Abstract: A circuit for providing electrical current to an electrically operated bicycle device comprises a current supply circuit that supplies DC current from the power supply to the bicycle device along a current path and a current limiting circuit that includes an active resistance circuit that limits electrical current flowing through the current supply circuit when voltage applied to the current limiting circuit is above a minimum value.

Abstract: The invention relates to a device for driving display devices and to a display device that is provided with a driver circuit. The invention also relates to a method of testing driver circuits. Driver circuits of this kind have a decisive effect on the quality of the display devices. Therefore, in order to ensure a good quality, the driver circuit must be extensively tested, that is, with an as short as possible test time and using as few means as possible. In order to make such a test possible, a device for driving the display devices is provided with M leads that are coupled to AN output stages that are provided with at least one multiplex device (4) and at least one amplifier unit (5), the M leads being coupled to a first switching device (2) that enables the interruption of a voltage supply to the M leads, and at least one second switching device (3) being provided in at least one output stage (AN) in order to switch the output stage (AN) to a selectable potential.

Abstract: The present invention relates to a method and apparatus for examining Plasma Display Panel (PDP) electrodes using frequency characteristics, which can rapidly examine the PDP electrodes for defects and detect the positions thereof using frequency characteristics of signals passing through the PDP electrodes in the PDP. In the present invention, a ground plane is formed so that it does not directly come into contact with a plurality of target electrodes, and a transmission line is added to come into contact with one of the ends of the plural target electrodes. Thereafter, an examination signal having a plurality of different frequency signals which linearly vary is applied to one end of the transmission line. Peak values according to frequencies of an output signal output from the other end of the transmission line are detected and the detected output wave characteristics are analyzed, thus determining whether defects of the PDP electrodes exist.

Abstract: Disconnection device for an electronic operating device for gas discharge lamps. The filament breakage of a lamp is evaluated by detecting the current through a component which flows through the filaments. This is performed either by detecting this current with the aid of an optocoupler or by measuring the phase of the load circuit current.

Abstract: A apparatus for recording information on power surges in an electrical or electronic system is disclosed. The apparatus has a gas discharge tube connected between an input line of the electrical or electronic circuit protected and ground. The gas discharge tube is set to activate at a predetermined voltage. The gas discharge tube has adjacent to it a light sensor that reacts to discharges in the tube and the sensor in conjunction with enabling circuitry generates a signal representative of discharge of the gas discharge tube. The signal produced provides information on the time, magnitude and duration of discharges in the gas discharge tube which are in turn representative of the power surge experienced by the system.

Abstract: A non-adhesive, conductive strip is used to provide an electrical ground path between a solder electrode on the anti-reflective film of a cathode ray tube and the reinforcement or heat shrinkage band on the tube. The conductive strip is preferably held in place on the cathode ray tube using a magnet or magnets. Consequently, because the conductive strip is held in place by magnets and is non-adhesive, it can be removed and replaced repeatedly during the testing of the solder electrodes and anti-reflective film without potentially damaging the solder electrode or degrading the performance of the conductive tape that is typically used as the ground path in a completed cathode ray tube.

Abstract: A method for determining the remaining operating life of a fluorescent lamp comprising cathodes, when the fluorescent lamp is a part of a fluorescent lamp circuit, which in addition to the fluorescent lamp includes a ballast, for example a capacitor and an inductance. In accordance with the method the remaining operating life of the fluorescent lamp is deduced from a phase difference of a voltage applied over a cathode in relation to another current or voltage phase in the fluorescent lamp circuit.

Abstract: A repair device for fixing a malfunctioning shunt across a failed filament in a light bulb in a group of series-connected miniature decorative bulbs includes a piezoelectric pulse generator producing one or more pulses of a magnitude greater than the standard AC power line voltage. A connector receives the pulses from the pulse generator and supplies them to the group of series-connected miniature decorative bulbs.

Abstract: A repair device for fixing a malfunctioning shunt across a failed filament in a light bulb in a group of series-connected miniature decorative bulbs includes a piezoelectric pulse generator producing one or more pulses of a magnitude greater than the standard AC power line voltage. A connector receives the pulses from the pulse generator and supplies them to the group of series-connected miniature decorative bulbs.

Abstract: A method and apparatus for detecting the presence of a plasma. The apparatus comprises an electrically floating contact member that is exposed to a plasma forming region, for example, a semiconductor wafer processing chamber. The floating contact is coupled to a measuring device. When a plasma is present in the plasma forming region, the plasma induces a voltage upon the floating contact which is detected by the measuring device.

Abstract: A light-source lamp unit includes a light-source lamp unit detachably mounted, and a CPU constituting a drive and controller for the light-source lamp unit. The CPU senses lamp information obtained by a lamp-information storing block in the light-source lamp unit, pertaining to a lamp power rating, lamp life and whether a lamp is new or not, and starts counting operation time when the lamp is lit. The CPU compares the lamp life sensed and the operation time count, and forces the lamp to extinguish when the life of the light-source lamp expires. Prior to this action, the CPU gives a warning display before the life expiration of the lamp by a fixed duration of time, to warn that lamp replacement is needed. Because the lamp-information storing block in the light-source lamp unit stores the information about the lamp type and characteristics of the lamp, the light-source device can properly drive the lamp to light it and determine the lamp life even when a light-source lamp unit of a different type is used.

Abstract: An apparatus for testing the exterior lights on a vehicle includes a controller supported by the vehicle and adapted to turn on the exterior lights in response to an actuation signal. A remote control device is adapted to provide the actuation signal from outside the vehicle. A method is also provided for testing the exterior lights including using the remote control device from outside the vehicle to direct the controller to turn on some or all of the exterior lights.

Abstract: Bacteria cells and/or spores are collected and concentrated to form a specimen that is lysed using an ionized fluid to facilitate identification of the bacterial cells or spores by tests performed on the DNA and RNA contained therein. An impact collector is preferably used for separating the spores and cells from an air sample that is drawn through an input port of a portable housing. The resulting specimen is then exposed to an ionizing discharge that ruptures the surface membrane of the bacterial cells or spores. The ionizing discharge can be produced by a Tesla coil or other potential transformer that is electrically energized to produce an ionization potential, which is applied to an electrode, or to produce a corona glow discharge spread over a relatively larger surface of a plate-type electrode. Alternatively, air or another gaseous fluid in proximity to the electrode may be ionized by the ionizing potential or discharge from the electrode, forming an ionized fluid that is applied to the specimen.

Abstract: An electric discharge machine for machining a workpiece by an electric discharge by supplying a machining fluid to a gap between an electrode and the workpiece and supplying pulses to the workpiece while providing the electrode with a jump motion, said jump motion being a periodic motion of the electrode relative to the workpiece; wherein said electric discharge machine detects a state quantity caused in a main body of the electric discharge machine by a reactive force produced by a machining operation in the gap between the electrode and the workpiece and changes machining conditions of the workpiece in accordance with a detected value of the state quantity.

Abstract: A diagnostic circuit monitors filament currents in hot cathode fluorescent lamps for detecting when the filament erodes to the point of breaking. When such a filament failure is detected, information is processed and a request is sent to replace the lamp before it actually fails. The diagnostic circuit is low power and low voltage and is electrically isolated from the high-voltage end of the lamp. Additionally, a simple circuit to regulate rms value of filament voltage without having to compute or otherwise measure the actual rms value is provided.

Abstract: A lamp disconnection detecting device includes a magnetic core with a gap; a plurality of detecting coils the number of turns of which are different from one another and are proportional to 2.sup.n (where n=0, or positive integers), and a magnetic response section provided in the gap of the magnetic core.

Abstract: A device for detecting the malfunctioning of a magnetron which operates at start-up with a high power setting P.sub.0, and which is connected to the terminals (21, 22) of the secondary winding (19) of a high-voltage transformer (8). This device includes a device for measuring (28) the peak voltage value sampled in the supply circuit, a device for storing (29) the voltage value measured at successive instants, a device for comparing (30) two successive voltage values giving, in the event of a difference in value, an excess signal (a-b), and a device for detecting (31) the excess signal suitable for sending a malfunction signal to a counting device in order to determine the frequency of the malfunction.

Abstract: A capacitor (16) coupled in series with series coupled gas discharge lamps (11 and 12) will effectively block direct current from flowing through the capacitor (16). A detector circuit including a high impedance resistor (17) and transistor (18) provide an alternate path for a small direct current flow, thereby enabling a direct current voltage across the capacitor (16) to be detected. The presence or absence of this direct current voltage provides a reliable indicia of the existence or absence of a gas discharge fault.

Abstract: A system for testing electrical lamps includes a hollow cylinder. Lamps are placed in the hollow cylinder and the light emitted from the lamp is focused onto a phototransistor by a focusing lens. The output of the phototransistor is measured against the electrical voltage input into the lamp. If the output of the phototransistor lags behind the input voltage to the lamp by more than a predetermined amount, the lamp is rejected.

Abstract: A light bulb tester includes a body having first and second opposite ends. A pair of parallel cylindrical electrically-conductive wire probes on the first end are spaced apart a distance of from about 4.5 mm to about 6.0 mm, said distance including the widths of the two probes and the length of the gap formed between them. A pair of male and female nine-volt battery contacts are attached on the second end of the body so that the tester may be powered by a standard battery of the 9V (household transistor) size. The tester is used for testing a bulb of a holiday light bulb string of the standard type having a plurality of bulbs in sockets wired in series. The bottom of each socket forms an aligned pair of apertures or a slot leading to a pair of electrical socket contacts inside the socket. There is enough room in the apertures (or slot) to insert the probes and to connect them to the socket contacts in order to test the bulb while it remains in the socket.

Abstract: A method and apparatus for measuring and adjusting output of a heat lamp for an optical TLD reader includes an optical system which matches the optical system of the TLD reader, means for supporting a heat lamp to be calibrated, and an element plate having at least one heat absorbing substrate supported in alignment with the optical system. The heat lamp is electrically connected to a lamp driver circuit of the TLD reader, and a thermocouple is mounted in thermal contact with the heat absorbing substrate. In use, the lamp driver circuit of the TLD reader drives the heat lamp mounted in the calibration and adjusting device. This device monitors the signal generated by the thermocouple and displays this signal as a measured heat response curve. This measured heat response curve can be compared with a `standard` or reference heat response curve to determine whether the lamp driver circuit has been adjusted properly for the heat lamp being tested, and to determine the nature of any required adjustments.

Abstract: The present disclosure describes a method for determining the condensate location within an HID lamp. The method involves monitoring current and voltage waveforms during the glow phase of lamp starting. If the voltage drop during the glow phase is low with a corresponding high current, then the volatile component of the lamp fill has condensed on the electrodes during the previous cool down period. If the voltage drop is high and current is low then most of the condensate has localized on the arc tube wall. An automated detection apparatus is used to carry out the measurements to determine condensate location.

Abstract: A detector (42) is provided for testing a string of lamps (12) that are connected to a wire (14) in a series configuration. The detector (42) has a probe (44) disposed on the end thereof with a cavity (56) formed therein. The cavity (56) is operable to be disposed around the socket (30) of lamp (12). The electrodes (34) and (36) disposed in the interior of the socket (30) are disposed parallel to two electrodes (60) and (62) that are embedded in the probe (44). A detector circuit is provided for detecting the presence of an AC signal capacitively coupled from one of the electrodes (34) and (36) to one of the capacitive plates (60) and (62), respectively. A large DC signal will be present for a defective bulb having at least one of the electrodes (34) or (36) connected to one side of an AC supply (18).

Abstract: A ballast tester for HPS lamp circuits includes a body of insulating material, a base which fits the lamp socket, a single wire connected to the base and extending through the body forming a loop, and a hole in the body within the loop to receive a clamp-on ammeter. The ammeter measures short-circuit current, giving an indication of ballast condition.

Abstract: A circuit for measuring anode current in an X-ray tube having an anode and a heater electrode both operable at high voltage, includes a heater transformer generating current pulses with a timewise constant first pulse repetition frequency and an adjustable duty cycle, a first frequency separator connected in series with the heater transformer for receiving the output thereof, a high voltage-proof transformer having a primary winding connected in series with the first frequency separator, and separate first and second secondary windings, the first secondary winding being connected to the heater for supplying heater current for the X-ray tube, an anode circuit connected to the anode of the X-ray tube including a current/duty cycle converter generating a current with a constant second pulse repetition frequency different from the first pulse repetition frequency, the first secondary winding being connected to the current/duty cycle converter for supplying voltage from the high voltage-proof transformer, a second

Abstract: A protective device for a plurality of electrical circuits includes a pluity of isolated electrodes forming a gap with a common electrode. An output signal, electrically isolated from the circuits being monitored, is obtained by a photosensor viewing the discharge gap through an optical window. Radioactive stabilization of discharge characteristics is provided for slowly changing voltages and carbon tipped dynamic starters provide desirable discharge characteristics for rapidly varying voltages. A hydrogen permeation barrier is provided on external surfaces of the device.

Abstract: A circuit for testing a segment of a digital display comprising a segment of a digital display having a cathode filament for conducting electrical current and for emitting electrons, and detecting means connected to the cathode filament for detecting electrical current flow across it. Also provided is a method for testing the proper operation of characters or digits of a digital display.

Abstract: A method is provided for detecting cracks and other imperfections in a solar cell, which includes scanning a narrow light beam back and forth across the cell in a raster pattern, while monitoring the electrical output of the cell to find locations where the electrical output varies significantly. The electrical output can be monitored on a television type screen containing a raster pattern with each point on the screen corresponding to a point on the solar cell surface, and with the brightness of each point on the screen corresponding to the electrical output from the cell which was produced when the light beam was at the corresponding point on the cell. The technique can be utilized to scan a large array of interconnected solar cells, to determine which ones are defective.