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Dual MAX31865 PT-100 RTD to Digital Breakout
SEN-30202-PT100
Dual channel breakout board for the MAX31865 RTD-to-Digital converter from Maxim. Two breakout hardware configurations are available standard, designed to interface with either the PT100 or PT1000 platinum RTDs. For non-standard applications, including thermistors, custom hardware configurations can be accommodated. Contact Technical Support for more information. RTD devices may be wired in 2, 3 or 4-wire configurations using the 4-pin screw terminal input. The MAX31865 breakout is interfaced via 3 or 4-wire SPI with a data-ready output for specific operating modes. An LDO and a high-speed level shifter are included to allow interfacing with microcontroller devices between 3.0V and 5V (all Arduinos, Raspberry PI, etc) without sacrificing device performance.
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MAX31855 J-Type Thermocouple Sensor Breakout
SEN-30003-J
Breakout board for the MAX31855J digital thermocouple interface ICs by Maxim. Measured temperature range is -210C-1200C with known thermal characteristics and output resolution of 0.25C. This sensor supports a larger operating range (specifically in the negative range) than its predecessors, the MAX6674 and MAX6675, though it is not pin-pin compatible. This board is interfaced with a 0.1" 2x5 pin header (8-pins used), has four vertical mini thermocouple connectors and four mounting holes for standoffs and 4-40 screws. The SEN-30003 is interfaced via 3 or 4-wire SPI with a data-ready output for specific operating modes. An LDO and a high-speed level shifter are included to allow interfacing with microcontroller devices between 3.0V and 5V (all Arduinos, Raspberry PI, etc) without sacrificing device performance (many other level shifters reduce data rates to below 500 kHz).
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Open-source All-in-one Instrumentation
OpenScope MZ
OpenScope MZ is a USB/WiFi oscilloscope with a Waveform Generator and Logic Analyzer. What does that mean? It's a device that you connect to your computer (through WiFi or a USB cable) that allows you to acquire, analyze, visualize, and control signals from circuits, sensors, and other electronic devices. Unlike typical USB instruments, OpenScope MZ can also be programmed to run standalone like an Arduino or Raspberry Pi, but with high-speed precision analog and digital I/O.
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SparkFun MicroMod RP2040 Processor
The SparkFun MicroMod Pi RP2040 Processor Board is a low-cost, high-performance board with flexible digital interfaces featuring the Raspberry Pi Foundation's RP2040 microcontroller. With the MicroMod M.2 connector, connecting your MicroMod Pi RP2040 Processor Board is a breeze. Simply match up the key on your processor's beveled edge connector to the key on the M.2 connector and secure it with a screw (included with all Carrier Boards).
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SparkFun RP2040 MikroBUS Development Board
The SparkFun RP2040 mikroBUS Development Board is a low-cost, high performance platform with flexible digital interfaces featuring the Raspberry Pi Foundation's RP2040 microcontroller. Besides the Thing Plus or Feather PTH pin layout, the board also includes a microSD card slot, 16MB (128Mbit) flash memory, a JST single cell battery connector (with a charging circuit and fuel gauge sensor), an addressable WS2812 RGB LED, JTAG PTH pins, four (4-40 screw) mounting holes, our signature Qwiic connectors, and a mikroBUS socket.
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Raspberry Pi Zero w/ Wireless LAN & Bluetooth
Raspberry Pi Zero W
Full feature list for Zero W: 1GHz, single-core CPU. 512MB RAM. Mini-HDMI port. Micro-USB On-The-Go port. Micro-USB power. HAT-compatible 40-pin header. Composite video and reset headers. CSI camera connector. 802.11n wireless LAN. Bluetooth 4.0. We imagine you’ll find all sorts of uses for Zero W. It makes a better general-purpose computer because you’re less likely to need a hub: if you’re using Bluetooth peripherals you might well end up with nothing at all plugged into the USB port. And of course it’s a great platform for experimenting with IoT applications.
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Mini Compute module
3 Model B
The Raspberry Pi 3 is the third generation Raspberry Pi. It replaced the Raspberry Pi 2 Model B in February 2016. Compared to the Raspberry Pi 2 it has: A 1.2GHz 64-bit quad-core ARMv8 CPU, 882.11n Wireless LAN, Bluetooth 4.1, Bluetooth Low Energy (BLE). 1GB RAM, 4 USB ports, 40 GPIO pins, Full HDMI port, Ethernet port, Combined 3.5mm audio jack and composite video, Camera interface (CSI), Display interface (DSI), Micro SD card slot (now push-pull rather than push-push), VideoCore IV 3D graphics core.
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USB Line Scan Camera
Inexpensive
Compact USB line scan camera with high sensitivity and resolutions from 2048 to 4096 pixels. The programming interfaces, including drivers, libraries and programming examples, enable the USB line camera to be integrated into your own application. The line scan camera is supported under the following operating systems:*Windows*Linux*Linux ARM 32Bit (Raspberry PI)*Linux ARM 64Bit (NanoPi M4 & NVIDIA Jetson Nano)
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USB Line Scan Camera
TinyUSB
*Very small and compact dimensions, only 40 x 30 mm²*High speed, up to 9kHz line rate*Programmable amplifier and offset*Supported operating systems:****Windows**Linux**Linux ARM32 (Raspberry PI)
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Line Scan Camera
8M Series
Compact USB line scan camera with high sensitivity and resolutions from 512 to 4096 pixels. The programming interfaces, including drivers, libraries and programming examples, enable the USB line scan camera to be integrated into your own application. The line scan camera is supported under the following operating systems:*Windows*Linux*Linux ARM 32Bit (Raspberry PI)*Linux ARM 64Bit (NanoPi M4 & NVIDIA Jetson Nano)
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Visual Designer For Arduino™
AVR And Raspberry Pi®
Proteus Visual Designer combines world class Proteus VSM simulation with an easy to use flowchart editor and a gallery of virtual hardware to provide a truly integrated and intuitive development environment for Arduino and Raspberry Pi. The peripheral gallery makes hardware design easy. Simply add a shield or sensor from the gallery and Visual Designer will automatically place the correct circuitry on the Proteus schematic for you and add some simple methods to Visual Designer that allow you to control the hardware. The software is then designed as a flowchart so you can easily drag and drop these methods along with decisions, delays and assignments to drive the hardware. Compile and simulate at the press of the button, making use of our renowned simulation and debugging technology to watch your design come to life on screen.Finally, transfer to the physical hardware with a single mouse click and see it working first time in the real world.
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Hardware Debugger for the Raspberry Pi
TAP-HAT
The TAP-HAT is a low-cost hardware debugger for the Raspberry Pi®. Its flexible multi-modal design supports USB-connected hardware debugging of a Pi board, connection of external hardware debuggers to a Pi, or use of the Pi as a network attached hardware debugger.