Pushbutton Switch SPDT Standard Panel Mount, Front

657.5MHz, 761MHz, 892MHz, 1.4725GHz, 1.561GHz, 1.575GHz, 1.602GHz, 1.955GHz, 2.495GHz, 2.45GHz, 3.75GHz, 5.5GHz, 5.5375GHz, 6.525GHz 4G, 5G, Beidou, Galileo, GLONASS, GPS, LTE, Wi-Fi Dome RF Antenna 617MHz ~ 698MHz, 698MHz ~ 824MHz, 824MHz ~ 960MHz, 1.427GHz ~ 1.518GHz, 1.71GHz ~ 2.2GHz, 2.3GHz ~ 2.69GHz, 2.4GHz ~ 2.5GHz, 3.3GHz ~ 4.2GHz, 5.15GHz ~ 5.85GHz, 5.15GHz ~ 5.925GHz, 5.925GHz ~ 7.125GHz 1.6dBi, 2.3dBi, 5dBi, 3.4dBi, 1dBi, 1dBi, 1dBi, 6.6dBi, 5.9dBi, 4.2dBi, 5.4dBi, 7.4dBi, 3dBi, 3.6dBi RP-SMA Male, SMA Male (2) Magnetic

INA169 Current Monitor Power Management Evaluation Board

ZOE-M8Q series GNSS Evaluation Board

HMC6343 series Magnetic, Digital Compass Sensor Evaluation Board

CC2400 series Transceiver Evaluation Board

SPARKFUN LINE SENSOR BREAKOUT -

Teensy 4.1 without Ethernet The Teensy 4.1 represents the latest version of the highly popular development platform, boasting impressive features and enhancements. It is equipped with a powerful ARM Cortex-M7 processor running at 600MHz and a NXP iMXRT1062 chip. Compared to its predecessor, the Teensy 4.0, it offers four times larger flash memory and introduces two additional memory expansion options. The Teensy 4.1 retains the same compact size and shape as the Teensy 3.6, measuring 2.4 inches by 0.7 inches, while delivering enhanced I/O capabilities. These include an ethernet PHY, an SD card socket, and a USB host port. Operating at 600MHz, the Teensy 4.1 consumes approximately 100mA of current and supports dynamic clock scaling. Unlike conventional microcontrollers, where changing the clock speed can lead to issues with baud rates and other functionalities, the hardware of the Teensy 4.1, combined with the software support provided by Teensyduino for Arduino timing functions, enables seamless speed changes. Serial baud rates, audio streaming sample rates, and Arduino functions such as delay() and millis() continue to operate correctly even when the CPU speed is altered. Additionally, Teensyduino's extensions like IntervalTimer and elapsedMillis function properly in conjunction with speed variations. The Teensy 4.1 also incorporates a power shut-off feature. By connecting a pushbutton to the On/Off pin, you can completely disable the 3.3V power supply by holding the button for five seconds, and restore power with a brief button press. Furthermore, if a coin cell is connected to VBAT, the Teensy 4.1's RTC (Real-Time Clock) remains functional and retains date and time information while the power is off. It is worth noting that the Teensy 4.1 can also be overclocked well beyond its default speed of 600MHz. The ARM Cortex-M7 processor introduces a host of powerful CPU features to the realm of real-time microcontroller platforms. With its dual-issue superscalar architecture, the Cortex-M7 is capable of executing two instructions per clock cycle at 600MHz. The effectiveness of simultaneous execution depends on the compiler's ordering of instructions and registers. Initial benchmarks indicate that Arduino-compiled C++ code achieves dual instruction execution in numerically intensive tasks involving integers and pointers about 40% to 50% of the time. The Cortex-M7 also marks the first utilization of branch prediction in an ARM microcontroller. In the case of the M4 architecture, loops and other code requiring branching incur a three-clock-cycle delay. However, with the M7, after a loop has iterated a few times, the branch prediction feature eliminates this overhead, enabling branch instructions to execute in a single clock cycle. The inclusion of Tightly Coupled Memory (TCM) is a notable highlight of the Cortex-M7. TCM provides the M7 processor with rapid, single-cycle access to memory via two 64-bit wide buses. The Instruction Tightly Coupled Memory (ITCM) bus facilitates fetching instructions through a 64-bit path, while the Data Tightly Coupled Memory (DTCM) bus comprises a pair of 32-bit paths, enabling the M7 to perform up to two separate memory accesses within the same cycle. These high-speed buses operate independently from the M7's main AXI bus, which handles communication with other peripherals and memory. Tightly Coupled Memory allows for efficient allocation of up to 512 bytes of memory. When using Teensyduino, your Arduino sketch code is automatically allocated into the ITCM, and all non-malloc memory usage is directed to the fast DTCM, unless you specifically override this optimized default allocation using additional keywords. Memory that is not accessed via the tightly coupled buses is optimized for Direct Memory Access (DMA) access by peripherals. As the majority of the M7's memory access occurs through the two tightly coupled buses, powerful DMA-based peripherals can efficiently access the non-TCM memory, resulting in highly efficient input/output operations. The Cortex-M7 processor integrated into the Teensy 4.1 includes a floating-point unit (FPU) that supports both 64-bit "double" and 32-bit "float" data types. In comparison, the FPU present in the Teensy 3.5, 3.6, and Atmel SAMD51 chips only accelerates 32-bit floating-point operations. Consequently, any usage of double precision or double precision functions such as log(), sin(), and cos() on those platforms relies on slower software-based math computations. However, with the Teensy 4.1, all these calculations are efficiently executed using the hardware-accelerated FPU. Note: It's important to be aware that this Teensy 4.1 does not include headers and must be purchased separately and soldered onto the board yourself. This Teensy 4.1 also does not have Ethernet Capabilities.

HC-SR04 - Ultrasonic Sensor Evaluation Board

ATmega328 RedBoard AVR® ATmega AVR MCU 8-Bit Embedded Evaluation Board

Grove, Qwiic - Cable Assembly

IC Temperature Sensor -55°C ~ 125°C Exposed Lead Wires

8 Ohms General Purpose Speaker 1.36 kHz ~ 2.04 kHz Top Round

NEO-M9N GPS RF Qwiic Platform Evaluation Expansion Board

Cable Assembly For Biomedical Sensor Pad(s)

CY8C29466, VS1063 - Audio Processing Audio Evaluation Board

Imaging Camera Chassis Mount

THAT1646 * Audio Evaluation Board

K20 Teensy 3.2 series ARM® Cortex®-M4 MCU 32-Bit Embedded Evaluation Board