Below are some of our most frequently asked questions. If you have a question that’s not on here, then please contact us.

Use the percent symbol % as a wildcard in the searchbox. For example, if you wanted to find all of the PV4 switches that have 12Vblue ring illumination, search for PV4%344. You could also search for switches that have a 100 gram operating force with the term %F100.

On the product detail page of every series you will find information about the switch. If it is washable or sealed to a certain IP rating, it will list it on the product detail page. To get to the product detail page, go to our product catalog and search by type or by feature. We have a section of sealed switches here.

If a specific product uses caps, the cap options are listed on the product detail page on a tab toward the bottom. If you would like to see a list of our full cap options, you can click here.

They can range from 5,000 to 10,000 hours.

It is a safe assumption to note that all our switches comply with RoHS standards. You can find our complete library of RoHS certifications by part number, here.

We have solder profile recommendations for hand soldering, SMT reflow and wave soldering processes. You can find our recommendations here.

Water-Wash, Process-Sealed, IP67 Switch Seal Rating
Definition of IP Codes (Ingress Protection):
IEC (International Electrotechnical Commission) 60529 Standards document specifies an international Classification system for the sealing effectiveness of enclosures of electrical equipment against the “Intrusion into the equipment of foreign bodies and moisture”.
1.  Degrees of Protection – First Digit
6      Dust-tight
2.  Degrees of Protection – Second Digit
7     Protection against effects of immersion from 15cm to 1m (6″ to 40″).
Based on the above, our standard for defining a “process-sealed” switch is “sealed to meet the minimum requirements of IP-67”.  This means that a switch rated to IP-67 is “Dust-tight” and will pass a water submersion test at 40″ (1m), for up to 30 minutes.
Due to the variables encountered in actual water-wash machine processing, IP67 does not necessarily insure that water entry into the switch cannot occur.  the water-wash pressures and air-knife drying that occurs in modern pcb machine-washing can exceed the seal requirements of the IP-67 rating. 

Ip Rating Chart

E-Switch has a variety of certifications. All our certifications can be found on the individual product detail page, with a link to the file numbers. We also have our certifications listed here.

The vast majority of caps and buttons are molded using ABS (acrylonitrile butadiene styrene). This plastic is chosen because of its excellent mold and surface finish qualities, and since the cap or button is a “first surface” which is seen by the user, quality of finish is very important. Also the ability to accept a wide range of color pigments, along with good general mechanical properties, including the molding of “snap-on features” typically required, makes ABS the preferred material for caps and buttons.

However, ABS has low softening and melting temperatures, typically around 100C and 120C respectively. Continuous service temperature of 70C is typically the maximum that ABS can withstand. What this means is that ABS is NOT suitable for automated solder processing, either wave or SMT. The typical preheat temperatures for wave solder are about 150C to 160C, and higher top-side board temperatures are seen when passing over the solder wave. This will distort or melt the caps, and therefore it is recommended to install the caps after any wave solder processing. SMT is even hotter, so ABS can never be considered for SMT.

Some ABS variants may withstand the wave solder process, but this will have to be evaluated on an individual basis by the customer using their specific equipment and processing parameters. Flame retardant additives can increase the softening and melting temps, but again these require evaluation by the customer with their specific processing equipment.

In summary, ABS is used for caps because it has excellent molding and cosmetic properties, but it is typically not suitable for automated manufacturing processing that exceeds 100C, or for end-use applications that exceed 70C.