STMICROELECTRONICS UM0131 Manual
Contents
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3. Latch output VCC2 14 5V power P16 ADC6 15 GPIO SPI transmit ADC channel 6 VCC3 16 18 3 3V power P14 ADC4 17 GPIO SPI clock output ADC channel 4 P42 ADC2 19 or IrDA receive ADC channel P40 ADCO 20 2 counter input ADC channel 3 1 4 ED3K4 Top connection capabilities Various external connectivity is provided based on 100 pin connector on ED3K4 including 7 channels of ADC 6 channels of PWM SERVO output 3 channels of Timing capture SRAM backup power input UART1 RS232 level UARTO digital level POWER DOWN input External battery External clock 12 and External RESET All possible top connection capabilities have been listed in following Table 4 Table 4 ED3K4 Top connection capabilities Capabilities Signals name Headers PC2 VSTBY 2 1 GND CON2 2 GND CON1 3 PWM SERVO OUTPUT1 VCC1 CON2 3 MCU SPI TXD CONS3 3 GND CON1 4 PWM SERVO OUTPUT2 VCC1 CON2 4 MCU SPI RXD 4 GND CON1 5 PWM SERVO OUTPUT3 VCC1 CON2 5 MCU SPI CLK 5 GND CON1 6 PWM SERVO OUTPUT4 VCC1 CON2 6 P42 TCM2 6 ky UMO131 13 32 ED3K4 Hardware and Operation Mode Turbo Plus uPSD DK3400 Development Kit GND 1 7 PWM SERVO OUTPUT5 VCC1 CON2 7 P41 TCM1 7 GND 1 8 PWM SERVO OUTPUT6 VCC1 CON2 8 P40 TCMO CON3 8 GND 1 9 TIMING CAPTURE 1 PA7
4. 6 3 1 ED3K4 Hardware Architecture 6 3 1 1 ED3K4 Jumpers Diagram ssselelee eee 7 3 1 2 Jumpers Description 0 0 cee ee 8 3 1 3 Connector Description 10 3 1 4 ED3KA Top connection capabilities 13 3 15 LEDsonED3KA 15 3 2 ED3K4 Operation Mode 15 3 2 4 Operation Mode 1 USB Mass Storage Mode 15 3 2 2 Operation Mode 2 UPSD E RLINK Mode 16 3 2 3 Operation Mode 3 Stand alone RLINK mode 17 3 2 4 Operation Mode 4 UPSD ULINK mode 18 3 2 5 Operation Mode 5 ED3K4 DK3400 Motherboard mode 19 4 DK3400 Motherboard Hardware Architecture 20 4 1 Jumper description 20 4 2 Connector description 21 5 Getting Started With DK3400 22 Appendix ED3K4 Schematic 23 Appendix DK3400 Motherboard Schematic 30 6 Revision HiStory uua n had ae 31 2 32 0131 ky Turbo Plus uPSD DK3400 Development Kit DK3400 Hardware Features 2 4 DK3400 Hardw
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6. board DKMMX CON2 Connector for board DKMMX CONS Connector for board UMO131 21 32 Getting Started With DK3400 Turbo Plus uPSD DK3400 Development Kit 5 22 32 Getting Started With DK3400 The DK3400 is delivered in default operation mode 5 with the RTC demonstration application Please follow the steps below to get started using the DK3400 Check with Jumper configuration Please check the jumper configuration to guarantee that all jumper status are the same as those listed in Table 10 ED3K4 operation mode 5 Connecting DK3400 board for RTC demo 1 Connect the AC adapter to the DK3400 board The DK3400 AC adapter will work on either 110V or 220V and contains several different plug adapters to fit popular European AC outlets Please set up your AC adapter to fit your AC plug type and plug in the AC adapter Then plug the small power plug into the DK3400 9V DC input 2 Connect a PS 2 standard Keyboard to PS 2 connector on DK3400 motherboard Step 3 Try Your DK3400 Board with RTC demo Turn DK3400 on Your DK3400 board will boot from RTC demo application You should see the DK3400 RTC demo running in the LCD window The RTC time can be updated by pressing keys up down left right and enter on the Keyboard Additional Information The uPSD3400 series design guide application notes for DK3400 using RIDE or KEIL s software tools are available for download from t
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8. 97 UMO131 7 USER MANUAL Turbo Plus uPSD DK3400 Development Kit 1 Introduction To enhance the feature set of uPSD Turbo Family the USB Microcontroller Development Kit DK3400 has been released from STMicroelectronics The kit is a demo board for the uPSD3400 family which is a series of 8051 class microcontrollers MCUs that contain a fast Turbo Plus 8032 core with 16 bit code fetch path full speed USB port a large Dual Bank Flash memory a large SRAM many peripherals programmable logic and a JTAG Debug In System Programming ISP port The DK3400 kit consists of an ED3K4 module and DK3400 motherboard as well as all the items needed to explore the uPSD3400 MCU There are also demonstration application examples along with an evaluation copy of the tools needed to develop and compile code for the uPSD3400 Figure 1 DK3400 Contents DK3400 Motherboard ED3K4 uPSD3400 module DK3400 CD 110V 220V AC adapter Plug adapters RS232 Serial Cable USB ULINK Adapter USB Cables x2 only 1 shown 1 for ULINK 1 for uPSD 9 14 pin female female ribbon cable JTAG 10 Quick Start Flyer not shown gt on Rev 1 March 2005 UMO131 1 32 Contents Turbo Plus uPSD DK3400 Development Kit Contents 1 Introd cti n s soe ati Ro qe Cni ea o o 1 2 DK3400 Hardware Features 3 3 ED3K4 Hardware and Operation Mode
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10. 2 9 P32 INTO CON3 9 GND CON1 10 TIMING CAPTURE 2 PA6 CON2 10 P33 INT1 CON3 10 GND 1 11 TIMING CAPTURE 3 PA5 CON2 11 P11 T2X 11 TXD1_ 232 CON3 13 UART1 RS232 level RXD1 232 CONG3 14 PWR DOWN CON2 17 POWER DOWN GND 17 CON2 18 EXTERNAL BATTERY CONNECTION GND CON2 19 EXT CON2 20 EXTERNAL CLOCK INPUT GND CON2 19 GND 17 P36 SDA CONS 18 122 BUS WITH GND POWER P37 SCL CON3 19 VCC3 CON3 20 P31 TXDO CON4 5 UARTO DIGITAL LEVEL P30 RXDO CON4 6 GND CON4 7 P11 T2X 11 ADC channel 1 GND 12 P12 ADC2 CON5 19 ADC channel 2 GND 4 19 P13 ADC3 CON4 18 ADC channel 3 GND 4 19 14 4 CON5 17 ADC channel 4 GND CON4 17 P15 ADC5 CON4 16 ADC channel 5 GND CON4 17 P16 ADC6 5 15 6 GND 15 14 32 UM0131 Turbo Plus uPSD DK3400 Development Kit ED3K4 Hardware and Operation Mode 3 2 3 2 1 4 P17 ADC7 CON4 14 ADC channel 7 GND 4 13 RESET CON4 20 EXTERNAL RESET GND 4 19 LEDs on ED3K4 There are 7 LEDs to indicate the work status on ED3K4 board D5 and D8 are driven by Power management chips LD1 LD2 and LD3 are used to indicate the work status of the embedded Rlink D2 is used to indicate the JTAG operation D6 is a user LED that can be driven by uPSD PD1 All the LEDs D5 D6 D8 LD1 LD2 and LD3 are located on the a
11. 9 Jumper configuration on Mode 4 Jumper Status Jumper Status Jumper Status JP1 closed JP5 1 lt gt 2 JP9 open JP2 open JP6 closed JP10 closed closed JP7 1 lt gt 2 JP11 open JP4 1 lt gt 2 JP8 closed JP12 1 lt gt 3 2 lt gt 4 UMO131 ky Turbo Plus uPSD DK3400 Development Kit ED3K4 Hardware and Operation Mode 3 2 5 4 Operation Mode 5 ED3K4 DK3400 Motherboard mode The ED3K4 module is capable of working together with the DK3400 motherboard in operation mode 5 The dot matrix LCD RS232 connector and PS 2 Keyboard are available for use in this operation mode The default DK3400 will be delivered with mode 5 You are allowed to program and debug DK3400 using alternative JTAG debug tools embedded Rlink or external ULINK on mode 5 Please make sure that the jumper configuration of JP9 and JP10 is compatible with requirement in mode 2 when you select as debug tools Please also make sure that jumper configuration of JP9 and JP10 is compatible with requirement in mode 4 when you select external ULINK as debug tools Hardware connection on Mode 5 Just plug ED3K4 module in the ED3Kx socket on DK3400 motherboard Configuration of jumpers on Mode 5 Please refer to Table 10 for detailed information about jumper configuration on operation mode 5 Table 10 Jumper configuration on Mode 5 Jumper Status Jumper Status Jumper Status JP1 closed JP5 open JP9 closed JP2 open JP6 open JP10
12. En 18d k s etd EN oLa eor adee deg SINEINTIB OLG 101 ES 940 9894 29 H ZHINGLY 6 15 18538 215 51 6L Ee 79 De x001 AL im asd _ 02 9 ONT _ 12 olg eva Di eva agen 2 G8sn Nn S3W 1 AVISL _ 62 mE 2 0880 ag 5 1881 NTI Hz 85 5 in 210 909 88 55 210 NS 59 Ss 8sn 001 20 PAO 230 2 L oin bou gt ru TS ee lel mre yw oS peo IS pe 8 z oon byur NTE AS oon 9vir XNHH AS Ovir asn anor ror 901 OL 01 701 AS 29 32 UMO131 Turbo Plus uPSD DK3400 Development Ki Getting Started With DK3400
13. Only the embedded RLINK is active on ED3K4 board on this operation mode Figure 7 ED3K4 operation mode 3 connection Standard 14 pin cable uPSD Target Board Hardware connection on Mode 3 Please refer to Figure 7 for the connection on operation mode 3 Configuration of jumpers on Mode 3 Please refer to Table 8 for detailed information about jumper configuration on operation mode 3 Table 8 Jumper configuration on Mode Jumper Status Jumper Status Jumper Status JP1 closed JP5 1 lt gt 2 JP9 closed UMO131 17 32 ED3K4 Hardware and Operation Mode Turbo Plus uPSD DK3400 Development Kit 3 2 4 18 32 JP2 open JP6 closed JP10 open closed JP7 1 lt gt 2 JP11 open JP4 open JP8 closed JP12 1 lt gt 3 2 lt gt 4 Operation Mode 4 uPSD ULINK mode The ED3K4 module may be treated as a uPSD target board on operation mode4 The embedded RLINK on board is disabled in this mode You may connect ED3K4 with another JTAG based uPSD debug tools like ULINK from Keil in this mode Figure 8 ED3K4 operation mode 4 connection ULINK Standard 14 pin cable Hardware connection on Mode 4 Please refer to Figure 8 for the connection on operation mode 4 Configuration of jumpers on Mode 4 Please refer to Table 9 for detailed information about jumper configuration on operation mode 4 Table
14. Wo DG va zz 99 814 OXH e 209 96 zo vizld 5 TX TOW ava ve 094 Pee vyd 019 21 Wd zs 000V 0ld wag 204 1 ava iva 5 e 009 e Ova SE ES 1610 9 ea vasozl 22 019 59 0 864 ZHINO T Fam zg SM OTHO oy dared LLNIXA ex 1 2 m I 8 64803149 7 1 12 ocu 225 SL 89 INO OVIT A a nao Ses 1010 69 owed 18 4 evoza Zr gg ISSSH sav now 99 5 say Er x4 POV 3 20 09 Sp ax now eav now ee Savod vor vol vor Zav NON 86 ix vo iav now 22 009009 e IX NOW 00v NOW 96 os ooredsan in zOO 250 UM0131 26 32 Getting Started With DK3400 Turbo Plus uPSD DK3400 Development Ki
15. bus AO DO MCU AD1 13 Multiplexed Address Data bus A1 D1 CN1 MCU AD2 14 Multiplexed Address Data bus A2 D2 MCU AD3 15 Multiplexed Address Data bus A3 D3 MCU_AD4 16 Multiplexed Address Data bus A4 D4 MCU_AD5 17 Multiplexed Address Data bus A5 D5 MCU_AD6 18 Multiplexed Address Data bus A6 D6 MCU_AD7 19 Multiplexed Address Data bus A7 D7 PSEN 20 PSEN signal external bus PC2NSTBY 1 Input SRAM standby GND 2 19 Ground VCC1 3 4 5 6 7 8 5V wall adapter power source 5 PA7 9 GPIO on port A PA6 10 GPIO on port A CN2 PA5 11 GPIO on port A 4 12 GPIO on A PWR DOWN 13 17 Reserved PA3 14 GPIO on port A PA2 15 GPIO on port A P34 CO 16 GPlIO Counter 0 input VBATT 18 Reserved EXT CLK 20 External clock input UMO131 11 32 ED3K4 Hardware and Operation Mode Turbo Plus uPSD DK3400 Development Kit PC3 TSTAT 1 GP1 O optional JTAG status TSTAT MCU SPI SEL 2 SPI slave select signal MCU SPI TXD 3 SPI TXD signal MCU SPI RXD 4 SPI RXD signal SPI 5 SPI clock signal output P42 TCM2 6 GPIO PCAO TCM2 UART1 RXD signal P41 TCM1 7 GPIO PCAO TCM 1 2 trigger input P40 TCMO 8 2 counter input P32 INTO 9 GPIO External interruptO input CN3 P33 INT1 10 GPIO External interrupt1 input P11 T2X 11 GPIO Timer 2 trigger input ADC channel 1 GND 12 17 Ground TXD1 232 13 UART1 T
16. closed closed JP7 1 lt gt 2 JP11 open JP4 1 lt gt 2 JP8 closed JP12 1 lt gt 3 2 lt gt 4 UM0131 19 32 DK3400 Motherboard Hardware Architecture Turbo Plus uPSD DK3400 Development Kit 4 4 1 20 32 DK3400 Motherboard Hardware Architecture The DK3400 motherboard can be used as a base board for both the uPSD module ED3K4 and The power supply LCD RS232 interface and PS 2 Keyboard interface are available on this board Jumper description The jumper definitions on the DK3400 motherboard are listed in Table 11 Table 11 Description of jumpers on DK3400 motherboard Jumper Description JP1 is used to select which UART port is connected to RS232 connector on DK3400 motherboard UARTO is connected to RS232 connector when JP1 is set as following 2 4 6 1 3 5 JP1 is connected to RS232 connector when JP1 is set as following 2 4 6 1 3 5 Default status JP1 3 connected to JP1 5 JP1 4connected to JP1 6 UMO131 ky Turbo Plus uPSD DK3400 Development Kit DK3400 Motherboard Hardware Architecture 4 2 Connector description The connector definitions on the DK3400 motherboard are listed in Table 12 Table 12 Description of connectors on DK3400 motherboard Connector Description CNO 9V power jack CN1 2 3 4 and 5 Connectors for ED3Kx module CN6 RS232 connector female CN7 PS 2 standard Keyboard connector DKMMX CON1 Connector for
17. Diagram Figure 4 Block diagram layout of the jumper positions of the ED3K4 board eRlink JP1 JP2 12 uPSD3400 m x AX 5 2 5 5 5 Q 9 o 4019 9 9 UOISUS X4 END 40 99UUOD UOISUOS X3 40 09UU09 UOISUOS X43 40 998UU09 UOISUOS X3 128Mbit NAND Flash JP8 JP9 JP10 JTAG connector UMO131 7 32 ED3K4 Hardware and Operation Mode Turbo Plus uPSD DK3400 Development Kit 3 1 2 8 32 Jumpers Description The definitions of the jumpers on 4 board are listed in Table 1 Table 1 Description of jumpers on ED3K4 board Jumper Description JP1 JP1 is used to enable SPI interface Flash M25P80 M25P80 is enabled when JP1 is closed Default status closed JP2 Reserved Please keep this jumper on open Default status open is used to enable USB auto disconnect function USB auto disconnect function is enabled when JP3 is closed Default status closed JP4 JP4 is used to select a power source for JTAG port Keep JP4 on following status when ED3K4 works 1 2 4 and 5 1 2 3 Keep JP4 on open when ED3K4 works on Mode Default status JP4 1 connected to JP4 2 JP5 JP5 is used to select which power source will be used as USB power input of power management circuit power from E RLINK USB cable or power from uPSD USB cable Keep JP5 on following stat
18. OO SNO NO ZNO INO e UMO131 30 32 Turbo Plus uPSD DK3400 Development Kit Revision History 6 Revision History Date Revision Changes 01 Mar 2005 1 First Release UMO131 31 32 Revision History Turbo Plus uPSD DK3400 Development Kit If you have any questions or suggestions concerning the matters raised in this document please send them to the following electronic mail addresses ask memory st com for general enquiries Please remember to include your name company location telephone number and fax number Information furnished is believed to be accurate and reliable However STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics Specifications mentioned in this publication are subject to change without notice This publication supersedes and replaces all information previously supplied STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics The ST logo is a registered trademark of STMicroelectronics All other names are the property of their respective owners 2005 STMicroelectr
19. XD signal on RS232 voltage level RXD1 232 14 UART1 RXD signal on RS232 voltage level PA1 15 GPIO on port A 16 GPIO on port A P36 SDA 18 GPIO I2C Bus serial data P37 SCL 19 GPIO I2C Bus clock VCC3 20 3 3V power CPU DEBUG 1 to the MCU Debug Unit PC7 2 GPIO PLD input and output PD1 3 GPIO PLD IO PBO 4 GPIO PLD 10 Latch output P31 TXDO 5 GPIO UARTO transmit TXD signal P30 RXDO 6 GPIO UARTO receive RXD signal GND Ground 19 TXDO 232 8 UARTO TXD signal on RS232 voltage level RXDO 232 9 UARTO TXD signal on RS232 voltage level PC4 TERR 10 JTAG status TERR P35 C1 11 GP1O Counter1 input VCC2 12 5V power P17 AD7 14 GPIO SPI slave select ADC channel 7 P15 AD5 16 GPIO SPI receive ADC channel 5 P13 AD3 18 nee or IrDA transmit ADC RESET 20 System reset signal 12 32 UM0131 Turbo Plus uPSD DK3400 Development Kit ED3K4 Hardware and Operation Mode ALE 1 Address latch signal PD2 2 GPIO PLD input and output PBO 13 GPIO PLD 10 Latch output PB1 3 12 GPIO PLD 10 Latch output PB2 4 11 GPIO PLD 10 Latch output PB3 5 10 GPIO PLD 10 Latch output PB4 6 GPIO PLD 10 Latch output PB5 7 GPIO PLD 1 Latch output CN5 PB6 8 GPIO PLD Latch output PB7 9 GPIO PLD 10
20. are Features The DK3400 comprises both the ED3K4 board and DK3400 motherboard ED3KA is able to work as an uPSD3400 module independently or work together with DK3400 motherboard The DK3400 motherboard works as a base board for the ED3K4 It is possible to upgrade the motherboard with extension boards for example and DKMMX which are currently in development The DK3400 motherboard itself has a variety of hardware capabilities built in A number of hardware features on the DK3400 are provided to enable exploration by the user and for future demo application software including see Figure 2 and Figure 3 Two selectable power sources of ED3K4 USB cable and 5V wall adapter Dual USB port for E RLINK and uPSD USB users respectively Total of 100 pins for extension connector One JTAG port One RS232 connector One small regulated 5V power jack on ED3K4 and one power jack on the DK3400 motherboard 128 Mbit NAND Flash Very small QFN package RTC from STMicroelectronics 8 Mbit SPI interface Flash 16 Kbit 12C interface EEPROM Embedded debug tools RLINK IrDA transceiver 122 32 Dot Matrix LCD with Chinese font support PS 2 standard keyboard connector UMO131 3 32 DK3400 Hardware Features Turbo Plus uPSD DK3400 Development Kit Figure 2 ED3K4 Board Features 20 o 1 4o 3o 15 1 USB port for E RLINK 2 USB port for uPSD user 3 Power on Switch 4 Reset Switch 13o 5 power jack d pd p
21. en JP11 is closed Default status open JP12 is used to select which transceiver will be connected to UART1 port RS232 transceiver or IrDA transceiver UART1 is connected RS232 transceiver when JP12 is set as following 2 4 6 1 3 M JP12 UART1 is connected to IrDA transceiver when JP12 is set as following 2 4 6 1 3 5 Default status JP12 2 connected to JP12 4 Default status JP12 1 connected to JP12 3 UMO131 9 32 ED3K4 Hardware and Operation Mode Turbo Plus uPSD DK3400 Development Kit 3 1 3 Connector Description 10 32 The definitions of connectors on ED3KA board are listed in Table 2 and Table 3 Table 2 Description of connectors on ED3K4 board Connector Description Regulated 5V power jack POWER E Note The absolute Maximum voltage on this jack is 6V USER USB USB port connected to uPSD3400 on board E RLINK USB USB port for embedded RLINK JTAG JTAG port used for debugging and programming CN1 2 3 4and 5 100 pins Extension connectors for user UM0131 Turbo Plus uPSD DK3400 Development Kit ED3K4 Hardware and Operation Mode Table 3 Description of the 100 pin extension connector CN1 2 3 4 and 5 Connector Signal Name Pins Description RD 1 READ signal WR 2 WRITE signal GND ae Ground 9 10 11 MCU_ADO 12 Multiplexed Address Data
22. he ST website http www st com psm UM0131 Turbo Plus uPSD DK3400 Development Kit Getting Started With DK3400 Appendix A ED3K4 Schematic Q lt E o 8 c 8 5 s 5 8 5 5 2 I 5 2 9 28 8 28 lt ky 0131 23 32 Turbo Plus uPSD DK3400 Development Ki Getting Started With DK3400 e z 8002 494 62 9120 4equinN 2215 HOLO3NNOO Zod dr u 81 06 ors a asn S Ti3HS 22 5 UNS 5 now 09 Li ed IONAS 0951 INTE Es 2 das Z DR dasn n ow zu Fn 1 _ den asnsesn AS vol sian As T Hi 13538 x 2001 x X10 2 3N3Sd ai 1 ei ei 20 Now 00 2 was ed i zi now yoavirtd 9L ox Sav now ei 00 et soav std Ovd vav yi 9204 914 vi
23. i 13953 i EDDA Hi 310 DG x 3N3Sd ai 8 zodweld 195 289 oi oi ZGv e A zad 990 919 H A p 2 vasised Livan 2 aL di avd 9i 8 i Sav now eo S EM Svd s 507979 s COON si 507919 e Ova Cored a nom ii OND 9003919 si vi Wd RA ei now et ei Wd i YOGV V id ei AS ZODA 5 2909014 222 _ evd e 20 2i Evd zi 08d 21 zi LOXL e COT uma 2i 10 e T 2 ii i S ZODA ND i o o IVd o o 10 954 01 o Svd 01 1 6 s 000 019 B ead B 1 4 6 LINVeed 6 vd 6 H 5 Lad H 5 184 M 262 8 OINV ZEd 5 5 aa H 08d H 13539 i 98d i 00 1 p OWOVOrd 7 100 2 5 8 5 OLNVZEd 5 S d 5 QNS 8 LNO ird 5 199 1 M VaSd FUHSUTOd vad 5 01 8 064 5 2017 M A8 IODA M 5 a 705 289 F 1V1SUEOd F ad OO0XU I d a X19 195 A9 100 Bi M ASLSNZOd M zad 089 M OX 185 9 199 E E 319 145 2 204 5 Tad 2 E OXI 145 A8 5 bad _ 04 HS 195 now OQV ELd ad ndo lv1SUtod 15 209 08 c NOO XWWbiQ ZNOO LN
24. onics All rights reserved STMicroelectronics group of companies Australia Belgium Brazil Canada China Czech Republic Finland France Germany Hong Kong India Israel Italy Japan Malaysia Malta Morocco Singapore Spain Sweden Switzerland United Kingdom United States of America www st com 2571 32 32 UMO131
25. or detailed information about jumper configuration on operation mode 1 Table 6 Jumper configuration on Mode 1 Jumper Status Jumper Status Jumper Status JP1 closed JP5 1 lt gt 2 JP9 closed JP2 open JP6 closed JP10 closed closed JP7 1 lt gt 2 JP11 open JP4 1 lt gt 2 JP8 closed JP12 1 lt gt 3 2 lt gt 4 Operation Mode 2 uPSD E RLINK Mode The ED3K4 module may be used as integrated uPSD3400 development platform with embedded RLINK on operation mode2 You can build the small uPSD3400 platform by simply connecting the ED3K4 to a PC with RIDE via a USB cable Figure 6 ED3K4 operation mode 2 connection 2x TOP SIDE 4 UMO131 Turbo Plus uPSD DK3400 Development Kit ED3K4 Hardware and Operation Mode 3 2 3 4 Hardware connection on Mode 2 Please refer to Figure 6 for the connection on operation mode 2 Configuration of jumpers on Mode 2 Please refer to Table 7 for detailed information about jumper configuration on operation mode 2 Table 7 Jumper configuration on Mode 2 Jumper Status Jumper Status Jumper Status JP1 closed JP5 2 lt gt 3 JP9 closed JP2 open JP6 closed JP10 closed JP3 closed JP7 1 lt gt 2 JP11 open JP4 1 lt gt 2 JP8 closed JP12 1 lt gt 3 2 lt gt 4 Operation Mode 3 Stand alone RLINK mode The ED3K4 module may be used as a stand alone uPSD debug tool like RLINK on operation mode3
26. rea near by the eRlink USB port D2 is located on the area near the POWER connector Please find the detailed information in Table 5 Table 5 LED description LED Color Usage D2 red JTAG operation indicator LED D5 red Power indicator LED D8 red Low battery indicator LED LD1 green eRlink Power indicator LED LD2 red eRlink BUSY indicator LED LD3 green eRlink RUN indicator LED D6 red User LED that can be driven by uPSD3434E on board ED3K4 Operation Mode The ED3K4 is a versatile uPSD3400 module with 5 user operation modes You may treat it as a uPSD3400 user target board standalone debug tools RLINK or an integrated uPSD3400 development platform with embedded SW evaluation capability depending on the relative configuration and usage The 5 operation modes will be introduced in the following chapter one by one Operation Mode 1 USB Mass Storage Mode The ED3K4 module may be used as a low speed USB device with file storage function on operation mode1 Connected to PC with WinXP via a USB cable it can be used to download and upload files to or from the ED3K4 module UMO131 15 32 ED3K4 Hardware and Operation Mode Turbo Plus uPSD DK3400 Development Kit 3 2 2 16 32 Figure 5 ED3K4 operation mode 1 connection TOP SIDE Hardware connection on Mode 1 Please refer to Figure 5 for the connection on operation mode 1 Configuration of jumpers on Mode 1 Please refer to Table 6 f
27. sh nies o 7 6 14 JTAG Connector slala 7 uPSD34XX 128 8 8 Expansion Connectors 9 IrDA Transceiver 10 NAND flash 102 11 Real Time Clock 12 12C interface EEPROM 15 54 13 SPlinterface Flash E x 14 RS232 transceiver oer rae vl MM 514 15 Power management uu 9 5o 4 32 0131 ky Turbo Plus uPSD DK3400 Development Kit DK3400 Hardware Features Figure 3 DK3400 Motherboard Features Power Switch 9V Power Input Dot Matrix LCD RS232 connector PS 2 connector Connectors for ED3Kx Connectors for DU OL Roo Mol UMO0131 5 32 ED3K4 Hardware and Operation Mode Turbo Plus uPSD DK3400 Development Kit 3 3 1 6 32 ED3K4 Hardware and Operation Mode The EDSKA is a very low cost uPSD3400 evaluation module with full speed USB support embedded debug tools RLINK and 128 Mbit NAND flash Depending on different application purposes ED3K4 can be configured to one of the following 5 operation modes 1 USB mass storage mode Mode2 uPSD3400 E RLINK mode Mode3 Stand alone RLINK mode Mode4 uPSD3400 ULINK mode Mode5 ED3K4 DK3400 motherboard mode The 5 operation modes will be introduced in detail later ED3K4 Hardware Architecture The jumpers and connectors definitions on ED3K4 board are detailed in this chapter UMO131 Turbo Plus uPSD DK3400 Development Kit ED3K4 Hardware and Operation Mode 311 ED3K4 Jumpers
28. us when ED3K4 powered from RLINK USB cable eje e 1 2 3 Keep JP5 on following status when ED3K4 powered from uPSD USB cable le 1 2 3 Default status JP5 1 connected to JP5 2 JP6 JP6 is used to provide a boot option for ED3K4 board ED3KA boot from internal main flash when JP6 is closed ED3KA boot from internal boot flash when JP6 is open Default status open UMO131 Turbo Plus uPSD DK3400 Development Kit ED3K4 Hardware and Operation Mode JP7 is used to select clock generation source external clock or internal clock ED3K4 works with internal clock when JP7 is set as following 1 2 3 JP7 ED3K4 works on external clock mode when JP4 is set as following e 2 3 Default status JP7 1 connected to JP7 2 1 JP8 is used to enable NAND Flash 128Mbit NAND flash is enabled when is closed Default status closed JP9 is used to select JTAG circuit operation mode along with JP10 depending on operation mode of ED3K4 JP9 Keeps on closed when ED3K4 works on mode 1 2 and 5 Keeps on open when ED3K4 works on mode 4 Default status closed JP10 is used to select JTAG circuit operation mode along with JP9 depending on operation mode of ED3K4 JP10 Keeps JP10 on closed when ED3K4 works mode 1 2 4 and 5 Keeps JP10 on open when ED3K4 works on mode Default status closed dead JP11 is used to enable DEBUG signal DEBUG signal is enabled wh
29. vid 17 ani 01264 t 901 ON ZEZ 0 1 n 900 914 Joi 8 100 214 20 Y SOF 25 5 ON SOL E 9 ON a 919 IV oF ON ON 9r z 801 en voL 90 zio uo zn 25 599 00 zezsHu usei4 1991 09 v e z L 27 32 UM0131 Turbo Plus uPSD DK3400 Development Ki Getting Started With DK3400 v e D 8008 49 4 62 Li Luoisinay Jaquiny 2215 T 1 OND 184 LMS 284 ZMS ISH OSH NO 1 1884 158 NOH Md ZNO NSOH i9 08 jus 1 evel M anor 2901 1207 41 21 668 ZOOA ecu ZOO eh ni ez i ti 113539 02 itary NMOG HMd ZZ 4 6L 22 Si sa 12 nee 997017 ov qA 10 sadwnp were IM Scd 84TIVM Y 48 901 629 t Amouos Tor TOON 10 dHasn 5 5 LH
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