REFERENCES

[1] MST Benchmarking Mission to the USA. Report of a European Visit to Microsystems Research and Production Sites in the USA, 13–25, November 1997, Nexus, 1998.

[2] Huijising J.H., Riedijk F.R., van der Horn G., Developments in integrated smart sensors, Sensors and Actuators (A: Physical), 43, 1994, 276–288.

[3] Novitskiy P.V. Frequency sensors design problem for all electrical and nonelectrical quantities, Measurement Technology, 4, 1961, 16–21 (In Russian).

[4] Novitskiy P.V., Knorring V.G., Gutnikov V.S., Digital Measuring Instruments with Frequency Sensors, Energia, Leningrad, 1970 (in Russian).

[5] Sensor markets 2008, Worldwide Analyses and Forecasts for the Sensor Markets until 2008, Press Release, Intechno Consulting, Basle, Switzerland, 1999.

[6] Middelhoek S., Celebration of the Tenth Transducers Conference: The past, present and future of transducer research and development, Sensors and Actuators (A: Physical), 82, 2000, 2–23.

[7] Measurement and Automation Cataloge, National Instruments, USA, 2000.

[8] Rutka M.J., Integrated Sensor Bus, Ph.D. Thesis, Delft University of Technology, 1994.

[9] Meijer Gerard C.M., Concepts and focus for intelligent sensor systems, Sensors and Actuators (A: Physical), 41–42, 1994, 183–191.

[10] Wolffenbuttel R.F., Fabrication compatibility of integrated silicon smart physical sensors, Sensors and Actuators (A: Physical), 41–42, 1994, 11–28.

[11] Bartek M., Selective Epitaxial Growth for Smart Silicon Sensor Application, Ph.D. Thesis, Delft University of Technology, 1995.

[12] Kirianaki N.V., Yurish S.Y., Shpak N.O., Smart sensors with frequency output: State-of-the-art and future development. In Proceedings of IFAC Workshop on Programmable Devices and Systems (PDS’2000), V. Srovnal and K. Vlcek Ostrava (eds), Czech Republic, 8–9 February, 2000, 37–42.

[13] Bianchi R.A., Vinci Dos Santos F., Karam J.M., Courtois B., Pressecq F., Sifflet S., CMOS-compatible smart temperature sensors, Microelectronics Journal, 29, 1998, 627–636.

[14] Riedijk F.R., Huijsing J.H., An integrated absolute temperature sensor with sigma-delta A/D conversion, Sensors and Actuators (A: Physical), A24, 1992, 249–256.

[15] Krummenacher P., Smart temperature sensor in CMOS technology, Sensors and Actuators, A21–A23, 1990, 636–638.

[16] Meijer G.C.M., A three-terminal integrated temperature transducer with microcomputer interfacing, Sensors and Actuators, 18, 1989, 195–206.

[17] Meijer G.C.M., An accurate biomedical temperature transducer with on-chip microcomputer interfacing, IEEE Journal of Solid State Circuits, 23(6), 1988, 1405–1410.

[18] Székeley V., Márta Cs., Kohári Zs., Rencz M., New temperature sensors for DfTT applications. In Proceedings on 2nd THERMINIC Workshop, 25–27 September, 1996, Budapest, Hungary, 49–55.

[19] Székeley V., Rencz M., Thermal monitoring of self-checking systems, Journal of Electronic Testing: Theory and Application, 12, 1998, 81–92.

[20] Székeley V., Rencz M., Török S., Márta Cs., Lipták-Fegó L., CMOS temperature sensors and built-in test circuitry for thermal testing of ICs, Sensors and Actuators, A71, 1998, 10–18.

[21] Székeley V., Thermal testing and control by means of built-in temperature sensors, Electronics Cooling, 4(3), September, 1998, 36–39.

[22] http://www.micred.com

[23] Bleeker H., van den Eijnden P., de Jong F., Boundary-Scan Test, Kluwer Academic Publishers, Dordrecht, 1993.

[24] SMT 160-30 Temperature Sensor, Specification Sheet, Smartec, 1998.

[25] http://www.seabird.com/products/spec_sheets/3Fdata.htm.

[26] http://products.analog.com/products/info.asp?product=TMP03.

[27] http://products.analog.com/products/info.asp?product=TMP04.

[28] http://products.analog.com/products/info.asp?product=AD7817.

[29] http://products.analog.com/products/info.asp?product=AD7818.

[30] http://www.analog.com/bulletins/tsis/.

[31] http://www.dalsemi.com/products/thermal/index.html.

[32] http://www.national.com/catalog/AnalogTempSensors.html

[33] http://www.gfsignet.com/products/as2350.html.

[34] Gieles A.C.M., Integrated miniature pressure sensor, Dutch patent application No. 6817089, 1968.

[35] Blaser E.M., Ko W.H., Yon E.T., A miniature digital pressure transducer. In Proceedings of 24th Annual Conference on Engineering. in Medicine and Biology, Las Vegas, Nevada, USA, November, 1971, 211.

[36] Makdessian A., Parsons M., DSSP-based pressure sensors, Sensors, January, 2001, 18(1) (http://www.sensorsmag.com/articles/0101/38/index.htm).

[37] Czarnocki W.S., Schuster J.P. The evolution of automotive pressure sensors, Sensors, May, 1999, 16(5) (http://www.sensorsmag.com/articles/0599/0599_p52/main.shtml).

[38] Gadzhiev N.D., Garibov M.A., Kasimov M.C., Leschinskiy Y.B., Pressure transducer with frequency output, Measuring Instruments and Control Systems, 2, 1979, 27–28 (in Russian).

[39] Maleiko L.V., Malov V.V., Rudenko A.P., Yakovlev I.V., et al. Piezoresonant pressure transducers, Measuring Instruments and Control Systems, 9, 1984, 19–21 (in Russian).

[40] Beshliu V.S., Kantser V.G., Beldiman L.N., Beshliu V.V., Coban R.A., Integral gauge pressure sensor with frequency output signal. In Proceedings of International Semiconductor Conference (CAS'99), Sinaia, Romania, 5–9 October, 1999, 2, 491–494.

[41] http://xducer.com/SP550.htm.

[42] http://www.grc.co.uk/grc/sub%20pages/hardware/qpg.htm.

[43] Paros J.M., Fiber-optic resonator pressure transducers, Measurements and Control, 1992, 144–148.

[44] Busse D.W., Wearn R.B., Intelligent digital pressure transmitters for aerospace applications (http://www.paroscientific.com/intdigaeroapp.htm).

[45] http://www.pressure-systems.com.

[46] http://www.pressure.com/uk/products/.

[47] Bowling S., Richey R., Two approaches to measuring acceleration, Sensors, February, 2000, 17(2) (http://www.sensorsmag.com/articles/0200/41/main.shtml).

[48] http://www.riekerinc.com/Accelerometers.htm.

[49] http://www.analog.com/industry/iMEMS/products.

[50] Kitchin C., Acceleration-to-frequency circuits, Accelerometer News, Products & Datasheets Magazines, Analog Devices, Issue 4, 1999.

[51] Podzarenko V.A., System design of tachometers, in Redundant Numeration Systems, Data Processing and System Designing in Engineering of Informatic Conversion, Vyshcha Shkola, Kiev, 1990, 5–60 (in Russian).

[52] Deynega V. P., Kirianaki N. V., Yurish S. Y., Microcontrollers compatible smart sensor of rotation parameters with frequency output. In Proceedings of 21st European Solid State Circuits Conference (ESSCIRC'95), 19–21 September, Lille, France, 1995, 346–349.

[53] Deynega V.P., Kirianaki N.V., Yurish S.Y., Intelligent sensor microsystem with microcontroller core for rotating speed measurements. In Proceedings of European Microelectronics Application Conference, Academic Session (EMAC’97), 28–30 May, 1997, Barcelona, Spain, 112–115.

[54] Yurish S.Y., Towards integration of intelligent sensors and virtual instruments for measuring and control applications. In Proceedings of 3rd IFAC Symposium on Intelligent Components and Instruments for Control Applications, 9–11 June, 1997, Annecy, France, 321–325.

[55] Digital Inductive Position Sensor 1200, Product description, CEMS, Switzerland, 2000.

[56] Intelligent Opto Sensor, Data Book SOYDE02B, Texas Instruments, 1996.

[57] Graaf G.de, R.F. Wolffenbuttel, Light-to-frequency converter using integrated mode photodiodes. In Proceedings of IMTC’96, 4–6 June, 1996, Brussels, Belgium, 1072–1075.

[58] Graaf G.de, Riedijk F., Wolffenbuttel R.F., Colour sensor system with a frequency output and an ISS or 12 C bus interface. In Proceedings of Eurosensors X Conference, 8–10 September, 1996, Leuven, Belgium, 881–884.

[59] http://www.humirel.com/products.html.

[60] Sensor Technology, E + E Elektronik Calalogue, Edition’ 99.

[61] Hatfield J.V., Daniels A.R., Snowden D., Persaud K.C., Payne P.A., Development of a hand held electronic nose (H2EN). In Proceedings of EUROSENSORS XIII, 12–15 September, 1999, The Hague, The Netherlands, 215–218.

[62] Staples E.J., A new electronic nose, Sensors, May, 1999, 16(5) (http://www.sensorsmag.com/articles/0599/0599_p33/main.shtml).

[63] Hök B., Blückert A., Löfving J., Acoustic gas sensor with ppm resolution. In Proceedings of EUROSENSORS XIII, 12–15 September, 1999, The Hague, The Netherlands, 631–634.

[64] Akimitsu Ishihara, Shukuji Asakura, A possible motion sensor with frequency output. In Proceedings of the 18th Chemical Sensor Symposium, 3–5 April, 1994, Tohoku University, Japan, 10, Supplement A.

[65] Royer G.H., A switching transistor D.C. to A.C. converter having an output frequency proportional to D.C. input voltage, Transaction AIEE, July, 1955, 74(I), 322–324.

[66] Van Allen, A variable frequency magnetic-coupled multivibrator, Transaction AIEE, July, 1955, 7(I), 356–361.

[67] Tetif L.N., Pulse-width modulator, Measuring Instruments and Control Systems, 1967, 4, 46 (in Russian).

[68] Starobinskiy N.M., Kapitonova L.M., Measuring magnetic-transistor voltage-to-frequency converter, Measuring Instruments and Control Systems, 1972, 1, 43–44, 46 (in Russian).

[69] Liberson K.Sh., Voltage-to-Frequency Converter, Patent 493914, USSR, 1974.

[70] Shvetskiy B.I., Yuzevich Y.V., Taranov G.V., Linear voltage-to-frequency converter, Control Instrumentation, Issue 4, 1968, 24–29 (in Russian).

[71] Svirtschev V.A., Taranov G.V., Slave Multivibrator, Patent 245174, USSR, 1969.

[72] Shvetskiy B.I., Kirianaki N.V., Taranov G.V., Multichannel pulse-code remote control system for sensors with uniform frequency parameter. In Information Acquisition and Transmission, AN USSR, Kiev, 1965, 134–143 (in Russian).

[73] Taranov G.V, Frukht E.S., Field experience of digital remote control system with frequency sensors, Electric Power Stations, 1967, 2, 68–73 (in Russian).

[74] Aleksenko A.G., Kolombet E.A., Starodub G.I., Applications of Precision Analog ICs, Radio i Sviyaz, 1985 (in Russian).

[75] Gutnikov V.S., Integrated Electronics in Measuring Devices, Energoatomizdat, Leningrad, 1988 (in Russian).

[76] Ermolov R.S., Ivashev R.A., Kolesnik V.K., Moroz G.V., Measuring Devices for Machines and Mechanisms Diagnostics, Energiya, Leningrad, 1979 (in Russian).

[77] Schagin A., Full-range voltage-to-frequency converter, Radio, No. 10, 1987, 31–33 (in Russian).

[78] Kayim R., Analog-to-digital converter with balanced charge and discharge, Electronics, 46(11), 1973, 37 (in Russian).

[79] Suetin V., Voltage-to-frequency converter, Radio, No. 2, 1984, 43–44 (in Russian).

[80] Patent No. 436439 (USSR), Voltage-to-Frequency Converters, 1974.

[81] Kirianaki N.V., Remote Metering, vol. III, Balanced Systems of Intensity (Design Principles and Calculations), Lvov, LPI, 1979 (in Russian).

[82] Nowinski M., New architectures of integrating analog-to-digital converters. In Proceedings of PDS’96 International Conference, Ostrava, Czech Republic, 26–28 November, 1996, 176–184.

[83] Svistunov B.L., Frolov I.N., Sensing device for capacitance sensor, Measuring Instruments and Control Systems, No. 12, 1987, 21 (in Russian).

[84] Ménini Ph., Dondon Ph., Blasquez G., Pons P., Modelling of a capacitanceto-period converter dedicated to capacitive sensors. In Proceedings of 13th European Conference on Solid-State Transducers, The Hague, The Netherlands, 12–15 September, 1999, 549–552.

[85] Chatzandroulis S., Tsoukalas D., Neukomm P.A., A passive telemetry system with a capacitive silicon sensor suitable for blood pressure measurements. In Proceedings of Transducers’ 99, Sendai, Japan, 7–10 June, 1999, 1038–1041.

[86] Chatzandroulis S., Tsoukalas D., Neukomm P.A., A pressure measuring system using passive telemetry and silicon capacitive sensor. In Proceedings of 13th European Conference on Solid-State Transducers, The Hague, The Netherlands, 12–15 September, 1999, 913–916.

[87] Gayduchok R.M., Kirianaki N.V., Tsukornik G.V., Brych V.G., Tsukornik S.V., Device of Measuring Channelling for Periodometers, Patent No. 1129541, USSR, 1984.

[88] Kirianaki N.V., Non-linear Frequency and Phase Selectors, Lviv, Vysha Shkola, 1987 (in Russian).

[89] Chizhov V.V., Method of Channeling for Multichannel Frequency-to-code Converters, Patent 530261, USSR, 1976.

[90] Voronin N.N., Morozov A.P., Kuznetsov Yu. D., Usov G.A., Device for Frequency Measurement, Patent 312379, USSR, 1971.

[91] Kirianaki N.V., Yurish S.Y., Shpak N.O., Noise resistant method of signal transmission without enhancement of code distance. In Proceedings of the Krajowe Sympozjum Telekomunikacji, 8–10 September, 1999, Bydgoszcz, Poland, 291–296.

[92] Kirianaki N.V., Mokrenko P.V., Leskiv T.N., Samotiy V.V., Yurish S.Y., Questions of Theory and Designing of Transmitting Equipment for Telemechanical Systems, Kiev, OMK VO, 1991 (in Russian).

[93] Kirianaki N.V., Methods for Digital Data Transmission by Cable Lines with Increased Noise Stability and Speed, Vestnik LPI, Lviv, No. 267, 1972, 61–67 (in Ukrainian).

[94] Clark G.C., Cain J.B., Error-Correction Coding for Digital Communications, Plenum Press, London, second edition, 1982.

[95] Kirianaki N.V., Dudykevych V.B., Methods and Devices of Digital Measurement of Low and Infralow Frequencies, Vyshcha Shkola, Lviv, 1975 (in Russian).

[96] Kirianaki N.V., Gayduchok R.M., Digital Measurements of Frequency-Time Parameters of Signals, Vyshcha Shkola, Lviv, 1978 (in Russian).

[97] Haward, A.K., Counters and timers, Electronic Engineering, 1979, 51(630), 61–70.

[98] BurrBrown Applications Handbook, USA, 1994, 409–412.

[99] Kasatkin A.S., Automatic Processing of Signals of Frequency Sensors, Energiya, Moscow, 1966 (in Russian).

[100] Yermolov R.S., Digital Frequency Counters, Energija, Moscow, 1973 (in Russian).

[101] Bage R., Time and frequency counting techniques, Electronic Engineering, 1979, 51(630), 47–58.

[102] Patent 4224568, Frequency to digital converter, USA, 1980.

[103] Shliandin V.M., Digital Electrical Measuring Instruments, Energija, Moscow, 1972 (in Russian).

[104] Ornatsky P.P., Automatic Measurements and Measuring Instruments (Analogue and Digital), Vyshcha shkola, Kiev, 1986 (in Russian).

[105] Shvetskiy B.I., Electronic Digital Measuring Instruments, Tekhnika, Kiev, 1991 (in Russian).

[106] Kudriavtsev, V.B., Precision Frequency Converters for Automated Monitoring and Control Systems, Energiya, Moscow, 1974 (in Russian).

[107] Chmykh M.K., Weight method of accuracy enhancement and noise stability of digital frequency counters, Avtometriya, 1979, 4, 135–137 (in Russian).

[108] Konstantinov A.I., Time, Publishing House of Standards, Moscow, 1971(in Russian).

[109] Tyrsa V.E., Error of measurement of periodic time intervals at separate quantization of stop impulses and time intervals, Measuring Technique, 1988, 2, 47–49 (in Russian).

[110] Ohmae T., Matsuda T., Kamiyama K., Tachikawa M., A microprocessor-controlled high-accuracy wide-range speed regulator for motor drives, IEEE Transactions on Industrial Electronics, IE-29(3), August, 1982, 207–211.

[111] Bonert R., Design of a high performance digital tachometer with microcontroller, IEEE Transactions on Instrumentation and Measurement, 38(6), December, 1989, 1104–1108.

[112] Prokin M., Double buffered wide-range frequency measurement method for digital tachometers, IEEE Transactions on Instrumentation and Measurement, 40(3), June, 1991, 606–610.

[113] Prokin M., DMA transfer method for wide-range speed and frequency measurement, IEEE Transactions on Instrumentation and Measurement, 42(4), August, 1993, 842–846.

[114] Yurish S.Y., Kirianaki N.V., Shpak N.O. Accurate method of frequency-time measurement with non-redundant reference frequency. In Proceedings of the Conference on Actual Problems of Measuring Technique (Measurement-98), 7–10 September, 1998, Kyiv, Ukraine, 78–79.

[115] Kirianaki N.V., Yurish S.Y., Shpak N.O., Methods of dependent count for frequency measurements, Measurement, 29(1), January, 2001, 31–50.

[116] Patent 788018 (USSR), Method of Measurement of Frequency and Period of Harmonic Signal and Device for its Realization, Kirianaki N.V., Berezyuk B.M., 1980 (in Russian).

[117] Mirskiy G.Y., Electronic Measurements, Radio i Svyaz’, Moscow, 1986 (in Russian).

[118] Yurish S.Y., Program-oriented Methods and Measuring Instruments for Frequency-Time Parameters of Electric Signals, Ph.D. Thesis, State University Lviv Polytechnic, 1997 (in Ukrainian).

[119] Strategic DSP Platform Product Guide, Texas Instruments, USA, Issue 3, 1999.

[120] Patent 1352390 (USSR), Method for Frequency Determination, Kuzmenkov V.Yu., 1987.

[121] Patent 883776 (USSR), Method of Measurement of the Ratio of Two Frequencies of Signals and Device for its Realization, Berezyuk B.M., Kirianaki N.V., 1981 (in Russian).

[122] Kirianaki N.V., Yurish S.Y., Shpak N.O. Precise methods for measurement of frequency ratio. In Proceedings of the 2nd International Conference on Measurement (Measurement’99), 26–29 April, 1999, Smolenice, Slovak Republic, 312–315.

[123] Kirianaki N.V., Yurish S.Y., Program methods of measurements for microcontrollers based measuring instruments. In Proceedings of the International Conference Programmable Devices and Systems (PDS-95), Gliwice, Poland, 1995, 103–110.

[124] Kirianaki N.V., Yurish S.Y., Frequency to code converters based on method of depending count. In Proceedings of the 14th IMEKO World Congress, Vol. 4B, Topic 4, 2nd International Workshop on ADC Modelling and Testing, Tampere, Finland, 1997, 276–281.

[125] Kirianaki N.V., Kobylianskiy A.L., Golzgauzer R.V., Hardware-software method of frequency measurement, Metrology, 1991, 1, 32–44 (in Russian).

[126] Figueras J., Low power circuit and logic level design: modeling. In Low Power Design in Deep Submicron Electronics, edited by W. Nebel and J. Mermet, Kluwer Academic Publishers, NATO ASI Series, Vol. 337, London, 1997, 81–103.

[127] Calculation of TMS320C2xx Power Dissipation, Texas Instruments Application Report, Digital Signal Processing Solutions, 1996.

[128] MSP430 Family, Architecture Guide and Module Library, Texas Instruments Data Book, Mixed Signal Products, 1996.

[129] MSP430 Family, Metering Application Report, Texas Instruments Data Book, Version 3.0, April, 1997.

[130] Patent 1797714 (Russia), Device for Frequency and Period Measurement of Harmonic Signal, Vinogor L.A., Kirianaki N.V., Russia, 1993 (in Russian).

[131] TMS320C5x DSK, Application Guide, Texas Instruments, 1997.

[132] Kirianaki N.V., Adding and Transmitting Devices for Remote Control Systems with Code Signals, Lvov, LPI, 1983 (in Russian).

[133] Hrynkiewicz E., Digital Frequency Multipliers of Square Wave, Silezian Technical University, Zeszyty Naukowe, No.1148, Gliwice, 1992 (in Polish).

[134] Gutnikov V.S., Measurement Signal Filtering, Leningrad, Energoatomizdat, 1990.

[135] Yurish S.Y., Dudykevych V. B., Mokrenko P. V., Program-simulated methods of frequency-time measurements for virtual measuring systems. In Proceedings of 6th International Conference on Industrial Metrology (CIMI’95), 25–27 October, 1995, Zaragoza, Spain, 249–256.

[136] Yurish S.Y., Design methodology for reusable software components of intelligent sensors. In Proceedings of 9th Symposium on Information Control in Manufacturing (INCOM’98), 24–26 June, 1998, Nancy-Metz, France, vol. III, 33–38.

[137] Gutkin L.S., Electronic Devices Optimization by Set of Characteristics, Sovetskoe Radio, Moscow, 1975 (in Russian).

[138] Yurish S.Y., Kirianaki N.V., Hardware/Software co-synthesis methodology for single-chip microcomputer based converters. In Proceeding of International Conference Programmable Devices and Systems (PDS’95), 9–10 November 1995, Gliwice, Poland, 153–157.

[139] Altshyller G.B., Eltimov N.N., Shakylin V.G. Economical-to-operate Mini Quartz-crystal Oscillators, Sviaz, Moscow, 1979 (in Russian).

[140] Yurish S.Y., Kirianaki N.V., Shpak N.O., Reference's accuracy in virtual frequency-to-code converters. In Proceedings of 5th International Workshop on ADC Modelling and Testing (IWADC’2000), parallel event to XVI IMEKO World Congress, Wien, Austria, 26–28 September, 2000, Vol. X, 325–330.

[141] Lazarev V.G., Piyl E.I., Control Automata Synthesis, Energiya, Moscow, 1970 (in Russian).

[142] Sovetov B.Y., Kutuzov O.L., Golovin Y.A., Avetov Y.V., Microprocessors in Data-Transmission Systems, Vyssaya Shkola, Moscow, 1987 (in Russian).

[143] Yurish S.Y., Kirianaki N.V., A modified method of algorithm merging for DSP. In Proceedings of Workshop on Design Methodologies for Signal Processing, 29–30 August, 1996, Zakopane, Poland, 81–84.

[144] Data Transmission Design Seminar, Reference Manual, Texas Instruments, 1998.

[145] Reiss L. Introduction to Local Area Network with Microcomputer Experiments, Prentice-Hall, Englewood Cliffs, 1987.

[146] Linsmeier, Klaus-Dieter Sensor Systems for the Automobile, Verlag Moderne Industrie, 1999.

[147] Car systems integrate more functions, Electronic Components, June, 1997, 186–226.

[148] Yurish S.Y., Kirianaki N.V., Shpak N.O. Novel rotation speed measurement concept for ABS appropriated for microsystem creation. In Advanced Microsystems for Automotive Applications 99, Edited by Detlef E. Ricken and Wolfgang Gessner, Springer, 1999, 215–223.

[149] Automotive sensors, European Sensor News and Technology, September, 1998, 11–12.

[150] Automotive sensors, Sensors Series, edited by M. H. Westrook and J.D. Turner, Institute of Physics Publishing, Bristol, UK, 1994.

[151] Kirianaki N.V., Yurish S.Y., Intelligent adaptive systems of telemetry. In Proceedings of International Conference on Programmable Devices and Systems, 26–28 November, 1996, Ostrava, Czech Republic, 224–231.

[152] Barzhin V.Y., Kolpakov F.F., Laskin O.V., Shmaliy Y.S., Digital Device for Information Processing of Two-Parametrics Frequency Sensors, Patent 851279, USSR, 1981.

[153] http://www.seba.de/html/mps-d_e.htm.

[154] Tompkins W.J., Webster J.G., Interfacing Sensors to the IBM PC, Prentice Hall, Englewood Cliffs, USA, 1988.

[155] Brignell J.E., Taner A.H., Virtual instrumentation for intelligent sensors: Development, production and in the field, Jubilee Issue of Research Journal, University of Southampton, (1997–1998) CD-ROM.

[156] The Measurement and Automation Catalog, 2001, National Instruments, USA.

[157] Winiecki W., Virtual instruments–What does it really mean? In Proceedings of XIV IMEKO World Congress, Topic 4 on the CD-ROM, 1–6 June, 1997, Tampere, Finland.

[158] Des-Jardin Larry, Virtual instruments and the role of software. In Electronic Instrument Handbook, McGraw-Hill, New York, 1993.

[159] Sobolev V. The new data acquisition technology on the basis of virtual instrumentation. In Proceedings of XIV IMEKO World Congress, Vol.5, Topic 7 on the CD-ROM, 1–6 June, 1997, Tampere, Finland.

[160] Kirianaki N.V., Shpak N.O., Yurish S.Y., Virtual instruments: From virtual interface toward virtual measuring channel. In Proceedings of IEEE International Workshop on Emerging Technologies, Intelligent Measurements and Virtual System for Instrumentation and Measurements (ETIMVIS’98), 15–16 May, 1998, St Paul, USA, 133–137.

[161] BURR-BROWN IC Data Book, Data Conversion Product, 1995.

[162] Taubert P., Evaluation of Accuracy of Results of Measurement, Energoatomizdat, Moscow, 1988 (in Russian).

[163] Kirianaki N.V., Klushin Y.S., Computer method of construction of probability distribution of an error of two and more components, Measuring Technique, No. 1, 1986, 3–4 (in Russian).

[164] Kirianaki N.V., Shpak N.O., Yurish S.Y., Khoma V.V., Dzoba Y.S., New method of summation for measurement errors based on piece-wise linear approximation of probability distribution, Journal of Electrical Engineering, 51(3–4), 2000, 94–99.

[165] Krentz M., Carro L., Suzim A., System integration with dedicated processor for industrial applications. In Proceedings of 3rd IFAC Symposium on Intelligent Components and Instruments for Control Applications, Annecy, France, 9–11 June, 1997, 333–337.

[166] Kirianaki N.V., Shpak N.O., Yurish S.Y. Microcontroller cores for metering applications. In Proceedings of International Conference on Programmable Devices and Systems (PDS’98), 24–25 February, 1998, Gliwice, Poland, 345–352.

[167] Furber S.B. Embedded system design. In Low Power Design in Deep Submicron Electronics, edited by W. Nebel and J. Mermet, Kluwer Academic Publishers, NATO ASI Series, Vol. 337, London, 1997, 397–417.

[168] Piguet C. Microprocessors design. In Low Power Design in Deep Submicron Electronics, edited by W. Nebel and J. Mermet, Kluwer Academic Publishers, NATO ASI Series, Vol. 337, London, 1997, 513–541.

[169] Koval V.A., Shevchenko V.O., Shpak N.O., Yurish S.Y., Low power design technique for embedded microcontroller cores. In Proceedings of 4th International Workshop Mixed Design of Integrated Circuits and Systems (MIXDEs’ 97), 12–14 June, 1997, Poznan, Poland, 619–624.

[170] Roy K., Jonson M.C., Software design for low power. In Low Power Design in Deep Submicron Electronics, edited by W. Nebel and J. Mermet, Kluwer Academic Publishers, NATO ASI Series, Vol. 337, London, 1997, 433–460.

[171] Sato T., Ootaguo Y., Nagamatsu M., Tago H. Evaluation of architecture-level power estimation for CMOS RISC processors. In Proceedings of the Symposium on Low Power Electronics, 1995, 44–45.

[172] Su C.-L., Tsui C.-Y., Despain A.M., Low power architecture design and compilation techniques for high-performance processors. In Proceedings of IEEE COMPCON, 1994, 489–498.

[173] Tiwari V., et al., Power analysis of embedded software: A first step towards software power minimization, IEEE Transaction on VLSI Systems, 2(4), December, 1994, 437–445.

[174] Lee M. T.-C., Tiwari V., Malik S., Fujita M., Power analysis and minimization techniques for embedded DSP software, Fujitsu Scientific and Technical Journal, 31(2), December, 1995, 215–229.

[175] Manne S., Pardo A., Bahar R.I., Hachtel G.D., Somenzi F., Macii E., Poncino M., Computing the maximum power cycles of a sequential circuit. In Proceedings of the 32nd Design Automation Conference, June, 1995, 23–28.

[176] Meijer G., Herwaarden S., Jong G., Toth F., Li X. Intelligent Sensor System and Smart Sensor: Applications, In Book Low-Power HF Microelectronics. A unified approach, Ed. by Gerson A.S. Machado, IEEE, 1996, 977–1018.

[177] Nazarov S. V., Barsukov A. G. Measuring Devices and Optimization of Computer Systems, Moscow, Radio i svyaz’, 1990 (in Russian).

[178] Huijsing J.H., Maijer G.C.M., Smart Sensor Interfaces, Kluwer Academic Publishers, 1997.

[179] MCM20027/D, Motorola Semiconductor Technical Data, 2000.

[180] Sensors. Control, Standard Products Catalog, Trafag GmbH, 2001.

[181] http://www.madur.com

[182] CAN Newsletter, No.1, March, 2001, p.38.

[183] The 2000–2001 CAN Solution Directory, 2000.

[184] van der Goes, Frank M.L. Meijer, Gerard C.M. A universal transducer interface for capacitive and resistive sensor elements, Analog Integrated Circuits and Signal Processing, 14, 1997, 249–260.

[185] http://www.smartec.nl.

[186] Universal Transducer Interface (UTI), Application Note of UTI, Smartec, 1998.

[187] Universal Transducer Interface (UTI), Revolution in Sensor Interfacing, Smartec, 1998.

[188] Acam –Solutions in Time, Precision Time Interval Measurement, 2000.