ATF697FF - Electronic Components Microchip - Free user manual and instructions

USER MANUAL ATF697FF Microchip

Commitment to the Space Industry

With over 30 years of experience in the space industry from Atmel heritage, Microchip Technology Inc., a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions, is recognized for delivering leading-edge and highly integrated technologies and solutions.

Microchip is committed to support the space industry, delivering high-end solutions and services customers expect and continue investing and developing new solutions for the global space market from traditional to New Space challenges.

Set-up in Europe, Microchip's Space Integrated Circuits portfolio is the most attractive and competitive on the market, including:

• AVR ^ , SPARC ^ and Arm ^ Microcontroller and Microprocessors
• Global navigation satellite system devices (Galileo, GPS, Beidou, Glonass, ...)
  • SpaceWire router
  • 4 & 16 MB SRAM and 1 & 4 MB EEPROM
  • Digital, Analog and mixed-signal ASICs

Thanks to advanced products, dedicated packaging which supports module techniques, QML-certified lines and world-class quality, Microchip is paving the way to full-system integration and system-on-chip solutions. The complexity of future systems solutions requires partnerships with government agencies and aerospace equipment manufacturers. Strong partnerships with these key market contributors enable Microchip to validate products and services in actual system environments. Microchip is committed for the long term to support the space industry.

Questions? Email Microchip Aerospace Hotline at aerospace@nto.atmel.com.

Customer Satisfaction Through High Quality

Microchip's objective is to reach full customer satisfaction through continuous improvement of products and services. To achieve this, Microchip has developed a Corporate Quality Management System that includes:

• The first-ever ESCC-QML qualified process for space (0.35 μm technology)
• A global quality organization with dedicated resources for space offerings.
- A robust Corporate Quality System that, beyond the traditional ISO9001-V2000 registrations, complies with the MILPRF-38535 and the ESCC-9000 quality systems.
- Microchip's system is periodically rated by the most demanding aerospace customers, as well as the prestigious national and international space agencies, such as ESA, Centre National d'Etudes Spatiales (CNES) and National Aeronautics and Space Administration (NASA).

ISO 9001

ESCC-QML certification

DLA-QML certification

Rad-Tolerant Concept

Rad-Tolerant Concept

Microchip's Rad-Tolerant devices are based on components widely used in industrial and automotive markets. Compared to the commercial versions, the same mask set functionality is used, but with an extended temperature range and increased radiation performances to ensure latch-up immunity. These devices benefit from Microchip's widely-used development tool chain and libraries with commercial evaluation kits.

• Latch-up immune with a SEL LET > 60Mev
  • TID between 30 to 50 krad
  • Full characterization TID & SEU for all functional blocks available in a Radiation report.
• Safety dedicated application note for system mitigation.

Rad-Tolerant Devices: Space and Hirel

Rad-Tolerant 8-bit AVR Microcontroller: ATmegaS128 / ATmegaS64M1

Microchip brings the automotive-leading high performance and low power 8-bit AVR core to the aerospace industry. ATmegaS128 and ATmegaS64M1 are processed for enhanced radiation, extended temperature and increased reliability in critical aerospace applications.

It takes advantage of mature Atmel AVR tools designed and used in the mass market worldwide for many years.

• Ideal for small footprint and low power applications like motor control and remote terminal units.
• ATmegaS128 features 10-bit ADC, 6 PWM channels and UART / TWI / SPI interfaces.
• ATmegaS64M1 integrates CAN controller, power stage controller, ADC, DAC and analog comparators

graph TD
    subgraph ATMEGAS128
        A["Memory Features"] --> B["128 Kbytes of Flash Program Memory"]
        B --> C["6 Kbytes Internal SRAM Memory"]
        C --> D["4 Kbytes EEPROM Memory"]
        D --> E["Up to 64 Kbytes of Ext. SRAM Memory"]
        F["8-bit AVR™ Core"] --> G["8 MHz"]
        G --> H["3.0-3.6 V"]
        H --> I["-50+120°C"]
        J["Programmable Watchdog Timer"] --> K["Internal RC Oscillator"]
        K --> L["6 Different Sleep Modes"]
        L --> M["Power on Reset and Programmable Brown Out Detection"]
        M --> N["External and Internal Interrupt Sources"]
        O["ADC"] --> P["8 Channel - 10-bit ADC"]
        P --> Q["8 Single Ended Channels"]
        Q --> R["7 Differential Channels"]
        R --> S["2 Differential Channels with Programmable Gain 1x 10x or 200x"]
        T["2x USARIS Master / Slave SPI TWI"] --> U["Analog Comparator & PWM Channels"]
        U --> V["2x8-bit Timers & 2x16-bit Timers"]
        V --> W["Up to 53 I/O"]
        X["8bit AVR™ Core"] --> Y["64 Kbytes of Flash Program Memory"]
        Y --> Z["4 Kbytes Internal SRAM Memory"]
        Z --> AA["2 Kbytes EEPROM Memory"]
        AB["Memory"] --> AC["64 Kbytes of Flash Program Memory"]
        AD["8-bit AVR™ Core"] --> AE["8 MHz"]
        AF["Programmable Watchdog Timer"] --> AG["Internal RC Oscillator On-Chip 64 MHz PLL"]
        AH["Power On Reset and Brown Out Detection"] --> AI["Low Power Idic, Noise Reduction and Power Down Modes"]
        AJ["External and Internal Interrupt Sources"] --> AK["External and Internal Interrupt Sources"]
        AL["ATMEGAS64M1"] --> AM["8-bit AVR™ Core"]
        AN["8bit AVR™ Core"] --> AO["2.7-3.6 V"]
        AP["Programmable Watchdog Timer"] --> AQ["2.7-3.6 V"]
        AR["RAM"] --> AS["-50+120°C"]
        AT["8-bit and 16-bit Timers"] --> AU["IART - SPI"]
        AV["CAN 2.0/A/B ISO 15045 Certified"] --> AV
        AV --> AV
        AV --> AV
        AV --> AV
        AV --> AV
        AV --> AV
        AV --> AV
    end
    subgraph ATMEGAS128
        B
        C
        D
        E
        F
        G
        H
        I
        J
        K
        L
        M
        N
        O
        P
        Q
        R
        S
        T
        U
        V
        W
        X
    end

Rad-Tolerant 32-bit ARM Microcontroller: SAM3X8ERT / SAMV71Q21RT

Microchip's SMART ARM-based Microcontrollers family is now available for critical aerospace applications requiring enhanced radiation and increased reliability. This Rad-Tolerant SAM family provides the best combination of connectivity interfaces along with the highest processing levels. SAM3X8ERT and SAMV71Q21RT are respectively ARM Cortex-M3 and -M7 based MCUs.

- SAM3X8ERT features dual-bank Flash, dual-bank SRAM, dual CAN2.0B and error code correction (ECC) on dual-bank Flash and external memory interface for system risk mitigation. SAM3X8ERT also features Ethernet 10/100 with dedicated DMA, a 12-bit ADC/DAC, temperature sensor, 32-bit timers, PWM timer and RTC.

- SAMV71Q21RT, 32-bit ARM Cortex-M7 core-based MCU, allows deterministic code execution using TCM, complex calculation and coprocessing (FPU), communication threads parallelism (Hmatrix architecture), low latency memories access, scalable power saving modes and operating system free RTOS supported. With SAMV71Q21RT, customers will take advantage of the powerful M7 core coupled with high bandwidth communication interfaces such as CAN FD and Ethernet TSN.

graph TD
    subgraph SAM3X8ERT
        A["Memory"] --> B["Dual-Bank Flash 256/512 Kbytes"]
        C["Dual-Bank SRAM 68/100 Kbytes"]
        D["External Bus Interface"]
        E["Boot ROM"]
    end

    subgraph CPU
        F["Cortex®-M3 84 MHz"] --> G["MPU"]
    end

    subgraph System
        H["System"] --> I["1.8V Regulator POR, BOD"]
        J["2 Xtal OSC, 2 RC OSC, 2 PLL"]
        K["WDT, RTT, RTC"]
        L["TRNG"]
    end

    subgraph Connectivity
        M["Connectivity"] --> N["5 UART, FS 5 SPI, 2 IC"]
        O["HS SDIO/SD/MMC"] --> P["Dual CAN"]
        Q["10/100 Ethernet MAC"] --> R["HS USB MiniHost And Device"]
    end

    subgraph Control
        S["Control"] --> T["16 ch, 12-bit ADC 2 ch, 12-bit DAC"]
        U["Temperature Sensor"] --> V["8x PWM 9x 32-bit Timers"]
        W["Up to 103 IOs"] --> X
    end

    A --> C
    C --> D
    D --> E
    E --> M
    M --> O
    O --> Q
    Q --> R
    R --> S
    S --> U
    U --> W
    W --> X

graph TD
    A["Memory"] --> B["Cortex-M7 300 MHz"]
    B --> C["TCM 300 MHz"]
    B --> D["ETM"]
    B --> E["MPU"]
    B --> F["DSP/FPU"]
    B --> G["2x 16 KB L1 Cache with ECC"]
    H["Connectivity"] --> I["24 ch DMA Controller 150 MHz Matrix"]
    I --> J["Control"]
    J --> K["114 IOs"]
    J --> L["8x 16-bit PWM 12x 16-bit Timers"]
    J --> M["2x 12 ch 12-bit ADC 2 ch 12-bit DAC"]
    N["System"] --> O["Security"]
    O --> P["AES-256"]
    O --> Q["Integrity Check Monitor (SHA)"]
    O --> R["TRNG"]
    O --> S["Memory Scrambling"]
    T["User Interface"] --> U["Camera Interface"]
    T --> V["1x t²S/TDM"]

Additional Microchip Rad-Tolerant Solutions Coming Soon

A large choice of companion chips for use with the MCU such as Ethernet PHYs and switches, CAN transceivers, Powerful external Analog-to-Digital Converters (ADCs), Non-Volatile Memory (NVM) storage solutions, High-Voltage (HV) devices, ... Please contact Microchip Aerospace and Defense for more information.

Rad-Hard Microcontroller

SAMRH71: Rad-Hard by Design 32-bit ARM Microcontroller: the scalable V71 Family

Beyond the powerful Rad-Tolerant SAMV71Q21RT, Microchip also proposes the Rad-Hard by Design version of the SAMV71 family.

Based on Microchip's ATMX150RHA space qualified 150nm technology, SAMRH71 offers customers improved radiation performances for missions in harsh environment.

• 32-bit ARM Cortex-M7 core-based MCU
• Multi-Layer AMBA interconnect with fl exible DMA and QoS
• Multi-port SRAM with 4 ports to optimize bandwidth and latency
• 384 KB Tightly Coupled Memory (TCM) to provide low-latency memory
• ECC on TCM interface, embedded SRAM (768KB) and Flash (128KB) memories and on External memory controller
- Wide range of communication interfaces: SpaceWire, 1553 BC/RT, Dual CAN FD and Ethernet AVB

Software Environment

Atmel Studio is the Integrated Development Platform (IDP) for developing and debugging AVR and ARM processor-based MCU applications. It gives a seamless and easy-to-use environment to write, build and debug your applications written in C/C++ or assembly. It also connects to debuggers and development kits.

Software Framework are MCU software library providing over thousands of embedded software project examples for Flash-based MCUs, including AVR and ARM-based devices. The library contains basic C code examples for all Radiation Tolerant MCU's peripherals.

Some operating system and other development environments are supported by third parties:

expresslogic

IAR SYSTEMS

KEIL Tools by ARM

Micriμm

Starter Kits & Debugging tools

To ease your design process and reduce time-to-market, Microchip offers a complete starter kit and development system for AVR and ARM microcontrollers. With its advanced features for prototyping and testing new designs, these kits give you a head start for developing code on AVR / ARM devices. For SAM3X8ERT, evaluation kit is available through Arduino Due development board at: https://store.arduino.cc/arduino-due.

ATmegaS128 & ATmegaS64M1 Evaluation Board

ATATMEL-ICE Programming & Debugging tool

SAMV71 Evaluation Board

Unrivalled Flight Heritage

Microchip's space microprocessors, based on the SPARC architecture with worldwide sales of over 4,000 flight models with the TSC695 and over 2,000 flight models with the AT697F, are proud of this unrivalled flight heritage.

AT7991 (Advanced GPS/GALILEO Device, AGGA-4)

AT7991 (Advanced GPS/GALILEO device, AGGA-4) is a Rad-Hard GNSS baseband SoC capable of processing the modernized GPS, Galileo and other signals such as Glonass.

• Applications: Precise Orbit Determination (POD) and Radio Occultation (RO)
- Features: GNSS core, LEON2FT processor, multiple interfaces like SPI, UART, Spacewire and 1553
• Prototypes and flight models available

AT7991 GNSS Device, AGGA-4 Block Diagram

graph TD
    A["UART/SpaceWire"] --> B["Debug comm. link AHB"]
    C["SRAM PROM IO SDRAM"] --> D["Mem Ctrl AHB"]
    B --> E["Trace buffer"]
    E --> F["Debug Support Unit AHB"]
    F --> G["GRFPU LEON2FT IU I-Cache D-Cache AHB"]
    G --> H["AHB"]
    H --> I["Status AHB"]
    I --> J["White protect AHB"]
    J --> K["AHBA FFT"]
    K --> L["AHB /DMA"]
    L --> M["GNSS Core and GIC"]
    M --> N["GNSS Signal IF"]
    O["LEON config"] --> P["GPIO CHIO/F"]
    P --> Q["SPI"]
    Q --> R["CIC"]
    R --> S["PIC"]
    S --> T["APB"]
    T --> U["APB"]
    U --> V["AHB /DMA"]
    V --> W["GNSS Core and GIC"]
    W --> X["GNSS Signal IF"]
    Y["SpaceWire I/F MIL-Bus I/F UART I/F"] --> Z["AHB /DMA"]
    Z --> AA["AHB /DMA"]
    AA --> AB["AHB /DMA"]
    AB --> AC["AHB /DMA"]
    AC --> AD["AHB /DMA"]
    AD --> AE["AHB /DMA"]
    AE --> AF["AHB /DMA"]
    AF --> AG["AHB /DMA"]
    AG --> AH["AHB /DMA"]
    AH --> AI["AHB /DMA"]
    AI --> AJ["AHB /DMA"]
    AJ --> AK["AHB /DMA"]
    AK --> AL["AHB /DMA"]
    AL --> AM["AHB /DMA"]
    AM --> AN["AHB /DMA"]
    AN --> AO["AHB /DMA"]
    AO --> AP["APB"]
    AP --> AQ["APB"]

Tools and Software for Processors

To help you develop your applications faster and reduce time to market, Microchip provides:

• Hardware development boards with debug capabilities
• A set of embedded and demonstration software to ease software porting and fast system evaluation

SpaceWire Router & Memory for Space

SpaceWire Value for Space Applications

• Compliant with the SpaceWire standard ECSS-E-ST-50-12C
• Flight heritage in ESA, NASA, JAXA missions
• Use of SEU hardened libraries
• QMLQ and QMLV space grade with SMD
• Insure system operability

AT7910E SpaceWire Router

AT7910E SpaceWire router connects many nodes and routing packets between the nodes connected to it. It is comprised of eight SpaceWire link interfaces and a routing matrix which enables packets arriving at one link interface to be transferred to and sent out of another link interface on the routing switch. It is manufactured using the rad-hardened 0.35um cell library from Microchip MH1RT CMOS sea of gates technology..

• Eight SpaceWire ports and two external parallel ports
• 196-pin CQFP package
3.3 V, LVDS
• Total dose up to 300 krad

Rad-Hard Memory Products

Microchip has a long track record with memory devices, and currently supports the space industry's efforts regarding standardization of part variations with respect to:

• Size and format
• Package
  • Power consumption and speed

^5V tolerant

Rad-Tolerant Memory Products

For different configurations (Processor code, FPGA, parameters, calibration, etc.), Microchip offers use of the Rad-Tolerant EEPROM devices that are qualified for space use:

ASIC System Solution with Mixed Signal Capabilities

Fully designed, assembled, tested and qualified in Europe since 1985, Microchip's offering of Rad-Hard Digital Application-Specific Integrated Circuits (ASICs) is one of the most attractive and competitive on the market for the most critical applications.

To meet next-generation satellites and launchers needs, our ATMX150RHA improves integration with adaptable technology: a mixed-signal strategy with Logic, Analog, 5V compatibility, embedded Non-Volatile Memory (NVM) option, high-voltage option and qualified IPs.

*Maximum rate possible with test equipment

Benefits of Microchip's Rad-Hard ASICs

• Qualified supply chain from design to qualified parts
• Digital and mixed-signal ASICs
• Multiple quality assurance levels: QML-Q / QML-V / ESCC QML
- Robust design library of cells and macros (ASIC platform is supported by a combination of state-of-the-art third-party and proprietary design tools from Synopsys, Mentor and Cadence. Tools from these suppliers collectively form the reference tool flows for both front and back end)
- Robust design flow
• Guaranteed radiation performance
• Radiation hardening assurance
• SEL > 95 MeV/mg/cm²
- Configurable RAM compiler, NVM option
• Specific I/Os including LVDS, PCI
• Large portfolio of space-qualified packages including CQFP and CLGA/CCGA, as well as custom packages

Space Multi-Project Wafer (SMPW)

To reduce ASIC development costs, a Space Multi-Projects Wafer (SMPW) service is used. These quarterly SMPWs are also used to embark, at low cost, customer analog test chips intended for evaluating analog-sensitive areas from the final ASIC. Microchip offers probe / packaging / assembly / test services as well as qualification services (reliability, TID, SEE, etc.).

Ordering Information

TSC695F Processors

AT697F Processor

AT697F Development Kits

AT7913E Processors

Communication ICs

GNSS Devices

Serial EEPROMs (AT17LV010/AT69170)

SRAMs (M65609/AT65609EHV/AT60142/AT68166)

Ordering Information

Parallel EEPROMs (AT28C010)

Rad-Tolerant Microcontrollers

Microcontrollers development kits

Rad-Hard by Design Microcontroller (SAMRH71)

Support

Microchip is committed to supporting its customers in developing products faster and more efficiently. We maintain a worldwide network of fi eld applications engineers and technical support ready to provide product and system assistance. For more information, please visit www.microchip.com:

• Technical Support: www.microchip.com/support
- Evaluation samples of any Microchip device: www.microchip.com/sample
• Knowledge base and peer help: www.microchip.com/forums
• Sales and Global Distribution: www.microchip.com/sales

Training

If additional training interests you, then Microchip can help. We continue to expand our technical training options, off ering a growing list of courses and in-depth curriculum locally, as well as signifi cant online resources.

• Technical Training Centers and Other Resources: www.microchip.com/training
• MASTERS Conferences: www.microchip.com/masters
• Worldwide Seminars: www.microchip.com/seminars
• eLearning: www.microchip.com/webseminars

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10/29/16

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