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Membrane Switch with Silver Flex Circuit

PRODUCT PARAMETERS

Design Options:

  • Material: Polyester/Polycarbonate
  • Material surface: Glossy/Matt
  • Circuit Material: Silver/FPC
  • Colours: Full range of Pantone, RAL or colour match of your preference.
  • Rear Adhesives: 3M 467/3M 468/3M 300LSE
  • Selective textures: Anti-scratch/Anti-glare finishes
  • Embossed button/Flat button
  • Tactile or Non-Tactile
  • Waterproof structure
  • RFI/ESD shielding
Description
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Description

What are Membrane Switches?

Membrane switches are electrical switches that are commonly used in various electronic devices. They consist of a thin, flexible membrane made of polyester or polycarbonate material, with printed conductive circuitry on one side. The circuitry typically includes conductive paths, contact pads, and other components necessary for switch functionality.

These switches are designed to be lightweight, compact, and easy to operate. When pressure is applied to specific areas on the membrane switch, it flexes and makes contact with the conductive circuitry, completing the electrical circuit and triggering the desired action or function.

Membrane switches are often used as control panels or keypad interfaces in devices such as remote controls, medical equipment, industrial machinery, automotive dashboards, and consumer electronics. They provide a reliable and cost-effective solution for user input and control.

What are the Advantages of Membrane Switch?

Durability: Membrane switches are known for their durability. They are typically rated for millions of actuations and are resistant to environmental factors such as dust, water, and extreme temperatures, making them suitable for harsh or outdoor environments.

Compact and Lightweight: These switches are very thin and lightweight compared to mechanical switches. This makes them ideal for portable devices and applications where space and weight are critical factors.

Customisable: Membrane switches can be fully customized in terms of shape, size, color, functionality, and graphic overlay. This flexibility allows designers to tailor controls specifically to the ergonomic and aesthetic requirements of the application.

Ease of Cleaning: The smooth and flat surface of a membrane switch is easy to clean and disinfect, which is especially important in medical and food processing applications. There are no crevices or gaps where bacteria and dirt can accumulate.

Cost-Effective: Manufacturing membrane switches is generally less expensive compared to mechanical switches, especially at higher volumes. The simplicity of their design and materials also contributes to lower production costs.

Integrated LED Backlighting: Membrane switches can be designed with integrated LEDs for backlighting, which enhances visibility in low-light conditions. This is particularly useful for consumer electronics, automotive, and aerospace applications.

Low Profile: The thinness of membrane switches makes them perfect for sleek, modern designs. They do not protrude much from the device’s surface, maintaining a low profile that complements contemporary styling.

User-Friendly Interface: Membrane switches can provide a tactile response that users can feel when pressing the buttons. Although they are generally less tactile than mechanical switches, enhancements like metal domes or embossing can improve the tactile feedback.

Quick Response: They can be designed to react quickly to user inputs, which is critical in many high-performance applications such as medical devices and industrial controls.

Sealed Environment: Because they can be sealed completely, membrane switches are protected against environmental hazards such as moisture, chemicals, and the buildup of contaminants.

Membrane Switches Construction

Graphic Overlay: The top layer that users interact with, often made of polyester or polycarbonate. It displays the labels, symbols, and buttons.

Overlay Spacer Layers: These layers bond the various parts of the switch together. There are usually two adhesive layers: one below the graphic overlay and one above the circuit layer.

Lower/Upper Circuit Layer: This layer contains the printed conductive traces, typically made from silver or carbon. When the switch is pressed, it completes the circuit by connecting the traces.

Circuit Spacer: This layer separates the circuit layer from the bottom layer, preventing accidental contacts. It has cut-outs to allow the buttons to be pressed.

Rear Layer: The final layer that can either be another circuit layer or a rigid backer. It provides structural integrity to the switch.

Specifications of Membrane Switches

Mechanical Properties
Actuation Force: 50g to 500g
Actuation Force Tolerance: ±50g
Switch Travel: ± 0.2mm
Life Expectancy: 1 million
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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