995) Integrated high frequency low-noise current-mode optical transimpedance preamplifiers: theory and practice. IEEE Journal of Solid-State Circuits 30(6): 677-685.
Wieland J, Duran H & Felder A (1994) Two-channel 5 Gbit/s silicon bipolar monolithic receiver for parallel optical interconnects. Electronics Letters 30(4): 358-359.
Woodward TK & Krishnamoorthy (1998) 1 Gbit/s CMOS photoreceiver with integrated detector operating at 850nm. Electronics Letters 34(12): 1252-1253.
Yahya CB (2000) Design of wideband low noise transimpedance amplifiers for optical communication. Proc. 43rd IEEE Midwest Symposium on Circuits and Systems, MWSCAS’00 : 804-807.
Yamamoto M, Kubo M & Nakao K (1995) Si-OEIC with a built-in pin-photodiode. IEEE Transactions on Electron Devices 42(1): 58-63.
Zand B, Phang K & Johns DA (2001) A transimpedance amplifier with DC-coupled differential photodiode current sensing for wireless optical communication. Proc. IEEE 2001 Custom Integrated Circuits Conference: 455-458.
Zhou MJ, Holleman J & Wallinga H (1994) Elimination or minimisation of optoelectronic crosstalk between photodiodes and electronic devices in OEIC on Si. Electronics Letters 30(11): 895-897.