Overview
The complete solution for holding and measuring your circuit board.
PCBite is the perfect tool for handling your PCB during the design process. Powerful magnets combined with a stainless steel base plate provide flexibility, mobility and user-friendliness. The holder can easily be relocated to deal with printed circuit boards of different shapes and sizes. The probe is sturdy yet flexible and can be used for immediate measurements or totally hands-free operations with your multimeter or another preferred tool.
It comes with the great PCBite holders, which are very useful to fasten a PCB for soldering, rework or analysis.The metal plate has a mirror finish which helps to see the bottom part of the board you're working on. The probes come with a very precise gold needle tip. The tip contains a spring like a pogo pin, as a result, it keeps an equal amount of pressure on the board and does not move if there are vibrations or if you carefully move the board around.
With each probe, there is also a different needle with a crown tip. This alternative tip is more like a really tiny fork to be placed on small wires and pins. Additionally, there are two pin headers attached to the probe, which makes it very easy to connect them to any kind of equipment.
INCLUDED:
- 4× PCBite holder
- 1× Large Base plate (A4)
- 4× SP10 probes with pin tipped test needles
- 4x Extra crown tipped test needles
- 1x Set of yellow insulation washers
- 5x Dupont to dupont test wires
- 2x Banana to dupont test wires
- 1x Micro fiber cloth
Get Inspired
Build a cool display with the Arduino Giga Display - showcases using LVGL to show a graph of the on board mic, imu sensor and rgb led
The EV (electric vehicle) versus ICE (internal combustion engine) debate is more complicated that it may seem, but one fact is quite simple: it is much easier to generate electricity at home than it is to refine fossil fuels. This means that it is possible power a vehicle for free after the initial investment. But doing so takes quite a lot of hardware, which is why Shawn Murphy developed this charging system controlled by an Arduino GIGA R1 WiFi. Murphy owns a Ford Lightning electric pickup truck, which is inefficient by EV standards thanks to its weight. But even at just two miles per kWh of electricity, he estimates that he can break even on the cost of his solar charging system within four to five years. After that, the electricity to power the Ford will, essentially, be free. Any excess energy can power his home or feed back into the grid. Just powering the truck alone will require a lot of electricity, so Murphy acquired 10 used 360-watt solar panels. Those feed to a battery backup array, which supplies power to the Ford charging station. To maximize efficiency, Murphy wants the solar panels to pivot on one axis to follow the sun. He estimates that will increase their output by 20-25% throughout the day, which is a significant amount of energy with a solar panel array this large. An Arduino GIGA R1 WiFi board controls the tilt of the panels via linear actuators. Murphy originally used “dumb” actuators, but is switching to “smart” models from Progressive Automations that include positional feedback through Hall effect sensors. A GIGA Display Shield gives Murphy access to an interface, which he can also access through the Arduino Cloud. In addition to controlling the linear actuators, the Arduino monitors power generation and consumption. This is still a work in progress as Murphy continues to make improvements, but he’s well on his way to “free” energy for his truck.
