Uses two sliding position sensors to detect the angle of side mirrors.
Developed using an integrated circuit board with printed resistors. Use of two-material molding technology enables the knob digits to be illuminated if required. Designed to facilitate smooth operation.
Printing resistors directly onto rigid circuit boards means we are able to achieve linearity of ±1%. We are able to avoid using gold plating through the use of water-soluble flux. A strip coat finishing is also available upon request.
Creating circuits by printing tracks and resistors directly onto PET film enables us to manufacture controllers that are thin and lightweight.
We use decorative technologies such as resin molding and pad printing, as well as assembly technology, to piece the product together and deliver it semi-complete; resulting in less work for our clients. This also helps maintain product quality.
We produce biological sensors by printing on PET film; bringing together a wide variety of printing technologies including multilayer printing, double sided printing, through-hole printing, and foam printing.We are also equipped to meet additional customer requirements such as noise prevention and tactual sense.
We make circuits for components such as the release button, mode switch, and zoom lever, etc. by printing onto film, and are able to achieve our client's design requirements.
We use unique company technology to create compact four-directional switches, rotating jog switches, and enter buttons.Joining the exterior knob and circuit components together as one product enables us to deliver high quality, tactile units.
We are able to place potentiometers on curved surfaces using our unique curved surface resistance position sensor film technology. Our potentiometers can therefore be used as high-resolution position sensors as can sense position directly when cylindrical objects such as camera lenses are in use.
We use decorative technologies such as resin molding and pad printing, as well as assembly technology, to piece the product together and deliver it semi-complete; resulting in less work for our clients. This also helps maintain overall product quality.
LEDs are positioned on film using low-temperature solder mounting technology. Building the switch unit simultaneously allows us to offer our clients compact units that still light up incredibly well. This technology also gives our customers more freedom in product design and makes assembling the product much easier.
Printing circuits on PET film enables a thin and lightweight circuit board. This will not negatively affect design and functionality, either.
Circuits in components such as the start/stop button, zoom, and photo button, etc. are all made using film and created using unique NOBLE technologies. Simultaneous manufacturing of both interior and exterior components enables us to deliver high quality, tactile units.
We use assembly technology to piece the product together and deliver it semi-complete, resulting in less work for our clients. This also helps maintain overall product quality.
We use 9 mm size of NOBLE potentiometers and deliver products semi-complete, resulting in less work for our clients.
Use of thin film circuits makes it possible to create capacitive touch sensors.
Printing circuits on PET film means parts will be thin and lightweight. This contributes to a much more compact and lighter product overall.
We create mutually capacitive static electricity touch sheets by printing silver tracks on both sides of a PET sheet.We are also able to print these to dimensions of 2m x 1.5m using a large-scale printer.
