Future 8 Ball Development Board
|Nom du fabricant:||Future Electronics Dev Tools|
|Code de date:||1917|
Spécifications du produit
Informations de livraison:
Cycle de vie du produit:
Fonctionnalités et applications
Future 8 Ball brings to life an effortless design solution that promotes 8-bit PIC® microcontrollers, low-power analog, temperature sensors and OLED displays. In addition, the MikroBus interface gives developers an opportunity to select from hundreds of click boards for their applications. The board allows developers of all skill levels to easily bring their ideas to life and Microchip’s free MPLAB ecosystem completes the ease of developing with Future 8 Ball.
Microchip’s PIC MCU brand is a dominant architecture in the embedded design world. It is one of the most cost-effective MCUs in the market with long term availability. Microchip’s portfolio of power products are designed to be easy to work with, regardless of experience and offer a complete rapid design, prototype and test, for all aspects of system design.
Microchip’s linear Low-Dropout (LDO) regulators feature ultra-low quiescent current, ultra-low dropout voltage, ultra-high ripple rejection, very accurate output, fast transient response, and a broad selection of packages with a wide range of input voltages.
Some features of the Future 8 Ball board:
•PIC16F18446: 8-bit product family features high resolution, intelligent analog and Core Independent Peripherals (CIPs) and the Nano Curiosity board DM164144 will allow you the ability to program and debug your development journey through the MPLAB® ecosystem.
•MCP16251/2: is a compact, high-efficiency, fixed frequency, synchronous step-up DC-DC converter, providing an easy-to-use power supply solution for battery powered applications.
•MCP1812: is a 300mA LDO linear regulator that provides high-current and low-output voltages while maintaining an ultra-low 250nA of quiescent current during device operation.
•AT30TSE754A: temperature sensor is capable of measuring and converting temperatures from -55°C to 125°C to a digital word and provides a typical accuracy of ±0.5°C over the operating temperature range of 0°C to 85°C.
•E92VP: Energizer battery AAA Alka-Zinc Manganese Dioxide 1.5V
•IoT sensor end nodes
•Industrial processing control
•Long-life, battery-powered devices
Developing with the Future 8 Ball is as Easy as 1-2-3