UM0131 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
1. 2. 3. 4. 5. 6. 7. 8. 9.
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 14-pin female-female ribbon cable (JTAG) 6 8 7 1 9 2 3 4 5
10. Quick Start Flyer (not shown)
March 2005
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Contents
Turbo Plus uPSD DK3400 Development Kit
Contents
1 2 3 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 DK3400 Hardware Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 ED3K4 Hardware and Operation Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.1 ED3K4 Hardware Architecture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.1.1 3.1.2 3.1.3 3.1.4 3.1.5 ED3K4 Jumpers Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Jumpers Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Connector Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 ED3K4 Top connection capabilities . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 LEDs on ED3K4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
3.2
ED3K4 Operation Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
3.2.1 3.2.2 3.2.3 3.2.4 3.2.5 Operation Mode 1: USB Mass Storage Mode . . . . . . . . . . . . . . . . . . . . . . . . 15 Operation Mode 2: uPSD+E-RLINK Mode . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Operation Mode 3: Stand-alone RLINK mode . . . . . . . . . . . . . . . . . . . . . . . . 17 Operation Mode 4: uPSD+ULINK mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Operation Mode 5: ED3K4+DK3400 Motherboard mode . . . . . . . . . . . . . . . 19
4
DK3400 Motherboard Hardware Architecture . . . . . . . . . . . . . . . . . . . . . . 20
4.1 4.2 Jumper description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Connector description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
5
Getting Started With DK3400 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Appendix A ED3K4 Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Appendix B DK3400 Motherboard Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . 30 6 Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
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DK3400 Hardware Features
2
DK3400 Hardware Features
The DK3400 comprises both the ED3K4 board and DK3400 motherboard. ED3K4 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, ED3K3 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 9V power jack on the DK3400 motherboard 128 Mbit NAND Flash Ver y small QFN package RTC from STMicroelectronics 8 Mbit SPI interface Flash 16 Kbit I2C interface EEPROM Embedded debug tools RLINK IrDA transceiver 122*32 Dot Matrix LCD with Chinese font support PS/2 standard keyboard connector
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DK3400 Hardware Features
Turbo Plus uPSD DK3400 Development Kit
Figure 2.
ED3K4 Board Features 2 4 3 15 1
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15.
USB port for E-RLINK USB port for uPSD user Power-on Switch Reset Switch 5V power jack 14-pin JTAG Connector uPSD34XX Expansion Connectors IrDA Transceiver NAND flash Real-Time Clock I2C interface EEPROM SPI interface Flash RS232 transceiver Power management 11 14 10 13 12 7 8
9 5 6
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Figure 3. DK3400 Motherboard Features
DK3400 Hardware Features
7 1. 2. 3. 4. 5. 6. 7. Power Switch 9V Power Input Dot Matrix LCD RS232 connector PS/2 connector Connectors for ED3Kx Connectors for DKMMX 4 2 1 5 3 6
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ED3K4 Hardware and Operation Mode
Turbo Plus uPSD DK3400 Development Kit
3
ED3K4 Hardware and Operation Mode
The ED3K4 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:
Mode1: 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.
3.1
ED3K4 Hardware Architecture
The jumpers and connectors definitions on ED3K4 board are detailed in this chapter.
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ED3K4 Hardware and Operation Mode
3.1.1
ED3K4 Jumpers Diagram
Figure 4. Block diagram layout of the jumper positions of the ED3K4 board
SW1
uPSD
eRlink
JP4
SW2
JP1 JP2 JP3 1 2
1 2 3
Extension connector CN1
Power
Extension connector CN2
Extension connector CN4
Extension connector CN5
Extension connector CN3
1 2 3 JP5 JP6
12
uPSD3400
1 2 3 JP7
128Mbit NAND Flash
JP8 JP9 JP10 1 2 JP11 1 2 JP12 1 3 5 2 4 6
JTAG connector
IrDA
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3.1.2
Jumpers Description
The definitions of the jumpers on ED3K4 board are listed in Table 1: Table 1.
Jumper
Description of jumpers on ED3K4 board
Description JP1 is used to enable SPI interface Flash M25P80.
JP1
M25P80 is enabled when JP1 is closed. Default status: closed Reser ved. Please keep this jumper on open. Default status: open JP3 is used to enable USB auto-disconnect function. USB auto-disconnect function is enabled when JP3 is closed. Default status: closed JP4 is used to select a power source for JTAG port. Keep JP4 on following status when ED3K4 works on Mode1, 2, 4 and 5:
JP2
JP3
JP4 Keep JP4 on open when ED3K4 works on Mode 3. Default status: JP4.1 connected to JP4.2
1
2
3
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 status when ED3K4 powered from RLINK USB cable:
1 Keep JP5 on following status when ED3K4 powered from uPSD USB cable: 2 3
JP5
1 Default status: JP5.1 connected to JP5.2 JP6 is used to provide a boot option for ED3K4 board. JP6 ED3K4 boot from internal main flash when JP6 is closed. ED3K4 boot from internal boot flash when JP6 is open. Default status: open
2
3
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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 JP7 ED3K4 works on external clock mode when JP4 is set as following:
2
3
1 Default status: JP7.1 connected to JP7.2 JP8
2
3
JP8 is used to enable NAND Flash. 128Mbit NAND flash is enabled when JP8 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 JP9 on closed when ED3K4 works on mode 1, 2, 3 and 5. Keeps JP9 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 on mode 1, 2, 4 and 5. Keeps JP10 on open when ED3K4 works on mode 3. Default status: closed JP11 is used to enable DEBUG signal. DEBUG signal is enabled when JP11 is closed. Default status: open
JP11
JP12 is used to select which transceiver will be connected to UART1 port, RS232 transceiver or IrDA transceiver. UART1 is connected to RS232 transceiver when JP12 is set as following:
2 4 6
1 JP12 UART1 is connected to IrDA transceiver when JP12 is set as following: 2
3
5
4
6
1 Default status JP12.2 connected to JP12.4; Default status JP12.1 connected to JP12.3.
3
5
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ED3K4 Hardware and Operation Mode
Turbo Plus uPSD DK3400 Development Kit
3.1.3
Connector Description
The definitions of connectors on ED3K4 board are listed in Table 2 and Table 3: Table 2. Description of connectors on ED3K4 board
Description Regulated 5V power jack. Note: The absolute Maximum voltage on this jack is 6V. USB port connected to uPSD3400 on board. USB port for embedded RLINK JTAG port used for debugging and programming 100 pins Extension connectors for user.
Connector POWER USER USB E-RLINK USB JTAG CN1, 2, 3, 4 and 5
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Table 3.
ED3K4 Hardware and Operation Mode
Description of the 100-pin extension connector CN1,2,3,4 and 5
Signal Name RD# WR# GND MCU_AD0 MCU_AD1 1 2 3,4,5,6,7,8 9,10,11 12 13 14 15 16 17 18 19 20 1 2,19 3,4,5,6,7,8 9 10 11 12 13,17 14 15 16 18 20 Pins READ signal WRITE signal Ground Multiplexed Address/Data bus A0/D0 Multiplexed Address/Data bus A1/D1 Multiplexed Address/Data bus A2/D2 Multiplexed Address/Data bus A3/D3 Multiplexed Address/Data bus A4/D4 Multiplexed Address/Data bus A5/D5 Multiplexed Address/Data bus A6/D6 Multiplexed Address/Data bus A7/D7 PSEN signal external bus GPIO/PLD Output or Input/SRAM standby voltage input(Vstby) Ground External 5V wall adapter power source (56V) GPIO on port A GPIO on port A GPIO on port A GPIO on port A Reser ved GPIO on port A GPIO on port A GPIO/Counter 0 input Reser ved External clock input Description
Connector
CN1
MCU_AD2 MCU_AD3 MCU_AD4 MCU_AD5 MCU_AD6 MCU_AD7 PSEN# PC2/VSTBY GND VCC1 PA7 PA6 PA5 PA4 PWR_DOWN PA3 PA2 P34/C0 VBATT EXT_CLK
CN2
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Turbo Plus uPSD DK3400 Development Kit
1 2 3 4 5 6 7 8 9 10 11 12,17 13 14 15 16 18 19 20 1 2 3 4 5 6 7,13,15,17 19 8 9 10 11 12 14 16 18 20 GPIO/optional JTAG status(TSTAT) SPI slave select signal SPI TXD signal SPI RXD signal SPI clock signal output GPIO/PCA0-TCM2/UART1 RXD signal GPIO/PCA0-TCM1/Timer 2 trigger input GPIO/PCA0-TCM0/Timer 2 counter input GPIO/External interrupt0 input GPIO/External interrupt1 input GPIO/Timer 2 trigger input/ADC channel 1 Ground UART1 TXD signal on RS232 voltage level UART1 RXD signal on RS232 voltage level GPIO on port A GPIO on port A GPIO/I2C Bus serial data GPIO/I2C Bus clock 3.3V power I/O to the MCU Debug Unit GPIO/PLD input and output GPIO/PLD IO GPIO/PLD IO/Address Latch output GPIO/UART0 transmit TXD signal GPIO/UART0 receive RXD signal Ground UART0 TXD signal on RS232 voltage level UART0 TXD signal on RS232 voltage level GPIO/Optional JTAG status(TERR) GPIO/Counter1 input 5V power GPIO/SPI slave select/ADC channel 7 GPIO/SPI receive/ADC channel 5 GPIO/UART1 or IrDA transmit/ADC channel 3 System reset signal
PC3/TSTAT MCU_SPI_SEL MCU_SPI_TXD MCU_SPI_RXD MCU_SPI_CLK P42/TCM2 P41/TCM1 P40/TCM0 P32/INT0 CN3 P33/INT1 P11/T2X GND TXD1_232 RXD1_232 PA1 PA0 P36/SDA P37/SCL VCC3 CPU_DEBUG PC7 PD1 PB0 P31/TXD0 P30/RXD0 GND CN4 TXD0_232 RXD0_232 PC4/TERR# P35/C1 VCC2 P17/AD7 P15/AD5 P13/AD3 RESET#
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ALE PD2 PB0 PB1 PB2 PB3 PB4 PB5 CN5 PB6 PB7 VCC2 P16/ADC6 VCC3 P14/ADC4 P12/ADC2 P10/ADC0 1 2 13 3,12 4,11 5,10 6 7 8 9 14 15 16,18 17 19 20
ED3K4 Hardware and Operation Mode
Address latch signal GPIO/PLD input and output GPIO/PLD IO/Address Latch output GPIO/PLD IO/Address Latch output GPIO/PLD IO/Address Latch output GPIO/PLD IO/Address Latch output GPIO/PLD IO/Address Latch output GPIO/PLD IO/Address Latch output GPIO/PLD IO/Address Latch output GPIO/PLD IO/Address Latch output 5V power GPIO/SPI transmit/ADC channel 6 3.3V power GPIO/SPI clock output/ADC channel 4 GPIO/UART1 or IrDA receive/ADC channel 2 GPIO/Timer 2 counter input/ADC channel 0
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, UART0 digital level, POWER-DOWN input, External battery, External clock, I2C and External RESET. All possible top connection capabilities have been listed in following Table 4. Table 4. ED3K4 Top connection capabilities
Capabilities SRAM backup power Signals name PC2/VSTBY GND GND PWM/SERVO OUTPUT1 VCC1 MCU_SPI_TXD GND PWM/SERVO OUTPUT2 VCC1 MCU_SPI_RXD GND PWM/SERVO OUTPUT3 VCC1 MCU_SPI_CLK GND PWM/SERVO OUTPUT4 VCC1 P42/TCM2 CON2.1 CON2.2 CON1.3 CON2.3 CON3.3 CON1.4 CON2.4 CON3.4 CON1.5 CON2.5 CON3.5 CON1.6 CON2.6 CON3.6 Headers
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ED3K4 Hardware and Operation Mode
Turbo Plus uPSD DK3400 Development Kit
GND CON1.7 CON2.7 CON3.7 CON1.8 CON2.8 CON3.8 CON1.9 CON2.9 CON3.9 CON1.10 CON2.10 CON3.10 CON1.11 CON2.11 CON3.11 CON3.13 CON3.14 CON2.17 CON3.17 CON2.18 CON2.19 CON2.20 CON2.19 CON3.17 CON3.18 CON3.19 CON3.20 CON4.5 CON4.6 CON4.7 CON3.11 CON3.12 CON5.19 CON4.19 CON4.18 CON4.19 CON5.17 CON4.17 CON4.16 CON4.17 CON5.15 CON4.15
PWM/SERVO OUTPUT5
VCC1 P41/TCM1 GND
PWM/SERVO OUTPUT6
VCC1 P40/TCM0 GND
TIMING CAPTURE 1
PA7 P32/INT0 GND
TIMING CAPTURE 2
PA6 P33/INT1 GND
TIMING CAPTURE 3
PA5 P11/T2X TXD1_232 RXD1_232 PWR_DOWN GND VBATT GND EXT_CLK GND GND P36/SDA P37/SCL VCC3 P31/TXD0
UART1 RS232 level POWER-DOWN EXTERNAL BATTERY CONNECTION EXTERNAL CLOCK INPUT
I2C BUS WITH GND+POWER
UART0 DIGITAL LEVEL
P30/RXD0 GND P11/T2X GND P12/ADC2 GND P13/ADC3 GND P14/ADC4 GND P15/ADC5 GND P16/ADC6 GND
ADC channel 1 ADC channel 2 ADC channel 3 ADC channel 4 ADC channel 5 ADC channel 6
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P17/ADC7 GND RESET# GND
ED3K4 Hardware and Operation Mode
ADC channel 7 EXTERNAL RESET
CON4.14 CON4.13 CON4.20 CON4.19
3.1.5
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 area 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 D2 D5 D8 LD1 LD2 LD3 D6 red red red green re d green red
LED description
Color JTAG operation indicator LED Power indicator LED Low battery indicator LED eRlink Power indicator LED eRlink BUSY indicator LED eRlink RUN indicator LED User LED that can be driven by uPSD3434E on board Usage
3.2
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.
3.2.1
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.
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ED3K4 Hardware and Operation Mode
Turbo Plus uPSD DK3400 Development Kit
Figure 5.
ED3K4 operation mode 1 connection
-A
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 for detailed information about jumper configuration on operation mode 1. Table 6.
Jumper JP1 JP2 JP3 JP4
Jumper configuration on Mode 1
Status closed open closed 1<->2 JP5 JP6 JP7 JP8 Jumper Status 1<->2 closed 1<->2 closed JP9 JP10 JP11 JP12 Jumper Status closed closed open 1<->3;2<->4
PC HOST
eRlink 340 0 USB-B (2x) uPSD
NAND
JTAG
-A
TOP SIDE
3.2.2
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
-A
PC HOST
debug eRlink user uPSD USB-B (2x) 3400 NAND JTAG -A
TOP SIDE
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Hardware connection on Mode 2
ED3K4 Hardware and Operation Mode
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 JP1 JP2 JP3 JP4
Jumper configuration on Mode 2
Status closed open closed 1<->2 JP5 JP6 JP7 JP8 Jumper Status 2<->3 closed 1<->2 closed JP9 JP10 JP11 JP12 Jumper Status closed closed open 1<->3;2<->4
3.2.3
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. Only the embedded RLINK is active on ED3K4 board on this operation mode. Figure 7. ED3K4 operation mode 3 connection
-A
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 JP1
Jumper configuration on Mode 3
Status closed JP5 Jumper Status 1<->2 JP9 Jumper Status closed
PC HOST
debug eRlink 3400 uPSD USB-B (2x) JTAG NAND -A
ED3K4
JTAG
Standard 14-pin cable
uPSD
uPSD Target Board
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ED3K4 Hardware and Operation Mode
Turbo Plus uPSD DK3400 Development Kit
JP6 JP7 JP8 closed 1<->2 closed JP10 JP11 JP12 open open 1<->3;2<->4
JP2 JP3 JP4
open closed open
3.2.4
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
-A
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 9.
Jumper JP1 JP2 JP3 JP4
Jumper configuration on Mode 4
Status closed open closed 1<->2 JP5 JP6 JP7 JP8 Jumper Status 1<->2 closed 1<->2 closed JP9 JP10 JP11 JP12 Jumper Status open closed open 1<->3;2<->4
PC HOST
eRlink user USB-B (2x) debug 3400 uPSD
JTAG
NAND
-A
ED3K4
JTAG
Standard 14-pin cable
ULINK
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3.2.5
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 eRlink as debug tools. Please also make sure that the 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 JP1 JP2 JP3 JP4
Jumper configuration on Mode 5
Status closed open closed 1<->2 JP5 JP6 JP7 JP8 Jumper Status open open 1<->2 closed JP9 JP10 JP11 JP12 Jumper Status closed closed open 1<->3;2<->4
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DK3400 Motherboard Hardware Architecture
Turbo Plus uPSD DK3400 Development Kit
4
DK3400 Motherboard Hardware Architecture
The DK3400 motherboard can be used as a base board for both the uPSD module ED3K4 and ED3K3. The power supply, LCD, RS232 interface and PS/2 Keyboard interface are available on this board.
4.1
Jumper description
The jumper definitions on the DK3400 motherboard are listed in Table 11. Table 11.
Jumper
Description of jumpers on DK3400 motherboard
Description
JP1 is used to select which UART port is connected to RS232 connector on DK3400 motherboard. UART0 is connected to RS232 connector when JP1 is set as following: 2 4 6
1 JP1 UART1 is connected to RS232 connector when JP1 is set as following: 2
3
5
4
6
1 Default status: JP1.3 connected to JP1.5; JP1.4connected to JP1.6.
3
5
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4.2
Connector description
The connector definitions on the DK3400 motherboard are listed in Table 12. Table 12.
CN0 CN1,2,3,4 and 5 CN6 CN7 DKMMX_CON1 DKMMX_CON2 DKMMX_CON3
Description of connectors on DK3400 motherboard
Connector 9V power jack. Connectors for ED3Kx module RS232 connector (female) PS/2 standard Keyboard connector Connector for DKMMX board Connector for DKMMX board Connector for DKMMX board Description
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Getting Started With DK3400
Turbo Plus uPSD DK3400 Development Kit
5
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. Connect a PS/2 standard Keyboard to PS/2 connector on DK3400 motherboard.
2.
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 the ST website: http://www.st.com/psm
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2
3
4
D
D
IO IO. SCH
Power Power. SCH
JTAG JTAG.SCH
RLINK RLINK.SCH
C
C
Turbo Plus uPSD DK3400 Development Kit
Appendix A ED3K4 Schematic
MC U MC U.SCH
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Title Size A4 Date:
2 3 4
Peri pheral s Peri pheral s.SCH
B
B
A
ED3K4
Number 23-Feb-2005 Revision 1.1
A
Getting Started With DK3400
1
23/32
R34 10K R4 510 USB- B
2
3
1
24/32
2 3 4 CN2 ALE PD2 PB1 PB2 PB3 PB4 PB5 PB6 PB7 CN3 CN4 CN5 D PC2/ VSTBY GND VCC1 VCC1 VCC1 VCC1 VCC1 VCC1 PA7 PA6 PA5 PA4 PW R _ D O W N PA3 PA2 P34/C0 PW R _ D O W N VBATT GND EXT_CLK 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 VCC2 P16/ADC6 VCC3 P14/ADC4 VCC3 P12/ADC2 P10/ADC0 CON20 CON20 CON20 CON20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 PC3/ TSTAT M CU_SPI_SE L MC U_SPI _TXD MC U_SPI _RXD M CU_SPI_CLK P42/TCM 2 P41/TCM 1 P40/TCM 0 P32/INT0 P33/INT1 P11/T2X GND TXD1_232 RXD1_232 PA1 PA0 GND P36/SDA P37/SCL VCC3 CPU_DEBUG PC7 PD1 PB0 P31/TXD0 P30/RXD0 GND TXD0_232 RXD0_232 PC4/ TERR# P35/C1 VCC2 GND P17/ADC7 GND P15/ADC5 GND P13/ADC3 GND RESET# C 5V_UDISK C1 104 5V_RLINK 5V_RLINK R1 1k5 RLINK_USBDRLINK_USBD+ B R2 MC U_USBD22 R3 MC U_USBD+ 22 1 2 3 4 5 6 Program/ Debug 1 VCC 2 D3 D+ 4 GND 5 SHELL 6 SHELL R5 1K PC7 1 2 JP3
1
Getting Started With DK3400
D
CN1
C
RD# WR# GND GND GND GND GND GND GND GND GND MC U_AD0 MC U_AD1 MC U_AD2 MC U_AD3 MC U_AD4 MC U_AD5 MC U_AD6 MC U_AD7 PSEN#
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
CON20
UM0131
Title Size A4 Date:
2 3 4
B
User USB USB- B
5V_UDI SK
V CC3
VCC DD+ GND SHELL SHELL
T1 9013
R35 36K
A
CONNECTOR
Number 23-Feb-2005 Revision 1.1
A
Turbo Plus uPSD DK3400 Development Kit
1
1
2
3
4
D
D
VCC2 8 7 6 5 8 7 6 5 RR1 10K 10K JTAG_VCC 1 2 3 4 20 CPU_DEBUG 1 2 3 4 RR2
C V CC RLINK_TSTAT RLINK_TERR RLINK_TDO JTAG
U10
C
Turbo Plus uPSD DK3400 Development Kit
JP10 GND RLINK_CNTL JTAG_CNTL RLINK_TRST VCC2
PC3/ TSTAT PC4/ TERR# PC6/ TDO GND RLINK_TDI RLINK_TM S RLINK_TCK RLINK_RST 2 4 6 8 11 13 15 17 1 19 1A1 1A2 1A3 1A4 2A1 2A2 2A3 2A4 1E 2E PC5/ TDI PC0/ TM S PC1/ TCK RESET# 14 12 10 8 6 4 2 TERR GND GND RST TSTAT CNTL TRST 74VHC244T 10 D2 RED 1Y1 1Y2 1Y3 1Y4 2Y1 2Y2 2Y3 2Y4 18 16 14 12 9 7 5 3
UM0131
R33 R32 4K7 4K7 JTAG_VCC R6 470 VCC2 JTAG_VCC 5V_RLINK BAT54S 1 2 3 1 2 3 JP4
2 1
TDO TCK TM S VCC TDI GND JEN
13 11 9 7 5 3 1
JTAG_VCC C2 104
JP9
2 1
B
B
RLINK_JEN
A
Title Size A4 Date:
2 3 4
JTAG
Number 23-Feb-2005 Revision 1.1
A
Getting Started With DK3400
1
25/32
1
3
2
PB0 PB1 PB2 PB3 PB4 PB5 PB6 PB7 JP6 PB3 GND 2 1 BOOT Option PB4 PB5 PB6 PB7
80 78 76 74 73 71 67 66 PB0 PB1 PB2
P40/TCM 0 P41/TCM 1 P42/TCM 2
SW 1
1 5 4
3
V CC V DD V DD
10 12 50
13 29
11 14
A
VCC2
VCC3
GND GND
USB + USB -
26/32
2 3 4 VCC2 U1 uPSD3400-80 D C5 104 C3 104 C4 104 MC U_X1 48 X1 VCC2 VCC3 MC U_X2 49 X2 RESET# RESET_I N 68 P0.0/ AD0 P0.1/ AD1 P0.2/ AD2 P0.3/ AD3 P0.4/ AD4 P0.5/ AD5 P0.6/ AD6 P0.7/ AD7 36 37 38 39 41 43 45 47 MC U_AD0 MC U_AD1 MC U_AD2 MC U_AD3 MC U_AD4 MC U_AD5 MC U_AD6 MC U_AD7 CPU_DEBUG JTAG_CNTL DEBUG C8 MC U_X2 20pf X3 40MHZ GND C10 C 8 P2.0/ A8 P2.1/ A9 P2.2/ A10 P2.3/ A11 51 53 55 57 X1 2 CSTCW-X 20pf C14 L1 2.2uH JP7 VCC2 MC U_X1 EXT_CLK R31 4K7 1 2 3 CON3 103 35 34 32 28 26 24 22 21 PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7 CTRL0/ WR CTRL1/ RD CTRL2/ PSEN ALE(PD0) 62 65 63 4 WR# RD# PSEN# ALE P30/ RXD0 P31/ TXD0 P32/ INT0 P33/ INT1 P34/ C0 P35/ C1 P36/ SDA P37/ SCL RXD/P3. 0 TXD/P3. 1 EXINT0/ GATE0/P3. 2 EXINT1/ GATE1/P3. 3 T0/ P3.4 T1/ P3.5 I 2CSDA/P3. 6 I2CSCL/ P3.7 75 77 79 2 40 42 44 46 P10/ ADC0 P11/T2X P12/ ADC2 P13/ ADC3 P14/ ADC4 P15/ ADC5 P16/ ADC6 P17/ ADC7 AVC C ADC0/ T2/ P1.0 ADC1/ T2x/ P1.1 ADC 2/ RXD2/ P1.2 ADC 3/ TXD2/ P1.3 ADC4/ SPISCL K/ P1.4 ADC 5/ SPIRXD/P1. 5 ADC 6/ SPITXD/P1. 6 ADC7/ SPISSEL/ P1.7 52 54 56 58 59 60 61 64 PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7 Delete RC reset circuit RESET# B GND 70 72 69 Vref AVC C AGND+P SDGND 33 31 30 27 25 23 19 18 T2/ TCM 0/ P4.0 T2x/ TCM 1/ P4.1 RXD2/ TCM 2/ P4.2 TXD2/ PCA0/ P4.3 SPISCL K/ TCM 3/ P4.4 SPIRXD/ TCM 4/ P4.5 SPIT XD/ TCM 5/ P4.6 SPISSEL/ PCA1/ P4.7 TM S/PC0 TCK/ PC1 Vst by/ PC2 TSTAT/PC3 TERR / VBATON/ PC4 TDI/ PC5 TDO/PC6 PC7 PD1 PD2 3 1 PD1 PD2 20 17 16 15 9 7 6 5 PC0/ TM S PC1/ TCK PC2/ VSTBY PC3/ TSTAT PC4/ TERR# PC5/ TDI PC6/ TDO PC7 Reset button
1
Getting Started With DK3400
D
JP11
1 2
C
UM0131
Title
MC U_USBDMC U_USBD+
B
PW R_DOWN M CU_SPI_CL K MC U_SPI _RXD MC U_SPI _TXD M CU_SPI_SE L
MCU
Size A4 Date: 23-Feb-2005
3 4
A
Number
Revision1.1
Turbo Plus uPSD DK3400 Development Kit
1
2
1
2
3
4
VCC3 U2 U3 2 V+ C1+ C16 105 4 14 TXD0_232 13 RXD0_232 7 8 TXD1_232 RXD1_232 C25 V CC 1 C17 105 3 C1C2+ T1out R1i n T2out R2i n T1i n R1out T2i n R2out 11 12 10 VCC3 9 P31/TXD0 P30/RXD0 16 C12 104 C15 105
V CC3
1Gbit NAND Flash RS232, IrDA
VCC3 V CC3 VCC3
C11 104
D
D
R7 R8 R9 10K 10K 10K
P42/TCM 2
P32/INT0
P17/ ADC7 P16/ ADC6 P15/ ADC5 P14/ ADC4
P33/ INT1
JP8 6 VST3232 C18 105 JP12 1 P12/ADC2 3 5 2 P13/ADC3 4 6 NAND0 1GW3A SW 2-SPD T
2 1
C19 104 GND
15
P34/ C0 P35/ C1 P36/ SDA P13/ ADC3 P12/ ADC2 P11/ T2X P10/ ADC0
Turbo Plus uPSD DK3400 Development Kit
C
P37/ SCL
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 NC NC NC NC NC NC R/ B /R E /C E NC NC Vcc Vss NC NC CLE ALE /WE /WP NC NC NC NC NC NC NC NC NC IO7 IO6 IO5 IO4 NC NC NC Vcc Vss NC NC NC IO3 IO2 IO1 IO0 NC NC NC NC
48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25
C
B 0. 22F 14 C35 6pf M C306 I RQ/OUT SQW U6 M 41T6X 11 RTC_ALARM 4 TP1 TP2 RESET# C34 6pf
X2 1N 4148 +
XI XO SCL SDA V s s V CC Vs s
R10 10K VCC3 VCC3 VCC3 M CU_SPI_CL K MC U_SPI _TXD C9 104 U9 3 5
UM0131
I2C interface RTC and EEPROM
VCC3 C7 D9 V CC3 P37/ SCL P36/ SDA 1 2 10 9 C20 4.7uF C22 104 R13 R14 4.3K 4.3K Vcc HOLD C D 1 2 3 4 8 7 6 5
IrDA Interface Circuit (disable shutdown)
U4 3 4 5 TxD RxD SD R11 R12 47 5
B
SPI Interface code Flash
1 2 6 7 8
Anode (VCC2) Cathode VCC1 Vlogic GND TFDU4300 C21 4. 7uF C23 104
VCC3
VCC3
C13 104
JP1
2 1
A
M CU_SPI_SE L SPI_SE L MC U_SPI _RXD VCC3
U5
1 2 3 4
S Q W Vss
Title
E0 E1 E2 Vss M 24CXX Vcc WC SCL SDA
PERIPHERALS
Size A4 Date: 23-Feb-2005
3 4
A
M 25P80
VCC3 8 7 P41/ TCM 1 6 P37/ SCL 5 P36/ SDA
Number
Revision 1.1
Getting Started With DK3400
1
2
27/32
R25 2.49K 2 1 JP2 Jumper for charg e L2/L3 NL322522T -4R7J(T DK) R26 80. 6K
28/32
2 3 4 VCC3 L4 100uH C32 22u C33 104 AVCC D U8 D5 R16 R19 3K Vm ax RED SW 2 2 C26 10uF D6 RED ON HSO HSI SW 2 L2 4.7uH R23 C30 423. 1K 10pF C27 10uF FB2 18 TP3 VCC2 R17 1K 3 2 TI M ER PROG 4 11 CHRG WALLFB 13 12 VCC2 24 14 RTC_ALARM 3 1 5 4 1K C VCC3 R15 10K Vm ax Vm ax 10 8 6 5 USB SUSPEND USBHP MODE HOSN ON2 PW RON RST PBSTAT 21 15 19 Vm ax 22 PW R_DOWN 20 RESET# R20 23 1M B 9 Vbat SW 1 4.7uH TP4 VCC3 R29 C31 249K 10pF 17 16 AO AI LTC3455 FB1 GND 1 25 R27 80. 6K C28 10uF 7 L3 VCC3 R18 1K RED D8 TP5 GND
1
D
POW ER
VCC1
TP6
Getting Started With DK3400
POW ER
1 2 3
VCC1
JP5
3 2 1
5V_RLINK 5V_USB 5V_UDI SK
Vm ax
CON3
D7
C
VCC1
D Schottk y
R21 1
R22 3.32K
UM0131
Title Size A4 Date:
2 3 4
C29 105
R24 1.24K
C24 104
B
VBATT
C25 4.7uF
R28 2.49M
R30 806K
A
POWER
Number 23-Feb-2005 Revision1.1
A
Turbo Plus uPSD DK3400 Development Kit
1
1
2
3
4
5V_RLINK 1
5V_RLINK
1
1
LC4 104 LC10 10uF LC6 104 2
LC5 104
LC8 D
D
104
2
2
USB interface
JTAG_VCC JTAG_VCC 5V_RLINK JTAG_VCC
5V_RLINK
6 60
31 59
VDDF = 2.8, 3.3, 3.4, 3. 5I lo ad max = 50 mA LU1 LR4 10k LR9 100k 330 1 LR5 10k LR6 10k LR7 10k LR8 10k LR1
1
LR10 100k
LC7 104
5V _RLI NK
V DDf V DDA
V DD1 V DD2
USBVCC
C 63 64 OSCI N OSCOUT Gr een RESET VPP / ICCSE L RLINK_TMS 51 50 LD1
VDDF_MES LR1 1 100k
C
2
RLINK_USBDRLINK_USBD+
1 4 5 2 3 USBVSS USBVCC USBVDD USBDM USBDP RLINK_TRST RLINK_TSTAT JTAG_CNTL RLINK_TERR RLINK_RST RLINK_JEN 2
X4
PA7 / PA6 / PA5 / PA4 / PA3 / PA2 / PA1 / PA0 /
DTC DTC DTC DTC DTC DTC DTC DTC
26 25 24 23 22 21 20 19
ST7_RESET DNG_ VPP
1
1
1
Turbo Plus uPSD DK3400 Development Kit
HC-49 / 12M Hz LC12
LC11 33pF
33pF
LC13 103
2
2
V SS f V SS A
V SS 1 V SS 2
7 61
32 62
UM0131
10 9 8 49 48 47 46 45 PE7 (H S) / DTC PE6 (H S) / DTC PE5 (H S) / DTC PE4 / PWM 1 PE3 / PW M 0 / A I N7 / D TC PE2 (HS) / AIN6 / DTC PE1 (HS) / AIN5 / DTC PE0 (HS) / AIN4 / DTC RLINK_TCK RLINK_TDI RLINK_TDO VDDF_MES PC7 / DTC PC6 / DTC PC5 / DTC PC4 / DTC PC3 (H S) / DTC / SCK PC2 (H S) / DTC / MOSI PC1 (H S) / DTC / MISO PC0 (H S) / MCO / SS 36 35 34 33 30 29 28 27 LD2 2 LR2 330 5V_RLINK 1 58 57 56 55 54 53 52 PF6 (H S) / ICCD ATA PF5 (H S) / ICCCLK PF4 (H S) / USBEN PF3 / AIN1 PF2 / AIN0 PF1 (H S) / SDA PF0 (H S) / SCL PD7 / AIN3 PD6 / AIN2 PD5 / OCMP2 PD4 / OCMP1 PD3 PD2 PD1 PD0 44 43 42 41 40 39 38 37 Red LD3 ST7265xA RxT1 LR3 330 2 1 Gr een
2
PB7 / PB6 / PB5 / PB4 / PB3 / PB2 / PB1 / PB0 /
DTC DTC DTC DTC DTC DTC DTC DTC
18 17 16 15 14 13 12 11
B
RLINK
B
DNG_ I CCDATA DNG_ I CCCLK
1 2 3 4 5 6 7 8 CON8
1 2 3 4 5 6 7 8
GND DNG_ I CCDATA GND DNG_ I CCCLK GND ST7_RESET DNG_ VPP Dongl eprogr ammin g
5V_RLI NK
A
Title Size A4 Date:
RLINK
Number 23-Feb-2005
3 4
A
Revision1.1
Getting Started With DK3400
1
2
29/32
CN0 D3 1 Vin Vout GND C3 104P 1N4004 D4 C2 C1 10 100uF/25V4P 2 +9V VCC1_6V 3
3 2 1
30/32
2 CN3 CN4 CN5 DKMMX_ CON2 DKMMX_ CON3 3 4 PC3/TSTAT M CU_SPI_SEL MC U_SPI_TXD MC U_SPI_RXD M CU_SPI_CL K P42/TCM 2 P41/TCM 1 P40/TCM 0 P32/INT0 P33/INT1 P11/T2X GND TXD1_232 RXD1_232 PA1 PA0 GND P36/SDA P37/SCL VCC3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 CON20 CON20 CON20 CON20 CON20 CON20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 D CPU_DEBUG PC7 PD1 PB0 P31/TXD0 P30/RXD0 GND TXD0_232 RXD0_232 PC4/TERR# P35/C1 VCC2_5V GND P17/ADC7 GND P15/ADC5 GND P13/ADC3 GND RESET# ALE PD2 PB1 PB2 PB3 PB4 PB5 PB6 PB7 PB3 PB2 PB1 PB0 VCC2_5V P16/ADC6 VCC3 P14/ADC4 VCC3 P12/ADC2 P10/ADC0 PB3 PD1 PD2 PC2/VSTBY PC3/TSTAT PC4/TERR# P32/INT0 RESET# GND P10/ADC0 GND P11/T2X GND P14/ADC4 GND P15/ADC5 GND P16/ADC6 GND +9V DKMMX_ CON1 P13/ADC 3 1 P12/ADC 2 2 M CU_SPI_CL K 3 GND 4 P37/SCL 5 P36/SDA 6 GND 7 PB0 8 PB1 9 PA0 10 PA1 11 PA2 12 PA3 13 PA4 14 PA5 15 PA6 16 PA7 17 PB2 18 GND 19 +9V 20
1
CN1
CN2
Getting Started With DK3400
D
RD# WR# GND GND GND GND GND GND GND GND GND MC U_AD0 MC U_AD1 MC U_AD2 MC U_AD3 MC U_AD4 MC U_AD5 MC U_AD6 MC U_AD7 PSEN#
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
PC2/VSTBY GND VCC1_6V VCC1_6V VCC1_6V VCC1_6V VCC1_6V VCC1_6V PA7 PA6 PA5 PA4 PWR_DOWN PA3 PA2 P34/C0 PWR_DOWN VBATT GND EXT_CLK
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
CON20
CON20
ED3K4
Hol e_GND1 Hol e_GND2 Hol e_6V_3 Hol e_6V_4 Hol e_6V_1 Hol e_6V_2
MMX
C
C
SW1
U1 L7806
Appendix B DK3400 Motherboard Schematic
UM0131
1N4004 D1 1N4004 D2 1N4004
B
POWER
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 GND GND VCC1_6V +6V
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 VCC1_6V +6V VCC1_6V +6V VCC1_6V +6V
B
Hole Array
CN7
LCD VCC2_5V VCC2_5V CN6 C4 104P TXD0_232 4 7 5 3 RXD1_232 18 UAR T VCC2_5V GND 1 TXD1_232 RXD0_232 2 5 6 JP1
PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7
10 11 12 13 14 15 16 17
1 2 3 4 5 6
Data NC GND +5V CLK NC DIN6_F P34/C0 P33/INT1
D0 D1 D2 D3 D4 D5 D6 D7
NC NC
PS2-KEYBOARD
Title
DB9 R1 4.7K R2 4.7K VCC2_5V
RST
A 2 3 1
PB4 PB5 PB6 PB7
6 8 9 4
E2 E1 R/W D/ I(A 0)
1 6 2 7 3 8 4 9 5
DK3400_BASE
Size A4 Number Revision1.0
A
VDD V0 VSS
LCD_GXM 12232SL
LCD
2
UART
3
Date:
4
23-Feb-2005
Turbo Plus uPSD DK3400 Development Kit
1
Turbo Plus uPSD DK3400 Development Kit
Revision History
6
Revision History
Date 01-Mar-2005 Revision 1 First Release Changes
UM0131
31/32
Revision History
Turbo Plus uPSD DK3400 Development Kit
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