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Embest SBC6300x Hardware Manual

Arm9 based
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SBC6300x
ARM9 Based Single Board Computer
Hardware Manual
Version 1.1
th
16
Jan 2014

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Summary of Contents for Embest SBC6300x

  • Page 1 SBC6300x ARM9 Based Single Board Computer Hardware Manual Version 1.1 Jan 2014...

  • Page 2: Revision History

    Copyright Statement:  SBC6300x and its related intellectual property are owned by Shenzhen Embest Technology Co., Ltd.  Shenzhen Embest Technology has the copyright of this document and reserves all rights. Any part of the document should not be modified, distributed or duplicated in any approach and form without prior written permission issued by Embest Technology Co., Ltd...

  • Page 3: Table Of Contents

    Table of Contents 1 Overview ................1 1.1 Product Information ............1 1.2 Kit contents ..............1 1.3 Board Interfaces .............. 2 1.4 System Block Diagram ............. 3 1.5 Physical Dimensions ............4 2 Hardware Features ............5 2.1 Processor ............... 5 2.2 On-Board Memory ............
  • Page 4 3.1.15 TFT LCD (J20) ............... 17 3.1.16 Keys ..................19 3.1.17 Touch screen(J20) .............. 19 3.1.18 Panel(J6) ................19 3.1.19 GPIO(J4,J25,J6) .............. 20 3.1.20 CAN (J26) ................23 3.1.21 TWI (J25) ................23 3.1.22 BUZZER (BUZZ) ..............24 3.1.23 ADC (J19) ................24 4 Electrical System Description ..........

  • Page 5: Overview

    1 Overview 1.1 Product Information The SBC6300X is a single board computer (SBC) designed and built by Embest. The SBC is based on the Atmel AT91SAM9263 MCU with a 32- bit ARM instruction set and a complete embedded software environment.

  • Page 6: Board Interfaces

    1.3 Board Interfaces Figure 1: SBC6300X Board Interfaces Page | 2...

  • Page 7: System Block Diagram

    1.4 System Block Diagram Figure 2: SBC6300x System Block Diagram Page | 3...

  • Page 8: Physical Dimensions

    1.5 Physical Dimensions Figure 3: SBC6300x Physical Dimensions Page | 4...

  • Page 9: Hardware Features

    2 Hardware Features The SBC6300x consists of:  Main board(150 x 143.5mm)  Core board(52 x 52mm) And the following optional modules:  LCD module 3.5” (240 x 320mm)  LCD module 4.3” (480 x 272mm)  LCD module 5.6” (640 x 480mm) ...

  • Page 10: Core Board Functions

    2.3 Core Board Functions Categories Function Parameters Processor Atmel AT91SAM9263, ARM9,200MHz Memory SDRAM 64MB NAND Flash 128MB Data Flash NOR Flash EEPROM Others 1 LED for System Status Indicator Dimensions of core board: 52 x 52mm Connector type: Tyco 5179031-4 2.4 Main Board Functions Categories Function...
  • Page 11 USB Device 1-channel USB 2.0 device MAX:400Kbps, slave or master mode 2048 x 2048 (max), 16bit RGB mode, with 3.5, TFT LCD 4.3, 5.6 & 7” LCD support In/output Touch screen 4 line resistance touch screen connector Matrix keyboard 6x6 Matrix keyboard , can be used for general IOs Audio In Audio input Audio Out...

  • Page 12: Hardware Details

    3 Hardware Details 3.1 Interfaces 3.1.1 Power(J26,J1)  Power input: DC jack J1 and 2PIN3.81mm wire connector  Pin 2 in j26 can be used as power input and output ,1500mA limited  Pin 3 in j26 can be used as power output only ,500mA limited ...

  • Page 13: Net1(J12

    Resource from MCU: PC25 ERXDV PE21 ETXCK PE23 ETX0 PE24 ETX1 PE25 ERX0 PE26 ERX1 PE27 ERXER PE28 ETXEN PE29 EMDC PE30 EMDIO PE31 INT_output 3.1.3 NET1(J12) Extended by M9000CEP, resources from the MCU are as follows: D0-D15 DM9000 PD11 EBI0_NCS2 RJ45 Interface definition +2.5V...

  • Page 14: Uart(8 Channels

    3.1.4 UART(8 channels) UART connectors(DEBUG,COM0,COM1,COM2,J23) 3.1.5 DEBUG(DEBUG)  Resources from the MCU are as follows: PC30 DRXD DEBUG PC31 DTXD  Signal input/output level: RS232  Maximum data rate: 115.2kbps  Flow Control: None  Connector: DR9 male  At the same time lead out through pin headers with TTL 3.1.6 COM0, 1 (COM0, COM1) ...

  • Page 15: Com2(Com2

    3.1.7 COM2(COM2)  Resource from MCU as follows: TXD2 485/UART2 RXD2 PD13 RE/DE(485)  Signal input/output level: RS232/RS485(with isolation)  Maximum data rate: 115.2kbps  Flow Control: none  Connector: 2.54mm pitch connector(TTL)/DR9(RS232)  Direction of RS485: PD130 send  1 receive RS485 connector definition:...

  • Page 16: Ext_Com(J23

    CTS0R COM2 RXD1R PC31 default RXD1R PC30 RS232 RTS1R COM1 CTS1R The DR9 male connector definition as follows: Pin number Function 1、4、6、9 3.1.8 EXT_COM(J23) These uarts come from the SC16C554,5lines,default RS232 and offer support for TTL by changing resistors according your need. Resources from the MCU are as follows: A0-A6 Sys bus...

  • Page 17: Matrix Keyboard(J16

    J23 connector definition as follows: EXT_COM1_TXD EXT_COM3_TXD EXT_COM1_RXD EXT_COM3_RXD EXT_COM1_RTS EXT_COM3_RTS EXT_COM1_CTS EXT_COM3_CTS EXT_COM2_TXD EXT_COM4_TXD EXT_COM2_RXD EXT_COM4_RXD EXT_COM2_RTS EXT_COM4_RTS EXT_COM2_CTS EXT_COM4_CTS 3.1.9 Matrix keyboard(J16)  Dual pin headers 2.54mm  These pins can be used as general IOs or 6x6 matrix keyboard ...

  • Page 18: Usb Device(J9

    PB25 PB26 PB27 J16 connector definitions are as follows: VDD33 VDD33 PB22 PB23 PB24 PB11 PB25 PB19 PB26 PB20 PB27 PB21 3.1.10 USB device(J9)  Standard type-B connector  Resources from MCU PD14  PD14 is used for USB detection ...

  • Page 19: Usb Host(J5

    3.1.11 USB HOST(J5)  Dual type-A connector  500mA current limited  Max: 12Mbps  Resources from MCU (HDMA, HDPA, HDMB, HDPB) USBM0 USBM1 USBP0 USBP1 3.1.12 SD card(J15)  SDIO mode  Standard SD card connector  Resources from MCU :...

  • Page 20: Jtag (J8)

    AC97FS AC97CK AC97 AC97TX AC97RX PE22 NC(RESET_AUDIO) Besides the audio signal lead out on U9(2*5pin headers 2.54mm), U9 definitions as follows: VOUT_R VOUT_L LINE_R LINE_L MIC_2 MIC_1 SPK_A SPK_B SPK_A SPK_B can be connected to a speaker(<=1.5W) 3.1.14 JTAG (J8) VDD33 VDD33 NTRST...

  • Page 21: Tft Lcd (J20)

    3.1.15 TFT LCD (J20)  Dual pin headers 40PIN(2*20) 2.54mm  Support 2048*2048(max),16bit TFT LCD  Resources from MCU LCDCC LCDVSYNC LCDHSYNC LCDDOTCK LCDDEN PE17 LCD_POWEREN PC10 PC11 PC12 PC13 PC14 PC15 PC16 PC17 PC18 PC19  POWER +12V can be connected to J20 :...
  • Page 22  When using a 3.5” LCD, J21 and J22 do not need to be connected. When using a 4.3, 5.6 or 7” LCD, J21 must be connected to enable the +5V power supply.  By default J22 is not connected J20 definition:...

  • Page 23: Keys

    Note:  before you use an LCD, you must configure jumpers J28 & J29 CONFIG 3.5” LCD 4.3” LCD 5.6” LCD 7” LCD When the system is started, it will first read the config pins, after which the corresponding LCD driver will be loaded. 3.1.16 Keys ...

  • Page 24: Gpio(J4,J25,J6

    Signal explanation: VDD33 Power voltage WKUP Wake up MCU PE18 System status indicator lamp (general IO) NRST_INPUT Reset SW1-12V, Power switch, if you connect these two pins together the board power will be on J26 definition: VDD33 WKUP PE18 NRST_INPUT SW1-12V 3.1.19 GPIO(J4,J25,J6)...
  • Page 25 J4 (18): VDD33 PB30 PB31 PE10 PE11 PE12 PE13 PE14 PE15 J6 (11): J25 (12): PA12 PA16 PA17 PA18 PC23 PA19 PA20 PC20 PC24 PC28 PC29 PC21 PB29 PC22 VDD33 VDD5V VDD33 PB12 PB16 WKUP PE18 PB13 PB17 NRESET PB14 PB18 SW1-12V PB15...
  • Page 26 The Multiplex of these IOs functions is as follows: ISI Interface: SDIO0 Interface: PB30 PA12 MCI0_CK PB31 PA16 MCI0_CDB PA17 MCI0_DB0 PA18 MCI0_DB1 PA19 MCI0_DB2 SDIO0 PA20 MCI0_DB3 PWM Interface: PC28 PWM0 PC29 PWM2 PWM1 PE10 PB29 PWM3 PE11 PE12 SPI1 interface (4 chip select): PE13 PB12...

  • Page 27: Can (J26)

    3.1.20 CAN (J26)  3.81MM Wire connectors  CAN2.0 communication interface  J26 definition PIN7———>CANL  PIN8———>CANH  Resources from MCU PA13 CANTX PA14 CANRX J26 definition: +12V GND_485 485A 485B CAN_L CAN_H 3.1.21 TWI (J25)  System provides a 2Kb EEPROM,TWI interface ...

  • Page 28: Buzzer (Buzz)

    3.1.22 BUZZER (BUZZ) ADC (J19) The system includes a buzzer, it can be controlled by GPIO: PE19 (low active) 3.1.23 ADC (J19)  8 channel 12bit ADC input  +5V Reference Voltage  This function is extended by ADS7844  Resources from MCU: PA0,1,2 SPI0_NPCS1...

  • Page 29: Electrical System Description

    4 Electrical System Description  Power: Range (8-22V), default 12V-1.5A  Power type: +1.2V, +2.5V, +3.3V, +5V, +12V  Power consumption: Function State Consumption(MAX) Total AT91SAM9263 Full Speed 1.2V*78.3mA=94mW 398mW DM9000A Full Speed 3.3V *92mA=304mW USB HOST(AB) Full Speed 500 mA *5V*2=5W SD card Full Speed 200 mA *3.3V =660mW...
  • Page 30 CON1 CON2 Function Function Function Function PC15 PC16 PC25 PC23 PC20 PC14 PA12 PA16 PC22 PA10 PA18 PC10 PA11 PA19 PC11 PC13 PA17 PA15 PC27 PA20 PD12 3.3V PB11 3.3V VSBAT PB19 PC31 PB20 PA13 PC18 PA14 PC30 PB21 PC28 PB22 PC26 PB23...
  • Page 31 CON1 CON2 Function Function Function Function PC17 PB26 PE17 PC19 PB27 EBIO_NWE PE18 PB28 EBIO_NRD PE19 PC12 PE20 PB30 PA25 PB31 PB29 PE16 PB16 NRST PD13 HDPB WKUP HDMB RTCK SHDN HDPA PB10 HDMA NTRST PC29 PE31 PE30 PA30 PE13 PE29 PA21 PD14...

  • Page 32: Appendix 1: 3.5" Lcd

    Appendix 1: 3.5” LCD The interface employs 40-pin (2 x 20) dual pin headers with frame connector (2.54mm) For the interface definition see below: LCDCLK HSYNC VSYNC VDEN +3.3V +3.3V PWREN VBIAS +3.3V Page | 28...

  • Page 33: Appendix 2: 4.3, 5.6, 7" Lcd

    Appendix 2: 4.3, 5.6, 7” LCD: The interface employs 40-pin(2*20) dual pin headers with frame as connector (2.54mm) For the interface definition see below: LCDCLK HSYNC VSYNC VDEN +3.3V +3.3V PWREN VBIAS Page | 29...

  • Page 34: Appendix 3: Esd Precautions & Handling Procedures

    Appendix 3: ESD Precautions & Handling Procedures Please note that the board comes without any case/box and all components are exposed. Therefore, extra attention must be paid to (electrostatic discharge) precautions. effectively prevent electrostatic damage, please follow the steps below: ...

  • Page 35: Appendix 4: Technical Support & Warranty

    Appendix 4: Technical support & Warranty Embest Technology Co., Ltd. established in March of 2000, is a global provider of embedded hardware and software. Embest aims to help customers reduce time to market with improved quality by providing the most effective total solutions for the embedded industry. In the rapidly...

  • Page 36: Maintenance Service Clause

    Embest Technology, or alteration from factory specifications, or configured or expanded with components that are not provided or recognized by Embest Technology;  Product failures due to the software or systems installed by customers, inappropriate software settings or computer viruses;...

  • Page 37: Basic Guidelines For Protection And Maintenance Of Lcds

    Note:  Embest do not supply a maintenance service for LCDs. We suggest the customer immediately checks the LCD once in receipt of the goods. In the event that the LCD does not run or shows no display, the customer should inform Embest within 7 business days of delivery.

  • Page 38: Value Added Services

    4.4 Value Added Services We will provide following value added services:  Driver development based on Embest embedded platforms for devices such as: serial ports, USB interface devices, and LCD screens.  Control system transplantation, BSP driver development, API software development.

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