Interconnection I Membrane switches


Selecting and designing a membrane switch


CIE talks to M2M interface specialist APEM to find out how a designer can go about selecting a membrane interface that will save them both time and money


M


embrane switches are known for standing up to tough environmental conditions. Flexible and durable, the membrane switch can be customised with embossing, backlighting, sealing, and electrostatic discharge (ESD) shielding. These types of switches can also be made with either tactile or non-tactile feedback and they can be integrated with LEDs and other components. But to select the right switch for your application is not always straightforward.


A membrane switch is a multi-layered


Over the past decade, the membrane switch has grown in popularity as designers are seeking a more modernised look, avoiding the older, bulky switches, and looking for ways to fit switches into smaller footprints in today’s equipment. The membrane switch’s sleek, flat design with modern LED lights is appealing and can offer a less industrial look.


Which overlay material is the best for an application? The two most common materials used in making the graphic overlay for membrane switches are polycarbonate and polyester. All overlays begin as clear material, with the graphics printed on the reverse side. A variety of finishes can be placed to visually enhance the final membrane switch, including embossing, texturing or finish, varied colours, or backlighting.


Most industries now require RoHS compliancy. The RoHS (Restriction of Hazardous Substances) Directive, most well known as the lead-free requirement, also restricts the use of lead (Pb), mercury (Hg), Cadmium (Cd), Hexavalent chromium (Cr 6+), and polybrominated diphenyls (PBB and PBDE).


Figure 1: A typical membrane switch construction


momentary switch consisting of a graphic overlay, top circuit and bottom circuit. Pressing a key activates the electrical connection. These types of switches are durable and have a low profile, which allows them to be used in space-saving designs and they are also very adaptable making them suitable for a variety of different projects.


30 October 2012


Membranes switches are usually customised to fit each project and there is a virtually unlimited range of styles, colours and switch sizes. Expert advice is always worth seeking out as it can certainly help when it comes to selecting the right materials, saving money, creating the most efficient membrane switch, and advising on graphic aesthetics.


To find the right switch for your application, use your imagination, and ask yourself these questions. Overlay or membrane? - Decide if you need an overlay (just the graphic) or a membrane switch (includes circuitry). What size does the switch need to be? - Determine the dimensions of the membrane switch and the total thickness


Components in Electronics


supplies Autotex AM, a new hard-coated polyester film with Microban protection incorporated into the textured hardcoat during the manufacturing process. What is the mating connector? - You can cut cost by using a standard 2.54mm pitch female connector.


that you can have. Remember, if you don’t adhere to the space you have available in your product, the membrane could be too high or too low. To save space, the circuit can be designed in a matrix layout (mapping of the traces using leads that run in both the “X” (rows) and “Y” (columns) directions, resulting in fewer leads with a greater number of connections. Is a back plate or bezel involved? - Is there a back plate or bezel to which the membrane will be applied? If so, ask the manufacturer to quote this. It makes your sub-assembly more complete and easier to install into your finished product. Where will the switch be used? - Consider the environment in which the membrane will be used so you can design your membrane switch for maximum reliability. For example, if it will be used outdoors, you will want a graphic material with UV protection. If it will be used in an environment where electrostatic discharge (ESD) is present, consider incorporating a shield into the design. Are there any industry-specific considerations that apply to your design? - Some applications are simply harder on switches than others. A control panel for farm equipment may need to be designed to IP67 standards to prevent water ingress along with UV protected material to prevent fading. Industrial equipment used for manufacturing in a clean room may need a shield to prevent ESD from shorting out. Medical equipment may need to be protected with special antimicrobial material. For example, APEM


Are there specific ergonomic concerns with the application? - Consider embossing, which allows the user to locate keys easily. There are multiple types of embossing, including pillow, rim, logo, LED, and combination. Embossing can be beneficial for low lighting environments or for disabled users. Is lighting required? - The keypad can be backlit, with a thin film electroluminescent (EL) lamp, widely used for medical equipment and robotic controls, or light emitting diodes (LEDs), used in medical


equipment, power supplies, generators, and hand-held devices, provides visual indicators to the user of actuation. Do you need tactile feedback? - In many applications, it is important which button is activated and when. From medical hand- held devices to control panels for industrial equipment, tactile feedback from metal or polyester domes is often required. Tactile feedback confirms through touch and sound that the switch was activated. If this is important to your application, consider a stainless steel dome, which can take high temperatures and is extremely durable. Polyester domes are rated to a maximum temperature of 60°C (122°F). Switches that do not require tactile feedback tend to be less expensive and have a simpler construction. They do not require a dome or dome retainer. How do I get a graphic design that is aesthetically pleasing while not being too expensive? - You can use embossing, multiple colours, graphic design, and material finish to convey your company’s message. To save on cost, develop designs that minimise the number of colours and use standard off-the-shelf connectors. Avoid thin lines (less than 0.3mm) and serif fonts, which can be costly to print. Keep in mind that use of embossing and polycarbonate material will increase costs.


APEM | www.apem.co.uk www.cieonline.co.uk


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