Abstract: A clonable display device includes an input port for receiving digital data representative of non-linear input variable. Computer CPU is connected to the input port for receiving digital data, and a linear display having an input connected to the computer CPU is provided for providing an output indication which varies linearly with the signal applied to the display. Non-volatile memory is connected to the computer CPU for storing a finite set of predetermined calibration points.

Abstract: A signal from an original oscillation circuit is inputted into a phase-locked loop circuit capable of continuously varying a frequency of this signal derived from the original oscillation circuit. The phase-locked loop circuit changes the frequency of the signal derived from the original oscillation circuit into another frequency corresponding to sweep rate variable information derived from a sampling control unit, and then outputs the signal having the changed frequency. This signal outputted from the phase-locked loop circuit is supplied to a variable frequency dividing circuit. This variable frequency dividing circuit frequency-divides the frequency of the signal outputted from the phase-locked loop circuit at an arbitrary frequency dividing ratio corresponding to the sweep rate range information given from the sampling control unit, and thereafter outputs the signal with the frequency-divided frequency as a sampling signal.

Abstract: A signal acquisition and display system that always provides the maximum possible display bandwidth that can be provided by the system without causing the display update rate to be reduced below the maximum determined by the acquisition time window. The optimization does not require analysis of a separate acquisition and does not require a repetitive waveform. The acquisition system alternates between two sections of memory, so that the minimum display update time is the longer of the acquisition time window or the display plot time. The display record length is variable. The display record length is controlled to make the display plot time always equal to or slightly less than the acquisition time window. Therefore, display bandwidth is always at the maximum possible given the acquisition time window and the maximum display update rate determined by the acquisition time window. Display record lengths may be very long compared to typical previous instruments.

Abstract: A monitor/analyzer for an alternating current (AC) electrical system responds to power line disturbances by generating a trigger signal when a change in voltage with respect to time electrical parameter is greater than a programmed threshold. The monitor/analyzer includes a sensor for sensing an AC waveform in the electrical system, an analog-to-digital converter for sampling the AC waveform, and a microcomputer. Firmware of the microcomputer cooperates with the A/D converter and provides a plurality of digital samples of the AC waveform for each of some of its AC cycles. The firmware generates each of plural dV/dt parameters of the AC waveform from a corresponding adjacent pair of the digital samples within one of the waveform's AC cycles. A trigger signal is generated when one of the dV/dt parameters is greater than the programmed threshold. The digital samples of the AC waveform before and after the power line disturbance are captured and output to a display in response to the trigger signal.

Abstract: The present invention is based on a digital pulse sampling and detection technique which samples a nuclear pulse train at a constant frequency asynchronously with the actual pulses, which occur at random times. The shape of pulses representative of the interaction of nuclear particles or gamma-rays with a nuclear detector is analyzed to determine the pulse length. Nuclear particles or gamma-rays are detected. A signal is formed containing pulses representative of the particles or gamma-rays. The pulses are sampled at a constant frequency to form a digital image of the pulse train. The pulse length is determined by counting the number of pulses with a first number of consecutive samples above a threshold and by counting the number of pulses with a second number of consecutive samples above the threshold. A ratio of the first and second number of consecutive samples is obtained. The ratio is used to adjust the pulse length.

Abstract: In a waveform analyzer directed toward enabling recognition at a glance whether displayed waveform data are within a desired range; waveform data converter 50 inputs waveform data stored in a waveform data memory 10 and the result of comparison of the waveform data stored in waveform data memory 10 with a judgment standard stored in limit line memory 20 at comparison operator 30; and based on the inputted comparison result, waveform data converter 50 converts to a predetermined format only that portion of the waveform data stored in waveform data memory 10 that is judged to be outside the desired range based on the judgment standard; following which waveform display device 40 displays the converted waveform data.

Abstract: An engine analyzer having a dual-trace digital oscilloscope includes a memory for storing a library of digitized waveform patterns, the patterns being stored together with identifying data for each pattern and lists of groups of patterns respectively corresponding to different vehicles and/or engines. The analyzer includes a user interface for inputting identifying information relating to the vehicle under test, a waveform acquisition module and a central processor for cooperation with the memory and the oscilloscope for acquiring, digitizing and storing an analog input waveform from the vehicle engine and displaying it on a first trace of the scope in accordance with selected display parameters.

Abstract: A computerized testing method and system for a wire harness allows analog data regarding a characteristic of the wire harness to be received and converted into digital data. This digital data is analyzed, and an opening time for the wire harness is calculated. The opening time will determine if the wire harness is acceptable or unacceptable.

Abstract: A method and apparatus are provided for approximation of integral and RMS values for waveforms of uncertain or unknown period. The technique employed processes values of the waveform sampled at fixed sampling intervals, monitors the actual period of the waveform, and calculates the number of fixed sampling intervals in the period. The sampled data is then used as a basis for mapping the waveform onto a desired number of sampling points. Interpolation techniques are used to assign values to desired sampling points lying between fixed interval sampled points. The desired number of sample points is selected to permit use of Simpson's rule for approximating the integral value (an odd number of points for application of Simpson's 1/3 rule, and a number equal to a multiple of 3 plus 1 for application of Simpson's 3/8 rule). Once the desired sampling points are determined, Simpson's rule is applied to calculate the integral, and the RMS value may be determined based on this integral value.

Abstract: Battery current is indicated on a display element of a portable computing apparatus. Real time changes in battery current show the effects on the battery for given operations and configurations of the computing apparatus. The battery current is displayed as an icon. In various embodiments the icon indicates an absolute battery current value (e.g., in ampere or micro-ampere units), or a relative battery current value (e.g., a percentage relative to a predetermined reference current level). The icon appears on a display screen of the computing system or is a built-in dedicated indicator mounted into the apparatus case. A battery charge icon accompanies the battery current icon.