Adafruit FeatherWing Proto - Prototyping Add-on For All Feather Boards
Key Features: A prototyping add-on for all Feather boards Connect a FeatherWing on top or bottom with Feather Stacking Headers Duplicate breakout for each pin on a Feather, as well as a bunch of plain grid proto holes Plenty of room for buttons, indicator LEDs, or anything for your portable project A Feather board without ambition is a Feather board without FeatherWings! This is the FeatherWing Proto - a prototyping add-on for all Feather boards. Using our Feather Stacking Headers or Feather Female Headers you can connect a FeatherWing on top or bottom of your Feather board and let the board take flight! This has a duplicate breakout for each pin on a Feather, as well as a bunch of plain grid proto holes. For GND and 3.3V, we give you a strip of connected pads. There & #39; s plenty of room for buttons, indicator LEDs, or anything for your portable project. The FeatherWing Proto makes an ideal partner for any of our Feather boards. Item Specifics Size: 50.9 mm x 22.9 mm x 1.6 mm / 2" x 0.9" x 0.06" Weight: 3.2 g
Adafruit Perma-Proto Full Breadboard PCB - 3 pack
Key Features: 3 pack of PCB proto-boards 60 rows of double 5 hole rows Big 1.2 mm through plated drill holes Gold plated finish This proto-board is the PCB you always wish you had, but never realized it! Adafruit took the basic layout of a full-sized breadboard (the PCB has 60 rows instead of 63 rows) and turned that into a beautiful PCB. The top side has a white silkscreen, and the same markings you & apos; re familiar with, to make transferring components easy. The bottom has the 5-hole pad design that matches a classic breadboard, with 4 power bus lines on the sides, and no mask so you can easily cut traces when necessary. The 1.2 mm diameter drill holes allow for parts with big leads to fit. All holes are thru-plated for strength - these wont peel off with rework. The finish is a gold plate - you won & apos; t get oxidation like with bare copper perf! There are also three mounting holes so you can attach the PCB to your project box. Item Specifics Size: 6.2" x 2.0" x 0.1" 60 rows of double 5-hole rows 4 power rails with positive/negative markings Drill holes: 1.2 mm drill holes Mounting holes: 3 x 0.125" ( 3.2 mm) - 2.95" apart
adafruit microsd card breakout board+ ada254
Not just a simple breakout board, this microSD adapter goes the extra mile - designed for ease of use.Onboard 5v->3v regulator provides 150mA for power-hungry cards3v level shifting means you can use this with ease on either 3v or 5v systemsUses a proper level shifting chip, not resistors: less problems, and faster read/write accessUse 3 or 4 digital pins to read and write 2Gb+ of storage!Activity LED lights up when the SD card is being read or writtenFour #2 mounting holesPush-push socket with card slightly over the edge of the PCB so its easy to insert and removeComes with 0.1" header (unattached) so you can get it on a breadboard or use wires - your choiceTested and assembled here at the Adafruit factoryWorks great with Arduino, with tons of example code and wiring diagramsTo use with an Arduino, connect GND to ground, 5V to 5V, CLK to pin 13, DO to pin 12, DI to pin 11, and CS to pin 10. Then you can use the Arduino IDE's SD library which supports FAT and FAT32 SD cards. For details on getting started, check out our detailed tutorial discusses microSD cards, wiring and how to use this breakout board with an Arduino UPC NO:701980281679 SKU:ADIB00NAY2NAI
Adafruit Assembled Data Logging Shield (Arduino Compatible)
Key Features: On board Real time clock (RTC) keeps the time going even when the Arduino is unplugged. The battery will last for years. Adafruit libraries and example code for both SD and RTC mean you can get going quickly Prototyping area for soldering connectors, circuitry or sensors Works with Arduino UNO, Duemilanove, Diecimila, Leonardo or ADK/Mega R3 or higher. & nbsp; Here & #39; s a handy Arduino shield: a lot of people are looking for a dedicated and well-designed data logging shield. Adafruit worked hard to engineer an inexpensive but well-rounded design. Not only is it easy to assemble and customize, it also comes with great documentation and libraries. The latest version of this popular shield has all the features of the popular original, and is "R3" compatible so you can use it with just about any Arduino or compatible. You can be up and running with it in less than 15 minutes - saving data to files on any FAT16 or FAT32 formatted SD card, to be read by any plotting, spreadsheet or analysis program. We even have a tutorial on how to use two free software programs to plot your data. The included RTC (Real Time Clock) can be used to timestamp all your data with the current time, so that you know precisely what happened when! Note: The RTC requires a small coin cell battery (not included). The board will still operate without the coin cell battery. Once installed, the battery will last for years. Item Specifics Dimensions (assembled): 70mm x 53mm x 17mm ( 2.7 in x 2in x 0.65 in) SD Card Format: FAT16 or FAT32 SD Card protrudes by 10mm ( 0.4 in) when inserted Weight: 22g/ 0.8 oz The RTC uses I2C 7-bit address 0x68. ADK/Mega R2 or lower are not supported. Does not come with an Arduino, SD Card or cell battery. Requires soldering of header pins
Adafruit DC Motor and Stepper FeatherWing Add-on For All Feather Boards
Key Features: Completely stackable design: 5 address-select jumper pads means up to 32 stackable wings: that & #39; s 64 steppers or 128 DC motors! Polarity protected 2-pin terminal block and jumper to connect external power, for separate logic/motor supplies 4 full H-Bridges: the TB6612 chipset provides 1.2A per bridge with thermal shutdown protection, internal kickback protection diodes. Up to 4 bi-directional DC motors with individual 12-bit speed selection & up to 2 stepper motors (unipolar or bipolar) with single coil, double coil, interleaved or micro-stepping. Motors automatically disabled on power-up A Feather board without ambition is a Feather board without FeatherWings! This is the DC Motor + Stepper FeatherWing which will let you use 2 x bi-polar stepper motors or 4 x brushed DC motors (or 1 stepper and 2 DC motors). The original Adafruit Motorshield Kit is one of our most beloved kits, which is why we decided to squish it all together on a FeatherWing to make something even smaller, lighter, and more portable! Instead of using a latch and the Arduino & #39; s PWM pins, we have a fully-dedicated PWM driver chip onboard. This chip handles all the motor and speed controls over I2C. Since the FeatherWing only uses the I2C (SDA & SCL pins), it works with any and all Feathers. You can use any DC or stepper motors that run from 4.5 - 13.5VDC and draw under 1.2A per coil. You & #39; ll likely also need to provide some external power supply for your motors, since its not suggested you run motors from the Feather & #39; s lipoly battery. Item Specifics 1 - Assembled & tested FeatherWing 5- Big 3.5 mm terminal block connectors 1- plain header Some soldering is required. Stacking headers, Feather and motors are not included Size: 50.8 mm x 22.9 mm x 1.6 mm / 2" x 0.9" x 0.06" Weight: 4.6 g Unlike the original full sized shield, there & #39; s no servo connections
Adafruit Standard servo - TowerPro SG-5010
Key Features: Rotates approx. 180 degrees (90 in each direction) Use any servo code, hardware or library to control this servo Good for beginners who want to make stuff move This high-torque standard servo can rotate approximately 180 degrees (90 in each direction). You can use any servo code, hardware or library to control these servos. Good for beginners who want to make stuff move without building a motor controller with feedback & gear box. Comes with 3 horns, as shown. To control with an Arduino, we suggest connecting the orange control wire to pin 9 or 10 and using the Servo library included with the Arduino IDE. Position "0" ( 1.5 ms pulse) is middle, "90" (~2ms pulse) is all the way to the right, "-90" (~1ms pulse) is all the way to the left. Note that the default servo pulse widths (usually 1ms to 2ms) may not give you a full 180 degrees of motion. In that case, check if you can set your servo controller to custom pulse lengths and try 0.75 ms to 2.25 ms. You can try shorter/longer pulses but be aware that if you go too far you could break your servo! Item Specifics Power: 4.8V - 6V DC max (5V works well) Average Speed: 0.2 sec/60degree (@ 4.8V ), 0.16 sec/60degree (@ 6V) Weight: 39g ( 1.37 oz) Torque: At 5V, 5.5 kg-cm / 76oz-in, and at 6V 6.5 kg-cm / 90oz-in. Size mm: (L x W x H) 40 x 20.0 x 38 mm ( 1.60" x. 79" x 1.50" ) Spline Count: 25 Not suggested for hobby planes
Adafruit STEMMA Soil Sensor - I2C Capacitive Moisture Sensor
Key Features: Updated in early 2020 to give a better range of values from soil moisture sensing I2C interface Determine your soil moisture via innovative capacitive measurement instead of resistive! No longer worry about your sensor oxidizing requiring repetitive re-calibration Most low cost soil sensors are resistive style, where there's two prongs and the sensor measures the conductivity between the two. These work OK at first, but eventually start to oxidize because of the exposed metal. Even if they're gold plated! The resistivity measurement goes up and up, so you constantly have to re-calibrate your code. Also, resistive measurements don't always work in loose soil. This design is superior with a capacitive measurement. Capacitive measurements use only one probe, don't have any exposed metal, and don't introduce any DC currents into your plants. Adafruit uses the built in capacitive touch measurement system built into the ATSAMD10 chip, which will give you a reading ranging from about 200 (very dry) to 2000 (very wet). As a bonus, you see the ambient temperature from the internal temperature sensor on the microcontroller, it's not high precision, maybe good to + or - 2 degrees Celsius. To make it so you can use the sensor with just about any microcontroller, Adafruit added an I2C interface. Connect a 4-pin JST-PH cable (not included) to your microcontroller or single board computer to 3-5V power, Ground, I2C SDA and I2C SCL and load the code. No soldering required. Item Specifics Size: 3.0 x 0.6 x 0.3 Weight: 4.0 g
Adafruit Circuit Playground Express Enclosure
Key Features: Turn your board into an electronic snowflake Protect your Circuit Playground board from every day usage It & #39; s crystal clear, you can see all the NeoPixels shining in glorious color Only compatible with the Circuit Playground Express and the Circuit Playground Bluefruit We & #39; ve got nice cases for many of our beloved boards, but the Circuit Playground Express and Circuit Playground Bluefruit has been left out of couture enclosure game. Enter Ada-friend Mike Doell to the rescue! This minimal but elegant acrylic case will turn your board into an electronic snowflake. The enclosure is designed to snap together securely with no tools required. You can still press all the buttons and slide the switch thanks to a clever plastic widget fitted inside. The case winds around all the touch pads so you can still touch them or attach alligator clips. On the back, we have two slots that can be used to pass through ribbon or webbing up to 1"/ 2.5 mm wide There is also a slim 1/4"-20 nut that is embedded in the center back. This is compatible with any camera mounting accessory, so if you need a solid attachment, you can use any camera positioning tool or tripod. Since it & #39; s crystal clear, you can see all the NeoPixels shining in glorious color. The light sensor also works just fine and the case will not block IR messages going in or out. Even though there are no microphone or speaker holes, audio passes through the case via various small openings - we tested it and the difference is barely noticeable. Item Specifics 2 molded plastic halves with the buttons in place Size (assembled): 55.5 x 52.6 x 16.3 mm Weight: 15.5 g Does not fit the older Classic Not waterproof or weatherproof No boards, cables, or accessories are included.
Adafruit HTU21D-F Temperature & Humidity Sensor Breakout Board
Key Features: Accurate and intelligent alternative to the much simpler Humidity and Temperature Sensor - SHT15 Breakout I2C digital humidity sensor Breakout board that includes the Filtered version (to keep the sensor clean), a 3.3V regulator and I2C level shifting circuitry Fully assembled and tested - some basic soldering required It & apos; s summer and you & apos; re sweating and your hair & apos; s all frizzy and all you really want to know is why the weatherman said this morning that today & apos; s relative humidity would max out at a perfectly reasonable 52% when it feels more like 77%. Enter the HTU21D-F Temperature + Humidity Sensor - the best way to prove the weatherman wrong! This I2C digital humidity sensor is an accurate and intelligent alternative to the much simpler Humidity and Temperature Sensor - SHT15 Breakout. It has a typical accuracy of & plusmn; 2% with an operating range that & apos; s optimized from 5% to 95% RH. Operation outside this range is still possible - just the accuracy might drop a bit. The temperature output has an accuracy of & plusmn; 1degC from -30~90degC. Such a lovely chip - so Adafruit came up with a breakout board that includes the Filtered version (the white bit of plastic which is a PTFE filter to keep the sensor clean), a 3.3V regulator and I2C level shifting circuitry. This lets you use it safely with any kind of microcontroller with 3.3V -5V power or logic. Each order comes with one fully assembled and tested PCB breakout and a small piece of header. You & apos; ll need to solder the header onto the PCB but it & apos; s fairly easy and takes only a few minutes even for a beginner. Item Specifics Size: 18mm x 16mm x 2mm / 0.7" x 0.6" x 0.08" Weight: 1g I2C 7-bit address: 0x40
Adafruit Standalone Momentary Capacitive Touch Sensor Breakout
Key Features: Single "momentary" capacitive touch sensor Red LED indicator when touched Save power by disconnecting the LED from the output pin Designed with the more-responsive "fast mode" This breakout board is the simplest way to create a project with a single "momentary" capacitive touch sensor. Just power with 1.8 to 5.5VDC and touch the pad to activate the sensor. When a capacitive load is detected (e. g. a person touches the sensor-pad area) the red LED lights up and the output pin goes high. You can also solder a wire to the middle pad and create your own capacitive pad if the built-in one isn & #39; t suited to your project. If you want to save power, the LED can be disconnected from the output pin (cut the trace between the jumper marked as such). Designed with the more-responsive "fast mode", it draws about 0.5 mA. If you need ultra-low (~50uA) power usage, the mode jumper can be cut on one side & soldered closed on the other to fix it into that mode. Check Adafruit & #39; s datasheet for specific power usage measurements. Item Specifics Size: 20mm / 0.8" x 28mm / 1.1" Weight: 1.87 g
Adafruit FLORA - Wearable electronic platform: Arduino-compatible
Key Features: FLORA is fabric friendly and beginner-friendly 4 indicator LEDs and an RGB NeoPixel for even more colorful lighting Easily drive 50 pixels directly from the onboard power supply or up to 500 pixels with a 5V supply Can power common 3.3 v modules and sensors. FLORA is Adafruit & #39; s fully-featured wearable electronics platform. It & #39; s a small, round, sewable, Arduino-compatible microcontroller designed to empower amazing wearables projects. The FLORA family also has the best stainless steel threads, sensors, GPS modules and chainable LED NeoPixels, perfect accessories for the FLORA main board. The FLORA has built-in USB support. Built in USB means you plug it in to program it, it just shows up - all you need is a Micro-B USB cable, no additional purchases are needed! We have a modified version of the Arduino IDE so Mac & Windows users can get started fast - or with the new 1.6. 4+ Arduino IDE, it takes only a few seconds to add Flora-support. The FLORA has USB HID support, so it can act like a mouse or keyboard to attach directly to computers. FLORA has a small but easy to use onboard reset button and a onboard power switch for safe and efficient battery on/off control. The power supply is designed to be flexible and easy to use. There is an onboard polarized 2 JST battery connector with protection schottky diode for use with external battery packs from 3.5 v to 16v DC in. Can be used with LiIon/LiPoly, LiFe, alkaline or rechargeable NiMh/NiCad batteries of any size. The FLORA does not have a LiPo charger included by design, this allows safe use with multiple battery types and reduces risk of fire as it is not recommended to charge these batteries on fabric. Item Specifics Size: 45mm round x 7mm thick( 1.8" round x 0.3" thick) Onboard Regulator: 3.3 v 250mA Weight: 4.7 g Comes with Adafruit & #39; s support, tutorials and projects.
Adafruit 3x4 Right Angle Male Header (4 Pack)
Key Features Pack of 4 Each piece is 3 rows by 4 rows of pins Right angle Plug into any standard 0.1" spacing perf-board Three rows in a right angle header!? Yes! These chunks of 0.1" header has yet-another-row - handy for when you want to connect cables that come in sets of three, like perhaps sensors, or servos. These plug into any standard 0.1" spacing perf-boards or other PCBs and work nicely with female-ended wire sets. Comes in a set of four pieces, each piece is 3 rows by 4 rows. You can stack these next to each other in any direction. We think these are a great addition to Adafruit's 16-channel PWM/Servo driver breakout, so we have a photo showing them installed above.
Adafruit Feather M0 Express - Designed for CircuitPython
Key Features: ATSAMD21G18 @ 48MHz with 3.3V logic/power 256KB of FLASH + 32KB of RAM Easy reprogramming Built in USB so it has USB-to-Serial program & debug capability built in with no need for an FTDI-like chip This is the first Feather that is specifically designed for use with CircuitPython! CircuitPython is our beginner-oriented flavor of MicroPython - and as the name hints at, its a small but full-featured version of the popular Python programming language specifically for use with circuitry and electronics. That doesn & #39; t mean you cant also use it with Arduino IDE! This chip comes with built in USB so it has USB-to-Serial program & debug capability built in with no need for an FTDI-like chip. The Feather M0 Express uses the extra space left over to add a Mini NeoPixel, 2 MB SPI Flash storage and a little prototyping space. You can use the SPI Flash storage like a very tiny hard drive. When used in CircuitPython, the 2 MB flash acts as storage for all your scripts, libraries and files. When used in Arduino, you can read/write files to it, like a little datalogger or SD card, and then with our helper program, access the files over USB. Item Specifics Fully assembled and tested 1 - small header No EEPROM 32.768 KHz crystal for clock generation & RTC 3.3V regulator with 500mA peak current output USB bootloader and serial port debugging 20 GPIO pins Hardware Serial, hardware I2C, hardware SPI support PWM outputs on all pins 6 x 12-bit analog inputs 1 x 10-bit analog ouput (DAC) Built in 100mA lipoly charger with charging status indicator LED Pin #13 red LED for general purpose blinking Power/enable pin 4 mounting holes Reset button Size: 51.0 mm x 22.8 mm x 7.3 mm / 2.0" x 0.9" x 0.3" Weight: 4.7 g / 0.2 oz Lipoly battery and USB cable not included CircuitPython does not come preloaded
Adafruit JST-PH Battery Extension Cable - 500mm
Key Features: JST Extension Cable 500 mm long Handy for wearable projects where you may want the battery pack Useful where you need a little more space By popular demand, we now have a handy extension cord for all of our JST-terminated battery packs (such as our LiIon/LiPoly and 3xAAA holders). One end has a JST-PH socket, and the other end has a matching plug. Between the two, 500mm of color coded wire. Handy for wearable projects where you may want the battery pack far from your Flora but useful in many other situations where you need a little more space. Item Specifics 1 - Female JST-PH Socket end 1 - Male JST-PH end Length: 500mm / 19.69"
Adafruit 1070 Short Flex Sensor
This sensor can detect flexing or bending in one direction. They were popularized by being used in the Nintendo PowerGlove as a gaming interface. These sensors are easy to use, they are basically resistors that change value based on how much their flexed. If they're unflexed, the resistance is about ~25KO. When flexed all the way the resistance rises to ~100KO. They're pretty similar to FSRs so following this tutorial will get you started. You can use an analog input on a micro-controller (with a pullup resistor) or a digital input with the use of a 0.1 uF capacitor for RC timing. The bottom part of the sensor (where the pins are crimped on) is very delicate so make sure to have strain relief - such as clamping or gluing that part so as not to rip out the contacts!
Adafruit 3" Diameter Speaker - 8 Ohm 1 Watt
Key Features: 3" Diameter speaker 1W, 8 Ohm Works great with our Wave shield or class D amplifier board. Handy mounting tabs Listen up! This 3" diameter speaker cone is the perfect addition to any audio project where you need an 8 ohm impedance and 1W or less of power. We particularly like this cone as it has 4 handy mounting tabs 60mm apart. Item Specifics Weight: 50.48 g Size: 3.06" x 3.06" x 1"
Adafruit Feather nRF52 Bluefruit LE - nRF52832
Key Features: Works out of the box with just about all Adafruit FeatherWings! (Wings that require the UART won & #39; t work) Built in over-the-air bootloading capability. Single MCU means better performance, lower overall power consumption, and lower production costs Built in USB Serial converter for fast and efficient programming and debugging The Adafruit Feather nRF52 Bluefruit is another easy-to-use all-in-one Bluetooth Low Energy board, with a native-Bluetooth chip (RF52832) and built in USB and battery charging. The RF52832 has twice the flash, SRAM and performance of the earlier nRF51-based Bluefruit modules. Best of all, it has Arduino IDE support so there is no & #39; helper & #39; chip like the ATmega32u4. It & #39; s got tons of awesome peripherals: plenty of GPIO, analog inputs, PWM, timers, etc. Leaving out the extra microcontroller means the price, complexity and power-usage are all lower/better. Allowing you to run code directly on the chip, straight from the Arduino IDE as you would with any other MCU or Arduino compatible device. Bluetooth Low Energy is the hottest new low-power, 2.4GH z spectrum wireless protocol. It & #39; s the only wireless protocol that you can use with iOS without needing special certification - supported by all modern smart phones. Excellent for use in portable projects that will make use of an iOS or Android phone or tablet. It also is supported in Mac OS X and Windows 8+. Item Specifics ARM Cortex M4F (with HW floating point acceleration) running at 64MHz 512KB flash and 64KB SRAM BLE compatible 2.4GH z radio Up to +4dBm output power 1.7 v to 3.3 v with internal linear and DC/DC voltage regulators 19 GPIO, 8 x 12-bit ADC pins, up to 12 PWM outputs Power/enable pin 4 mounting holes Reset button Optional SWD connector for debugging Size: 2" x 0.9" x 0.28" Weight: 5.2 g Lipoly battery and MicroUSB cable not included
adafruit inductive charging set 5v @ 500ma max ada1407
The squarish board with two chips on it is the transmitter (power with 9V). The longer board is the output andyou can connect that to the part ofyour project that needs powering. Inductive charging is a way of powering a device without a direct wire connection. Most people have seen inductive charging in a rechargable electric toothbrush: you may have noticed that you recharge it by placing it into the holder, but there's no direct plug. These chargers work by taking a power transformer and splitting it in half, an AC waveform is generated into one, and couples into the second coil. This is a basic charger set, and it does work, providing 5V DC output from the output half when the input half is powered with 9V to 12VDC. You can draw as much as ~500mA if the coils are 2 or 3 mm apart. If you only need 100 or 200mA you can be up 7mm apart. For 10mA draw, the coils can be up to half an inch ( 12.5 mm) apart. Any non-ferrous/non-conductive material (eg air, wood, leather, plastic, paper, glass) can be used between the two coils. The material doesn't affect the distance or efficiency. The coils do need to be fairly co-axial, try to get them to be parallel and have the circles line up for best power-transfer. (This is why the electric toothbrush must fit into the plastic holder, it's lining up the two coils for best efficiency) Because its an air-core transformer, it's fairly inefficient. Only about 40% of the energy in shows up on the other end, but for low power or charging project. If you draw 5V 100mA on the output side ( 0.5W ), you'll need 0.5W * 2.5 / 9V = ~150mA from the input end. The quiescent current is about 70mA at all time, even when the other coil is not anywhere near by. These are basic modules, probably used for some low cost toy. We don't have any datasheets or specifications for them. We do see a feedback resistor divider on the output side using 06 UPC NO: 711978441954 SKU: ADIB00SLYAIG8
Adafruit Short Flex Sensor
Key Features: Easy to use Detect flexing or bending, single direction This sensor can detect flexing or bending in one direction. They were popularized by being used in the Nintendo PowerGlove as a gaming interface. These sensors are easy to use, they are basically resistors that change value based on how much their flexed. If they & #39; re unflexed, the resistance is about ~25K & Omega;. When flexed all the way the resistance rises to ~100K & Omega;. They & #39; re pretty similar to FSRs. You can use an analog input on a micro-controller (with a pullup resistor) or a digital input with the use of a 0.1 uF capacitor for RC timing. The bottom part of the sensor (where the pins are crimped on) is very delicate so make sure to have strain relief - such as clamping or gluing that part so as not to rip out the contacts! Item Specifics Resistance: ~25K & Omega; to ~100K & Omega; Length: 77.57 mm/ 3.054 in Width: 6.41 mm/ 0.2525 in Thickness: 0.48 mm/ 0.019 in Weight: 0.27 g/ 0.0095 oz
Fast Vibration Sensor Switch (Easy to trigger) Adafruit 1766
The "poor man's" accelerometer/motion sensor! These spring-vibration switches are high sensitivity non-directional vibration induced trigger switches. Inside is a very soft spring coiled around a long metal pin. When the switch is moved, the spring touches the center pole to make contact. So, when there's motion, the two pins will act like a closed switch. When everything is still, the switch is open. Great for basic projects and wearables!
Adafruit Mini Thermal Receipt Printer [ADA597]
Add a mini printer to any microcontroller project with this very cute thermal printer. Thermal printers are also known as receipt printers, theyand#39;re what you get when you go to the ATM or grocery store. Now you can embed a little printer of your own into an enclosure. This printer is ideal for interfacing with a microcontroller, you simply need a 3.3V-5V TTL serial output from your microcontroller to print text, barcodes, bitmap graphics, even a QR code! This package comes with a thermal printer including the print head (it does not require ink, a set of power and data cables, and two plastic shims for panel mounting. Thermal paper not included! The printer uses very common 2.25andquot; wide thermal paper , available in any office or stationery supply store. It can fit up to 50 ft of paper in the bay at once. You will also need a 5 to 9VDC regulated power supply, that can provide 1.5A or more during the high-current print - our 5V 2A power supply will work very nicely . We also suggest picking up a roll or two of 50and#39; long thermal paper , and also a 2.1mm jack terminal block adapter which will make it easy to connect the power adapter. We also have a starter pack that includes all the above We really like this printer because its easy to make Bold, underline , inverted text , variable line spacing, left/center/right justification, barcodes in 11 standard formats with adjustable height, and even custom bitmap graphics. Of course, we wouldnand#39;t leave you with a datasheet and a andquot;good luck!andquot; - We have a full tutorial and matching Arduino library that demonstrates the following: Printing with small, medium and large text Bold and underline text Inverted text Variable line spacingLeft, center and right justificationBarcodes in the following standard formats: UPC A, UPC E, E
Adafruit DRV8833 DC/Stepper Motor Driver Breakout Board
Key Features: Alternative to the TB6612 driver; better for low voltage uses Drive two DC motors bi-directionally, or one stepper motor ( 1.2 Amp or less of current) Comes with built in kick-back diodes internally so you dont have to worry about the inductive kick damaging your project Built in current limiting up to 1.2 amp (or 2 amp for a short time) Spin two DC motors or step one bi-polar or uni-polar stepper with up to 1.2A per channel using the DRV8833. This motor driver chip is a nice alternative to the TB6612 driver; you get 2 full H-bridges(four half H-bridges) but this chip is better for low voltage uses (can run from 2.7V up to 10.8V motor power) and has built in current limiting capability. It & #39; s setup for 1A current limiting so you don & #39; t get more than 2A per chip, but you can also disable the current limiting, or change it to a different limit! DRV8833 is soldered onto a breakout board for you, with a polarity protection FET on the motor voltage input. What we like most about this particular driver is that it comes with built in kick-back diodes internally so you dont have to worry about the inductive kick damaging your project or driver! You also don & #39; t have to worry as much about burning out the chip with overdriving since there is current limiting. There & #39; s two digital inputs per H-bridge (one for each half of the bridge), you can PWM one of the inputs to control motor speed. Runs at 2.7V - 10.8V logic/motor power. The motor voltage is the same as the logic voltage, but logic voltage from 2.7V or greater will work so no need to worry if you are powering the motors from 9V and using 3.3V logic. Item Specifics Assembled and tested 1 - small header 1- terminal block (blue or black) Size: 26mm x 18mm x 3mm / 1.0" x 0.7" x 0.1" Weight: 1.5 g
Adafruit DS3231 Precision RTC Breakout
Key Features: Integrated Crystal and temperature sensor keeps the timekeeping on schedule when the temperature changes Coin cell backup battery gives you years of precision timekeeping, even when main power is lost Great for datalogging and clocks, or anything where you need to really know the time The datasheet for the DS3231 explains that this part is an "Extremely Accurate I & sup2; C-Integrated RTC/TCXO/Crystal". And, hey, it does exactly what it says on the tin! This Real Time Clock (RTC) is the most precise you can get in a small, low power package. Most RTCs use an external 32kHz timing crystal that is used to keep time with low current draw. And that & #39; s all well and good, but those crystals have slight drift, particularly when the temperature changes (the temperature changes the oscillation frequency very very very slightly but it does add up! ) This RTC is in a beefy package because the crystal is inside the chip! And right next to the integrated crystal is a temperature sensor. That sensor compensates for the frequency changes by adding or removing clock ticks so that the timekeeping stays on schedule. This is the finest RTC you can get, and now we have it in a compact, breadboard-friendly breakout. With a coin cell (required for battery-backup capabilities) plugged into the back, you can get years of precision timekeeping, even when main power is lost. Great for datalogging and clocks, or anything where you need to really know the time. Item Specifics Fully assembled and tested breakout 1 - small header Size: 23mm x 17.6 mm x 7.2 mm / 0.9" x 0.7" x 0.28" Weight: 2.1 g Some soldering required. CR1220 coin battery not included
Adafruit Thermocouple Amplifier MAX31855 breakout board (MAX6675 upgrade)
Key Features: Works with any and only K type thermocouples Internal temperature reading 3.3 to 5v power supply and logic level compliant! SPI data output requires any 3 digital I/O pins. Thermocouples are very sensitive, requiring a good amplifier with a cold-compensation reference. The MAX31855K does everything for you, and can be easily interfaced with any microcontroller, even one without an analog input. This breakout board has the chip itself, a 3.3V regulator with 10uF bypass capacitors and level shifting circuitry, all assembled and tested. Comes with a 2 pin terminal block (for connecting to the thermocouple) and pin header (to plug into any breadboard or perfboard). Goes great with our 1m K-type thermocouple. If you need a thermocouple interface that can handle other types of thermocouples, check out our & #39; Universal & #39; MAX31856 amplifier board which can be configured in the Arduino sketch to interface with just about any kind of thermocouple Now uses the MAX31855K instead of the MAX6675, so it can measure a wider temperature measurement range. Please note, the MAX31855 is not pin compatible or drop-in code compatible with the MAX6675. Adafruit does have an Arduino library for both chips but you & #39; ll need to adjust any existing MAX6675 designs for the new MAX31855. The MAX6675 has been discontinued by Maxim. Version 2.0 now includes ferrite beads and filter capacitor onboard for better stability Item Specifics Output temperature: -200°C to +1350°C - note that K thermocouples have about & plusmn; 2°C to & plusmn; 6°C accuracy Degree Increments: 0.25 increments Terminal block: Blue or Black Length (without headers): 20mm/ 0.8 in Width (without headers): 20mm/ 0.8 in Height (without headers): 3.28 mm/ 0.12 in Weight: 1.33 g/ 0.05 oz
Adafruit APDS9960 Proximity, Light, RGB, and Gesture Sensor
Key Features: Add basic gesture sensing, RGB color sensing, proximity sensing, or ambient light sensing to your project Integrated IR LED and driver, along with four directional photodiodes sense reflected IR energy from the LED Measure the distance an object is from the front of the sensor (up to a few centimeters) with 8-bit resolution Detects simple gestures (left to right, right to left, up to down, down to up are currently supported) This breakout is chock full o & apos; sensors! Add basic gesture sensing, RGB color sensing, proximity sensing, or ambient light sensing to your project with the Adafruit APDS9960 Proximity, Light, RGB, and Gesture Sensor. When connected to your microcontroller (running our library code) it can detect simple gestures (left to right, right to left, up to down, down to up are currently supported), return the amount of red, blue, green, and clear light, or return how close an object is to the front of the sensor. This device uses an I2C interface so it & apos; s easy to wire up and use. The APDS9960 from Avago Technologies has an integrated IR LED and driver, along with four directional photodiodes that sense reflected IR energy from the LED. Its proximity detection feature allows it to measure the distance an object is from the front of the sensor (up to a few centimeters) with 8-bit resolution. For your convenience, Adafruit placed the sensor on a PCB with a 3.3V regulator and some level shifting so it can be easily used with your favorite 3.3V or 5V microcontroller. SparkFun qwiic compatible STEMMA QT connectors are built - in for the I2C bus so you don & apos; t even need to solder! Just wire up to your favorite microcontroller or computer with a plug-and-play QT cable to light/color/proximity data ASAP. Item Specifics QT cable not included
Adafruit Metro M0 Express - Designed for CircuitPython - ATSAMD21G18
Key Features: 7-9V polarity protected DC or the micro USB connector to any 5V USB source CircuitPython now comes preloaded ATSAMD21G18 ARM Cortex M0 processor, clocked at 48 MHz and at 3.3V logic Built in USB so it has USB-to-Serial program & debug capability built in with no need for an FTDI-like chip 256K of FLASH (8x more than the Atmega328) and 32K of RAM (16x as much) Metro is our series of microcontroller boards for use with the Arduino IDE. This new Metro M0 Expressboard looks a whole lot like our original Metro 328, but with a huge upgrade. Instead of the ATmega328, this Metro features a ATSAMD21G18 chip, an ARM Cortex M0+. It & #39; s our first Metro that is designed for use with CircuitPython! CircuitPython is our beginner-oriented flavor of MicroPython - and as the name hints at, its a small but full-featured version of the popular Python programming language specifically for use with circuitry and electronics. Not only can you use CircuitPython, but the Metro M0 is also usable in the Arduino IDE. At the Metro M0 & #39; s heart is an ATSAMD21G18 ARM Cortex M0 processor, clocked at 48 MHz and at 3.3V logic, the same one used in the new Arduino Zero. This chip has a whopping 256K of FLASH (8x more than the Atmega328) and 32K of RAM (16x as much)! This chip comes with built in USB so it has USB-to-Serial program & debug capability built in with no need for an FTDI-like chip. Item Specifics 2 MB SPI Flash chip 32.768 KHz crystal (clock generation/RTC) Output: 3.3V regulator with 500mA peak 4 - Indicator LEDs 1 - NeoPixel Built-in UF2 bootloader and serial port debugging 25 GPIO pins Hardware Serial, hardware I2C, hardware SPI support PWM outputs on almost all pins 6 x 12-bit analog inputs 1 x 10-bit analog output (DAC) Power on/off switch 4 rubber bumpers Size: 2.8" x 2.1" Height (w/ barrel jack): 0.5" Weight: 20g
Adafruit FeatherWing Tripler Mini Kit - Prototyping Add- on For Feathers
Key Features: Prototyping add-on for all Feather boards Connect your Feather to two other Feather Wings without needing any stacking headers Pins are cross connected and for GND and 3.3V Tripler comes as a mini kit This is the FeatherWing Tripler - a prototyping add-on and more for all Feather boards. This is similar to our FeatherWing Proto except there are three! The magic of the Tripler comes when you want to connect your Feather to two other Feather Wings without needing any stacking headers! The Tripler, like the Proto, has three breakouts for each pin on a Feather, as well as a bunch of plain grid proto holes. Also, the three sets of pins are cross connected and for GND and 3.3V, we give you a full strip of connected pads. You & #39; ll need to solder on the female headers to the PCB, the Tripler comes as a mini kit! Item Specifics 1 - Tripler Wing PCB 3 - Feather Female Headers/ Assembled Size: 71.25 x 51 x 12 mm / 2.8" x 2" x 0.46" Assembled Weight: 18.2 g / 0.64 oz
Adafruit Mini Thermal Receipt Printer
Key Features: Mini Thermal Printer Ideal for interfacing with a microcontroller Print text, barcodes, bitmap graphics, even a QR code No ink required Add a mini printer to any microcontroller project with this very cute thermal printer. Thermal printers are also known as receipt printers, they & #39; re what you get when you go to the ATM or grocery store. Now you can embed a little printer of your own into an enclosure. This printer is ideal for interfacing with a microcontroller, you simply need a 3.3V -5V TTL serial output from your microcontroller to print text, barcodes, bitmap graphics, even a QR code! The printer uses very common 2.25" wide thermal paper, available in any office or stationery supply store. It can fit up to 50 ft of paper in the bay at once. We suggest picking up a 2.1 mm jack terminal block adapter which will make it easy to connect the power adapter. We really like this printer because its easy to make Bold, underline, inverted text, variable line spacing, left/center/right justification, barcodes in 11 standard formats with adjustable height, and even custom bitmap graphics. Item Specifics Thermal printer including the print head (it does not require ink) Set of power and data cables Plastic shims for panel mounting Power: 5-9VDC @ 1.5A mp Printing Speed: 50-80mm/s Resolution: 8 dots/mm, 384 dots/line Printing Width: 48mm Character Set: ASCII, GB2312-80 (Chinese) Print Font: ANK: 5 & times; 7, Chinese: 12x24, 24 & times; 24 Paper Type: Thermal paper ( 2.25" wide, 50 ft or shorter) Paper Width: 57.5 & plusmn; 0.5 mm Paper Roll Diameter: max 39mm Protocol: TTL Serial, 19200 baud Mean Cycles Before Failure: 5 million lines Power Supply (Adapter): DC5V-9V Installation Port Size: 103 x 57mm Operating Temp: 5°C ~ 50°C Storage Temp: -20°C ~ 60°C Storage Humidity: 10% ~ 90% Thermal paper not included
Adafruit NPN Bipolar Transistors (PN2222) - 10 pack
Key Features: Powerful little electronic switch Control medium-power electronics such as small motors, solenoids, or IR LEDs Switch up to 40V at peak currents of 1A (not continuously, just peak! ), with a DC gain of about 100 Pack of 10 Transistors are powerful little electronic switches, and we really like these NPN transistors whenever we need to control medium-power electronics such as small motors, solenoids, or IR LEDs. We find them so handy, they come in a pack of 10! Each transistor is a general purpose amplifier, model PN2222 (same pinout as the 2N3904) and has a standard EBC pinout. They can switch up to 40V at peak currents of 1A (not continuously, just peak! ), with a DC gain of about 100. They & #39; re basically your garden-variety NPN, and do the job with class!
Adafruit Power Relay FeatherWing
Key Features: Turn on and off lamps, fans, solenoids, and other small appliances (up to 250VAC or DC power) using any Feather board Compared to Adafruit & #39; s smaller Relay FeatherWings, this can handle a beefy 1200 Watts Works with all/any of our Feather boards, just wire up the relay control pin to whatever GPIO you like Connect a FeatherWing on top of your Feather board with Feather Stacking Headers or Feather Female Headers A Feather board without ambition is a Feather board without FeatherWings! This is the Power Relay FeatherWing. It gives you power to control, and control over power. Put simply, you can now turn on and off lamps, fans, solenoids, and other small appliances that run on up to 250VAC or DC power using any Feather board. Compared to our smaller Relay FeatherWings, this one can handle a beefy 1200 Watts! This Wing has a non-latching type relay. You can switch up to 10A of resistive-load current at 120VAC, 5A at 240VAC. With inductive loads, about half that. Check the datasheet for the relay for the exact switching capacity, as it depends on type of load and voltage type and magnitude. This relay is good for handling fairly large devices, computers, TVs, small appliances and more. You can select which pin you want to use for the relay control by soldering closed the jumper on the underside of the Wing. Please note: If using with high voltages (> 24V) use care and common sense! High voltages require experience, and are only for use by engineers who are comfortable with guidelines and know how to use them safely! Item Specifics 1- Fully assembled and tested PCB 1 - small header you can use to attach to your Feather Size: 51.0 mm x 23.0 mm x 20.2 mm / 2.0" x 0.9" x 0.8" Weight: 16.8 g / 0.6 oz Some light soldering is required.
Adafruit FeatherWing Doubler - Prototyping Add-on For All Feather Boards
Key Features: Prototyping add-on and more for all Feather boards Work with both boards simultaneously side-by-side Doubler comes as a mini kit Cross connected and for GND and 3.3V This is the FeatherWing Doubler - a prototyping add-on and more for all Feather boards. This is similar to the FeatherWing Proto except there are two! The magic of the Doubler comes when stacking a Feather and another board on top of the Doubler so you can work with both boards simultaneously side-by-side! The Doubler, like the Proto, has a duplicate breakout for each pin on a Feather, as well as a bunch of plain grid proto holes. Also, the two sets of pins are cross connected and for GND and 3.3V, we give you a full strip of connected pads. You & #39; ll need to solder on the female headers and/or stacking headers however you like, the Doubler comes as a mini kit! Item Specifics 1 - Doubler PCB 1 - Feather Stacking Headers 1 - Feather Female Headers Size: 50.9 mm x 47mm x 1.6 mm / 2" x 1.85" x 0.06" Weight: 6.7 g Some soldering required for headers
Adafruit Metro Mini 328-5V 16MHz
Key Features: ATmega328 brains - 32KB of flash (1/2 K is reserved for the bootloader), 2KB of RAM, clocked at 16MHz 20 GPIO pins, 6 are Analog in, 2 are reserved for the USB-serial converter. 6 PWMs available on 3 timers (1 x 16-bit, 2 x 8-bit) and hardware SPI port, hardware I2C port and hardware UART to USB. GPIO Logic level is 5V easily converted it to 3.3V logic Genuine FTDI hardware USB to Serial converter used by any computer to listen/send data to the METRO and launch and update code via the bootloader We sure love the ATmega328 and we use them a lot for our own projects. The processor has plenty of GPIO, Analog inputs, hardware UART SPI and I2C, timers and PWM galore - just enough for most simple projects. When we need to go small, we use a Pro Trinket 3V or 5V, but if you want to have USB-to-Serial built in, we reach for an Adafruit METRO Mini. METRO Mini is the culmination of years of playing with AVRs: we wanted a tiny, breadboard-friendly development board that is easy to use and is hacker friendly. Metro Mini can be programmed with the Arduino IDE (select & #39; UNO & #39; in the boards dropdown) There & #39; s a genuine FTDI hardware USB to Serial converter that can be used by any computer to listen/send data to the METRO, and can also be used to launch and update code via the boot loader. Plus, 4 indicator LEDs, on the top of the PCB, for easy debugging. Comes pre-loaded with the Optiboot boot loader! & nbsp; Item Specifics Fully assembled and tested board (bootloader burned in) 1 - stick of 0.1" header Some light soldering may be required Size: 20mm x 27mm x 4mm / 0.8" x 1.1" x 0.2" Header holes begin 4mm from the mounting holes Mounting Hole dimensions: 20mm x 12mm apart Uses I2C address 0x28 (default) or 0x29 Weight: 3g Green LED (Power), 2 - RX/TX LEDs (UART), Red LED connected to pin PB5 / digital #13 attached
Adafruit Wave Shield - v1.1 (Arduino Compatible)
Key Features: Add audio to your project with this shield Play uncompressed 22KHz 16bit (on a 12bit DAC), mono Wave (. wav) files of any size Output is mono Audio files read off of a SD/MMC card Easy to make kit at a low cost Adding quality audio to an electronic project is surprisingly difficult. Here is a shield for Arduinos that solves this problem. It can play up to 22KHz 12bit uncompressed audio files of any length. It & #39; s low cost, available as an easy-to-make kit. It has an onboard DAC, filter and op-amp for high quality output. Audio files are read off of a SD/MMC card. Volume can be controlled with the onboard thumbwheel potentiometer. While it isnt CD quality, it is certainly good enough to play music, have spoken word, or audio effects. This shield is a kit, and comes with all parts you need to build it. The shield comes with an Arduino library for easy use; simply drag uncompressed wave files onto the SD card and plug it in. Then use the library to play audio when buttons are pressed, or when a sensor goes off, or when serial data is received, etc. Audio is played asynchronously as an interrupt, so the Arduino can perform tasks while the audio is playing. But the Arduino, SD card, tools, speaker and headphones are not included. Item Specifics File Type: uncompressed 22KHz 16bit mono Wave (. wav) - any size SD/MMC Format: FAT16/FAT32 Output: Mono (L and R channels) Output jack: Standard 3.5 mm headphone jack Optional output: Speaker connection switches on when the headphones are unplugged Included library and examples makes playing audio easy Please note: that the library is rather bulky, requiring 10K of flash and more than 1/2 K of RAM for buffering audio. It works fine using any ATmega328-based Arduino (Duemilanove, Uno or compatible). Not Mega or Leonardo compatible
Adafruit Mini USB Microphone
Key Features: Possibly the world & #39; s smallest USB microphone Plug-and-play Mini USB Microphone needs no driver USB interface means you can use it with any computer, laptop, SBC, etc Hey, listen up! It & #39; s the world & #39; s smallest USB microphone! OK maybe it & #39; s not in the Guinness Record Book, but it is pretty darn small ! This plug-and-play Mini USB Microphone needs no driver, and its USB interface means you can use it with any computer, laptop, SBC, etc! Works great with a Raspberry Pi computer, but you can also use it with any other computer you want to record audio on. Simply plug it right in and you & #39; re ready to start recording your podcast, song, spoken-word poetry, audiobook, or whatever your heart desires! If you need to be a little closer to the audio source, you may want to pair it with a USB extension cable or a USB swivel adapter. Item Specifics Size: 22.2 mm x 18.3 mm x 7.0 mm / 0.9" x 0.7" x 0.3" Weight: 2.2 g / 0.1 oz
adafruit htu21df temperature & humidity sensor breakout board ada1899
It's summer and you're sweating and your hair's all frizzy and all you really want to know is why the weatherman said this morning that today's relative humidity would max out at a perfectly reasonable 52% when it feels more like 77%. Enter the HTU21D-F Temperature + Humidity Sensor - the best way to prove the weatherman wrong! This I2C digital humidity sensor is an accurate and intelligent alternative to the much simpler Humidity and Temperature Sensor - SHT15 Breakout It has a typical accuracy of 2% with an operating range that's optimized from 5% to 95% RH. Operation outside this range is still possible - just the accuracy might drop a bit. The temperature output has an accuracy of 1C from -30~90C. If you're looking to measure temperature more accurately, we recommend the MCP9808 High Accuracy I2C Temperature Sensor Breakout Board. Such a lovely chip - so we spun up a breakout board that includes the Filtered version (the white bit of plastic which is a PTFE filter to keep the sensor clean), a 3.3V regulator and I2C level shifting circuitry. This lets you use it safely with any kind of microcontroller with 3.3V-5V power or logic. Each order comes with one fully assembled and tested PCB breakout and a small piece of header. You'll need to solder the header onto the PCB but it's fairly easy and takes only a few minutes even for a beginner.UPC NO:701980281617 SKU:ADIB00OKJFLWO
Adafruit Push-button Power Switch Breakout
The Adafruit Push-button Power Switch is a tidy little design that lets you control a DC power source using an everyday tactile button. The breakout uses a latching analog circuit that is triggered by a push of the button. Press once to turn on, then press again to turn off. The circuit uses a 3A P-FET to connect and disconnect the IN pin to the OUT pin. Works great from 3V to 14VDC and up to 3A (although the FET gets a little toasty at continuous 3A draw) yet has only 0.5uA quiescent current draw. Using it is easy: connect the power source to Ground and IN, then the load from Ground to OUT. We include a 12mm tactile switch that works well but you can solder in your own switch as well. Press the button (or short the button pins) to alternate between on or off. A on-board red LED will light up when active so you know its working. There's a fourth KILL pin, which you can use to turn off the load and/or keep it off even if the button is pressed. When 1 or more volts is applied it will instantly turn off the FET. This allows your project to turn itself off. Comes with a assembled & tested bread-board friendly breakout board with four mounting holes, a 12mm tactile button, and some 0.1" male header you can solder to the board to plug it into a breadboard. The power switch is an elegant way to control power to your project, but there are some things to keep in mind: since there is a pass FET, this is only for 3-14V DC voltages. This is not a mechanical switch so there is no air-gap isolation. There is a 'body diode' in the pass FET so if the load has a voltage on it that is higher than the input voltage, current will flow back to the input. There is built-in debouncing but very bouncy switches can be annoying as they will turn on and off fast instead of latching. Adafruit Push-button Power Switch Breakout (11:52)Technical Details:Dimensions: 20.51mm / 0.8" x 17.75mm / 0.69" x 2.66mm / 0.1"Height with Switch: 8.69mm / 0.34"Weight: 2.6gMC14093 Datasheet (the NAND gate used) P-Channel Pass MOSFETSchematic!
ADAFRUIT INDUSTRIES 1141 DATA LOGGING SHIELD BOARD, ARDUINO
Core Architecture:-.Core Architecture:-.Core Sub-Architecture:-.Core Sub-Architecture:-.For Use With:Arduino UNO, Duemilanove, Diecimila, Leonardo or ADK / Mega R3 or Higher.For Use With:Arduino UNO, D.Kit Contents:Data Logging Shield Board.Kit Contents:Data Logging S.SVHC:To Be Advised.Silicon Core Number:-.Silicon Core Number:-.Silicon Family Name:-.Silicon Family Name:-.Silicon Manufacturer:-.Silicon Manufacturer:-
Adafruit 10K Precision Epoxy Thermistor
Key Features: Epoxy-coated Measure temperature in weather or liquids PVC coating of the wires is good up to 105 °C Additional 1% 10K resistor which you can use as calibration or for a resistor divider Need to measure something damp? This epoxy-coated precision 1% 10K thermistor is an inexpensive way to measure temperature in weather or liquids. The resistance in 25 °C is 10K (+- 1%). The resistance goes down as it gets warmer and goes up as it gets cooler. For specific temperature-to-resistance, check the lookup table. These are often used for air conditioners, water lines, and other places where they can get damp. The PVC coating of the wires is good up to 105 °C so this isn & #39; t good for very hot stuff. We even toss in an additional 1% 10K resistor which you can use as calibration or for a resistor divider. Item Specifics Resistance at 25 degrees C: 10K +- 1% B25/50 = 3950+- 1% Thermal time constant
Adafruit NeoPixel Diffused 5mm Through-Hole LED - 5 Pack
Key Features: Diffused type Neopixel 5mm LEDs RGB LED with 4 legs Control the LED with high speed PWM for 24-bit color Fast and responsive with a milky-diffusing lens for a soft look If you like NeoPixel strips you & #39; ll love these 5mm diffused through-hole NeoPixels. All the single-pin-controlling-hundreds-of-LEDs goodness in a breadboard friendly format. Each LED looks just like a shorter version of the classic through-hole 5mm RGB LED with 4 legs, but instead of just red/green/blue there & #39; s a little chip inside that can control the LED with high speed PWM for 24-bit color. Power them with 5V and chain them together, tying the Data-Out pin of one to the Data-in of the previous one in the chain. If you & #39; re using an Arduino, you can control these LEDs with our wonderfully-written Neopixel library for Arduino. They also work great with Adafruit Trinkets. Note that these are "RGB" instead of "GRB" format used in the 5050-sized LEDs you are so used to. Check in the NeoPixel example code for how to swap the colors automagically. Item Specifics 5 pack of diffused-type LEDs Weight: 0.3 g May ship with either WS2812B or SK6812-based LEDs.
Adafruit Universal Thermocouple Amplifier MAX31856 Breakout
Key Features: Works with any K, J, N, R, S, T, E, or B type thermocouple -210°C to +1800°C output in 0.0078125 ° resolution - note that many thermocouples have about & plusmn; 2°C to & plusmn; 6°C accuracy or worse depending on the temperature and type Internal temperature reading 3.3 to 5v power supply and logic level compliant SPI data requires any 4 digital I/O pins Thermocouples are very sensitive, requiring a good amplifier with a cold-compensation reference, as well as calculations to handle any non-linearities. For a long time we & #39; ve suggested our MAX31855K breakout, which works great but is only for K-type thermocouples. Now we & #39; re happy to offer a great new thermocouple amplifier/converter that can handle just about any type of thermocouple, and even has the ability to give you notification when the temperature goes out of range, or a fault occurs. Very fancy! This converter communicates over 4-wire SPI and can interface with any K, J, N, R, S, T, E, or B type thermocouple. This breakout does everything for you, and can be easily interfaced with any microcontroller, even one without an analog input. This breakout board has the chip itself, a 3.3V regulator and level shifting circuitry, all assembled and tested. Comes with a 2 pin terminal block (for connecting to the thermocouple) and pin header (to plug into any breadboard or perfboard). We even added inline resistors and a filter capacitor on-board for better stability, as recommended by Maxim. Goes great with our 1m K-type thermocouple or any other thermocouple, really! Item Specifics 1 - Fully assembled and tested breakout 1 - 2-pin terminal block (Blue or Black) 1 - pin header Size: 25.0 mm x 22.0 mm x 3.0 mm / 1.0" x 0.9" x 0.1" Weight: 3.5 g / 0.1 oz Thermocouple not included
Adafruit Feather M0 Basic Proto - ATSAMD21 Cortex M0
Key Features: ATSAMD21G18 ARM Cortex M0 processor - the same one used in the Arduino Zero 256K of FLASH (8x more than the Atmega328 or 32u4) and 32K of RAM (16x as much) Built in USB so it has USB-to-Serial program & debug capability built in with no need for an FTDI-like chip 3.7V Lithium polymer battery connector and built in battery charging Feather is the new development board from Adafruit, and like its namesake it is thin, light, and lets you fly! We designed Feather to be a new standard for portable microcontroller cores. This is the Feather M0 Basic Proto, it has a bunch of prototyping space built right in. To make it easy to use for portable projects, you don & #39; t need a battery, it will run just fine straight from the micro USB connector. But, if you do have a battery, you can take it on the go, then plug in the USB to recharge. The Feather will automatically switch over to USB power when its available. We also tied the battery thru a divider to an analog pin, so you can measure and monitor the battery voltage to detect when you need a recharge Item Specifics Fully assembled and tested No EEPROM 32.768 KHz crystal for clock generation & RTC 3.3V regulator with 500mA peak current output USB native support, comes with USB bootloader and serial port debugging You also get tons of pins - 20 GPIO pins Hardware Serial, hardware I2C, hardware SPI support PWM outputs on all pins 6 x 12-bit analog inputs 1 x 10-bit analog ouput (DAC) Built in 100mA lipoly charger with charging status indicator LED Pin #13 red LED for general purpose blinking Power/enable pin 4 mounting holes Reset button Size: 2.0" x 0.9" x 0.28" Weight: Feather light 4.6 g Lipoly battery and USB cable not included
Adafruit Fingerprint sensor
Secure your project with biometrics - this all-in-one optical fingerprint sensor will make adding fingerprint detection and verification super simple. These modules are typically used in safes - there's a high powered DSP chip that does the image rendering, calculation, feature-finding and searching. Connect to any microcontroller or system with TTL serial, and send packets of data to take photos, detect prints, hash and search. You can also enroll new fingers directly - up to 162 finger prints can be stored in the onboard FLASH memory. There's a red LED in the lens that lights up during a photo so you know its working. We like this particular sensor because not only is it easy to use, it also comes with fairly straight-forward Windows software that makes testing the module simple - you can even enroll using the software and see an image of the fingerprint on your computer screen. But, of course, we wouldn't leave you a datasheet and a "good luck!" - we wrote a full Arduino library so that you can get running in under 10 minutes. The library can enroll and search so its perfect for any project . We've also written a detailed tutorial on wiring and use . This is by far the best fingerprint sensor you can get.UPC:701851954671SKU:ADIB00QSIZSOG
adafruit stereo enclosed speaker set 3w 4 ohm
Listen up! This set of two 2.8" x 1.2" speakers are the perfect addition to any audio project where you need 4 ohm impedance and 3W or less of power. We particularly like these speakers as they are small and enclosed for good audio volume and quality. The pair have a handy SPK input cable to add audio to your displays (the connectors are similar to the JST-PH series whichis ~2.0mm spacing). We're specifically carrying these to use with our 10.1 inch , 7 inch , or 5.6 inch 1280x800 Display w/ Audio driver boards. However, they work peachy-keen with any of our audio amps as well, such as the MAX98306 , TS2012 or TPA2016 stereo class D amplifiers.UPC NO:701851954145 SKU:ADIB00QSJ1HA4
Adafruit Trinket - Mini Microcontroller - 5V Logic
Key Features: Small enough to fit into any project, and low cost enough to use without hesitation. ATtiny85 on-board, 8K of flash, 512 byte of SRAM, 512 bytes of EEPROM Internal oscillator runs at 8MHz, but can be doubled in software for 16MHz USB bootloader with a nice LED indicator & Micro-USB jack for power and/or USB uploading ~ 5.25K bytes available for use ( 2.75K taken for the bootloader) On-board 5.0V power regulator with 150mA output capability and ultra-low dropout. Up to 16V input, reverse-polarity protection, thermal and current-limit protection. Trinket may be small, but do not be fooled by its size! It & #39; s a tiny microcontroller board, built around the Atmel ATtiny85, a little chip with a lot of power. Perfect for when you don & #39; t want to give up your expensive dev-board and you aren & #39; t willing to take apart the project you worked so hard to design. It & #39; s our lowest-cost arduino-IDE programmable board! It & #39; s fun processor because despite being so small, it has 8K of flash and 5 I/O pins, including analog inputs and PWM & #39; analog & #39; outputs. Plug it into any computer and reprogram it over a USB port just like an Arduino. This trinket works like a mini-Arduino board although it & #39; s not a fully 100% Arduino-compatible. This 5V version can run at 8 MHz or at 16MHz by setting the software-set clock frequency designed for use with sensors and components that use or require 5V logic. There are some things you trade off for such a small and low cost microcontroller! Trinket does not have a Serial port connection for debugging so the serial port monitor will not be able to send/receive data. Some computers & #39; USB v3 ports don & #39; t recognize the Trinket & #39; s bootloader. Simply use a USB v2 port or a USB hub in between Item Specifics Dimensions: 1.2" x 0.6" x 0.2" (31mm x 15.5 x 5mm) Weight (no headers): 1.85 g
Adafruit 12-Key Capacitive Touch Sensor Breakout - MPR121
Key Features: Easy-to-use 12-channel capacitive touch sensor breakout board Supports only I2C, which can be implemented with nearly any microcontroller Select 1 of 4 addresses with the ADDR pin, for a total of 48 capacitive touch pads on one I2C 2-wire bus Handles up to 12 individual touch padsUpdated in 2021 - Now featuring STEMMA QT connectors for quick connectivity Add lots of touch sensors to your next microcontroller project with this easy-to-use 12-channel capacitive touch sensor breakout board, starring the MPR121. This chip can handle up to 12 individual touch pads. The MPR121 has support for only I2C, which can be implemented with nearly any microcontroller. You can select one of 4 addresses with the ADDR pin, for a total of 48 capacitive touch pads on one I2C 2-wire bus. Using this chip is a lot easier than doing the capacitive sensing with analog inputs: it handles all the filtering for you and can be configured for more/less sensitivity. This sensor comes as a tiny hard-to-solder chip so we put it onto a breakout board for you. Since it & #39; s a 3V-only chip, we added a 3V regulator and I2C level shifting so its safe to use with any 3V or 5V microcontroller/processor like Arduino. We even added an LED onto the IRQ line so it will blink when touches are detected, making debugging by sight a bit easier on you. Item Specifics Model: MPR121 1 - Fully assembled board 1 - stick of 0.1" header to plug into a breadboard Suggested contacts: copper foil or pyralux Dimensions: 33mm x 19mm x 2mm / 1.3" x. 8" x. 1" Weight: 2.2 g Uses I2C 7-bit address 0x5A (can be set to 0x5B, 0x5C or 0x5D)
Adafruit Metro 328 with Headers - ATmega328
Key Features: ATmega328 microcontroller with Optiboot (UNO) Bootloader A fully assembled and tested microcontroller and physical computing board with through-hole headers attached 32KB of flash and 2KB of RAM, running at 16 MHz Compatible with "Classic" and "R3" Shields This is the Adafruit METRO Arduino-Compatible - with headers. The METRO works great with the Arduino IDE, and runs the ATmega328P at 16MHz so it is shape and pin-compatible with Arduino UNO R3 shields and boards. You can use this with the Arduino IDE (both desktop and cloud version) by selecting & #39; Arduino UNO & #39; in the Boards menu. The processor has plenty of GPIO, Analog inputs, hardware UART SPI and I2C, timers and PWM galore - just enough for most simple projects. METRO is the culmination of years of playing with AVRs: it & #39; s a development board that is easy to use and is hacker friendly. Power the METRO with 7-9V polarity protected DC or the micro USB connector to any 5V USB source. The 2.1 mm DC jack has an on/off switch next to it so you can turn off your setup easily. The METRO will automagically switch between USB and DC. Item Specifics Optiboot bootloader pre-installed USB Programming and debugging via well-supported genuine CP2104 Input voltage: 7-9V (a 9VDC power supply is recommended) 5V regulator can supply peak ~800mA as long as the die temp of the regulator does not exceed 150*C 3.3V regulator can supply peak ~150mA as long as the die temp of the regulator does not exceed 150*C 5V logic with 3.3V compatible inputs, can be converted to 3.3V logic operation 20 GPIO: 6 - PWM outputs & 6 - Analog Inputs 6-pin ICSP Header 32KB Flash Memory - 0.5K for bootloader, 31.5KB available after bootloading Adafruit Black PCB with gold plate on pads Size: 53mm x 71mm / 2.1" x 2.8" Height (w/ barrel jack): 13mm / 0.5" Weight: 19g Arduino IDE compatible
adafruit 15x7 charlieplex led matrix display featherwing green
You wont be able to look away from the mesmerizing patterns created by this Adafruit 15x7 CharliePlex LED Matrix Display FeatherWing. This 15x7 LED display can be paired with with any of our Feather boards for a beautiful, bright grid of 105 charlieplexed LEDs. It even comes with a built-in charlieplex driver that is run over I2C. We carry these FeatherWings in four vivid colors - this is the Green matrix Another colors: Adafruit 15x7 CharliePlex LED Matrix Display FeatherWing - Red Adafruit 15x7 CharliePlex LED Matrix Display FeatherWing - White Adafruit 15x7 CharliePlex LED Matrix Display FeatherWing - Blue What is particularly nice about this Wing is the I2C LED driver chip has the ability to PWM each individual LED in a 15x7 grid so you can have beautiful LED lighting effects, without a lot of pin twiddling. Simply tell the chip which LED on the grid you want lit, and what brightness and it's all taken care of for you. You get 8-bit (256 level) dimming for each individual LED. The IS31FL3731 is a nice little chip - and it runs happily over 3.3V power. Inside is enough RAM for 8 separate frames of display memory so you can set up multiple frames of an animation and flip them to be displayed with a single command. Since it uses I2C, it takes up only the SDA/SCL pins on your Feather and can share those pins with other I2C devices and sensors. Our graphics library makes it easy to draw shapes, text and bitmaps for some strikingly beautiful LED displays. Technical Details Uses I2C address 0x74 or 0x77 Product Dimensions: 51.0mm x 23.0mm x 3.0mm / 2.0" x 0.9" x 0.1" Product Weight: 3.8g/0.1ozUPC NO:602401814042 SKU:ADIB01G0ITZN8
Adafruit ESD-Safe PCB Cleaning Brush
Key Features: ESD-safe cleaning brush Right tool for the job Remove rosin/flux with this brush 7" long brush with 0.5" long bristles Neat-freaks! Put down that toothbrush and pick up this nice ESD-safe cleaning brush! If you want to have a nice clean board (or maybe you & #39; re doing some repair) you can use this stiff-bristled brush without worries. Some people like to drip a little rubbing alcohol on their PCBs after soldering and then scrubbing to remove rosin/flux. Finally, you have the right tool for the job. Item Specifics Size: 7" long Bristle Length: 0.5" Bristle head size: 1.5" x 0.5"
Adafruit USB/DC/Solar Lithium Ion/Polymer Charger
Key Features: Specialized USB/Solar Lithium Ion Polymer Battery charger Near-identical performance to MPP Ts without the additional cost of a buck-converter For use with Adafruit Lipoly/LiIon batteries only Always draw the most current possible from a solar cell - up to the max charge rate Make your projects to go green this summer with a specialized USB/Solar Lithium Ion Polymer Battery charger! This charger is a very unique design, perfect for outdoor projects, or DIY iPod chargers. Adafruit & #39; s come up with a plug and play solution to charging batteries with the sun with an updated more compact design and a 2.1 mm DC jack. Charge with 5-6V DC, USB or 6V solar panel! Pick up a 3.7V LiIon battery and a 6V solar panel, plug the battery into the BATT port and the solar panel into the DC jack and put the solar panel outside (keep the battery out of the sun) to start charging. You can power another project like a Mintyboost at the same time by connecting to the LOAD output port this carefully designed charger is designed specifically for solar charging, and will automatically draw the most current possible from the panel in any light condition! Adafruit & #39; s detailed tutorial on how to use this charger includes a design document explaining how it all works. This product is only designed for use with solar panels sold at the Adafruit store. Not guaranteed to work with solar panels purchased elsewhere. Please purchase Adafruit panels to ensure optimized functionality! Using larger panels, either higher voltage or current output, could also damage the charger. Item Specifics Board Dimensions: 1.6" x 1.3" x 0.08" Thickness with 2.1 mm SMT Barrel Jack: 0.5" 2-pin JST cable (fits BATT or LOAD ports) Large stabilization capacitor (required on finished project) Lipoly battery or solar panels are not included 2.1 mm adapter cable required for solar panel to adapt to the DC power jack
Adafruit Circuit Playground Classic
Key Features: Designed to be used with Arduino IDE and code. org CS Discoveries ATmega32u4 Processor, running at 3.3V and 8MHz MicroUSB port for programming and debugging with Arduino IDE USB port can act like serial port, keyboard, mouse, joystick or MIDI Would you like to learn electronics, with an all-in-one board that has sensors and LEDs built in? Circuit Playground is here - and it & #39; s the best way to practice programming on real hardware with no soldering or sewing required! This is the Classic version of Circuit Playground, which comes with an ATmega32u4. It & #39; s designed to be used with Arduino IDE and code. org CS Discoveries only. It even comes with Firmata already programmed in, so you can use it immediately with code. org Discoveries without any preparation or updates. Circuit Playground features an ATmega32u4 processor, just like our popular Flora. The board & #39; s also round and has eight alligator-clip pads around it so you don & #39; t have to solder or sew to make it work. You can power it from USB, a AAA battery pack, or with a Lipoly battery (for advanced users). Just program your code into the board then take it on the go! Circuit Playground has built-in USB support. Built in USB means you plug it in to program it and it just shows up. All you really need is a Micro-B data/sync USB cable. Item Specifics Outer Diameter: ~ 50.6 mm / ~ 2.0" Weight: 8.5 g Not for MakeCode or CircuitPython Micro-B data/sync USB cable not included 10 x mini NeoPixels, displays any color 1 x Motion sensor (LIS3DH triple-axis accelerometer with tap detection, free-fall detection) 1 x Temperature sensor (thermistor) 1 x Light sensor (phototransistor) 1 x Sound sensor (MEMS microphone) 1 x Mini speaker 2 x Push buttons, left and right 1 x Slide switch I2C, UART, and 4 pins that can do analog inputs/PWM output
Adafruit Stereo FM Transmitter with RDS/RBDS Breakout - Si4713
Key Features All-in-one stereo audio FM transmitter Also transmits RDS/RBDS data Transmit audio up to about 10m (30 ft) away Yaaar! Become your very own pirate radio station with this FM radio transmitter. This breakout board, based on the best-of-class Si4713, is an all-in-one stereo audio FM transmitter that can also transmit RDS/RBDS data! Wire up to your favorite microcontroller (we suggest an Arduino) to the I2C data lines to set the transmit frequency and play line-level audio into the stereo headphone jack. Boom! Now you are the media. Listen using any FM receiver such as your car or pocket radio receiver - this is an easy way to transmit audio up to about 10 meters / 30 feet away. This transmitter even has RDS/RBDS support - that & #39; s text/data transmissions that many modern FM receivers support. (It & #39; s how some car radios can display the FM station and current song playing). You can transmit just about any text you want, set the station identifier as well as the & #39; freeform & #39; buffer. Item Specifics Dimensions w/ Components: 41mm x 19mm x 7mm / 1.6" x. 8" x. 3" PCB Dimensions: 38mm x 19mm x 2mm / 1.5" x. 8" x. 1" Weight: 3.2 g
Adafruit FadeCandy - Dithering USB-Controlled Driver for NeoPixels
A new collaboration between Adafruit & Micah from Scanlime, we are excited to introduce Fadecandy, a NeoPixel driver with built in dithering, that can be controlled over USB. Fadecandy is not just hardware! It is a kit of both hardware and software parts that make LED art projects easier to build and better-looking so sculptors and makers and multimedia artists can concentrate on beautiful things instead of reinventing the wheel. It's an easy way to get started and an advanced tool for professionals. It's a collection of simple parts that work well together: Firmware that uses unique dithering and color correction algorithms to raise the bar for quality while getting out of the way of your creativity. Open source hardware for connecting cheap and popular WS2811 based LEDs to a laptop, desktop, or Raspberry Pi over USB. Fadecandy Server Software, which communicates with one Fadecandy board or dozens. It runs on Windows, Linux, and Mac OS, and on embedded platforms like Raspberry Pi. The Open Pixel Control protocol, a simple way of getting pixel data from your creative tools into the Fadecandy server. Libraries and examples for popular languages. We have Python and Processing already, with Javascript and Max coming soon. LEDs! Fadecandy works with Adafruit's popular WS2811/WS2812 LEDs. Each controller board supports up to 512 LEDs, arranged as 8 strips of 64 each. Headers are not included but we have tons of different kinds of dual header in the shop if you want to solder something into the pads. Fadecandy is designed to enable art that is subtle, interactive, and playful - exploring the interplay between light, form, and shadow. If you’re tired of seeing project after project with frenetic blinky rainbow fades, you’ll appreciate how easy it is to create expressive lighting! It's also battle tested! The firmware was originally developed to run the Ardent Mobile Cloud Platform, a Burning Man project which used 2500 LEDs to project ever-changing rolling cloud patterns onto the interior of a translucent plastic sculpture. It used five Fadecandy boards, a single Raspberry Pi, and the effects were written in a mixture of C and Python. The lighting on this project blew people away, and it made me realize just how much potential there is for creative lighting, but it takes significant technical drudgery to get beyond frenetic-rainbow-fade into territory where the lighting can really add to an art piece instead of distracting from it.
adafruit 15x7 charlieplex led matrix display featherwing red
You wont be able to look away from the mesmerizing patterns created by this Adafruit 15x7 CharliePlex LED Matrix Display FeatherWing. This 15x7 LED display can be paired with with any of our Feather boards for a beautiful, bright grid of 105 charlieplexed LEDs. It even comes with a built-in charlieplex driver that is run over I2C. We carry these FeatherWings in four vivid colors - this is the Red matrix Another colors: Adafruit 15x7 CharliePlex LED Matrix Display FeatherWing - Green Adafruit 15x7 CharliePlex LED Matrix Display FeatherWing - White Adafruit 15x7 CharliePlex LED Matrix Display FeatherWing - Blue What is particularly nice about this Wing is the I2C LED driver chip has the ability to PWM each individual LED in a 15x7 grid so you can have beautiful LED lighting effects, without a lot of pin twiddling. Simply tell the chip which LED on the grid you want lit, and what brightness and it's all taken care of for you. You get 8-bit (256 level) dimming for each individual LED. The IS31FL3731 is a nice little chip - and it runs happily over 3.3V power. Inside is enough RAM for 8 separate frames of display memory so you can set up multiple frames of an animation and flip them to be displayed with a single command. Since it uses I2C, it takes up only the SDA/SCL pins on your Feather and can share those pins with other I2C devices and sensors. Our graphics library makes it easy to draw shapes, text and bitmaps for some strikingly beautiful LED displays. Technical Details Uses I2C address 0x74 or 0x77 Product Dimensions: 51.0mm x 23.0mm x 3.0mm / 2.0" x 0.9" x 0.1" Product Weight: 3.8g/0.1ozUPC NO:602401814158 SKU:ADIB01G0IS214
Adafruit HUZZAH32 – ESP32 Feather Board
Key Features: 240 MHz dual core Tensilica LX6 microcontroller with 600 DMIPS Integrated 520 KB SRAM Integrated 802.11 b/g/n HT40 Wi-Fi transceiver, baseband, stack and LWIP Integrated dual mode Bluetooth (classic and BLE) 4 MByte flash include in the WROOM32 module The HUZZAH32 is Adafruit & #39; s ESP32-based Feather, made with the official WROOM32 module. It & #39; s packed with everything you love about Feathers: built in USB-to-Serial converter, automatic bootloader reset, Lithium Ion/Polymer charger, and just about all of the GPI Os brought out so you can use it with any of our Feather Wings. That module nestled in at the end of this Feather contains a dual-core ESP32 chip, 4 MB of SPI Flash, onboard tuned antenna, and all the passives you need to take advantage of this powerful new processor. The ESP32 has both WiFi and Bluetooth Classic/LE support. That means it & #39; s perfect for just about any wireless or Internet-connected project. Compared to the the ESP8266, the ESP32 has more GPIO, plenty of analog inputs, two analog outputs, multiple extra peripherals, two cores so you don & #39; t have to yield to the WiFi manager, and much higher-speed processor! We think we & #39; ll see more people move to this chip exclusively, as it is so full-featured. Not all of the peripherals are fully documented with example code though. Some bugs still being found and fixed. For that reason, we recommend this Feather for makers who have some experience with microcontroller programming. Item Specifics Ultra-low noise analog amplifier 10x capacitive touch interface 32 kHz crystal oscillator 3 x UAR Ts 3 x SPIs 2 x I2C 12 x ADC input channels 2 x I2S Audio 2 x DAC PWM/timer input/output available on every GPIO pin OpenOCD debug interface with 32 kB TRAX buffer SDIO master/slave 50 MHz Size: 51.0 mm x 22.7 mm x 7.3 mm / 2.0" x 0.9" x 0.3" Weight: 6.8 g / 0.2 oz
Adafruit Small Enclosed Piezo w/Wires [ADA1740]
This small (14mm diameter) piezo element is nicely enclosed so you can attach easily. Piezo elements convert vibration to voltage or voltage to vibration. That means you can use this as a buzzer for making beeps, tones and alerts AND you can use it as a sensor, to detect fast movements like knocks. You can also use it under a drum pad to make a drum/crash sensor It's rated for up to 9Vpp use but you can also use 3V square waves and its plenty loud. For music use with an Arduino, check out the Tone tutorial . For sensing, the Knock tutorial is your guide! There are thin wires attached, we plugged them into a solderless breadboard, but they might too thin to plug in directly into the Arduino socket headers.UPC:701851952134SKU:ADIB00OKCR7EG
Adafruit 4084 Adafruit Grand Central M4 Express Featuring SAMD51 - Without Headers
Adafruit 4084 Adafruit Grand Central M4 Express Featuring SAMD51 - Without Headers Item Condition: New Brand: adafruit Manufacturer: Adafruit Product Information - Cortex M4 core running at 120 MHz - Hardware DSP and floating point support - 1MB flash, 256 KB RAM - 32-bit, 3.3V logic and power - 70 GPIO pins in total This board is like a freight train, with its 120MHz Cortex M4 with floating point support. Your code will zig and zag and zoom, and with a bunch of extra peripherals for support, this will for sure be your favorite new chipset. The Grand Central is the first SAMD board that has enough pins to make it in the form of the Arduino Mega - with a massive number of pins, tons of analog inputs, dual DAC output, 8 MBytes of QSPI flash, SD card socket, and a NeoPixel. This version is lower cost and lower profile, we didnt solder any of the through-hole components in. Perfect if you want to solder directly to the board, or jam it into a small spot in your build. We include only the assembled and tested board, a loose 2.1 mm DC jack and bumpers. If you need a classic header-full Grand Central, visit this page. To start off our ATSAMD51 journey we are going large with the Mega shape and pinout you know and love. The front half has the same shape and pinout as our Metros, so it is compatible with all our shields. Its got analog pins where you expect, and SPI/UART/I2C hardware support in the same spot as the Metro 328 and M0. But! Its powered with an ATSAMD51P20: Cortex M4 core running at 120 MHz Hardware DSP and floating point support 1MB flash, 256 KB RAM 32-bit, 3.3V logic and power 70 GPIO pins in total Dual 1 MSPS DAC (A0 and A1) Dual 1 MSPS ADC (15 analog pins) 8 x hardware SERCOM (can be I2C, SPI or UART) 22 x PWM outputs Stereo I2S input/output with MCK pin 12-bit Parallel capture controller (for camera/video in) Built in crypto engines with AES (256 bit), true RNG, Pubkey controller
Adafruit Rotary Encoder
Key Features: High quality 24-pulse encoder Panel mountable for placement in a box Soft-touch knob with an arrow in it Built-in push-button This rotary encoder is the best of the best, its a high quality 24-pulse encoder, with detents and a nice feel. It is panel mountable for placement in a box, or you can plug it into a breadboard (just cut/bend the two mechanical side tabs. ) We also include a nice soft-touch knob with an arrow in it, fits perfectly and looks great. This encoder also has a push-button built into it so you can press onto the knob to close a separate switch. One side has a 3 pin connector (ground and two coding pins) and the other side has two pins for a normally-open switch. Rotary encoders are useful as rotation sensors or selectors and look similar to potentiometers. However they are not like potentiometers at all, so it's important to realize the difference! These rotary encoders rotate all the way around continuously, and are divided up into 24 'segments'. Each segment has a click-y feeling to it, and each movement clockwise or counter-clockwise causes the two switches to open and close. There is no way to know what the current 'position' is - instead you would use a microcontroller to count how many 'clicks' left or right it has been turned. If you need to detect rotational 'position' a potentiometer would be a better choice.
Adafruit TCA9548A I2C Multiplexer
Key Features: TCA9548A 1-to-8 I2C multiplexer Get up to 8 same-address I2C devices hooked up to one microcontroller Simply write a single byte with the desired multiplexed output number to that port and bam - any future I2C packets will get sent to that port 3V and 5V compliant so you can use it with any logic level You just found the perfect I2C sensor, and you want to wire up two or three or more of them to your Arduino when you realize "Uh oh, this chip has a fixed I2C address, and from what I know about I2C, you cannot have two devices with the same address on the same SDA/SCL pins! " Are you out of luck? You would be, if you didn't have this ultra-cool TCA9548A 1-to-8 I2C multiplexer! Finally, a way to get up to 8 same-address I2C devices hooked up to one microcontroller - this multiplexer acts as a gatekeeper, shuttling the commands to the selected set of I2C pins with your command. Using it is fairly straight-forward: the multiplexer itself is on I2C address 0x70 (but can be adjusted from 0x70 to 0x77) and you simply write a single byte with the desired multiplexed output number to that port, and bam - any future I2C packets will get sent to that port. In theory, you could have 8 of these multiplexers on each of 0x70-0x77 addresses in order to control 64 of the same-I2C-addressed-part. Like all Adafruit breakouts, we put this nice chip on a breakout for you so you can use it on a breadboard with capacitors, and pullups and pulldowns to make usage a snap. Some header is required and once soldered in you can plug it into a solderless-breadboard. The chip itself is 3V and 5V compliant so you can use it with any logic level. Item Specifics Selectable I2C address 0x70-0x77 Size: 1.2" x 0.7" x 0.1" Weight: 1.8 g
adafruit pro trinket 3v 12mhz
Trinket's got a big sister in town - the Pro Trinket 3V! Pro Trinket combines everything you love about Trinket with the familiarity of the core Arduino chip, the ATmega328. It's like an Arduino Pro Mini with more pins and USB tossed in. Trinket's a year old now, and while its been great to see tons of tiny projects, sometimes you just need more pins, more FLASH, and more RAM. That's why we designed Pro Trinket, with 18 GPIO, 2 extra analog inputs, 28K of flash, and 2K of RAM. It has onboard USB bootloading support - we opted for a MicroUSB jack this time. We also added Optiboot support, so you can either program your Pro Trinket over USB or with a FTDI cable just like the Pro Mini and friends. The Pro Trinket PCB measures only 1.5" x 0.7" x 0.2" (without headers) but packs the same capability as an Arduino UNO. The Pro Trinket 3V uses the Atmega328P chip, which is the same core chip in the Arduino UNO/Duemilanove/Mini/etc. However, it uses 3V logic and 12MHz clock. Pro Trinket is programmable using the Arduino IDE as you already set up, and 95% of Arduino projects will work out of the box! Here's some things you may have to consider when adapting Arduino sketches: Pins #2 and #7 are not available (they are exclusively for USB) The Pro Trinket 3V runs at 12MHz, this doesn't affect most projects. Only the most timing-specific libraries may be affected, check the documentation! The NeoPixel Library works fine at 12MHz. The onboard power supply is a 3.3V regulator and it can provide 150mA output You cannot plug shields directly into the Pro Trinket There is no Serial-to-USB chip onboard. This is to keep the Pro Trinket small and inexpensive, you can use any FTDI cable to connect to the FTDI port for a Serial connection. The USB connection is for uploading new code only. The bootloader on the Pro Trinket use 4KB of FLASH so the maximum sketch size is 28, 672 bytes. The bootloader does not affect RAM usage. UPC NO: 720189973321 SKU: ADIB00OG5AJCY
Adafruit 3 inch Speaker - 4 Ohm 3W
Key Features: 3" diameter speaker cone Perfect addition to any audio project needing 3W's or less of power 4 handy mounting tabs Listen up! This 3" diameter speaker cone is the perfect addition to any audio project where you need an 4 ohm impedance and 3W or less of power. We particularly like this cone as it has 4 handy mounting tabs 60mm apart. Item Specifics Weight: 50.48 g Size: 77.8 mm x 77.8 mm x 25.49 / 3.06" x 3.06" x 1"
