SPC574KADPT144S Series

32-bit Power Architecture MCU for Automotive Chassis and Safety Applications

Catalog

32-bit Power Architecture MCU for Automotive Chassis and Safety Applications

Part	Type	Contents	Utilized IC / Part	Board Type	Grade	Program Memory Size	Data Converters	RAM Size	Connectivity	Oscillator Type	Supplier Device Package	Qualification	Voltage - Supply (Vcc/Vdd) [Max]	Voltage - Supply (Vcc/Vdd) [Min]	Speed	Mounting Type	Core Size	Core Processor	Program Memory Type	EEPROM Size	Package / Case	Operating Temperature [Min]	Operating Temperature [Max]	Core Size [custom]	Peripherals	Number of I/O
STMicroelectronics SPC574KADPT144S	MCU 32-Bit	Board(s)	SPC574K	Evaluation Platform
STMicroelectronics SPC574K72E7C6FAY					Automotive	2.5 MB	12b SAR 16b Sigma-Delta	64 K	CANbus Ethernet FlexRay I2C LINbus SPI UART/USART	Internal	176-eLQFP (24x24)	AEC-Q100	5.5 V	3 V	80 MHz 160 MHz	Surface Mount	32-Bit Tri-Core	e200z2 e200z4	FLASH	64 K	176-LQFP Exposed Pad	-40 °C	125 °C
STMicroelectronics SPC574S64E3CEFAR						1.5 MB		96 K	CANbus FlexRay LINbus SPI UART/USART	Internal	100-eTQFP (14x14)		5.25 V	3.135 V	140 MHz	Surface Mount		e200z4	FLASH	64 K	100-TQFP Exposed Pad	-40 °C	125 °C	32-Bit Dual-Core	DMA LVD POR WDT	64
STMicroelectronics SPC574K72E5C6FAY					Automotive	2.5 MB	12b SAR 16b Sigma-Delta	64 K	CANbus Ethernet FlexRay I2C LINbus SPI UART/USART	Internal	144-eTQFP (20x20)	AEC-Q100	5.5 V	3 V	80 MHz 160 MHz	Surface Mount	32-Bit Tri-Core	e200z2 e200z4	FLASH	64 K	144-TQFP Exposed Pad	-40 °C	125 °C
STMicroelectronics SPC574SADPT100S	MCU 32-Bit	Board(s)	SPC574Sx	Evaluation Platform
STMicroelectronics SPC574K72E7C6FAR					Automotive	2.5 MB	12b SAR 16b Sigma-Delta	64 K	CANbus Ethernet FlexRay I2C LINbus SPI UART/USART	Internal	176-eLQFP (24x24)	AEC-Q100	5.5 V	3 V	80 MHz 160 MHz	Surface Mount	32-Bit Tri-Core	e200z2 e200z4	FLASH	64 K	176-LQFP Exposed Pad	-40 °C	125 °C
STMicroelectronics SPC574SADPT144S	MCU 32-Bit	Board(s)	SPC574Sx	Evaluation Platform

Catalog

32-bit Power Architecture MCU for Automotive Chassis and Safety Applications

Key Features

• SPC574KADPT144S

- Open top MCU socket

- Flexible MCU clocking options:40 MHz crystal EVB clock circuit8 MHz EVB clock oscillator circuitExternal clock via SMA connector

- User reset switch with reset status LEDs

- 14-pin standard JTAG connector

- 34-pin connector for Nexus 2 interface

- 10-pin SIPI connector for Serial Interprocessor Interface

- Minimodule dimension: 127 mm X 114 mm

- Standard connectors to SPC58XXMB/SPC57XXMB

• SPC58XXMB/SPC57XXMB

- SPC574Kx modular evaluation system

- Single 12 V external power supply

- Four on-board regulators:5.0 V, 3.3 V and 1.25 V switching regulators5 V linear regulator for the ADC supplies and references

- Master power switch and regulator status LEDs

- Two 240-way high-density expansion connectors for MCU daughter cards

- All MCU signals readily accessible at a port-ordered group of 0.1" pitch headers

- RS232/SCI physical interface and standard DB9 female connector

- Two FlexRAY channels interface with a DB9 connector (for both transceivers) and two alternative connectors

- LINFlexD interface with two different style connectors

- Two high speed CAN-FD channels and two female standard DB9 connectors

- One potentiometer for analog voltage input and four user switches and 4 user LEDs, freely connectable

Description

The SPC574Sx is a family of next generation microcontrollers built on the Power Architecture embedded category. The SPC574Sx family of 32-bit microcontrollers is the latest achievement in integrated automotive application controllers. It belongs to an expanding family of automotive-focused products designed to address the next wave of Chassis and Safety electronics applications within the vehicle. The advanced and cost-efficient host processor core of this automotive controller family complies with the Power Architecture embedded category and only implements the VLE (variable-length encoding) APU, providing improved code density. It operates at speeds of up to 140 MHz and offers high performance processing optimized for low power consumption. It capitalizes on the available development infrastructure of current Power Architecture devices and is supported with software drivers, operating systems and configuration code to assist with users implementations.