A testing system is described, wherein said testing system is configured to perform a multipaction test on a device under test. Said testing system comprises a signal generation unit being configured to stimulate an input of said device under test, a receiving unit being configured to receive and measure at least one output signal of said device under test in order to obtain data related to a multipaction occurrence. Said signal generation unit and said receiving unit are controlled such that both units are operated simultaneously. Said signal generation unit is configured to generate a testing signal for stimulating said input, said testing signal comprising at least two carriers simultaneously. Further, a method for testing a device under test is described.

A shield box for wireless terminal test is provided to simply perform various tests with high reliability even in a non-contact (wireless) connection state with an antenna of a wireless terminal. The shield box includes a metallic box having an internal wireless terminal receiving space therein, and a probe antenna which is provided in the metallic box, and located right above or right below an antenna part of a wireless terminal received in the metallic box to receive a signal from a wireless terminal antenna in a non-contact manner. The metallic box is provided therein with an electronic wave absorber. The probe antenna is a patch antenna. The metallic box includes two parts of upper and lower cases including metallic materials, respectively, such that the metallic box is openable. The upper and lower cases are hinged with each other on rear surfaces thereof.

An ignition apparatus for an internal combustion engine is provided which includes a state-of-discharge determiner working to determine whether a center and a ground electrode of a spark plug are electrically conducting with each other or insulated from each other. When the center and ground electrodes are determined to be conducted with each other, the ignition apparatus alters controlled conditions of a high-frequency power supply which supplies a high-frequency power to the spark plug so as to decrease an average of a primary voltage outputted from the high-frequency power supply to the spark plug, thereby reducing an actual current flowing between the center and ground electrodes of the spark plug. This eliminates the risk of mechanical wear of the center and ground electrodes which usually arises from the flow of high current between the center and ground electrodes, thus resulting in an increase in service life of the spark plug.

An ignition apparatus for an internal combustion engine is provided which includes a state-of-discharge determiner working to determine whether a center and a ground electrode of a spark plug are electrically conducting with each other or insulated from each other. When the center and ground electrodes are determined to be conducted with each other, the ignition apparatus alters controlled conditions of a high-frequency power supply which supplies a high-frequency power to the spark plug so as to decrease an average of a primary voltage outputted from the high-frequency power supply to the spark plug, thereby reducing an actual current flowing between the center and ground electrodes of the spark plug. This eliminates the risk of mechanical wear of the center and ground electrodes which usually arises from the flow of high current between the center and ground electrodes, thus resulting in an increase in service life of the spark plug.

Disclosed are a method, system, and/or apparatus to perform clock jitter and power supply noise analysis. In one embodiment, a method may include receiving a first signal, which may be a clock signal, then generating a second signal based on the first signal. The method may further include delaying the second signal by a base delay and/or a series of fine delays. The method may also include taking measurements of the delayed second signal and comparing those measurements to theoretical measurements of the second signal that would occur if the first signal were noise-free. The method may further include determining, based on the measurements and the comparison thereof, whether noise is present, whether the noise is high frequency or low frequency noise, and whether the noise is due to clock jitter and/or power supply deviations.

An integrated circuit includes a Built-In Self-Test (BIST) circuit, a predetermined signature pattern and a Read Only Memory (ROM), wherein the predetermined signature pattern is stored in the integrated circuit. The ROM stores at least effective information and a BIST signature adjustment code, the BIST signature adjustment code is irrelevant to any functional information stored in the ROM; wherein the BIST circuit is used to test content stored in the ROM to generate a signature pattern, and compare the signature pattern with the predetermined signature pattern to judge if the content stored in the ROM has error.

A body characteristic measurement method causing a computer to execute a process, the process includes: determining a gait of a quadruped based on accelerations, acquired from a multi-axis acceleration sensor attached to the chest of the quadruped, in multiple axial directions; and determining, if the determined gait is gallop or canter, an injury risk of the quadruped based on a waveform of a positive half-wave region of acceleration in a movement direction of the quadruped in the case where an increase in the acceleration in the movement direction of the quadruped is defined as positive.

A body characteristic measurement method causing a computer to execute a process, the process includes: determining a gait of a quadruped based on accelerations, acquired from a multi-axis acceleration sensor attached to the chest of the quadruped, in multiple axial directions; and determining, if the determined gait is gallop or canter, an injury risk of the quadruped based on a waveform of a positive half-wave region of acceleration in a movement direction of the quadruped in the case where an increase in the acceleration in the movement direction of the quadruped is defined as positive.

The present invention relates to a field device for determining a process variable and providing a measurement signal indicative of the process variable to a remote location via a two-wire current loop. The field device comprises a measurement device for determining the process variable; a current control device electrically connected in series with the measurement device and controllable by the measurement device to provide the measurement signal to the two-wire current loop; and voltage regulation circuitry electrically connected in series with the current control device and the measurement device for controlling a voltage across the current control device towards a desired voltage by varying a voltage across the voltage regulation circuitry.

The present invention relates to a field device for determining a process variable and providing a measurement signal indicative of the process variable to a remote location via a two-wire current loop. The field device comprises a measurement device for determining the process variable; a current control device electrically connected in series with the measurement device and controllable by the measurement device to provide the measurement signal to the two-wire current loop; and voltage regulation circuitry electrically connected in series with the current control device and the measurement device for controlling a voltage across the current control device towards a desired voltage by varying a voltage across the voltage regulation circuitry.