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FMB MB9AA30N SERIES User Manual

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Fujitsu Semiconductor Design (Chengdu) Co., Ltd.
MCU-UM-510106-E-11
User Manual
32-BIT MICROCONTROLLER
MB9AA30N SERIES
BLUEMOON-EVB HARDWARE
USER MANUAL
ARM and Cortex-M3 are the trademarks of ARM Limited in the EU and other countries.

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  • Page 1 Fujitsu Semiconductor Design (Chengdu) Co., Ltd. MCU-UM-510106-E-11 User Manual 32-BIT MICROCONTROLLER MB9AA30N SERIES BLUEMOON-EVB HARDWARE USER MANUAL ARM and Cortex-M3 are the trademarks of ARM Limited in the EU and other countries.

  • Page 2: Revision History

    Bluemoon-EVB Hardware V1.1.0 Revision History Revision History Version Date Updated by Approved by Modifications 1.0.0 2012-10-29 Abel Ma First Draft 1.1.0 2012-11-26 Abel Ma Modify chapter 7 Modify format about note This manual contains 32 pages. Specifications are subject to change without notice. For further information please contact each office. All Rights Reserved.

  • Page 3: Table Of Contents

    Bluemoon-EVB Hardware V1.1.0 Contents Contents REVISION HISTORY ......................2 CONTENTS .......................... 3 1 INTRODUCTION ......................5 Purpose ........................5 Definitions, Acronyms and Abbreviations ..............5 Document Overview ....................5 2 OVERVIEW AND FEATURES ..................6 Overview ......................... 6 Features ........................6 3 SYSTEM BLOCK AND CONNECTION ................

  • Page 4: Mcu-Um-510106-E-10

    Bluemoon-EVB Hardware V1.1.0 Contents 7 TROUBLE SHOOT ......................30 8 ADDITIONAL INFORMATION ..................31 9 APPENDIX ........................32 List of Figures and Tables ..................32 MCU-UM-510106-E-10 – Page 4...

  • Page 5: Introduction

    Bluemoon-EVB Hardware V1.1.0 Chapter 1 Introduction Introduction 1.1 Purpose This user manual describes hardware structure of Bluemoon EVB and functions of each module. This user manual describes hardware system block, each function definition, list operation steps and trouble shoot. 1.2 Definitions, Acronyms and Abbreviations 1.3 Document Overview The rest of document is organized as the following: Chapter 2 explains Overview and Features...

  • Page 6: Overview And Features

    This Bluemoon EV Board is intended to aid the user in the rapid evaluation and development of segment LCD and RTC control using MB9AA30N series MCU which are embedded with ARM Cotex-M3 core. This EV Board targets to control LCD, RTC, low power consumption mode and so on modules.

  • Page 7: System Block And Connection

    Bluemoon-EVB Hardware V1.1.0 Chapter 3 System Block and Connection 3 System Block and Connection Block and Connection of System 3.1 System Block This EV board includes: one 8COM segment LCD and it’s backlight circuit, a TSC key, two mechanical keys, a joystick key, two LEDs, a serial port and JTAG interface. The power supply is selectable between DC 9V, USB and battery.

  • Page 8: System Connection

    Bluemoon-EVB Hardware V1.1.0 Chapter 3 System Block and Connection 3.2 System Connection 3.2.1 Connectors on Main Board The connectors on Main Board are shown in Figure 3-2 Bottom view Figure 3-2: Connectors on Main Board Table 3-1collects the definition of the connectors on main board. Table 3-1: Definition of Connectors on Main Board Number Port Designator...

  • Page 9: Evb Runs Normal Connection

    Bluemoon-EVB Hardware V1.1.0 Chapter 3 System Block and Connection 3.2.2 EVB runs normal Connection The normal operation of EV board connection as Figure 3-3 shows Optional Optional Bottom view Optional Figure 3-3: Connection on Normal Operation Table 3-2 collects the definition of connection on normal operation Table 3-2: Definition of Connectors on Normal Operation Number Port Designator...

  • Page 10: Connection On Serial Programmer

    Bluemoon-EVB Hardware V1.1.0 Chapter 3 System Block and Connection 3.2.3 Connection on serial programmer The EV board download file used serial programmer connection as Figure 3-4 shows Optional Optional Bottom view Optional Figure 3-4: Connection on Serial Programmer Table 3-3 collects the definition of connection on serial programmer Table 3-3: Definition of Connectors on serial programmer Number Port Designator...

  • Page 11: Connection On Jtag

    Bluemoon-EVB Hardware V1.1.0 Chapter 3 System Block and Connection 3.2.4 Connection on JTAG The EV board download file used JTAG connection as Figure 3-5 shows Optional Optional Bottom view Optional Figure 3-5: Connection on JTAG Table 3-4 collects the definition of connection on JTAG Table 3-4: Definition of Connectors on JTAG Number Port Designator...

  • Page 12: Program Download

    Bluemoon-EVB Hardware V1.1.0 Chapter 4 Program Download 4 Program Download Program Download This EV board can download the firmware used serial program and JTAG. 4.1 Serial programming The demo board could download the firmware used FUJITSU SEMICONDUCTOR MCU Programmer. 1. Connect the board as chapter 3.2.3 (Connection on serial programmer). 2.
  • Page 13 Bluemoon-EVB Hardware V1.1.0 Chapter 4 Program Download 5. Wait for some time, As Figure 4-3 shows the download file completely. Then do not strobe J5, the EVB will run normal. Figure 4-3: MCU Programmer Download MCU-UM-510106-E-10 – Page 13...

  • Page 14: Jtag Debug

    Bluemoon-EVB Hardware V1.1.0 Chapter 4 Program Download 4.2 JTAG Debug The demo board supports standard 20-pin JTAG debugging and programming .The user is recommend using IAR system tools including the emulator and complier. The steps as: 1. Connect the board as chapter 3.2.4 (Connection on JTAG). 2.
  • Page 15 Bluemoon-EVB Hardware V1.1.0 Chapter 4 Program Download Figure 4-5: View of Project 4. Clicking right button on the project name, and select “Rebuild All”. The project will be rebuilt, as Figure 4-6 shows Figure 4-6: Rebuild the Project MCU-UM-510106-E-10 – Page 15...
  • Page 16 Bluemoon-EVB Hardware V1.1.0 Chapter 4 Program Download 5. If build no error, Select “Project->Download and Debug” Figure 4-7: Download and Debug 6. As Figure 4-8 shows, the download file completely. Figure 4-8: Download completely MCU-UM-510106-E-10 – Page 16...

  • Page 17: Each Module Description

    Bluemoon-EVB Hardware V1.1.0 Chapter 5 Each Module Description 5 Each Module Description Introduce Each Module 5.1 Main Interfaces Overview The EV board main interfaces, example as connector, display and keys. As Figure 5-1 shows Bottom view Figure 5-1: Connectors on Board MCU-UM-510106-E-10 –...
  • Page 18 Bluemoon-EVB Hardware V1.1.0 Chapter 5 Each Module Description Table 5-1 collects the definition of the interfaces on Board. Table 5-1: Definition of interfaces on Board Number Port Designator Description Remarks serial port DC power supply (9V) USB DC 5V power supply JTAG interface Jumper, MCU Power selector.
  • Page 19 Bluemoon-EVB Hardware V1.1.0 Chapter 5 Each Module Description Table 5-3 collects the definition of J1. Table 5-3: Definition of J1 Description Remarks TRSTX Pull-down to GND nRST Table 5-4 collects the definition of J6. Table 5-4: Definition of J6 Description Remarks SOT0_0_EXT Connect to J8...
  • Page 20 Bluemoon-EVB Hardware V1.1.0 Chapter 5 Each Module Description Table 5-6 collects the definition of J8. Table 5-6: Definition of J8 Description Remarks RTCCO_1 SOT0_0_EXT SIN0_0_EXT MCU mode pin nRST MCU-UM-510106-E-10 – Page 20...

  • Page 21: Power Supply

    Bluemoon-EVB Hardware V1.1.0 Chapter 5 Each Module Description 5.2 Power Supply EV board power supply has three methods, As Figure 5-2 shows Connect Battery (BT2) Figure 5-2: Power Supply  DC power supply Use 9V DC power adapter which is positive inside and negative outside, the EV board works in 5V condition.

  • Page 22: Lcd Display And Control

    Bluemoon-EVB Hardware V1.1.0 Chapter 5 Each Module Description 5.3 LCD Display and control Figure 5-3 shows the LCD backlight and LCD drive circuit. Figure 5-3: LCD Circuit  LCD driver used internal divider resistor.  When 5V power, used 10K internal resistor. ...

  • Page 23: Temperature Sample

    Bluemoon-EVB Hardware V1.1.0 Chapter 5 Each Module Description 5.4 Temperature Sample As Figure 5-4 shows the temperature sample circuit. Figure 5-4: temperature sample  ADC sample thermistor voltage to enhance RTC precision.  When EV board is works, the AVCC always exist voltage. So in low consumption power mode, it will have some additional current consumption.

  • Page 24: Rtc Calibration

    Bluemoon-EVB Hardware V1.1.0 Chapter 5 Each Module Description 5.5 RTC calibration As Figure 5-5 shows RTC calibration circuit. Figure 5-5: RTC calibration  RTC calibration need used FUJITSU RTC Calibration tools.  It used calibrate RTC crystal frequency deviation. MCU-UM-510106-E-10 – Page 24...

  • Page 25: Each Function Operation

    Bluemoon-EVB Hardware V1.1.0 Chapter 6 Each Function Operation 6 Each Function Operation Each Function Operation 6.1 Operation Overview The EV Board power on, D4 will light always, anytime press SW1 the EV Board will reset. The system includes three modes. ...

  • Page 26: Ev Board Start-Up

    Bluemoon-EVB Hardware V1.1.0 Chapter 6 Each Function Operation 6.2 EV Board Start-up After system board start-up, it runs normal mode. Enter test mode or low power consumption mode only from normal mode. 6.2.1 Start-up Display The system power on, D4 will away light, D2 light last 2s, LCD display “FUJITSU” last 3s, As Figure 6-1 shows.

  • Page 27: Normal Mode Operation

    Bluemoon-EVB Hardware V1.1.0 Chapter 6 Each Function Operation 6.3 Normal Mode Operation 1. LCD will display the current time without any operation, as Figure 6-2 shows. 2. Touch K1 or SW3, D2 light lasts 0.5 s, LCD displays current date and will lasts 5s then return to display the current time, As Figure 6-3 shows.

  • Page 28: Test Mode Operation

    Bluemoon-EVB Hardware V1.1.0 Chapter 6 Each Function Operation 6.4 Test Mode Operation In test mode, the LCD and MCU main function is closed. As Figure 6-4 shows Figure 6-4: Test Mode Display 1. In normal mode, press SW2 + K1 + SW3 to enter test mode. 2.

  • Page 29: Low Power Consumption Mode Operation

    Bluemoon-EVB Hardware V1.1.0 Chapter 6 Each Function Operation 6.5 Low Power Consumption Mode Operation In low power consumption mode (standby RTC mode), MCU stop, but D4 is light always. As Figure 6-5 shows Figure 6-5: Low Power Consumption Mode Display In normal mode, press SW2 + K1 to enter low power consumption mode.

  • Page 30: Trouble Shoot

    Bluemoon-EVB Hardware V1.1.0 Chapter 7 Trouble Shoot 7 Trouble Shoot Trouble Shoot In this section, some probable cause of trouble has been listed, as well as some suggestions. 1. EV board power on, D2 is dark.  Be sure strobe J4. 2.

  • Page 31: Additional Information

    Bluemoon-EVB Hardware V1.1.0 Chapter 8 Additional Information 8 Additional Information For more Information on FUJITSU semiconductor products, visit the following websites: English version address: http://www.fujitsu.com/cn/fsp/services/mcu/32bit/fm3/an.html Chinese version address: http://www.fujitsu.com/cn/fss/services/mcu/32bit/fm3/an.html MCU-UM-510106-E-10 – Page 31...

  • Page 32: Appendix

    Bluemoon-EVB Hardware V1.1.0 Chapter 9 Appendix 9 Appendix 9.1 List of Figures and Tables Table 3-1: Definition of Connectors on Main Board ..............8 Table 3-2: Definition of Connectors on Normal Operation ............9 Table 3-3: Definition of Connectors on serial programmer ........... 10 Table 3-4: Definition of Connectors on JTAG ...............

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