A pleat counter and methods are provided to accurately count the number of pleats in a corrugated sheet of material to be used for the production of air filters. The pleat counter comprises a pleat detector mounted underneath a mounting board for counting the pleats. The mounting board is configured to position the pleat detector adjacent to the corrugated sheet of filter material. The pleat detector includes one or more sensors configured to detect the presence of individual pleats comprising the corrugated sheet. The pleat counter includes an interface configured to enable coupling the pleat counter with a data processing system. The data processing system may comprise any of a desktop, a tablet, a server, a mobile phone, a media player, a personal digital assistant (PDA), a personal communicator, a network router or hub, a wireless access point (AP) or repeater, a set-top box, or a combination thereof.

At least one example embodiment discloses a seed monitoring system including a light source configured to emit light in an interior of a seed tube, a plurality of light receivers, each of the plurality of light receivers configured to receive light in at least two sectors of a plurality of sectors of a plane in the interior of the seed tube and generate a sensing signal corresponding to the received light, a processing system including a plurality of conditioning channels, the processing system configured to process the sensing signals to generate conditioned signals and a controller configured to generate a seed count value based on the generated conditioned signals.

At least one example embodiment discloses a seed monitoring system including a light source configured to emit light in an interior of a seed tube, a plurality of light receivers, each of the plurality of light receivers configured to receive light in at least two sectors of a plurality of sectors of a plane in the interior of the seed tube and generate a sensing signal corresponding to the received light, a processing system including a plurality of conditioning channels, the processing system configured to process the sensing signals to generate conditioned signals and a controller configured to generate a seed count value based on the generated conditioned signals.

At least one example embodiment discloses a seed monitoring system including a light source configured to emit light in an interior of a seed tube, a plurality of light receivers, each of the plurality of light receivers configured to receive light in at least two sectors of a plurality of sectors of a plane in the interior of the seed tube and generate a sensing signal corresponding to the received light, a processing system including a plurality of conditioning channels, the processing system configured to process the sensing signals to generate conditioned signals and a controller configured to generate a seed count value based on the generated conditioned signals.

Breakage of electrical components inside is prevented when live wire insertion-and-removal is performed after inhibition of an increase in costs. A coin processing device 1 includes a coin sorting unit 3, a coin housing unit 2, and a harness 4. The coin housing unit has a first connector 21 including a first terminal TH2, a second terminal TL1, and a first ground terminal TG1. The coin sorting unit includes: a second connector 31 coupled to the first connector through the harness, the second connector 31 including the third terminal TH4 to which a high voltage is supplied through the first terminal, a fourth terminal TL2 configured to supply a low voltage to the second terminal, and a second ground terminal TG2 grounded through the first ground terminal; a low-voltage power source circuit 32 configured to generate the low voltage from the high voltage supplied to the third terminal, and configured to output the low voltage from a low-voltage output terminal 32t; and a switch circuit 34. The switch circuit disconnects electrical connection between the low-voltage output terminal and the fourth terminal in a case where a difference between a voltage at the second ground terminal and a voltage at the low-voltage output terminal has been less than a threshold value.

A pleat counter and methods are provided to accurately count the number of pleats in a corrugated sheet of material to be used for the production of air filters. The pleat counter comprises a pleat detector mounted underneath a mounting board for counting the pleats. The mounting board is configured to position the pleat detector adjacent to the corrugated sheet of filter material. The pleat detector includes one or more sensors configured to detect the presence of individual pleats comprising the corrugated sheet. The pleat counter includes an interface configured to enable coupling the pleat counter with a data processing system. The data processing system may comprise any of a desktop, a tablet, a server, a mobile phone, a media player, a personal digital assistant (PDA), a personal communicator, a network router or hub, a wireless access point (AP) or repeater, a set-top box, or a combination thereof.

A pleat counter and methods are provided to accurately count the number of pleats in a corrugated sheet of material to be used for the production of air filters. The pleat counter comprises a pleat detector mounted underneath a mounting board for counting the pleats. The mounting board is configured to position the pleat detector adjacent to the corrugated sheet of filter material. The pleat detector includes one or more sensors configured to detect the presence of individual pleats comprising the corrugated sheet. The pleat counter includes an interface configured to enable coupling the pleat counter with a data processing system. The data processing system may comprise any of a desktop, a tablet, a server, a mobile phone, a media player, a personal digital assistant (PDA), a personal communicator, a network router or hub, a wireless access point (AP) or repeater, a set-top box, or a combination thereof.

At least one example embodiment discloses a seed monitoring system including a light source configured to emit light in an interior of a seed tube, a plurality of light receivers, each of the plurality of light receivers configured to receive light in at least two sectors of a plurality of sectors of a plane in the interior of the seed tube and generate a sensing signal corresponding to the received light, a processing system including a plurality of conditioning channels, the processing system configured to process the sensing signals to generate conditioned signals and a controller configured to generate a seed count value based on the generated conditioned signals.

A counting system includes a counting apparatus, which includes a plurality of multi-sensor detectors configured to detect physical contact data and vertical range data corresponding to one or more steps across the multi-sensor detectors, and first circuitry configured to determine physical contact vectors and coordinate data from the physical contact data and the vertical range data. The counting system also includes at least one server including second circuitry configured to receive the physical contact vectors and the coordinate data from the counting apparatus, determine footprint patterns and body patterns based on the physical contact vectors and the coordinate data, and estimate a number of beings passing over the counting apparatus based on the footprint patterns and the body patterns.

A counting system includes a counting apparatus, which includes a plurality of multi-sensor detectors configured to detect physical contact data and vertical range data corresponding to one or more steps across the multi-sensor detectors, and first circuitry configured to determine physical contact vectors and coordinate data from the physical contact data and the vertical range data. The counting system also includes at least one server including second circuitry configured to receive the physical contact vectors and the coordinate data from the counting apparatus, determine footprint patterns and body patterns based on the physical contact vectors and the coordinate data, and estimate a number of beings passing over the counting apparatus based on the footprint patterns and the body patterns.