The Experts below are selected from a list of 468 Experts worldwide ranked by ideXlab platform
Wolffenbuttel R. F. - One of the best experts on this subject based on the ideXlab platform.
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A local bus for multi-chip-module-based microinstrumentation systems
'Elsevier BV', 1998Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:A local smart bus is described which is designed for use in muti-chip-composed microinstrumentation system. The bus is able to transmit a digital code, bitstream, analog voltage, frquency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request modes.FC
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A local bus for MCM-based microinstrumentation systems
1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:A local bus is described which is designed for use in a multi-chipcomposed microinstrumentation system. The bus is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors. Corresponding sensor bus interface was implemented in a 1.6 m CMOS process and successfully tested in a local sensor network.Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95. STW - Project DEL 55.3733. TUDelft
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A low-power low-voltage digital bus interface for MCM-based microsystems
1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:Comunicação apresentada na 23rd European Solid-State Circuits Conference (ESSCIRC '97), Southampton, UK, 16-18 September 1997.This paper describes a digital local bus interface, which is designed for use in a multi-chip-composed microsystem. The chip area using a CMOS 1.6mm n-well technology is 1mm2. Power consumption at 5V@100kHz is less than 500mW and for 5V@4MHz less than 2mW due to a smart power management of all functional blocks. The bus interface is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors or microactuators.Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95. STW - Project DEL 55.3733. TUDelft
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A microinstrumenation system for industrial applications
'Institute of Electrical and Electronics Engineers (IEEE)', 1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:This paper describes the development of a microinstrumentation system in silicon containing all the components of the data acquisition system, such as sensors, signal-conditioning circuits, analog-digital converter, interface circuits, sensor bus interface, and an embedded microcontroller (MCU). The microinstrumentation system is to be fabricated using the Multi-Chip-Module (MCM) technology based on a chip-level infrastructure. A standard silicon platform is the floorplan for individual smart sensor die attachment and an on-chip local sensor bus interface, testing facilities, optional compatible sensors (such as thermal sensors). The microinstrumentation system is controlled by a MCU with several modes of low-power operation (inclusive stand-by mode). As the intended application requires a huge amount of data-processing, a RISC-type MCU architecture is to be used. The MCU communicates with the front-end sensors via a two-line (clock and data lines) intramodule sensor bus (Integrated Smart Sensor bus). The sensor scan rate is adaptive and can be event triggered. This upgraded version of the ISS bus allows: service and Interrupt Request from the sensors, test and calibration facilities. However, the additional functionality requires a third line. The MCU also controls the power consumption and the thermal budget of all system. This paper also presents three applications for the microinstrumentation system: condition monitoring of machines, an inertial navigation system and a miniature spectrometer.STW - Project DEL55.3733. TUDelft. Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95
Correia J. H. - One of the best experts on this subject based on the ideXlab platform.
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A local bus for multi-chip-module-based microinstrumentation systems
'Elsevier BV', 1998Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:A local smart bus is described which is designed for use in muti-chip-composed microinstrumentation system. The bus is able to transmit a digital code, bitstream, analog voltage, frquency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request modes.FC
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A local bus for MCM-based microinstrumentation systems
1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:A local bus is described which is designed for use in a multi-chipcomposed microinstrumentation system. The bus is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors. Corresponding sensor bus interface was implemented in a 1.6 m CMOS process and successfully tested in a local sensor network.Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95. STW - Project DEL 55.3733. TUDelft
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A low-power low-voltage digital bus interface for MCM-based microsystems
1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:Comunicação apresentada na 23rd European Solid-State Circuits Conference (ESSCIRC '97), Southampton, UK, 16-18 September 1997.This paper describes a digital local bus interface, which is designed for use in a multi-chip-composed microsystem. The chip area using a CMOS 1.6mm n-well technology is 1mm2. Power consumption at 5V@100kHz is less than 500mW and for 5V@4MHz less than 2mW due to a smart power management of all functional blocks. The bus interface is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors or microactuators.Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95. STW - Project DEL 55.3733. TUDelft
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A microinstrumenation system for industrial applications
'Institute of Electrical and Electronics Engineers (IEEE)', 1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:This paper describes the development of a microinstrumentation system in silicon containing all the components of the data acquisition system, such as sensors, signal-conditioning circuits, analog-digital converter, interface circuits, sensor bus interface, and an embedded microcontroller (MCU). The microinstrumentation system is to be fabricated using the Multi-Chip-Module (MCM) technology based on a chip-level infrastructure. A standard silicon platform is the floorplan for individual smart sensor die attachment and an on-chip local sensor bus interface, testing facilities, optional compatible sensors (such as thermal sensors). The microinstrumentation system is controlled by a MCU with several modes of low-power operation (inclusive stand-by mode). As the intended application requires a huge amount of data-processing, a RISC-type MCU architecture is to be used. The MCU communicates with the front-end sensors via a two-line (clock and data lines) intramodule sensor bus (Integrated Smart Sensor bus). The sensor scan rate is adaptive and can be event triggered. This upgraded version of the ISS bus allows: service and Interrupt Request from the sensors, test and calibration facilities. However, the additional functionality requires a third line. The MCU also controls the power consumption and the thermal budget of all system. This paper also presents three applications for the microinstrumentation system: condition monitoring of machines, an inertial navigation system and a miniature spectrometer.STW - Project DEL55.3733. TUDelft. Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95
Bartek M. - One of the best experts on this subject based on the ideXlab platform.
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A local bus for multi-chip-module-based microinstrumentation systems
'Elsevier BV', 1998Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:A local smart bus is described which is designed for use in muti-chip-composed microinstrumentation system. The bus is able to transmit a digital code, bitstream, analog voltage, frquency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request modes.FC
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A local bus for MCM-based microinstrumentation systems
1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:A local bus is described which is designed for use in a multi-chipcomposed microinstrumentation system. The bus is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors. Corresponding sensor bus interface was implemented in a 1.6 m CMOS process and successfully tested in a local sensor network.Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95. STW - Project DEL 55.3733. TUDelft
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A low-power low-voltage digital bus interface for MCM-based microsystems
1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:Comunicação apresentada na 23rd European Solid-State Circuits Conference (ESSCIRC '97), Southampton, UK, 16-18 September 1997.This paper describes a digital local bus interface, which is designed for use in a multi-chip-composed microsystem. The chip area using a CMOS 1.6mm n-well technology is 1mm2. Power consumption at 5V@100kHz is less than 500mW and for 5V@4MHz less than 2mW due to a smart power management of all functional blocks. The bus interface is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors or microactuators.Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95. STW - Project DEL 55.3733. TUDelft
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A microinstrumenation system for industrial applications
'Institute of Electrical and Electronics Engineers (IEEE)', 1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:This paper describes the development of a microinstrumentation system in silicon containing all the components of the data acquisition system, such as sensors, signal-conditioning circuits, analog-digital converter, interface circuits, sensor bus interface, and an embedded microcontroller (MCU). The microinstrumentation system is to be fabricated using the Multi-Chip-Module (MCM) technology based on a chip-level infrastructure. A standard silicon platform is the floorplan for individual smart sensor die attachment and an on-chip local sensor bus interface, testing facilities, optional compatible sensors (such as thermal sensors). The microinstrumentation system is controlled by a MCU with several modes of low-power operation (inclusive stand-by mode). As the intended application requires a huge amount of data-processing, a RISC-type MCU architecture is to be used. The MCU communicates with the front-end sensors via a two-line (clock and data lines) intramodule sensor bus (Integrated Smart Sensor bus). The sensor scan rate is adaptive and can be event triggered. This upgraded version of the ISS bus allows: service and Interrupt Request from the sensors, test and calibration facilities. However, the additional functionality requires a third line. The MCU also controls the power consumption and the thermal budget of all system. This paper also presents three applications for the microinstrumentation system: condition monitoring of machines, an inertial navigation system and a miniature spectrometer.STW - Project DEL55.3733. TUDelft. Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95
Cretu E. - One of the best experts on this subject based on the ideXlab platform.
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A local bus for multi-chip-module-based microinstrumentation systems
'Elsevier BV', 1998Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:A local smart bus is described which is designed for use in muti-chip-composed microinstrumentation system. The bus is able to transmit a digital code, bitstream, analog voltage, frquency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request modes.FC
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A local bus for MCM-based microinstrumentation systems
1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:A local bus is described which is designed for use in a multi-chipcomposed microinstrumentation system. The bus is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors. Corresponding sensor bus interface was implemented in a 1.6 m CMOS process and successfully tested in a local sensor network.Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95. STW - Project DEL 55.3733. TUDelft
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A low-power low-voltage digital bus interface for MCM-based microsystems
1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:Comunicação apresentada na 23rd European Solid-State Circuits Conference (ESSCIRC '97), Southampton, UK, 16-18 September 1997.This paper describes a digital local bus interface, which is designed for use in a multi-chip-composed microsystem. The chip area using a CMOS 1.6mm n-well technology is 1mm2. Power consumption at 5V@100kHz is less than 500mW and for 5V@4MHz less than 2mW due to a smart power management of all functional blocks. The bus interface is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors or microactuators.Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95. STW - Project DEL 55.3733. TUDelft
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A microinstrumenation system for industrial applications
'Institute of Electrical and Electronics Engineers (IEEE)', 1997Co-Authors: Correia J. H., Cretu E., Bartek M., Wolffenbuttel R. F.Abstract:This paper describes the development of a microinstrumentation system in silicon containing all the components of the data acquisition system, such as sensors, signal-conditioning circuits, analog-digital converter, interface circuits, sensor bus interface, and an embedded microcontroller (MCU). The microinstrumentation system is to be fabricated using the Multi-Chip-Module (MCM) technology based on a chip-level infrastructure. A standard silicon platform is the floorplan for individual smart sensor die attachment and an on-chip local sensor bus interface, testing facilities, optional compatible sensors (such as thermal sensors). The microinstrumentation system is controlled by a MCU with several modes of low-power operation (inclusive stand-by mode). As the intended application requires a huge amount of data-processing, a RISC-type MCU architecture is to be used. The MCU communicates with the front-end sensors via a two-line (clock and data lines) intramodule sensor bus (Integrated Smart Sensor bus). The sensor scan rate is adaptive and can be event triggered. This upgraded version of the ISS bus allows: service and Interrupt Request from the sensors, test and calibration facilities. However, the additional functionality requires a third line. The MCU also controls the power consumption and the thermal budget of all system. This paper also presents three applications for the microinstrumentation system: condition monitoring of machines, an inertial navigation system and a miniature spectrometer.STW - Project DEL55.3733. TUDelft. Junta Nacional de Investigação Científica e Tecnológica - Praxis XXI-BD/5181/95
Marian Bartek - One of the best experts on this subject based on the ideXlab platform.
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A
2015Co-Authors: José Higino Correia, Edmond Cretu, Marian Bartek, Reinoud F. WolffenbuttelAbstract:A local smart sensor bus is described which is designed for use in a multi-chip-composed microinstrumentation system. The bus is capable of handling information in digital code, bitstream, analog voltage, and frequency or duty cycle modulation and also provides calibration facilities, service-Request and Interrupt-Request modes. The resulting sensor bus interface has been implemented in a 1.6 km CMOS process and successfully tested in a local sensor network. 0 1998 Elsevier Science S.A. All rights reserved
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A Local Bus for MCM-Based Microinstrumentation Systems
1998Co-Authors: Correia Cretu Bartek, José Higino Correia, Edmond Cretu, Marian Bartek, Reinoud F. WolffenbuttelAbstract:A local bus is described which is designed for use in a multi-chipcomposed microinstrumentation system. The bus is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors. Corresponding sensor bus interface was implemented in a 1.6 m CMOS process and successfully tested in a local sensor network. Introduction A microinstrumentation system, as shown schematically in Fig.1, includes all features of a complex measurement system on the smallest possible material carrier; a silicon chip. The system is composed of an universal platform which is to be populated with the required sensors, micro-actuators and a microcontroller using MCM (Multi Chip Module) techniques, to solve a particular measurement problem. The platform provides all infrastructural functions, such as power/thermal management of the system, test facilities and an on-system sensor bus [1]. The..
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A Low-Power Low-Voltage Digital Bus Interface for MCM-Based Microsystems
2024Co-Authors: Correia Cretu Bartek, Marian Bartek, J. H. Correia, E. Cretu, R. F. WolffenbuttelAbstract:This paper describes a digital local bus interface, which is designed for use in a multi-chip-composed microsystem. The chip area using a CMOS 1.6m n-well technology is 1mm 2 . Power consumption at 5V@100kHz is less than 500W and for 5V@4MHz less than 2mW due to a smart power management of all functional blocks. The bus interface is able to transmit a digital code, bitstream, analog voltage, frequency, duty-cycle and also provides calibration facilities, service Request and Interrupt Request for the smart sensors or microactuators. Introduction Present microsystems require a sophisticated local bus to address sensors, microactuators, controllers. Available bus protocols lack the flexibility that is needed to deal with a multi-sensor system on the die level. Suitable buses like: I 2 C (having too complex protocol) and the basic Integrated Smart Sensor bus (ISS-bus) [1] don't provide calibration, test facilities and also no Interrupt mechanisms. In this paper a microinstrume..
