If the slide switch is loose, use hotglue or E6000 to permanently secure it in place. You can use a pair of flat pliers to insert the slide switch through the cutout.ĭon't force the slide switch all the way through, just enough to protrude half way through the port. If the slide switch doesn't fit into the cutout, use a hobby knife to remove some material from the cutout to widen it. Insert the slide switch into the cutout on the enclosure casing. Solder one to the positive pin and the other to the negative labled pin on the PowerBoost 1000C. Measure and cut another set of 26AWG silicone coated wires. Solder one wire from slide switch to EN pin, and the other to GND on the Adafruit PowerBoost 1000C. Solder wires to the leads on the slide switch Measure and cut two 26AWG silicone coated stranded wires. Secure the slide switch to a set of helping third hands.Tin the two leads by adding a bit of solder. +Positive and -Negative pins on the Driver Board connect from 5V and GND labeled on the Display Driver to the Pi on GPIO pins #4 for Power and #9 for GroundĬut one of the leads from the slide switch (far left or right, not middle). Positive+ and -Negative pins on the PowerBoost1000C connect to the Pi on GPIO #2 for 5V power and GPIO # 6 for ground. You can charge the battery by connecting a microUSB cable. The 2500mAh batteries plugs into the JST connector on the PowerBoost1000C. The slide switchs connect to the EN and GND pins the Adafruit PowerBoost1000C. These can be threaded by fastening in the appropriate sized screw. The standoffs with counter bores should fit the machine screws listed in the BOM. If the cutout is too tight, you can loosen it with a filing tool. Check to see if the cutouts fit over the USB and ethernet ports. Test fit the parts by inserting the top enclosure part over the Raspberry Pi. With a parameter of 2 shells, theres only a few areas where tolerances really matters - the port cutouts and the mounting holes. The parts were tested with common printing settings (listed in the table). If you are still unsure you can use our Online Chat for assistance or call our knowledgeable sales team at (800) 662-7466. Data Memory Systems’ Memory Finder will help you make the correct choice. If you don't have access to a 3D printer, you can send your parts to to have them printed and shipped to you. From the EQQUS memory page you can now select your model, EQQUS EQQUS Memory. Here's a list of tool used to get this project completed. You will also need some hardware screws to mount the components to the enclosure. You can optionally choose to make it portable by including an Adafruit PowerBoost 1000c and a 2500mAh lithium polymer battery. Instead of stacking all of the boards on top of each other, this design allow the components to be spread out, making a slim package.īelow is a list of parts used in this project. The 3D printed enclosure gives you access to all of the ports. It features a beautiful IPS display and includes the drivers to work on a Raspberry Pi 2. In this build, we're using the official 7" multitouch display from the Raspberry Pi foundation. Our 3D printed enclosure fits all of the components making an all-in-one, compact Raspberry Pi tablet. In this project, we'll show you how to build a portable Raspberry Pi 2, using a 7" capacitive multitouch display, an Adafruit PowerBoost 1000C and a 2500mAh battery. 7” Portable Multitouch Raspberry Pi TabletĬaptured: at 00:39 from
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