SparkFun Edge Hookup Guide

You’ve probably heard of this latest entry to the long lineage of tech buzzwords like “IoT,” “LoRa,” and “cloud” before it, but what is the edge and why does it matter? The cloud is impressively powerful but all-the-time connections require power and connectivity that may not be available. Edge computing handles discrete tasks such as determining if someone said ‘start washer’ and responding accordingly. The audio analysis is done at the “edge” rather than on the web. This dramatically reduces costs and complexity while limiting potential data privacy leaks.

added to your cart!
Out of stock
DEV-15170 The SparkFun Edge Development Board powered by TensorFlow is perfect begin using voice recognition without relying on the ser… $14.956FavoritedFavorite19Wish ListSo now that you’ve embarked upon the journey to the Edge, let’s take a moment to get off on the right foot. In this hookup guide we will get familiar with the hardware available and how to connect to your computer, then we’ll point you in the right direction to begin writing awesome applications using machine learning!Required MaterialsTo follow along with this tutorial, you will need the following materials. You may not need everything though depending on what you have. Add it to your cart, read through the guide, and adjust the cart as necessary.Suggested ReadingIf you aren’t familiar with the following concepts, we recommend checking out these tutorials before continuing.Serial Terminal BasicsThis tutorial will show you how to communicate with your serial devices using a variety of terminal emulator applications. FavoritedFavorite26Using SparkFun Edge Board with Ambiq Apollo3 SDKWe will demonstrate how to get started with your SparkFun Edge Board by setting up the toolchain on your computer, examining an example program, and using the serial uploader tool to flash the chip. FavoritedFavorite1Suggested ViewingHardware OverviewMicrocontrollerThe Edge board uses the cutting-edge of high efficiency microcontrollers — the Ambiq Apollo3 Blue. This small BGA package packs quite a punch!

32-bit ARM Cortex-M4F processor with Direct Memory Access

48MHz CPU clock, 96MHz with TurboSPOT”

Extremely low-power usage: 6uA/MHz

1MB Flash

384KB SRAM

Dedicated Bluetooth processor with BLE 5SensorsSuch a formidable microcontroller would be wasted without a suite of cool sensors to use with it – that’s why we’ve included two microphones, a 3-axis accelerometer, and a camera connector.MicrophonesTwo onboard Micro Electro-Mechanical microphones come hooked up to an operational amplifier with 75x gain to make the best use of the Apollo3’s built-in 14-bit analog to digital converter. Better yet the Apollo3 can use Direct Memory Access to take audio recordings without using processor cycles – that means you can process audio while you record the next sample!AccelerometerDynamic interaction with the Edge is included right out of the gate with the onboard ST Microelectronics LIS2DH12 3-axis accelerometer. The accelerometer is on its very own dedicated I2C bus so there’s no need to worry about address conflicts.Camera ConnectorAt the top of the board we’ve included a camera connector. We’ve included this for use in ongoing development – preliminary stages are looking good and we hope to have this fully functional in very short order.ConnectionsIf you need anything else to complete your application there are plenty of ways to connect to the Edge board. Among these are the FTDI UART header, a Qwiic connector, a built-in Bluetooth radio, four GPIO pins, four LEDs, and last (but not least) a CR2032 coin cell holder.Serial UART ConnectionYou’ll use this connector to program the Edge board, but after that you can also use it to talk to other systems that use a UART interface such as GPS or Serial LCD.Qwiic ConnectorWhat’s a modern answer to the age-old question ‘SPI vs I2C?’ Ambiq’s answer is ‘why not both!’ so they’ve provided 6 ‘IOMaster’ peripherals that can each be configured as either SPI or I2C. We’ve taken advantage of that fact on the Edge by exposing a fresh I2C port through a Qwiic connector, allowing you to add a chain of I2C sensors without soldering.Bluetooth RadioThe Apollo3 comes with hardware support for a Bluetooth Low-Energy (BLE) radio, and the Edge board pairs that up with a surface mount antenna. The BLE controller and host can be configured to support up to eight simultaneous connections — security and extended packet length are also supported.Inputs/OutputsIf all that wasn’t enough there were still more pins available on the Apollo3, so we broke them out to four LEDs and four GPIO connections along the bottom edge. These are good for addition additional simple input or output capabilities to a project.CR2032 Coin Cell HolderTo demonstrate just how efficient this microcontroller is we included a coin cell battery holder on the bottom. That means that once your application is all ready you can take it to school on a key-chain and show it off to your best friend!Hardware HookupIt’s very easy to get started using the Edge board – all you need to do is provide power! Right off the bat you can try out the AI voice recognition by seeing the yellow LED light up for ‘Yes’ and the red LED light up for ‘No.’Power + ProgrammingNote: Due to the assembly of the SparkFun Edge, we used no-clean flux to reflow the components to the board. What does that mean? Well, it means that the boards are not washed to reduce the possibility of damaging certain components. The flux residue is inactive so it is safe for the board. However, you will need to clean the mound of solder on the pad located under the battery connector in order to make an electrical connection. To remove, you will need a dedicated flux removing solvent and a Q-tip. An alternative to using flux remover is 91% isopropyl alcohol (IPA). With the Q-tip soaked in the solvent, carefully scrub the pad back and forth and clean with the dry tip. Avoid scrubbing at an angle to prevent mechanical stress on the battery connector. To test, grab a multimeter to test the continuity of the mound of solder for the battery’s pad and the GND pin. To power the board either place a charged CR2031 3V battery into the coin cell holder or plug in your USB-serial converter.If you want to upload new code or see what the Edge board has to say to you then you’ll need to be able to read the UART pins which are broken out just above the coin cell holder. The pinout is compatible with SparkFun serial breakouts like the Serial Basic Breakout or the new Serial Basic Breakout with USB C. The ability to toggle the DTR line from USB is required for bootloading.⚡ Warning!
The Edge board has no onboard regulator to provide 3.3V and will be damaged if exposed to 5V. Make sure that your USB-serial bridge is set to output 3.3V power and logic. Check out the voltage selection jumper in the Serial Basic Hookup Guide.
With your chosen method of connection at hand begin making the connections with care. If you have USB-serial bridge with the compatible pinout (order DTR, RXI, TXO, VCC, CTS, GND from the perspective of the bridge) you can simply make sure that the GRN and BLK labels match up between the bridge and the Edge board. If you are using some other way to view/send UART data then make sure to connect the TX of the bridge to the RX of the Edge and vice-versa. Also make sure to connect GND (closest to the BLK label on the Edge) and DTR (closest to the GRN label) pins. From the bridge’s perspective RXI is next to DTR and TXO is next to RXI.ExtensionsWith the Edge board you can also add additional I2C sensors with the Qwiic connector and have access to four GPIO pins.Connecting Qwiic sensors is as simple as chaining them together with Qwiic Cables and then linking that chain to the Edge board. Note, if you have many sensors (5 or more is a good rule of thumb) then you’ll need to disconnect the I2C pullup resistors from a few of the boards.The four available GPIO pins are pads 1, 3, 36, and 38 of the Apollo3. In addition to GPIO functionality some have additional special functions:Apollo3 PadSpecial Functions 1
UART0 TX 3
ADC Trigger1 36
ADC Trigger1, UART1 RX, UART1 CTS, UART0 CTS, PDM Microphone DATA, 32 kHz Clock Output 38
ADC Trigger3, UART0 CTS, UART1 RX⚡ Warning!
The GPIO of the Apollo3 are not 5V tolerant. To interface with a 5V sensor or controller use a bi-directional logic level converter.
Software SetupThe Edge board takes advantage of the cutting-edge Apollo3 Blue microcontroller from Ambiq for incredibly high efficiency which allows AI applications to run on a coin cell power source. The cost of using the latest and greatest technology is that there is no Arduino support for the chip. In order to start developing your own applications you’ll need to follow along with our extensive Ambiq Apollo3 Software Development Kit Setup Guide.Using SparkFun Edge Board with Ambiq Apollo3 SDKWe will demonstrate how to get started with your SparkFun Edge Board by setting up the toolchain on your computer, examining an example program, and using the serial uploader tool to flash the chip. FavoritedFavorite1SDK ExamplesOnce your SDK is set up you should be able to compile and upload the examples. Here’s a short description of each one. For more details make sure to follow along with the SDK setup guide.example1_edge_test demonstrates the hardware on the board including:UART printing for info/debugging

ADC operation to sample from a microphone

I2C operation to control the accelerometer

GPIO functionsexample2_dual_mic_dma shows how to use DMA to capture 16 kHz audio recordings from both microphones without blocking the processor. This is the basis of how audio is provided to the TensorFlow Lite demo.tensorflow_demo uses a pre-trained model to identify “yes” and “no” and blink a corresponding LED on the board. Using GPIO you could easily expand this example to control a device.SparkFun_Edge_Project_Template is an easy-to-use bare-bones makefile project that you can copy to any directory that you like. With only a little configuration you’ll be writing your very own application!Resources and Going FurtherNow that you are familiar with the hardware and setup, you should be able to start integrating the Edge Board into your projects. If you want more information on the Ambiq Apollo3 or the SparkFun Edge Board, check out some of the links below:Below are some related links for information on setting up your development environment and working with TensorFlow:Need some inspiration for your next project? Check out some of these IoT tutorials!ESP8266 WiFi Shield Hookup GuideInterface your Arduino with an ESP8266 to give it inexpensive access to your WiFi network and the Internet! FavoritedFavorite8Sunrise Machine with the Tessel 2Are you to sleepy to enjoy a sunrise on a brisk morning? Yeah…us too! No worries, with a Webcam, a Tessel 2 and a bit of code you can sleep in and catch the sunrise at your leisure with the Sunrise Machine

Aly Chiman

Aly Chiman is a Blogger & Reporter at AlyChiTech.com which covers a wide variety of topics from local news from digital world fashion and beauty . AlyChiTech covers the top notch content from the around the world covering a wide variety of topics. Aly is currently studying BS Mass Communication at University.