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Circuit de commutateur à membrane

PRODUCT PARAMETERS

Design Options:
  • Material Selection: Polyester (PET) or FPC
  • Thickness: 0.05-0.13mm
  • Conductive ink: Silver or Carbon
  • Layers: Upper/Lower circuits
  • LEDs/Components Embedded
  • Printed RFI/ESD shielding 
  • ZIP connection
  • 2.54mm pitch female pins with connector
  • Various adhesive back options
Description
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Description

What is Membrane Switch Circuit?

A membrane circuit is a thin, flexible printed circuit commonly used in membrane keypads and switches. It consists of conductive traces printed on flexible substrates, typically polyester or polyimide, allowing for the creation of custom circuit layouts. These circuits are layered with insulating materials and feature pressure-sensitive areas that close electrical contacts when pressed. Membrane circuits are favored for their low profile, durability, and cost-effectiveness, making them suitable for applications in consumer electronics, industrial controls, medical devices, and more, where space-saving and reliable user interfaces are essential.

What are the features of Membrane Switch Circuit?

Structure: The membrane circuit is typically made of thin, flexible layers of material, such as polyester or polyimide. These materials are chosen for their durability and flexibility, allowing them to bend without breaking.

Circuit Creation: Electrical traces are printed onto these flexible substrates using conductive inks. Silver-based inks are commonly used due to their excellent conductivity and printability. The printing process might involve techniques like screen printing or other forms of flexible electronics fabrication.

Components: The circuit layer often contains conductive pads which align with corresponding pads on the top layer of the switch (under the graphic overlay). When the overlay is pressed down, it makes contact between these pads, closing the circuit.

Functionality: By pressing a button on the membrane switch, the user deforms the graphic overlay, pushing it into contact with the underlying circuit. This closes the circuit, sending an electrical signal to the device to perform a specific function.

Design Flexibility: he design of membrane circuits can be highly customized to include various configurations and complexities, depending on the needs of the application. This might include multi-layer circuits for more complex operations, integration with LEDs for backlighting, or even incorporating resistors and other components directly into the circuit.

Benefits: Membrane circuits are lightweight, thin, and flexible, making them ideal for modern electronic devices where space and weight are critical. They are also relatively inexpensive to produce and can be designed to be water and dust resistant..

Membrane Switch Circuit Design Options

1. Material Selection

  • Substrate Materials: Polyester (PET) and polyimide are commonly used due to their flexibility and durability.
  • Conductive Materials: Silver, carbon, or copper-based inks for printed circuits.

2. Circuit Layers

  • Single-Layer Circuits: Simple designs with one conductive layer.
  • Multi-Layer Circuits: More complex designs with multiple layers, allowing for additional functionality and more complex routing.

3. Switch Types

  • Tactile Switches: Provide a noticeable click or feedback when pressed.
  • Non-Tactile Switches: Smooth, silent operation without feedback.

4. Spacer Design

  • Adhesive Spacer Layers: Keep the conductive layers apart until a keypress is made.
  • Die-Cut Spacers: Customized cutouts to align with key positions and circuit paths.

5. Contact Design

  • Dome Switches: Metal or polyester domes for enhanced tactile feedback.
  • Flat Contacts: Simpler, less tactile feedback options.

6. Backlighting Options

  • LED Integration: Direct integration of LEDs for backlit keys.
  • Fiber Optic Backlighting: Uniform lighting using fiber optics.

7. Connector Types

  • Flexible Tail Connectors: Extend the circuit for easy connection to other components.
  • ZIF (Zero Insertion Force) Connectors: Simplify assembly and improve reliability.

8. Protective Coatings

  • Overlay Films: Protect the circuit and provide a user interface.
  • Insulating Coatings: Protect the circuit traces from environmental factors.

9. Customization Features

  • Custom Shapes and Sizes: Tailored to fit specific device designs.
  • Embossing/Debossing: Enhance tactile feedback and user experience.

10. Environmental Resistance

  • Waterproofing: Sealed designs to protect against moisture.
  • UV Resistance: Coatings to protect against UV light degradation.
  • Chemical Resistance: Durable materials and coatings for harsh environments.

11. Keypad Layout

  • Flexible Layouts: Customizable key shapes, sizes, and arrangements.
  • Integrated Displays: Clear windows for LCDs or other display types.

12. Electrical Integration

  • Embedded Components: Integration of resistors, capacitors, or other components within the membrane.
  • Shielding: EMI/RFI shielding to protect against interference.

13. Printing Techniques

  • Screen Printing: Durable and suitable for simple designs and large areas.
  • Digital Printing: High-resolution graphics and intricate designs.

14. Force and Travel Customization

  • Variable Actuation Force: Different force levels for different keys.
  • Travel Distance: Customizable key travel for user preference.

15. Mounting Options

  • Adhesive Backing: For easy installation onto the device.
  • Mechanical Fasteners: For more secure, removable installations.

Specifications of Membrane Switches Circuit

Electrical Properties
Contact Resistance: 10-500 ohm
Operating Voltage: <35 Voltes DC
Operating Current: <100 mA
Contact Resistance: <100 ohm
Open Circuit Resistance: <10M ohm
Contact Bounce: 5 to 30m sec
Breakdown Voltage to Ground: 1000 Volts DC
Environmental Properties
Operating Temperature: -30℃ to 80℃
Storage Temperature: -40℃ to 80℃
Operating Humidity: Up to 95%

*The information & specification are for reference only

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