Abstract: A connector assembly for removing static electricity generated in high-speed communication cable as a result of tribocharging is described. The invention is realized with a typical high-speed cable having a connector provided with a dissipative medium and at least one conductive pad. Static electricity on the jacket material of the cable induces a charge in the cable wires, which is bled to the pads via the dissipative medium. The charge on the pad is then grounded prior to or as the cable is connected to a cable jack.

Abstract: A connector assembly for removing static electricity generated in high-speed communication cable as a result of tribocharging is described. Damage to components such as integrated circuits which are sensitive to electrostatic discharge is thereby prevented. The invention is realized with a typical high-speed cable having a connector with one or more conductive first terminals, each of which terminates a conducting wire in the cable. The connector is provided with one or more conductive and a dissipative medium which electrically connects the first terminals and pads. Static electricity on the jacket material of the cable induces a charge in the cable wires, which is bled from the first terminals to the pads via the dissipative medium.

Abstract: This invention relates to a method of manufacturing electrical connectors with an improved grounding configuration so that the potentially harmful effects of ESD currents are minimized. In the preferred embodiment of the present invention, D-sub connectors are modified to include a central grounding strip between rows of pin openings in a manner that is highly effective in grounding ESD events and, in particular, more readily qualify such a modified connector to meet strict ESD testing requirements.

Abstract: Electrostatic discharges that occur during solid CO.sub.2 cleaning of a substrate (10) can be virtually eliminated by chilling the substrate so that moisture in the atmosphere, in the form of water droplets(30), condense on the substrate surface (14), thereby forming a continuous film of water (28). The water in the film (28) reacts with the solid CO.sub.2 (24) to form carbonic acid that dissociates into free ions that neutralize the charge on the solid CO.sub.2.

Abstract: This invention relates to an antenna for use in detecting electromagnetic noise radiation in which a high frequency, asymmetric signal has been generated. The invention relates to a loop antenna design which uses two loops that are run in opposite direction to each other, thereby resulting in two out-of-phase signals being detected in the loops which are then combined as the antenna output.

Abstract: The present invention in some embodiments provides for an apparatus comprised of a conductive strap and a lotion dispensing device connected to the conductive strap. The lotion dispensing device is comprised of a lotion storage device such as a reservoir, a permeable membrane, or a sponge. Preferably a person would put on the conductive strap and the lotion dispensing device in order to eliminate or reduce the transmission of static discharge to electronic circuitry and to minimize static discharge events that could interrupt the operation of electronic systems. The conductive strap includes a plurality of holes and the plurality of holes. The permeable membrane may be of a material, which dispenses lotion from the permeable membrane at a rate which is increased with heat. The size of holes in the conductive strap may increase in response to greater heat levels. The lotion dispensing device may be comprised of a reservoir filled with lotion.

Abstract: Determining the location of an ESD event is achieved through the use of an envelope detector or absolute value comparator which identifies the arrival of an electromagnetic waveform generated by an ESD event at each of a plurality of antennas. Arrival times are compared to determine the location of the ESD event. A plurality of N antennas are employed, and each antenna is coupled to a corresponding envelope detector, threshold discriminator, switch, and register. The output of a clock is coupled to the switches, and a microprocessor is coupled to the registers. When an antenna receives a waveform corresponding to ESD, the envelope detector extracts an envelope signal related to the envelope of the waveform and couples the envelope signal to the threshold discriminator. When the envelope signal has a value above a specified threshold, the threshold discriminator sends a signal to latch the current count of the clock into the corresponding register.

Abstract: Detection of the existence, magnitude, and frequency of occurrence of a plurality of ESD events is achieved by using an envelope detector to process signals generated by ESD events and received by an antenna. The ESD event detector includes an antenna for producing a signal waveform in response to electromagnetic fields incident thereupon, a demodulator coupled to the antenna for generating an envelope waveform that is related to the envelope of the signal waveform, a threshold window discriminator coupled to the demodulator for generating an indication signal if the envelope detected by the demodulator has a magnitude between a first and a second threshold, and a counter coupled to the threshold window discriminator for counting the number of indication signals received from the threshold window detector.

Abstract: An object (12) may be cleaned by CO.sub.2 reduced ESD by directing a first water mist (23) at a surface (14) of the object while imparting a relative motion between the object board and the mist to form a film of water on the object surface. As the relative motion is imparted between the board and the first mist (23), a second water mist (32) is injected into a stream (30) of solid CO.sub.2 particles (27) directed at the object surface downstream of the first mist. Water droplets in the second mist in the second mist combine with the CO.sub.2 particles to create carbonic acid that disassociates into charged ions that increase the conductivity of the water film, allowing for increased charge dissipation, thus reducing the incidence of ESD.

Abstract: Electrostatic discharge during thermal shock testing on an electronic device (12) by alternate immersion in hot and cold baths (14, 16) of a fully-fluorinated liquid (20) can be reduced by carrying the device within a first, electrically conductive, open-weave basket (32) enclosed within, and coupled to a second basket (30) of similar construction, but a looser weave. The first basket acts as a Faraday shield about the electronic device when both baskets are alternately immersed in the hot and cold baths.

Abstract: Herein disclosed is a noncontact, nondestructive method for monitoring the quality of a high energy weld, e.g., laser beam weld. In accordance with the proposed method, an acoustic sensor (32) is positioned at a distance from the welding zone (34) and picks up airborne acoustic emission signals (33) associated with the laser welding process. These acoustic signals, propagating through the air space between the welding zone (34) and the sensor (32), are detected and analyzed (36,37) to determine the quality of the weld (FIG. 3).

Abstract: An automatic pull tester and an acoustic emission system are herein combined to analyze the failure modes of lead frames bonded to integrated circuits. By using a discriminant analysis technique, a specific failure mode can be determined in real-time by first measuring up to five variables during the pulling operation. The five variables that may be measured comprise acoustic emission signals of a first amplitude (AE1), acoustic emission signals of a second amplitude (AE2), the time elapsed until failure (.DELTA.t), the number (n) of acoustic emission bursts above a first threshold, to the peak pulling force at failure (L.sub.max). Next, the variables measured are incorporated into a plurality of predetermined functions, each function corresponding to one failure mode (FM1 to FM5). The failure mode of the bond is determined by selecting the function having the highest value (FIG. 4).

Abstract: As leads that have been thermocompressively bonded to ceramic substrates are pulled to destruction, stress waves are monitored and counted. The total count is compared to empirically developed ranges associated with known failures to determine the failure mode (e.g., lead failure, gold-to-gold failure, ceramic pullout).

Abstract: The disclosure is directed to a technique for monitoring signals emanating from a ceramic article (10) during a soldering operation. In order to determine whether the signals are stress wave emissions (SWE's) or noise the number of pulses (41) of the monitored signal having an amplitude exceeding a preset threshold (51), during a period of time, are counted. A count (62) proportional to the area under the envelope of the detected signal during the period of time is also made. A ratio of the count related to the area under the envelope to the pulse count is formed and compared to an empirically developed range of ratios which are indicative of a stress wave emission signal.

Abstract: Signals emanating from a weld are detected during the post weld period and excursions of the detected signal above a predetermined threshold are counted. Simultaneously, an envelope of the signal is developed and excursions thereof above the threshold are also counted. A ratio of the signal excursion count to the envelope excursion count is formed. The ratio so formed is compared to known ranges of ratio values to determine whether the detected signal is mechanical noise or a stress wave emission signal.

Abstract: Stress wave emission signals emanating from a weld during an AC welding operation are detected during (1) the time when the AC power is on, (2) the post weld time period, and (3) during each half-cycle of the AC weld when the absolute magnitude of the current is decaying. The stress wave emission signals are counted in each of these periods and compared to predetermined ranges of values to determine the acceptability of the weld.