Abstract: Comparator methods and structures are provided whose accuracy in analyzing an output signal Sout of a DUT is enhanced because they compensate for a signal distortion that is imposed by a transmission path over which the output signal Sout is received. The methods include the steps of a) providing a reference signal Sref; b) combining the reference signal Sref with a reference distortion that corresponds to the signal distortion to thereby realize a compensated reference signal Scmp-ref; and c) comparing the output signal Sout to the compensated reference signal Scmp-ref to determine signal parameters of the output signal Sout. The methods of the invention facilitate the use of simple comparator structures that do not significantly increase the cost of automatic test equipment but which do significantly increase accuracy of signal analysis.

Abstract: Apparatus and method for determining a mechanical property of an organ or a body part. The method includes positioning an impedance sensor within a blood vessel. The impedance sensor has at least two electrodes disposed within the blood vessel, which is mechanically coupled to the organ or body part. The method further includes determining the electrical impedance between the two electrodes to obtain an impedance signal correlated with the mechanical property of the organ or body part. The organ may be the heart, lungs, uterus, urinary bladder, part of the gastrointestinal tract and the brain. The impedance sensor includes at least two spaced apart electrodes capable of being disposed within a blood vessel. The sensor is operatively connected to an impedance determining unit which determines the impedance between the electrodes. The impedance sensor may be a part of an insertable or implantable lead or catheter like device.

Abstract: Apparatus is described for generating a frequency-sweepable measurement signal and a local signal with a frequency separated from the measurement signal frequency by an intermediate frequency. The measurement signal and a local signal are generated by a simple structure, including a high-frequency variable-frequency signal source, a low-frequency fixed-frequency signal source, a first frequency divider and a second frequency divider. The variable-frequency signal source is a sweepable signal source. The first frequency divider divides an output frequency fa from the variable-frequency signal source by n and outputs a measurement signal with a frequency of fa/n. The signal of the variable-frequency signal source is also applied to the first input of the second frequency divider, and the signal of fixed-frequency signal source, with a frequency of fb, is applied to the second input.

Abstract: A phase-locked loop (PLL) is provided, which includes a PLL reference input, a PLL output and a phase detection loop coupled between the PLL reference input and the PLL output. The phase detection loop has a loop filter node. A delay element is coupled within the phase detection loop and has a variable delay, which can be increased to a critical delay at which the phase detection loop becomes unstable. A demodulator is coupled to the loop filter node and is adapted to demodulate a modulated voltage on the loop filter node. The demodulator has a demodulated output, which is representative of a phase margin of the phase detection loop when the delay element has the critical delay.

Abstract: Method and apparatus for automatic verification of measurement probe functionality and compensation for a wide range of oscillating signal amplitude levels. The invention includes a source of an oscillating signal and a measurement device. A measurement probe is coupled between the measurement device and the source of the oscillating signal, wherein it is desired that the probe is functioning to faithfully transmit the oscillating signal there through. The measurement device is adapted for generating a measurement signal in response to the source of the oscillating signal. Also included is a reference that is based upon actual characteristics of the oscillating signal. A controller is coupled with the measurement device and the reference for making a comparison of the measurement signal to the reference. The controller automatically determines whether the measurement probe is functioning based upon the comparison.

Abstract: Apparatus is described for generating a frequency-sweepable measurement signal and a local signal with a frequency separated from the measurement signal frequency by an intermediate frequency. The measurement signal and a local signal are generated by a simple structure, including a high-frequency variable-frequency signal source, a low-frequency fixed-frequency signal source, a first frequency divider and a second frequency divider. The variable-frequency signal source is a sweepable signal source. The first frequency divider divides an output frequency fa from the variable-frequency signal source by n and outputs a measurement signal with a frequency of fa/n. The signal of the variable-frequency signal source is also applied to the first input of the second frequency divider, and the signal of fixed-frequency signal source, with a frequency of fb, is applied to the second input.

Abstract: A data manager of a relational database management system (RDBMS) receives a command, such as a DELETE. As the RDBMS processes this command, an index manager looks at cursor control block information about the scan position (page number, logical key position within page and log sequence number (LSN) of the page) and immediately accesses the corresponding leaf page to do the key deletion. If the page's log sequence number has not changed since the scan was positioned on it, the index manager knows precisely where the key is and deletes it right away. Even if the page's log sequence number has changed, the index manager checks to see if the key is still on the same page. Only if the key is not on that page anymore will the index manager traverse the tree from the root to locate the key. Using this same information, together with a return.sub.-- current flag in the cursor control block, the method can easily determine the next key in the sequence. The return.sub.

Abstract: A method for acquiring measured values in electronic analog circuits having at least one measurement point, in particular safety-relevant circuits for passenger protection systems in motor vehicles. The electrical potentials generated at the measurement points are each compared as measured quantities with a ramp voltage that rises in steps, where the number of steps required to reach the voltage value of the measured quantity at the respective measurement point is provided as a unit of measurement that is proportional to the measured quantity. This allows the comparison of all measured quantities with the ramp voltage to be performed simultaneously, the ramp voltage being selected to cover the entire range of measurement.

Abstract: An apparatus for detecting abnormal radio-frequency signals has an antenna responsive to a radio-frequency signal. The radio frequency signal has a plurality of signal components, each of which has an associated amplitude. A circuit attenuates each of the plurality of signal components having an amplitude not greater than a threshold value and generates a suspect signal comprising each of the plurality of signal components having an amplitude greater than the threshold value. A circuit then compares the suspect signal to a plurality of preselected signal types. When the suspect signal does not correspond to any of the preselected signal types, a circuit generates an alarm. In a method of detecting usage of a radio-frequency weapon, a signal having an amplitude, is received. A background signal amplitude of a plurality of components of the signal is determined.

Abstract: A processor controlled test set for testing special service circuits of a telecommunication system. A microprocessor controls the overall operation of the test set, while a digital signal processor provides high speed timing signals to the various test circuits for generating the wave forms used in testing, as well as analyzes the test result signals that are converted into digital signals. A calibration of the test generator signals as well as the signal measuring path is carried out prior to the test sequence. The digital signal processor also provides gain control over a talking path to maintain stability thereof. An I/O circuit of the test set provides plural communication paths between remote equipment and the test set to initiate and carry out various tests. Processors in the I/O module are effective to convert the various protocols of the serial data, by way of software, to digital bit streams usable by the test set.

Abstract: A PLL (phase-locked loop) circuit is used in apparatus for testing individual circuits in circuit devices. The PLL circuit operates at an input frequency provided by the output of an input oscillator when this oscillator is connected to one of the inputs of a phase comparator within the PLL circuit. When this connection is not made, the PLL circuit operates at a freerunning frequency, which is varied by connecting a circuit under test with a frequency controlling node present within a voltage-controlled oscillator in the PLL circuit. In a first mode of operation, the circuit under test is initially connected to the frequency controlling node, but the input oscillator is not connected to the phase comparator. When the input oscillator is so connected, the frequency of oscillations moves from a freerunning frequency associated with the circuit under test to the input frequency.

Abstract: A low signal margin detect circuit for detecting reduced signal levels in differential current switch (DCS) or current switch emitter follower (CSEF) circuits. The circuit is connected to the outputs of a DCS circuit or to the output of a current switch emitter follower circuit and a reference voltage. A signal difference between the inputs is determined and, if less than an established amount, an error signal is generated. The detect circuit is enabled by a TESTBIAS signal. Two error signals are developed, ERRORX and ERRORY, which can be dotted with the error signals from adjacent circuits in the X and Y directions. This enables detection of the failing circuit through the use of appropriate error signal detection devices.

Abstract: A method to verify that a test and measurement system continues to operate within a predetermined acceptable range with respect to a given calibrated state previously defined for that system without the need for conventional external reference components. In accordance with one embodiment, performance verification of a network analyzer used to perform electrical measurements is achieved by storing RF "thru" measurement data (an RF thru measurement trace of the system) at the time of calibration at the factory or later repair and/or recalibration at a field service site. In accordance with another embodiment, performance verification of a lightwave component analyzer, used to perform electrical, electro-optical, opto-electrical, and optical measurements, is achieved by storing RF and optical thru measurement data (both an RF thru measurement trace of the system and an optical thru measurement trace of the system) at the time of calibration at the factory or later repair and/or recalibration.

Abstract: An apparatus for determining the polarities of bonding points to locate false bonding connections including an applied voltage output circuit which outputs positive and negative voltages, a switching circuit which after a wire is connected to a bonding point impresses voltage from the applied voltage output circuit to the bonding wire, a D/A converter which outputs standard positive and negative voltages, a polarity determining comparator which determines the polarity of the bonding point by comparing the voltage detected on the bonding wire with the standard voltage, and a memory which stores such a determination result for each bonding point.

Abstract: In this digital signal measurement apparatus, an approach is employed to deliver a measurement signal from a measurement signal generator to a measured circuit to transform the signal on the time base through the measured circuit to a signal on the frequency base by a frequency base transform circuit and to further obtain a signal on the time base by a time base transform circuit. Thus, a difference between the signal on the time base through the measured circuit and the signal on the time base from the time base transform circuit is employed. Thus, for example, even if the measured circuit is a linear system, a measured result in the digital region and a result of the analog measurement can be in correspondence with each other. Accordingly, gain correction of a measurement signal is unnecessary, thus making it possible to prevent an increase in an error of a measured result of S/N.

Abstract: Disclosed is a method of detecting a variation in stray capacitance by use of a PLL circuit.

Abstract: Two capacitive sensors are positioned on opposite sides of the sheet material, having their outputs connected additively. The output of the capacitive sensors is then supplied to a comparator to which a known reference voltage is also supplied. An adaptive circuit adaptively changes the reference voltage.

Abstract: Settling time of an electrical device under test in response to a step wave input voltage is determined by first establishing first and second output voltage levels which differ from a settled output voltage level by preestablished voltage differentials, and then determining the time after applying a step wave voltage to the device under test when the output voltage equals the first and second voltages. A voltage controlled oscillator is utilized in triggering the step wave voltage generator and in enabling a voltage comparator whereby the period of the voltage control oscillator is a measure of the settling time of the device under test.

Abstract: A capacitance-type fluid level sensing system, method, and device is disclosed for determining the amount of fluid in a container, for example, a disposable plastic bag used for intravenous (i.v.) injection or collection of waste from a human body (catheter). In one illustrated embodiment, conductive plates are disposed on the outside of the plastic bag and connected to a circuit for detecting any change in the capacitance of the capacitor formed thereby. In another embodiment, the conductive plates are integrally constructed as part of a surface of the electronic device housing, such that the fluid level can be detected when the housing is affixed directly to the outside of the bag. Alternative annunciation, detection, flow rate calculation, display, and housing features are shown in various embodiments.

Abstract: A method for comparing the quality of RF absorbers uses a TEM cell which is provided with a low-reflection termination, in which cell the absorber wall (5) is equipped with reference absorbers (13). A steep-edged pulse wave is radiated in by means of a pulse generator (9) and a scattered wave reflected by the test absorber (14) is detected by means of a sensor (10). A reflection of the absorber wall is then determined by means of a first calibration measurement. The reference absorber is removed in a test area and a reflection of a metal wall (8) lying behind it is then determined by means of a second calibration measurement. Finally, a reflection of the test absorber (14) arranged in the test area is determined in a comparison measurement.

Abstract: A technique for measuring the insulation resistance of an insulated rail joint in the presence of leakage ground resistance (ballast resistance), as well as other track run-around paths, without the use of calibrated meters, such technique characterized by the use of a bridge circuit which includes a leg having the insulated joint therein whose resistance is being measured, the other three legs including a resistor of fixed known value and two variable resistors respectively, such that when the variable resistors are varied to obtain simultaneously both (a) the null of the rail, or ballast, current, and (b) ballast in the bridge circuit, the resistance value of the insulated joint is determined.

Abstract: An apparatus and method for processing first and second signals, the second signal representing information which is delayed in time with respect to correspoonding information represented by the first signal and there being included in the information represented by each signal information which represents a common effect, occurring at the same time, in each of the two signals. The apparatus includes correlating means which generate first data suitable for producing a positive time correlation curve from the two signals and second data suitable for producing the equivalent of a negative time correlation curve from the two signals or an autocorrelation curve from either one of the two signals. The information representing the common effect results in data common to both first and second data. One of the first and second data is therefore subtracted from the other, thereby removing or substantially reducing the information representing the common effect.

Abstract: A humidity sensing apparatus which includes a humidity sensor which detects humidity as a function of impedance is provided. A reference resistor has a predetermined resistance value. A charge switching circuit selectively couples one of the reference resistor or the humidity sensor in series with a reference capacitor which has a predetermined capacitance. A voltage judging circuit determines whether the terminal voltage of the reference capacitor is high or low. A charge/discharge switch selectively charges and discharges the reference capacitor in accordance with the output of the voltage judging circuit. A sensor direction switching circuit inverts the direction of current flowing through the humidity sensor during charging of the reference capacitor. An oscillation frequency counter counts the number of charge/discharge cycles which are repeated during a predetermined time period.

Abstract: A petroleum stream microwave water cut monitor includes test cell means which contains a reference petroleum multiphase fluid sample and which has a sample stream of a petroleum stream passing through it. The test cell is maintained at a predetermined temperature. A source provides microwave energy to one of a first pair of antennae which provides the petroleum stream flowing in the test cell or the reference sample in the test cell with microwave energy. One of a second pair of antennae receives the microwave energy that has passed through either the petroleum stream or the reference sample. A detector detects the received microwave energy and provides a signal corresponding thereto. An indicator provides an indication of the water cut of the petroleum stream in accordance with the received signal power and a phase difference between the source provided microwave energy and the received microwave energy.

Abstract: A method for measuring line parameters of subscriber lines of a telecommunication system in which end devices, exhibiting a capacitance, are connected to two wires of the subscriber lines is disclosed. The line parameters measured include the capacitances between each of the line wires and ground, the capacitance between the line wires, the leakage resistances between each of the line wires and ground, and the insulating resistance between the line wires. This task is accomplished by performing the following steps while the end device is connected to the subscriber lines. These steps are performed in three measuring configurations sequentially: first one of the two wires of the subscriber line is grounded and the measurement is performed in connection with the other, then the other one of the two wires is grounded and the measurement is performed in connection with the first, and then both wires of the subscriber line are connected together and the measurement is performed on the pair.