Reliable measurement of clock signal parameters is an important tool for calibration and validation of circuits used in precise-timing applications. Such parameters include frequency, phase, duty cycle and channel-to-channel skew. Especially in applications in which testing time for multiple channels is a significant factor, efficient parallelization of measurements is crucial, often coming with significant extra cost. We present a technique for characterization of clock signal parameters using off-the-shelf (FPGA) evaluation hardware. Two methods for both static measurements (steady-state behaviour) as well as dynamic measurements are presented. For the two measurement methods proposed, case studies are presented and their performance disc...
The efficiency of power optimization tools depends on information on design power provided by the po...
We presents the design and test results of a picosecond-precision time interval measurement module, ...
The construction and design process of a high-resolution time-interval measuring system implemented ...
Long term instability of frequency and phase fluctuations of the clock signal are significant source...
Phase measurement is required in electronic applications where a synchronous relationship between th...
The construction and design process of two high-resolution time-interval measuring systems implement...
This thesis deals with designing a frequency measurement module using a programmable logic device. T...
This thesis examines new timing measurement methods for self delay characterisation of Field-Program...
Jitter characterization has become significantly more important for systems running at multi-gigaher...
As integrated circuits are scaled down it becomes dif-ficult to maintain uniformity in process param...
there exist a high number of commercial FPGA prototype boards. Nevertheless, these boards are basica...
We have proposed a digital frequency measurement technique with enhanced accuracy, exploiting FPGA M...
Two high-resolution time-interval measuring systems implemented in a SRAM-based FPGA device are pres...
While on-chip delay measurement combining logic BIST with a variable test clock is an effective way ...
Two high-resolution time-interval measuring systems implemented in a SRAM-based FPGA device are pres...
The efficiency of power optimization tools depends on information on design power provided by the po...
We presents the design and test results of a picosecond-precision time interval measurement module, ...
The construction and design process of a high-resolution time-interval measuring system implemented ...
Long term instability of frequency and phase fluctuations of the clock signal are significant source...
Phase measurement is required in electronic applications where a synchronous relationship between th...
The construction and design process of two high-resolution time-interval measuring systems implement...
This thesis deals with designing a frequency measurement module using a programmable logic device. T...
This thesis examines new timing measurement methods for self delay characterisation of Field-Program...
Jitter characterization has become significantly more important for systems running at multi-gigaher...
As integrated circuits are scaled down it becomes dif-ficult to maintain uniformity in process param...
there exist a high number of commercial FPGA prototype boards. Nevertheless, these boards are basica...
We have proposed a digital frequency measurement technique with enhanced accuracy, exploiting FPGA M...
Two high-resolution time-interval measuring systems implemented in a SRAM-based FPGA device are pres...
While on-chip delay measurement combining logic BIST with a variable test clock is an effective way ...
Two high-resolution time-interval measuring systems implemented in a SRAM-based FPGA device are pres...
The efficiency of power optimization tools depends on information on design power provided by the po...
We presents the design and test results of a picosecond-precision time interval measurement module, ...
The construction and design process of a high-resolution time-interval measuring system implemented ...