Atmel ARM-based processors

Atmel ARM-based processors are microcontrollers and microprocessors integrated circuits, by Atmel, that are based on various 32-bit ARM processor cores, with Atmel-designed peripherals and tool support. Atmel ARM families complement their 8-bit AVR and 32-bit AVR32 lines of microcontrollers.

The "SAM" moniker in Atmel part numbers stands for "SMART Atmel microcontroller". The SMART brand includes application-specific ARM-based parts for Wi-Fi, such as the SmartConnect and Smart Direct lines, as well as ARM-based ICs meant for smart energy products such as gas and power meters. The SMART line is a key component of Atmel’s Internet of Things (IoT) strategy.

Overview

Main articles: ARM architecture and ARM Cortex-M

ARM licenses the core design for a series of 32-bit processors. ARM does not manufacture any complete silicon products, just intellectual property (IP). The ARM processors are RISC (reduced instruction set computing). This is similar to Atmel’s AVR 8-bit products, a later adoption of RISC architecture. Whereas the AVR architecture used Harvard architecture exclusively, some ARM cores are Harvard (Cortex-M3) and others are Von Neumann architecture (ARM7TDMI).

Semiconductor companies such as Atmel take the ARM cores, which use a consistent set of instructions and register naming, and add peripheral circuits such as ADCs (analog to digital converters), clock management, and serial communications such as USART, SPI, CAN, LIN, and I2C. Atmel made efforts to adapt advanced peripherals and power management that used very little power and can operate independently without having the CPU core powered up (sleepwalking). They also provided for DMA between external interfaces and memories increasing data throughput with minimal processor intervention.

Atmel sells both MCUs (microcontroller units) that have internal Flash memory, and MPUs (microprocessor units) that use external memory. In addition to the chips themselves, Atmel offers demo boards, both on its website, and through distribution channels such as Digi-key, Element14, Arrow, Avnet, Future Electronics, and Mouser.

Some of the "Atmel | SMART"-line of ARM-based products are meant for specific applications, such as their SAM4CP that is used in smart-grid energy meters. There are also Atmel wireless products built on ARM cores, such as the SmartConnect and Smart Direct wireless chips and modules.

History

Products

The "Atmel | SMART"-branding is an umbrella for all AT91 ARM-based parts, even those without "AT91" in the name.

Microcontrollers

Microcontrollers have internal program memory as well as the conventional internal registers and RAM. Atmel ARM MCUs range from the SAM D10 series with as few as 14 pins, to the 144-pin SAM S70 and SAM E70 products.

The SAM4S, SAM4N, SAM3S, SAM3N, SAM7S (64-pin) families have pin-compatible IC footprints, except for USB device, though they are not voltage level compatible.[17]

SAM D

The SAM D[18] family from Atmel consists of four different sub series (SAM D10, SAM D11, SAM D20, SAM D21). The devices are all based on the ARM Cortex-M0+ processor and offer different pin, memory, and feature combinations. The devices are pin- and code-compatible and share peripherals like the Event System and the SERCOM module. The Arduino Zero board uses a ATSAMD21G18 chip.[19]

SAM 3

Arduino Due board with Atmel ATSAM3X8E (ARM Cortex-M3 core) microcontroller

In 2009 Atmel announced the ATSAM3U line of flash-based microcontrollers based on the ARM Cortex-M3 processor, as a higher end evolution of the SAM7 microcontroller products. They have a top clock speed in the range of 100 MHz, and come in a variety of flash sizes. In the summer 2009 these parts were still sampling, and a development board had recently been made available.

In December 2009, the ATSAM3S line was announced. This features several enhancements for lower power operation and bill of materials cost reduction.

Market watchers observe that these Cortex-M3 products are competition for Atmel's own AVR32 UC3A products. Both are microcontrollers with largely identical peripherals and other hardware technology, flash-based, similar clock speeds, and with dense 16/32 bit RISC instruction sets.

SAM 4

The ATSAM4 is based on the ARM Cortex-M4 core. The SAM4E includes a FPU (Floating-Point Unit). The SAM4C includes a dual-core ARM Cortex-M4 (one core with a FPU).

SAM x70

These are based on the ARM Cortex-M7 core.

Legacy microcontrollers

AT91SAM7

There are a wide variety of AT91 flash-based microcontrollers, based on ARM7TDMI cores. These chips have a top clock speed in the range of 60 MHz, and come with a variety of flash sizes and peripheral sets.

AT91SAM9

The AT91SAM9XE flash-based microcontrollers are based on the ARM926ej-s cores. They have a top clock speed in the range of 200 up to 400 MHz, and come with a variety of flash sizes. They somewhat resemble flash-equipped AT91SAM9260 chips.

Atmel introduced the AT91SAM9 processors (using the ARM926ej-s core, with the ARMv5TEJ architecture) as its first broad market follow on to the highly successful AT91rm9200 processor. These processors improved on that predecessor by using less power, incorporating a newer and more powerful ARM core, and providing a variety of chips with different peripheral sets. While most are clocked at up to about 200 MHz, some can run at twice that speed. Processors include:

Microprocessors

MYD-SAMA5D3X development board for Atmel SAMA5D3 ARM Cortex-A5 processors
MYIR's MYD-JA5D4X Development Board for Atmel SAMA5D44 ARM Cortex-A5 SoC

SAM A5

This series is based on the ARM Cortex-A5 core.[1][21]

SAM A5D2
SAM A5D3
SAM A5D4

Wi-Fi

Smart Energy

Development boards

MYD-SAMA5D3X-C development board for Atmel SAMA5D3 ARM Cortex-A5 processor designed by MYIR

Arduino boards

Official
Shield Compatible

Atmel boards

MYIR boards

Development tools

Segger J-Link EDU. JTAG / SWD debug probe for ARM microcontrollers with USB interface to host. Low price model for home users and educational use.

Cortex-M

IDE

Integrated development environments:

Windows
Linux

Debuggers

Documentation

The amount of documentation for all ARM chips is daunting, especially for newcomers. The documentation for microcontrollers from past decades would easily be inclusive in a single document, but as chips have evolved so has the documentation grown. The total documentation is especially hard to grasp for all ARM chips since it consists of documents from the IC manufacturer (Atmel) and documents from CPU core vendor (ARM Holdings).

A typical top-down documentation tree is: manufacturer website, manufacturer marketing slides, manufacturer datasheet for the exact physical chip, manufacturer detailed reference manual that describes common peripherals and aspects of a physical chip family, ARM core generic user guide, ARM core technical reference manual, ARM architecture reference manual that describes the instruction set(s).

Atmel ARM documentation tree (top to bottom)
  1. Atmel ARM-series website
  2. Atmel ARM-series marketing slides
  3. Atmel ARM-chip datasheet
  4. Atmel ARM-chip reference manual
  5. ARM core website
  6. ARM core generic user guide
  7. ARM core technical reference manual
  8. ARM architecture reference manual

Atmel has additional documents, such as: evaluation board user manuals, application notes, getting started guides, software library documents, errata, and more. See External Links section for links to official Atmel and ARM documents.

See also

References

Further reading

External links

AT91SAM official documents
ARM official documents
Other
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