Microchip Technology launched the dsPIC33FJ32MC104 family of 16-Bit Digital Signal Controllers. The dsPIC33FJ32MC101, dsPIC33FJ32GP101 and PIC24FJ32MC101 devices are available in 20-pin SOIC and PDIP packages. The dsPIC33FJ32MC102, dsPIC33FJ32GP102 and PIC24FJ32MC102 devices are offered in 28-pin SOIC, SSOP, QFN packages, as well as a 36-pin VTLA package. The dsPIC33FJ32MC104, dsPIC33FJ32GP104 and PIC24FJ32MC104 are offered in 44-pin TQFP, VTLA, and QFN packages. All the devices are available now for sampling and volume production. Prices start at $1.71 each (10,000-unit quantities).
Microchip Technology rolled out 60 MIPS 16-bit dsPIC33E Digital Signal Controllers and PIC24E microcontrollers. The new DSCs and MCUs are based on the dsPIC DSC/PIC24 MCU core. They feature larger (536 KB) Flash memory, more RAM (52 KB), greater I/O capability with 144-pin packages, a USB 2.0 OTG interface, and expanded motor-control, graphics, audio, and real-time embedded-control capabilities (compared to the previous-generation dsPIC DSC/PIC24 MCU core). The dsPIC33E DSCs and PIC24E MCUs are available in 64-pin QFN and TQFP packages, 100- and 144-pin TQFP, 121-pin BGA, and 144-pin LQFP packages. Pricing starts at $4.98 each (10,000-unit quantities).
Microchip Technology introduced their Bluetooth Evaluation Kit, which is an easy, cost-effective and flexible add-on for embedded evaluation and development using many 16/32-bit PIC microcontrollers or dsPIC digital signal controllers (DSCs). The kit features Microchip Bluetooth PICtail Plus Daughter Board, 16-bit USB PIC24FJ256GB110 and 32-bit CAN/USB PIC32MX795F512L Microcontroller Plug-in Modules, and CandleDragon’s dotstack Bluetooth demonstration stack and SPP profile. The Microchip Bluetooth Evaluation Kit (part # DM183036) is available now for $109.99.
Microchip Technology introduced their Digital LED Lighting Development Kit. The Digital LED Lighting Development Kit enables engineers to develop LED lighting products with a dsPIC33 GS Digital Signal Controller (DSC). Designers can create a 100% digitally controlled ballast function while including features like dimming and color hue control. Complete documentation for Microchip’s Digital LED Lighting Development Kit, including software and Gerber files, can be downloaded for free.
Microchip Technology introduced the Quarter Brick DC/DC Converter Reference Design and DC/DC LLC Converter Reference Design. The reference designs feature intelligent control of the power converter and serial system communication, remote control and monitoring, and full fault protection. The reference designs are implemented using Microchip’s dsPIC33F GS digital-power Digital Signal Controllers (DSCs), which provide fully digital control of the power-conversion and system-management functions. The DC/DC Reference Designs (software, Gerber files, MATLAB models, Webinars and application notes) can be downloaded for free.
The Microchip dsPIC33F GS 16-bit dsPIC digital signal controllers (DSC) can be configured for a variety of topologies. The eight new DSCs offer up to 18 channels of Pulse-Width-Modulators (PWMs) with 1 nanosecond resolution, enabling a number of completely independent digital control loops. The dsPIC33F GS DSCs start at $2.93 each in 10,000-unit quantities. The dsPIC33FJ32GS406, dsPIC33FJ64GS406, dsPIC33FJ32GS606 and dsPIC33FJ64GS606 are available in 64-pin TQFP and 9×9 mm QFN packages. The dsPIC33FJ32GS608 and dsPIC33FJ64GS608 are available in an 80-pin TQFP package. The dsPIC33FJ32GS610 and dsPIC33FJ64GS610 are available in a 100-pin TQFP package.
Microchip Technology introduced a portfolio of semiconductors specified for operation up to 150° C ambient — including 8- and 16-bit PIC microcontrollers (MCUs) and dsPIC Digital Signal Controllers (DSCs), serial EEPROM devices, and analog products. Qualified and tested in accordance with AEC-Q100 Grade 0 requirements, the devices are optimum for under-the-hood automotive applications; extreme-environment industrial applications, such as down-hole oil drilling and lighting; and for medical applications such as devices that are sterilized in autoclaves. Engineers can now add intelligence directly into high-temperature applications, where the silicon can be mounted directly onto high-temperature assemblies.