Site map Home For New Visitors Q&A Improvement Case Studies Looking for a solution for detecting 10μm of Power steering parts… Using expensive Touch Probes for Updating the wear of Grinding Stone?! Looking for more economical solution… Air sensor is low accuracy that confirming adhesion of Precision Component for PC cannot be done properly… Contact displacement sensors used for measurement inside CNC cylindrical grinding machines cannot survive the harsh internal environment. Radiation degrades photomicrosensors fast and we have to replace them every two or three months. We are experiencing difficulties because the detection of double sheet metal feeding with expensive contact displacement sensors costs too much. False detection of photoelectric sensors results in damage to HDD disks. We are experiencing problems because of the production of defective disks. Radiation degrades optical fiber sensors. Are there any sensors durable under radiation exposure? The switch is not broken but false signals frequently occurs. It is necessary to detect the opening and closing of disk brake pads without fail! Is high-precision positioning for the driving part of equipment possible with stepper motors? The signal point of proximity sensors varies with changes of the external environment. Can small-diameter drills (ø 5 mm) length detection be made more reliable? Laser sensors are prone to fail in adverse environments. We need to correct the deviation of the X-Y axes of the table of semiconductor inspection devices. Can the double feeding of paper as thin as 0.1 mm really be prevented by microswitches? Is there any alternative to contact detection by installing an intermediate unit onto proximity sensors? We have some problems with the presence detection of wafers for semiconductor devices with photoelectric sensors. We need to correct the deviation of printing plates in micron increments. We are experiencing difficulties because proximity sensors cannot achieve high precision for bobbin positioning in automatic knitting machines. Can 1 mm or smaller slight movements of diaphragms be detected stably with switches? There is no mounting space for a photoelectric sensor in workpiece detection with a robot. We are experiencing problems with connectors for optical fiber sensors inside vacuum film forming equipment. Optical fiber sensors detect objects falsely on conveyors. Are expensive touch probes necessary in end face measurement for grinders? Is the zero seek of carriers possible inside vacuum film forming equipment for FPDs? Mutual interference of neighboring proximity sensors prevents stable detection. False detection occurs because of condensation on the lens. We have difficulties because image sensors are easily affected by welding fumes. In workpiece seating confirmation, optical fiber sensors cannot reach trays inside vacuum film forming equipment. The intermediate mechanism installed for the detection of screws in pinholes with a proximity sensor costs too much. Expensive sensors for spring endurance testers? Are there any switches that can be used in automatic stop mechanisms? Are optical fiber sensors the best for glass substrate alignment inside vacuum film forming equipment for FPDs? Ultrasonic sensors cannot reliably detect 0.1 mm-thick sheets if the material type varies. The Z-axis of a desktop robot needs correction. Water drops on the liquid crystal glass cause false detection by optical fiber sensors. I have some problems with the precision of air sensors for seating confirmation. Can the slight movements of valve gates be detected at high temperatures during mold injection? Product Information FAQ Placing Orders Free download Contact Press reports Subscribe to our e-mail magazine Application examples Switches that safeguard life on the medical front Switches that ensure the safe operation of elevators Switches in radiation therapy equipment that fight together against diseases Switches that contribute to the solution of energy issues in the manufacture of solar panels Switches active in the manufacture of smartphones About us Privacy policy