ATSAME70N21

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Version vom 17. Januar 2019, 00:09 Uhr von Adler36 (Diskussion | Beiträge) (auf ARM Cortex-M7 verlinkt)
Name Value
Part Family SAM E70
Max CPU Speed MHz 300
Program Memory Size (KB) 2048
SRAM (KB) 384
Auxiliary Flash (KB) 0.512
SDIO/SD-CARD/eMMC 1
Crypto Engine Yes
Temperature Range (C) -40 to 105
Operating Voltage Range (V) 1.62 to 3.6
Direct Memory Access Channels 24
SPI 4
I2C 3
Peripheral Pin Select / Pin Muxing Yes
Ethernet Ethernet AVB
Number of Ethernet Ports 1
Number of USB Modules 1
USB Interface Yes
Number of CAN modules 2
Type of CAN module CAN-FD
ADC Input 10
Max ADC Resolution (Bits) 12
Max ADC Sampling Rate (ksps) 2000
Number of DACs 1
Input Capture 8
Standalone Output Compare/Standard PWM 8
Motor Control PWM Channels 16
Max 16-bit Digital Timers 12
Number of Comparators 1
Internal Oscillator 4, 8, 12 MHz, 32 KHz
Hardware RTCC/RTC Yes
Max I/O Pins 75
Pincount 100
Quadrature Encoder Interface 1

The Microchip SAME70N21 devices are members of a flash microcontrollers family based on the high-performance 32-bit ARM Cortex-M7 processor with Floating Point Unit (FPU). These devices operate at up to 300MHz and feature up to 2048 Kbytes of Flash, up to 384 Kbytes of multi-port SRAM and configurable Instruction and Data Tightly Couple Memories to leverage the advanced DSP capabilities of the core. SAME70N21 features multiple networking/connectivity peripherals, including CAN-FD interface and one 1O/100Mbps Ethernet MAC with specific hardware support for Audio Video Bridging (AVB). Additional communication interfaces include a HS USB Host and Device, a HS SDCard/SDIO/MMC interface, USARTs, SPIs and multiple TWIs. Analog features include dual 2Msps 12-bit ADCs with analog front end offering offset and gain error correction, and 2Msps 12-bit DAC.

The SAME70N21 is available in 100-pin QFP and BGA package options. Note: While there are no plans to change the availability status of Revision A for this device, new designs should use Revision B for prototypes and production.


Additional Features

  • Core
    • ARM® Cortex®-M7 running up to 300MHz
    • 16 Kbytes of ICache and 16 Kbytes of DCache with Error Code Correction (ECC)
    • Single- and double-precision HW Floating Point Unit (FPU)
    • Memory Protection Unit (MPU) with 16 zones
    • DSP Instructions, Thumb®-2 Instruction Set
    • Embedded Trace Module (ETM) with instruction trace stream, including Trace Port Interface Unit (TPIU)


  • Memories
    • 2048 Kbytes embedded Flash with unique identifier and user signature for user-defined data
    • 384 Kbytes embedded Multi-port SRAM
    • Tightly Coupled Memory (TCM) interface with four configurations (disabled, 2 x 32 Kbytes, 2 x 64 Kbytes, 2 x 128 Kbytes)
    • 16 Kbytes ROM with embedded Bootloader routines (UART0, USB) and IAP routines
    • 16-bit Static Memory Controller (SMC) with support for SRAM, PSRAM, LCD module, NOR and NAND Flash with on-the-fly scrambling
    • 16-bit SDRAM Controller (SDRAMC) interfacing up to 256 MB and with on-the-fly scrambling


  • System
    • Embedded voltage regulator for single-supply operation
    • Power-on-Reset (POR), Brown-out Detector (BOD) and Dual Watchdog for safe operation
    • Quartz or ceramic resonator oscillators: 3 to 20 MHz main oscillator with failure detection, 12 MHz or 16 MHz needed for USB operations. Optional low-power 32.768 kHz for RTC or device clock
    • RTC with Gregorian calendar mode, waveform generation in low-power modes
    • RTC counter calibration circuitry compensates for 32.768 kHz crystal frequency variations
    • 32-bit low-power Real-time Timer (RTT)
    • High-precision Main RC oscillator with 12 MHz default frequency for device startup. In-application trimming access for frequency adjustment. 8/12 MHz are factory-trimmed.
    • 32.768 kHz crystal oscillator or Slow RC oscillator as source of low-power mode device clock (SLCK)
    • One 500 MHz PLL for system clock, one 480 MHz PLL for USB high-speed operations
    • Temperature Sensor
    • One dual-port 24-channel central DMA Controller (XDMAC)


  • Low-Power Features
    • Low-power Sleep, Wait and Backup modes, with typical power consumption down to 1.1 μA in Backup mode with RTC, RTT and wakeup logic enabled
    • Ultra-low-power RTC and RTT
    • 1 Kbyte of backup RAM (BRAM) with dedicated regulator


  • Peripherals
    • One Ethernet MAC (GMAC) 10/100 Mbps in MII mode and RMII with dedicated DMA. IEEE1588 PTP frames and 802.3az Energy-efficiency support. Ethernet AVB support with IEEE802.1AS Timestamping and IEEE802.1Qav credit-based traffic-shaping hardware support
    • USB 2.0 Device/Mini Host High-speed (USBHS) at 480 Mbps, 4-Kbyte FIFO, up to 10 bidirectional endpoints, dedicated DMA
    • 12-bit ITU-R BT. 601/656 Image Sensor Interface (ISI)
    • Two master Controller Area Networks (MCAN) with Flexible Data Rate (CAN-FD) with SRAM-based mailboxes, time- and event-triggered transmission
    • ISO CAN FD; ISO 1189801:2015 (Revision B only)
    • Three USARTs. USART0/1/2 support LIN mode, ISO7816, IrDA®, RS-485, SPI, Manchester and Modem modes; USART1 supports LON mode.
    • Five 2-wire UARTs with SleepWalkingââCžÂ¢ support
    • Three Two-Wire Interfaces (TWIHS) (I2C-compatible) with SleepWalkingââCžÂ¢ support
    • Quad I/O Serial Peripheral Interface (QSPI) interfacing up to 256 MB Flash and with eXecute-In-Place and on-the-fly scrambling
    • Two Serial Peripheral Interfaces (SPI)
    • One Serial Synchronous Controller (SSC) with I2S and TDM support
    • Two Inter-IC Sound Controllers (I2SC)
    • One High-speed Multimedia Card Interface (HSMCI) (SDIO/SD Card/e.MMC)
    • Four Three-Channel 16-bit Timer/Counters (TC) with Capture, Waveform, Compare and PWM modes, constant on time. Quadrature decoder logic and 2-bit Gray Up/Down Counter for stepper motor
    • Two 4-channel 16-bit PWMs with complementary outputs, Dead Time Generator and eight fault inputs per PWM for motor control, two external triggers to manage power factor correction (PFC), DC-DC and lighting control.
    • Two Analog Front-End Controllers (AFEC), each supporting up to 12 channels with differential input mode and programmable gain stage, allowing dual sample-and-hold at up to 1.7 Msps. Offset and gain error correction feature.
    • One 2-channel 12-bit 1 Msps-per-channel Digital-to-Analog Controller (DAC) with Differential and Over Sampling modes
    • One Analog Comparator Controller (ACC) with flexible input selection, selectable input hysteresis


  • Cryptography
    • True Random Number Generator (TRNG)
    • AES: 256-, 192-, 128-bit Key Algorithm, Compliant with FIPS PUB-197 Specifications
    • Integrity Check Monitor (ICM). Supports Secure Hash Algorithm SHA1, SHA224 and SHA256.


  • I/O
    • Up to 114 I/O lines with external interrupt capability (edge- or level-sensitivity), debouncing, glitch filtering and On-die Series Resistor Termination
    • Five Parallel Input/output Controllers (PIO)


  • Voltage
    • Single Supply voltage from 1.7V to 3.6V for Industrial Temperature Devices


  • Packages
    • LQFP100, 100-lead LQFP, 14 x 14 mm, pitch 0.5 mm
    • TFBGA100, 100-ball TFBGA, 9 x 9 mm, pitch 0.8 mm