Your search keyword '"Front end electronics"' showing total 4 results

1. Improving single slope ADC and an example implemented in FPGA with 16.7 GHz equivalent counter clock frequency.

Author

Wu, Jinyuan, Odeghe, John, Stackley, Scott, and Zha, Charles

Abstract

Single slope ADC is a common building block in many ASCI or FPGA based front-end systems due to its simplicity, small silicon footprint, low noise interference and low power consumption. In single slope ADC, using a Gray code counter is a popular scheme for time digitization, in which the comparator output drives the clock (CK) port of a register to latch the bits from the Gray code counter. Unfortunately, feeding the comparator output into the CK-port causes unnecessary complexities and artificial challenges. In this case, the propagation delays of all bits from the counter to the register inputs must be matched and the counter must be a Gray code one. A simple improvement on the circuit topology, i.e., feeding the comparator output into the D-port of a register, will avoid these unnecessary challenges, eliminating the requirement of the propagation delay match of the counter bits and allowing the use of regular binary counters. This scheme not only simplifies current designs for low speeds and resolutions, but also opens possibilities for applications requiring higher speeds and resolutions. A multi-channel single slope ADC based on a low-cost FPGA device has been implemented and tested. The timing measurement bin width in this work is 60 ps, which would need a 16.7 GHz counter clock had it implemented with the conventional Gray code counter scheme. A 12-bit performance is achieved using a fully differential circuit making comparison between the input and the ramping reference, both in differential format. [ABSTRACT FROM PUBLISHER]

Published

2011

2. Front end electronics for SLHC semiconductor trackers in CMOS 90 nm and 130 nm processes

Author

Noy and Kaplon

Subjects

Semiconductor, Materials science, CMOS, business.industry, BitTorrent tracker, Optoelectronics, business, Front end electronics

Published

2011

3. Evaluation of Front-end Electronics for Unattended Safeguards Instruments

Author

Kresimir Buben, L. Eric Smith, T. Pochet, and Karl Ferstl

Subjects

Nuclear fuel cycle, Reliability (semiconductor), Procurement, Standardization, business.industry, Computer science, Nuclear electronics, Electrical engineering, Systems engineering, Functional requirement, Electronics, business, Front end electronics

Abstract

The International Atomic Energy Agency is expanding the use of unattended, remotely monitored nondestructive assay systems. Often, the radiation sensors in these systems are located in harsh environments with limited accessibility (e.g. reactor vaults, hot cells), making it difficult and costly to calibrate, repair and replace nuclear electronics components co-located with the detectors. Improved Front-end Electronics for Unattended Measurement (FEUM) are being investigated, with improvements in reliability, standardization and user accessibility as the primary objectives. Experiments have supported a preliminary characterization of selected commercially available charge-sensitive and current-sensitive preamplifiers. The results from these experiments have informed technical specifications, both functional requirements and performance targets, for the procurement of front-end electronics specifically engineered to the needs of unattended instruments for nuclear fuel cycle safeguards.

Published

2011

4. Front-end electronics for the Scalable Readout System of RD51

Author

Hans Muller, J.F. Toledo, and S. Martoiu

Subjects

Physics, General purpose, Physics::Instrumentation and Detectors, business.industry, Nuclear electronics, Scalability, Detector, Electrical engineering, Gas detector, Field-programmable gate array, business, Front end electronics, Field (computer science)

Abstract

Recent developments in micro-pattern gas detector technologies have considerably broadened the interest in this type of detectors, extending their application field from high-energy physics to nuclear, astrophysical, geophysical, medical or industrial applications, to name just a few. Historically, for the wide range of gas amplification schemes available, there has been an almost equally wide amount of electronic readout solutions, tailored on just one application, making it rather difficult for newcomers to employ the technology. Developed within RD51 Collaboration for the Development of Micro-Pattern Gas Detectors Technologies, the Scalable Readout System (SRS) is intended as a general purpose multi-channel readout solution for a wide range of detector types, and detector complexities, as well as for different experimental environments.

Published

2011