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Customized Embossing Button Matte Finish LED Membrane Switch Control Panel
Technical Parameters
Electrical
Maximum Circuit Rating: 35V(DC),100mA,1W
Contact Resistance: 10Ω~ 500Ω (Varies from the trace length and material)
Insulation Resistance: 100MΩ 100V
Dielectric: 250 Vrms (50~60Hz 1min)
Contact Bounce: < 5ms
Life
Flat: ≥ 5million times
Tactile: ≥ 1 million times
Duraswitch: ≥ 10million times
Mechanical
Actuation Force: Flat: 57~284g(2~10oz)
Tactile: 170~397g(6~14oz)
Switch Height: Flat: 0.1~0.5mm
Tactile: 0.6~1.5mm
Environment
Operation Temperature: -40~+80 Degree Centigrade
Storage Temperature: -40~+80 Degree Centigrade
Humidity: 90%~95%, 240 hours
Vibration: 20G, max (10~200Hz,Mil-SLD-202,M204.
Membrane Switch Characteristics
Membrane switches are available in various forms and are capable of providing different feedback levels to the user. When you work with Kaike, you'll notice we use terms such as audible, tactile, snap acting dome and poly-dome when discussing the feel and behavior of your membrane switch.
Characteristics of traditional membrane switches
Traditional switches use a printed polyester membrane with a printed layer of conductive silver ink as the circuit and actuation layers. Membrane layers are separated by a spacer that provides a gap between the upper and lower circuit to keep the switch in an open state. Pressing on the switch location compresses the upper circuit and causes the printed silver contact area to bridge the gap, close the contact, and complete the circuit. When pressure is released, this restores the gap. This type of membrane switch does not provide any feedback to the user other than the event taking place.
How to provide audible and tactile feedback?
To employ a physical contact in the form of a plated metal contact disc, commonly referred to as a dome. When pressed, this dome will snap through a centerline and contact the lower circuit, which can produce an audible ''click'' and tactile ''thump''. This closure action provides tactile and audible feedback to the user on the successful completion of the circuit closure.
Additional Solutions
Kaike can incorporate a thermal-formed polyester switch layer at the contact locations (printed with conductive silver) that are embossed (raised) to form a dome. These poly-domes then take on some of the behavior of a snap acting metal dome to provide positive tactile feedback, but they generally do not provide audible feedback.
Another option is to employ a hybrid design that incorporates a printed circuit board (PCB) as the lower circuit and any combination of membrane, dome or poly-dome employed as the upper circuit.
When you collaborate with our membrane switch design and engineering team, we'll work with you to determine the appropriate specifications and solutions for your device's membrane switch.
Expert engineering and design services ensure your custom UI solutions function as intended
Kaike Technology is the good choice supplier for countless OEMs and engineering/design teams
Large organizations around the world rely on us for large orders of custom user interface technologies: custom membrane switches, graphic overlays, and IMD plate.
Additional engineering: Basic solutions include functional die cuts, control panel assemblies, and custom plastic labels--we are professional.
Our expert engineering and design team services are an integral part of successful product development and manufacturing team. Our skilled, in-house engineers and technical graphic designers work with you every step of the way – from prototype through all manufacture stages.
Membrane switch is a conductive keypad panel with unique cosmetic design.
We offer full range designs and specializes in membrane keyboard switches:
Membrane switch with LED
EL backlight Membrane switch
Silicone rubber keypad Membrane switch
Flexible FPC Membrane switch
EL plate Membrane switch with tail termination either male or female connectors
Water-resistant type membrane switch
ITO touch screen embedded membrane switch
Membrane switch OEM orders are welcome
Membrane switch specifications: Maximum circuit rating: 35V DC, 100mA, 1W
Contact resistance: 10 to 500 Ohms (varied from the trace length and material)
Insulation resistance: 100M Key Specifications
Get complete engineering/design guidance throughout product development
Our engineering and design team offers the expertise to guide your design throughout all development stages to a finished part. Our team offers assistance as following:
Material selection, artwork, and color matching
Durability options
Embossing
Faceplate options
Tactile versus non-tactile
Domes and actuation
LEDs/backlighting
Adhesives
Shielding
Sealing/gasket sealing
Rapid prototyping
Resistance testing
What's the best membrane switch solution technology for your project?
We'll design and manufacture your switch with the technology that best suits your application:
Tactile
Non-tactile
Metal dome
Poly-dome
We offer technical supports and development solutions for your custom product, including:
Composition engineering
Mechanical and design engineering
Design Studio
R&D
Material recommendations
Customized Embossing Button Matte Finish LED Membrane Switch Control Panel
Technical Parameters
Electrical
Maximum Circuit Rating: 35V(DC),100mA,1W
Contact Resistance: 10Ω~ 500Ω (Varies from the trace length and material)
Insulation Resistance: 100MΩ 100V
Dielectric: 250 Vrms (50~60Hz 1min)
Contact Bounce: < 5ms
Life
Flat: ≥ 5million times
Tactile: ≥ 1 million times
Duraswitch: ≥ 10million times
Mechanical
Actuation Force: Flat: 57~284g(2~10oz)
Tactile: 170~397g(6~14oz)
Switch Height: Flat: 0.1~0.5mm
Tactile: 0.6~1.5mm
Environment
Operation Temperature: -40~+80 Degree Centigrade
Storage Temperature: -40~+80 Degree Centigrade
Humidity: 90%~95%, 240 hours
Vibration: 20G, max (10~200Hz,Mil-SLD-202,M204.
Membrane Switch Characteristics
Membrane switches are available in various forms and are capable of providing different feedback levels to the user. When you work with Kaike, you'll notice we use terms such as audible, tactile, snap acting dome and poly-dome when discussing the feel and behavior of your membrane switch.
Characteristics of traditional membrane switches
Traditional switches use a printed polyester membrane with a printed layer of conductive silver ink as the circuit and actuation layers. Membrane layers are separated by a spacer that provides a gap between the upper and lower circuit to keep the switch in an open state. Pressing on the switch location compresses the upper circuit and causes the printed silver contact area to bridge the gap, close the contact, and complete the circuit. When pressure is released, this restores the gap. This type of membrane switch does not provide any feedback to the user other than the event taking place.
How to provide audible and tactile feedback?
To employ a physical contact in the form of a plated metal contact disc, commonly referred to as a dome. When pressed, this dome will snap through a centerline and contact the lower circuit, which can produce an audible ''click'' and tactile ''thump''. This closure action provides tactile and audible feedback to the user on the successful completion of the circuit closure.
Additional Solutions
Kaike can incorporate a thermal-formed polyester switch layer at the contact locations (printed with conductive silver) that are embossed (raised) to form a dome. These poly-domes then take on some of the behavior of a snap acting metal dome to provide positive tactile feedback, but they generally do not provide audible feedback.
Another option is to employ a hybrid design that incorporates a printed circuit board (PCB) as the lower circuit and any combination of membrane, dome or poly-dome employed as the upper circuit.
When you collaborate with our membrane switch design and engineering team, we'll work with you to determine the appropriate specifications and solutions for your device's membrane switch.
Expert engineering and design services ensure your custom UI solutions function as intended
Kaike Technology is the good choice supplier for countless OEMs and engineering/design teams
Large organizations around the world rely on us for large orders of custom user interface technologies: custom membrane switches, graphic overlays, and IMD plate.
Additional engineering: Basic solutions include functional die cuts, control panel assemblies, and custom plastic labels--we are professional.
Our expert engineering and design team services are an integral part of successful product development and manufacturing team. Our skilled, in-house engineers and technical graphic designers work with you every step of the way – from prototype through all manufacture stages.
Membrane switch is a conductive keypad panel with unique cosmetic design.
We offer full range designs and specializes in membrane keyboard switches:
Membrane switch with LED
EL backlight Membrane switch
Silicone rubber keypad Membrane switch
Flexible FPC Membrane switch
EL plate Membrane switch with tail termination either male or female connectors
Water-resistant type membrane switch
ITO touch screen embedded membrane switch
Membrane switch OEM orders are welcome
Membrane switch specifications: Maximum circuit rating: 35V DC, 100mA, 1W
Contact resistance: 10 to 500 Ohms (varied from the trace length and material)
Insulation resistance: 100M Key Specifications
Get complete engineering/design guidance throughout product development
Our engineering and design team offers the expertise to guide your design throughout all development stages to a finished part. Our team offers assistance as following:
Material selection, artwork, and color matching
Durability options
Embossing
Faceplate options
Tactile versus non-tactile
Domes and actuation
LEDs/backlighting
Adhesives
Shielding
Sealing/gasket sealing
Rapid prototyping
Resistance testing
What's the best membrane switch solution technology for your project?
We'll design and manufacture your switch with the technology that best suits your application:
Tactile
Non-tactile
Metal dome
Poly-dome
We offer technical supports and development solutions for your custom product, including:
Composition engineering
Mechanical and design engineering
Design Studio
R&D
Material recommendations
