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by using FITC to save the image for Patsburg X79 (Change number of flash components to 0 for ME only, as Intel instructs) then flash it using "fptw64 -ME -F ME8_X79_HED.bin"
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MSP430 microcontrollers CC430F6125 - 20 MHz MCU with 16KB Flash, 2KB SRAM, Sub-1 GHz radio, AES-128, I2C/SPI/UART, 96 seg LCD CC430F6126 - 20 MHz MCU with 32KB Flash, 2KB SRAM, Sub-1 GHz radio, AES-128, I2C/SPI/UART, 96 seg LCD CC430F6127 - 20 MHz MCU with 32KB Flash, 4KB SRAM, Sub-1 GHz radio, AES-128, I2C/SPI/UART, 96 seg LCD CC430F6135 - 20 MHz MCU with 16KB Flash, 2KB SRAM, Sub-1 GHz radio, AES-128, 12-bit ADC, I2C/SPI/UART, 96 seg CC430F6137 - 20 MHz MCU with 32KB Flash, 4KB SRAM, Sub-1 GHz radio, AES-128, 12-bit ADC, I2C/SPI/UART, 96 seg CC430F6147 - 20 MHz MCU with 32KB Flash, 4KB SRAM, Sub-1 GHz radio, AES-128, 10-bit ADC, I2C/SPI/UART, 96 seg MSP430AFE221 - 12 MHz metering AFE with 1 24-bit Sigma-Delta ADC, 4KB Flash, 256B RAM MSP430AFE222 - 12 MHz metering AFE with 2 24-bit Sigma-Delta ADCs, 4KB Flash, 256B RAM MSP430AFE223 - 12 MHz metering AFE with 3 24-bit Sigma-Delta ADCs, 4KB Flash, 256B RAM MSP430AFE231 - 12 MHz metering AFE with 1 24-bit Sigma-Delta ADC, 8KB Flash, 512B RAM MSP430AFE232 - 12 MHz metering AFE with 2 24-bit Sigma-Delta ADCs, 8KB Flash, 512B RAM MSP430AFE233 - 12 MHz metering AFE with 3 24-bit Sigma-Delta ADCs, 8KB Flash, 512B RAM MSP430AFE251 - 12 MHz metering AFE with 1 24-bit Sigma-Delta ADC, 16KB Flash, 512B RAM MSP430AFE252 - 12 MHz metering AFE with 2 24-bit Sigma-Delta ADCs, 16KB Flash, 512B RAM MSP430AFE253 - 12 MHz metering AFE with 3 24-bit Sigma-Delta ADCs, 16KB Flash, 512B RAM MSP430BT5190 - 25 MHz MCU with 256KB Flash, 16KB SRAM, 12-bit ADC, Commercially Licensed Bluetooth v2.I was able to successfully update to ME version 8.
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Information on how to distinguish a MSP-FET of the second generation from a MSP-FET of the first generation can be found in the MSP debugger’s guide (section 5.6.1 – general features).** For use with an older IDE release please refer to this E2E post. **The second generation of the MSP-FET is supported in the IDEs since Code Composer Studio™ v7.0, IAR EW430 v7.1 and IAR EWAR v8.10. You can use either the standard ARM JTAG interface or by using ARM SWD (2-wire JTAG) protocol. Along with the 14-pin debug connector, these kits provide access to pins on your MSP device, making it easy to begin software development right away, even before designing and building your own target board.įor MSP432 devices it is possible to connect to the MSP-FET via the MSP432 Adapter for MSP-FET to boards with ARM 20pin and ARM 10pin connector. This method provides software developers with a simple, in-system debug model.įor convenience early in the software development cycle, the MSP-FET can be used in conjunction with the MSP Target Socket boards. The USB interface connects the MSP-FET to the computer, while the 14-pin connector provides access to the MSP debug emulation port – which consists of either a standard JTAG interface or by using the pin-saving Spy-Bi-Wire (2-wire JTAG) protocol.Ĭonnection between the 14-pin cable and the MSP debug port is commonly handled by placing a standardized 14-pin header connector on the target board and routing the necessary emulation signals to their respective debug pins. It also supports loading programs (often called firmware) to the MSP target using the BSL (bootstrap loader) via UART and I2C communication protocols. This affords the MSP programmer a convenient method for communicating serially between the MSP and a terminal running on the computer. Furthermore, the MSP-FET also provides a Backchannel UART connection between the computer’s USB interface and the MSP UART. It supports programming and real-time debugging over both JTAG and SBW interfaces. The MSP-FET is a powerful emulation development tool – often called a debug probe – which allows users to quickly begin development on MSP low-power microcontrollers (MCU).