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ARTERY AT-START-F413 User Manual

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AT-START-F413 User Manual
Get started with AT32F413RCT7
Introduction
AT-START-F413 is designed to help you explore the high-performance features of the 32-bit
®
microcontroller, AT32F413 embedded with ARM Cortex
-M4F core with FPU, and help develop
your applications.
AT-START-F413 is an evaluation board based on AT32F413RCT7 chip with LED indicators,
TM
buttons, an USB micro-B connector, Arduino
Uno R3 extension connector and an expanded 16
MB SPI Flash memory. This evaluation board embeds debugging/programming tool AT-Link-EZ
without the need of other development tools
2021.2.2
1
Rev 1.20

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Summary of Contents for ARTERY AT-START-F413

  • Page 1 AT-START-F413 User Manual Get started with AT32F413RCT7 Introduction AT-START-F413 is designed to help you explore the high-performance features of the 32-bit ® microcontroller, AT32F413 embedded with ARM Cortex -M4F core with FPU, and help develop your applications. AT-START-F413 is an evaluation board based on AT32F413RCT7 chip with LED indicators,...

  • Page 2: Table Of Contents

    Overview ......................... 5 Features ........................5 Definition of terms ....................5 Quick start ......................6 Get started........................ 6 Toolchains supporting AT-START-F413 ..............6 Hardware and layout ..................... 7 Power supply selection ..................... 9 IDD ........................... 9 Programming and debugging ................. 10 3.3.1...
  • Page 3 AT-START-F413 User Manual List of tables Table 1. Boot mode selection jumper setting ..................11 Table 2. IO and SPIM jumper setting ....................13 Table 3. 0 Ω resistor setting ....................... 14 Table 4. Arduino Uno R3 extension connector pin definition ............15 Table 5.
  • Page 4 AT-START-F413 User Manual List of figures Figure 1. Hardware block diagram ...................... 7 Figure 2. Top layer ..........................8 Figure 3. Bottom layer ......................... 8 Figure 4. Schematic (AT-Link-EZ) ..................... 17 Figure 5. Schematic (microcontroller) ....................18 Figure 6. Schematic (power supply and peripherals) ................ 19 Figure 7.

  • Page 5: Overview

    − The on-board AT-Link-EZ can be used for programming and debugging (AT-Link-EZ is a simplified version of AT-Link, and does not support offline mode) − If AT-Link-EZ is separated from this board by bending over along the joint, AT-START-F413 can be connected to an independent AT-Link for programming and debugging ...

  • Page 6: Quick Start

    JP8 one-piece jumper is connected to the I/O on the right. 2. Connect the AT-START-F413 board to the PC through an USB cable (Type A to micro-B), and the board will be powered via AT-Link-EZ USB connector CN6. LED1 (red) is always on, and the other three LEDs (LED2 to LED4) start to blink in turn.

  • Page 7: Hardware And Layout

    AT-START-F413 User Manual Hardware and layout AT-START-F413 board is designed around an AT32F413RCT7 microcontroller in LQFP64 package. Figure 1 shows the connections between AT-Link-EZ, AT32F413RCT7 and their peripherals (buttons, LEDs, USB, SPI Flash memory and extension connectors) Figure 2 Figure 3 shows these features on the AT-Link-EZ and AT-START-F413 board.

  • Page 8: Figure 2. Top Layer

    AT-START-F413 User Manual Figure 2. Top layer USER LED AT32F413RCT7 L QFP64 I/O port expansion interface External 7~12V socket Arduino Uno Boot mode SPI Flash memory expansion interface selection jumper USART1 interface 20-pin ARM standard JTAG interface HSE 8 MHz...

  • Page 9: Power Supply Selection

    3.3 V voltage regulator (U2) on the board. The 5 V pin of J4 or J7 can also be used as an input power source. The AT-START-F413 board must be powered by a 5 V power supply unit.

  • Page 10: Programming And Debugging

    The AT-Link-EZ PCB on the evaluation board can be separated from AT-START-F413 by bending over along the joint. In this case, AT-START-F413 can still be connected to the CN7 of AT-Link-EZ through CN2 (not mounted before shipping), or can be connected with another AT-Link to continue the programming and debugging on the AT32F413RCT7.

  • Page 11: Boot Mode Selection

    AT-START-F413 User Manual Boot mode selection At startup, three different boot modes can be selected by means of the pin configuration. Table 1. Boot mode selection jumper setting Boot mode selection Jumper Settings pins BOOT1 BOOT0 Boot from the internal Flash memory (Factory JP1 connected to GND or OFF;...

  • Page 12: Lse Clock Source

    (R19 ON, R21 OFF); Or connected to PC13 and alternatively used as TAMPER-RTC button (R19 OFF, R21 ON) USB device AT-START-F413 board supports USB full-speed device communication through an USB micro-B connector (CN1). V can be used as 5 V power supply of AT-START-F413 board.

  • Page 13: Connect To Bank3 Of Flash Memory Via Spim Interface

    AT-START-F413 User Manual Connect to Bank3 of Flash memory via SPIM interface The SPI Flash EN25QH128A on the board is connected to the AT32F413RCT7 via SPIM interface and used as Bank 3 of expanded Flash memory. When using the Bank 3 of the Flash memory via SPIM interface, the JP8 one-piece jumper, as...

  • Page 14: Ω Resistors

    AT-START-F413 User Manual 0 Ω resistors 3.10 Table 3. 0 Ω resistor setting Resistor State Description When JP3 is OFF, 3.3V is connected to the microcontroller to provide power supply (Microcontroller power When JP3 is OFF, 3.3V allows an ammeter to be connected to...

  • Page 15: 3.11 Extension Connectors

    Female plug J3~J6 and male J7 support standard Arduino Uno R3 connector. Most of the daughter boards designed abround Arduino Uno R3 are suitable for AT-START-F413. Note 1: The I/O ports of AT32F413RCT7 are 3.3 V compatible with Arduino Uno R3, but 5V incompatible.

  • Page 16: 3.11.2 Lqfp64 I/O Port Extension Connector

    (2) SPIM must be disabled and JP8 one-piece jumper must select I/O, otherwise PA8 and PB6 cannot be used. 3.11.2 LQFP64 I/O port extension connector The extension connectors J1 and J2 can connect the AT-START-F413 to external prototype/packing board. The I/O ports of AT32F413RCT7 are available on these extension connectors.

  • Page 17: Schematic

    AT-START-F413 User Manual Schematic Figure 4. Schematic (AT-Link-EZ) 2021.2.2 Rev 1.20...

  • Page 18: Figure 5. Schematic (Microcontroller)

    AT-START-F413 User Manual Figure 5. Schematic (microcontroller) 2021.2.2 Rev 1.20...

  • Page 19: Figure 6. Schematic (Power Supply And Peripherals)

    AT-START-F413 User Manual Figure 6. Schematic (power supply and peripherals) 2021.2.2 Rev 1.20...

  • Page 20: Figure 7. Schematic (Extension Connectors)

    AT-START-F413 User Manual Figure 7. Schematic (extension connectors) 2021.2.2 Rev 1.20...

  • Page 21: Revision History

    SWO; Adjusted two rows of CN7 signls and corrected the silkscreen to match Artery development tool use habits. 3. Corrected CN2 silkscreen to match Artery development tool use habits. 4. Added GND test pin to faciliate measurement.
  • Page 22 Purchasers hereby agrees that Artery’s products are not authorized for use as, and purchasers shall not integrate, promote, sell or otherwise transfer any Artery’s product to any customer or end user for use as critical components in (a) any medical, life saving or life support device...

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