Template for Arduino Uno R4 Shield. #Arduino #Uno #Shield #template #project-template #project

#Shield for the #Arduino #Uno R4 WiFi.

Second Revision of the Alyx Base V2 Microcontroller Development Board. License: CERN OHL v2 Permissive

License: CERN OHL v2 Permissive

First Revision of the Alyx Base V2 Microcontroller Development Board. License: CERN OHL v2 Permissive

The power of Raspberry Pi 5 in a compact form factor for deeply embedded applications. raspberry pi5 #rpi #pi

M-Key M.2 SSD Slot

Initial Revision of the Alyx Base V2 Microcontroller Development Board. License: CERN OHL v2 Permissive

#Template compatible with the #Arduino #Modulino Platform

#Template for the #Raspberry #Pi #µHAT Standard

#Template for the #Raspberry #Pi #HAT Standard

#Temlpate for a #Raspberry #Pi #Pico #HAT

Bluetooth, WiFi 802.11b/g/n, Bluetooth v4.2 Transceiver Module 2.4GHz Stamped Metal Surface Mount #commonpartslibrary #module #transceiver #wireless #bluetooth #rf

The Semtech SRDA3.3-6 and SRDA05-6 RailClamp® Low Capacitance TVS Arrays are robust surge-rated diode arrays designed to protect high-speed data interfaces from overvoltage conditions caused by electrostatic discharge (ESD), electrical fast transients (EFT), and lightning. These components integrate surge-rated, low capacitance steering diodes and a transient voltage suppression (TVS) diode into a single package, providing protection for six I/O lines and a power supply line. With a low operating voltage of 3.3V for the SRDA3.3-6 and 5V for the SRDA05-6, these devices exhibit low clamping voltage and capacitance below 15pF, making them ideal for applications such as USB power and data line protection, T1/E1 secondary IC side protection, HDSL, SDSL, video line protection, and microcontroller input protection. The SRDA series complies with IEC 61000-4-2 (ESD) standards up to 15kV (air) and 8kV (contact), IEC 61000-4-4 (EFT) standards up to 40A (5/50ns), and IEC 61000-4-5 (Lightning) standards up to 25A (8/20μs). These devices are housed in a JEDEC SO-8 package, are Pb-Free, Halogen-Free, RoHS/WEEE compliant, and feature a solid-state technology design for reliable performance.

The Semtech SRDA3.3-6 and SRDA05-6 RailClamp® Low Capacitance TVS Arrays are robust surge-rated diode arrays designed to protect high-speed data interfaces from overvoltage conditions caused by electrostatic discharge (ESD), electrical fast transients (EFT), and lightning. These components integrate surge-rated, low capacitance steering diodes and a transient voltage suppression (TVS) diode into a single package, providing protection for six I/O lines and a power supply line. With a low operating voltage of 3.3V for the SRDA3.3-6 and 5V for the SRDA05-6, these devices exhibit low clamping voltage and capacitance below 15pF, making them ideal for applications such as USB power and data line protection, T1/E1 secondary IC side protection, HDSL, SDSL, video line protection, and microcontroller input protection. The SRDA series complies with IEC 61000-4-2 (ESD) standards up to 15kV (air) and 8kV (contact), IEC 61000-4-4 (EFT) standards up to 40A (5/50ns), and IEC 61000-4-5 (Lightning) standards up to 25A (8/20μs). These devices are housed in a JEDEC SO-8 package, are Pb-Free, Halogen-Free, RoHS/WEEE compliant, and feature a solid-state technology design for reliable performance.

The BOSCH BMM350 is a high-performance 3-axis magnetic sensor designed for a wide range of consumer applications, including magnetic compass functionality, virtual/augmented/mixed reality applications, high-end gaming, platform stabilization for image stabilization, and indoor navigation and dead-reckoning in robotics. Manufactured by Bosch Sensortec, this component leverages Tunnel Magneto Resistance (TMR) technology to provide precise magnetic-to-digital conversion. The BMM350 is housed in an ultra-small Wafer Level Chip Scale Package (WLCSP) measuring 1.28mm x 1.28mm x 0.5mm, making it ideally suited for mobile applications where space is at a premium. It features digital interfaces (I2C, I3C) for flexible system integration and operates across a wide voltage range from 1.72V to 3.6V. This sensor is designed to deliver high performance with an excellent temperature behavior characterized by low temperature coefficients for offset (TCO) and sensitivity (TCS), ensuring reliability and accuracy across its operational temperature range of -40°C to +85°C. Each device is tested and calibrated, ready for integration into a variety of applications, supported by an API for quick system development.

The Bosch BME688 is a state-of-the-art digital low power gas, pressure, temperature, and humidity sensor that integrates Artificial Intelligence (AI) capabilities, making it the first of its kind in the market. Housed in a compact 3.0 x 3.0 x 0.9 mm³ metal lid LGA package, it is designed to meet the demands of mobile and connected applications where size and power consumption are critical factors. The sensor is capable of detecting Volatile Organic Compounds (VOCs), volatile sulfur compounds (VSCs), carbon monoxide, and hydrogen in the part per billion (ppb) range. Building on the features of the BME680, the BME688 introduces a gas scanner function that enhances its sensitivity, selectivity, data rate, and power consumption for specific applications. With the help of Bosch AI-Studio tool, customers can train the BME688 gas scanner for their specific needs, making it an ideal choice for a wide range of applications including indoor air quality measurement, detection of bad breath or spoiled food, early odor detection, and smart home devices among others. The BME688 operates within a supply voltage range of 1.71 V to 3.6 V and offers various modes of operation to balance power consumption and measurement responsiveness, catering to both portable and stationary applications.

The RP2350, developed by Raspberry Pi Ltd, is a high-performance microcontroller designed to cater to a broad range of applications requiring efficient power management, advanced security features, and versatile IO options. This microcontroller stands out with its dual-core architecture, featuring either Cortex-M33 or Hazard3 processors operating at up to 150 MHz, ensuring robust performance for complex applications. It boasts a substantial 520 KB of on-chip SRAM distributed across 10 independent banks, enhancing parallel data processing capabilities. Additionally, the RP2350 supports up to 16 MB of external QSPI flash/PSRAM for extensive program and data storage, further expandable via an optional second chip-select. A notable feature of the RP2350 is its integrated on-chip switched-mode power supply, designed to generate core voltage efficiently, complemented by a low-quiescent-current LDO mode for reduced power consumption in sleep states. Security is a paramount feature of the RP2350, offering options for boot signing with key fingerprint in OTP, hardware mitigations against fault injection attacks, and a hardware SHA-256 accelerator for cryptographic operations. The microcontroller is also equipped with a comprehensive set of peripherals, including USB 1.1 controller and PHY, multiple UARTs, SPI, and I2C controllers, 24 PWM channels, and 12 programmable IO (PIO) state machines, providing extensive interface capabilities. The RP2350 is available in QFN-60 and QFN-80 packages, with or without flash-in-package options, catering to various design requirements and application needs.

The RP2350, developed by Raspberry Pi Ltd, is a high-performance microcontroller designed to cater to a broad range of applications requiring efficient power management, advanced security features, and versatile IO options. This microcontroller stands out with its dual-core architecture, featuring either Cortex-M33 or Hazard3 processors operating at up to 150 MHz, ensuring robust performance for complex applications. It boasts a substantial 520 KB of on-chip SRAM distributed across 10 independent banks, enhancing parallel data processing capabilities. Additionally, the RP2350 supports up to 16 MB of external QSPI flash/PSRAM for extensive program and data storage, further expandable via an optional second chip-select. A notable feature of the RP2350 is its integrated on-chip switched-mode power supply, designed to generate core voltage efficiently, complemented by a low-quiescent-current LDO mode for reduced power consumption in sleep states. Security is a paramount feature of the RP2350, offering options for boot signing with key fingerprint in OTP, hardware mitigations against fault injection attacks, and a hardware SHA-256 accelerator for cryptographic operations. The microcontroller is also equipped with a comprehensive set of peripherals, including USB 1.1 controller and PHY, multiple UARTs, SPI, and I2C controllers, 24 PWM channels, and 12 programmable IO (PIO) state machines, providing extensive interface capabilities. The RP2350 is available in QFN-60 and QFN-80 packages, with or without flash-in-package options, catering to various design requirements and application needs.

The RP2350, developed by Raspberry Pi Ltd, represents a significant advancement in the field of microcontrollers, building upon the foundation laid by its predecessor, the RP2040. This component is designed to cater to a wide range of applications requiring dual-core processing capabilities, with the option to switch between Dual Cortex-M33 or Hazard3 processors operating at up to 150 MHz. It features an extensive 520 kB of on-chip SRAM distributed across 10 independent banks, alongside 8 KB of one-time-programmable (OTP) storage. External memory interfaces are well-supported, with provisions for up to 16 MB of external QSPI flash/PSRAM, and an additional 16 MB accessible via an optional second chip-select, facilitating extensive code and data storage options. Security features are robust, including options for boot signing enforced by on-chip mask ROM, with key fingerprints stored in OTP, and hardware mitigations against fault injection attacks. The RP2350 also boasts a comprehensive set of peripherals, including 2x UARTs, 2x SPI controllers, 2x I2C controllers, 24x PWM channels, and a USB 1.1 controller with PHY for host and device support, among others. Programmable IO (PIO) state machines enhance its flexibility, enabling the implementation of custom peripherals. For developers, the RP2350 offers low-power operation modes and a built-in boot ROM that supports direct boot from external flash or OTP, serial boot from USB or UART, and secure boot with code signature enforcement. The device is available in QFN-60 (7x7 mm) and QFN-80 (10x10 mm) packages, with or without built-in flash, catering to diverse application requirements. This microcontroller is a compelling choice for sophisticated projects that demand high performance, extensive memory and peripheral support, and advanced security features.

The RP2350, developed by Raspberry Pi Ltd, represents a significant advancement in the field of microcontrollers, building upon the foundation laid by its predecessor, the RP2040. This component is designed to cater to a wide range of applications requiring dual-core processing capabilities, with the option to switch between Dual Cortex-M33 or Hazard3 processors operating at up to 150 MHz. It features an extensive 520 kB of on-chip SRAM distributed across 10 independent banks, alongside 8 KB of one-time-programmable (OTP) storage. External memory interfaces are well-supported, with provisions for up to 16 MB of external QSPI flash/PSRAM, and an additional 16 MB accessible via an optional second chip-select, facilitating extensive code and data storage options. Security features are robust, including options for boot signing enforced by on-chip mask ROM, with key fingerprints stored in OTP, and hardware mitigations against fault injection attacks. The RP2350 also boasts a comprehensive set of peripherals, including 2x UARTs, 2x SPI controllers, 2x I2C controllers, 24x PWM channels, and a USB 1.1 controller with PHY for host and device support, among others. Programmable IO (PIO) state machines enhance its flexibility, enabling the implementation of custom peripherals. For developers, the RP2350 offers low-power operation modes and a built-in boot ROM that supports direct boot from external flash or OTP, serial boot from USB or UART, and secure boot with code signature enforcement. The device is available in QFN-60 (7x7 mm) and QFN-80 (10x10 mm) packages, with or without built-in flash, catering to diverse application requirements. This microcontroller is a compelling choice for sophisticated projects that demand high performance, extensive memory and peripheral support, and advanced security features.

USB-C (USB TYPE-C) USB 3.2 Gen 2 (USB 3.1 Gen 2, Superspeed + (USB 3.1)) Receptacle Connector 24 Position Surface Mount, Right Angle; Through Hole #commonpartslibrary #connector #usbc #tht

Welcome to your new project. Imagine what you can build here.

Welcome to your new project. Imagine what you can build here.

The ESP-PSRAM64 and ESP-PSRAM64H, introduced by Espressif Systems, are 64 Mbit serial pseudo SRAM devices designed for high-speed, low-voltage applications in the electronics industry. These components are organized in an 8Mx8 bit configuration and utilize high-performance CMOS technology for reliability and efficiency. The ESP-PSRAM64 operates at a voltage of 1.8V and supports a maximum clock rate of 144 MHz, while the ESP-PSRAM64H is designed for 3.3V operations with a maximum clock rate of 133 MHz. Both variants offer flexible access through Serial Peripheral Interface (SPI) and Quad Peripheral Interface (QPI) modes, catering to applications requiring fast data rates. They are packaged in SOP8-150 mil, ensuring compatibility with standard PCB layouts. Key features include burst operations with a lower max input clock frequency of 84 MHz when crossing page boundaries, unlimited reads and writes to the memory array, and a self-initialization process upon power-up. These PSRAM devices are ideal for applications in embedded systems where high bandwidth and low power consumption are critical.

The ESP-PSRAM64 and ESP-PSRAM64H, introduced by Espressif Systems, are 64 Mbit serial pseudo SRAM devices designed for high-speed, low-power memory applications. These components are organized in an 8Mx8 bit configuration and are fabricated using high-performance, high-reliability CMOS technology. The ESP-PSRAM64 operates at a voltage of 1.8V and supports a maximum clock rate of 144 MHz, while the ESP-PSRAM64H operates at 3.3V with a maximum clock rate of 133 MHz. Both devices feature a Serial Peripheral Interface (SPI) for standard communication, with the addition of Quad Peripheral Interface (QPI) support for applications requiring faster data rates. They are designed to support unlimited reads and writes to the memory array, with burst operations across page boundaries limited to a maximum input clock frequency of 84 MHz. The components come in an SOP8-150 mil package and are specified for operation over a temperature range of -40℃ to 85℃. These PSRAM devices are ideal for applications needing high data bandwidth and storage capacity, such as in embedded systems, IoT devices, and portable electronics, offering engineers flexibility in power management and interface options.

ARM® Cortex®-M0+ - Microcontroller IC 32-Bit Dual-Core 133MHz External Program Memory 56-QFN (7x7) Alternative MPN #SC0914(7) #SC0914(13) #RaspberryPi #Raspberry #Pi #RPi #Pico

10 (8 + 2) Position Card Connector Secure Digital - microSD™ Surface Mount, Right Angle Gold #commonpartslibrary #connector #memoryconnector #pccardsocket