DNP/EVA9 Board Revision 1.1 Hardware Reference SSV Embedded Systems Heisterbergallee 72 D-30453 Hannover Phone: +49-(0)511-40000-0 Fax: +49-(0)511-40000-40 E-mail: sales@ist1.de Manual Revision: 1.1 Date: 2006-03-21 For further information regarding our products please visit us at www.dilnetpc.com
DNP/EVA9 Hardware Reference Content CONTENT 1 INTRODUCTION...3 1.1 Block diagram...3 1.2 Feature Overview Evaluation Board DNP/EVA9...5 2 BOARD LAYOUT...6 2.1 Overview Interfaces...6 2.2 Overview Jumpers and Connectors...7 2.3 Overview LEDs, Buttons, etc....8 3 PINOUTS...9 3.1 DIL-64 Socket J1 (1. Part)...9 3.2 DIL-64 Socket J1 (2. Part)...10 3.3 SPI J3...11 3.4 Expansion Bus J5...12 3.5 COM1 Connector J6...13 3.6 COM2 Connector J7...13 3.7 GSM Modem Connector 1 J8 (1. Part)...14 3.8 GSM Modem Connector 1 J8 (2. Part)...15 3.9 GSM Modem Connector 2 J9 (1. Part)...16 3.10 GSM Modem Connector 2 J9 (2. Part)...17 3.11 SIM Card Holder J10...18 3.12 USB Device Port J11...18 3.13 USB Host Port J12...18 3.14 SD/MMC Socket J14...19 3.15 LCD Connector J15...19 3.16 10/100 Mbps Ethernet Interface J16...20 3.17 Power Connector J17...20 3.18 USB Mode Jumper JP2...20 3.19 COM2 Mode Jumper JP3, JP5, JP10...21 3.20 GSM Modem Select Jumper JP4...21 3.21 USB 5 VDC Jumper JP6...21 3.22 MMC Mode Jumper JP8...22 3.23 SPI Mode Jumper JP9...22 4 BATTERY HOLDER...23 5 MECHANICAL DIMENSIONS...24 CONTACT...26 DOCUMENT HISTORY...26 SSV EMBEDDED SYSTEMS 2
DNP/EVA9 Hardware Reference Introduction 1 INTRODUCTION This document describes the hardware components of the DNP/EVA9. For further information about the individual components of this product you may follow the links from our website at http://www.dilnetpc.com. Our website contains a lot of technical information, which will be updated in regular periods. 1.1 Block diagram Figure 1 shows the block diagram with the main components of the Evaluation Board DNP/EVA9. The DIL-64 socket (J1) forms the center of this figure. This socket connects a 64-pin DIL/NetPC with the DNP/EVA9 functions. Figure 1: Block diagram of DNP/EVA9 The 10/100 Mbps Ethernet LAN interface (J16) of the DIL-64 pinout goes directly over a simple magnetic part to a RJ45 connector. The COM1 interface signals of the DIL-64 socket are connected to a RS232 driver circuit and a 9-pin Sub-D connector (J6) with standard PC pinout. The Ethernet LAN interface and/or COM1 are necessary to communicate with the DIL/NetPC operating system for evaluation purpose. All expansion bus interface signals of the DIL-64 pinout are connected to an expansion bus connector (J5). This connector is located very close to the prototype area. The DNP/EVA9 is also equipped with a battery holder for 3 V lithium cells to supply the Vbat input of a DIL/NetPC. The other most important parts of the DNP/EVA9 are: COM2: The RS232-based COM2 interface can be used if no GSM modem is available. The COM2 signals of the DIL-64 socket go over a special jumper field (COM2 mode). These jumpers allow connecting the COM2 signals either to the RS232-based COM2 Sub-D connector (J7) or to the GSM modem connectors of the DNP/EVA9. SSV EMBEDDED SYSTEMS 3
DNP/EVA9 Hardware Reference Introduction GSM Modem: The DNP/EVA9 is available either with connectors (J8, J9) for a Siemens MC45 or a Sony Ericsson GM47/GR47 GSM/GPRS modem module. The version for the Sony Ericsson GM47/GR47 is the factory standard. A version for Siemens MC45 is available on request. The GSM modem is supported by a SIM card holder (J10). For using the GSM modem, please insert a standard SIM card for mobile phones from a mobile communication provider to this socket. There is also a jumper (JP4) available for customizing the SIM card holder to the Siemens MC45 or the Sony Ericsson GM47/GR47 GSM/GPRS modem module. LCD: The DNP/EVA9 offers a LCD connector (J15). This connector drives standard text type LCDs with 4 lines and 16 characters per line. The DNP/EVA9 also contains the parts for LCD contrast voltage generation including a trim poti (R19) for LCD contrast adjustment. Push-Button Switch: There are four push-button switches for user inputs. These switches are connected to PIO signals of the DIL-64 socket. SPI: The SPI function pins of the DIL-64 pinout are connected to a special connector (J3). This connector works as SPI master and allows SPI-based expansions to slave devices. Over a jumper field (JP9) it is also possible to connect the SD/MMC socket with the SPI function pins. SD/MMC Socket: This socket (J14) allows to use SD card or MMC compatibles devices. The socket can be driven by SD/MMC or SPI signals. The selection goes over two jumper fields (MMC Mode jumper JP8 and SPI mode JP9) USB: The DNP/EVA9 offers two USB connectors (J12: 1 x USB Host and J11: 1 x USB Device). The USB host connector allows supplying 5 VDC to external devices. This voltage can be switched on or off with a special configuration jumper (JP6 USB 5 VDC). Power Supply: This functional unit generates two voltages from a single 5 VDC source: 3.3 VDC for the DIL-64 socket and all other logic parts, except the GSM modem and the LCD. 3.6 VDC for the GSM modem. This voltage is very stable. The current of a GSM modem depends from the operation mode (sleep, TX/RX data) and varies within in a wide range. Please note: The 5 VDC supply voltage for the LCD is not generated by the DNP/EVA9 power supply. This voltage comes directly from the external 5 VDC input source. The DNP/EVA9 also contains some special jumper fields. Most of these jumpers support to configure the board features for special needs. Some jumpers work in a pass-through mode and allow to free special DIL-64 signals for customer-specific use. The other most important jumpers are: COM2 Mode: This jumper field with three jumpers (JP3, JP5, JP10) routes the COM2 signals of the DIL-64 pinout either to the RS232-based COM2 interface and connector or to the GSM modem socket. SSV EMBEDDED SYSTEMS 4
DNP/EVA9 Hardware Reference Introduction MMC Mode: The MMC Mode jumper (JP8) allows opening the connection between the SD/MMC socket and the interface pins of the DIL/NetPC. This can be necessary if the SD/MMC socket is driven by the SPI signals. SPI Mode: This jumper (JP9) connects the SPI function pins of the DIL-64 pinout in addition to the connections to the SPI connector (J3) with the SD/MMC socket. Please note: Use either the MMC Mode jumper (JP8) or the SPI mode jumper (JP9). Do not set both jumpers at the same time! USB Mode: The USB Mode jumper field (JP2) routes the USB host and device signals of the DIL-64 pinout through the two USB connectors of the DNP/EVA9. In other words, this jumper field allows you to interrupt the USB connection between the DIL-64 socket and the USB connectors. This can be necessary, if the DIL-64 USB signals are connected to other devices (i.e. customer-specific parts within the prototype area). 1.2 Feature Overview Evaluation Board DNP/EVA9 One 64-pin DIL socket for DIL/NetPC Two serial interfaces COM1/COM2 (RS232) COM2 alternatively useable for GSM/GPRS modem GSM modem socket with SIM card holder One 10/100 Mbps Ethernet LAN interface One USB host port connector with 5 VDC power supply output One USB device port connector SD/MMC socket for memory card expansions SPI connector for SPI-based expansions One LCD connector for standard text type LCDs with 4 lines x 16 characters Four push-button switches for user input One reset switch One battery holder for 3 VDC CR 2032 lithium battery One 5 VDC power input connector Power supply with 3.3 VDC and 3.6 VDC outputs Prototype area with expansion bus connector SSV EMBEDDED SYSTEMS 5
DNP/EVA9 Hardware Reference Board Layout 2 BOARD LAYOUT 2.1 Overview Interfaces Figure 2: Interfaces DNP/EVA9 SSV EMBEDDED SYSTEMS 6
DNP/EVA9 Hardware Reference Board Layout 2.2 Overview Jumpers and Connectors Figure 3: Jumpers and connectors DNP/EVA9 SSV EMBEDDED SYSTEMS 7
DNP/EVA9 Hardware Reference Board Layout 2.3 Overview LEDs, Buttons, etc. Figure 4: LEDs, buttons, etc. DNP/EVA9 SSV EMBEDDED SYSTEMS 8
DNP/EVA9 Hardware Reference Pinouts 3 PINOUTS 3.1 DIL-64 Socket J1 (1. Part) Pin Name Group Function 1 PA0 PIO Parallel I/O, Port A, Bit 0 (see also: Alternate Function) 2 PA1 PIO Parallel I/O, Port A, Bit 1 (see also: Alternate Function) 3 PA2 PIO Parallel I/O, Port A, Bit 2 (see also: Alternate Function) 4 PA3 PIO Parallel I/O, Port A, Bit 3 (see also: Alternate Function) 5 PA4 PIO Parallel I/O, Port A, Bit 4 (see also: Alternate Function) 6 PA5 PIO Parallel I/O, Port A, Bit 5 (see also: Alternate Function) 7 PA6 PIO Parallel I/O, Port A, Bit 6 8 PA7 PIO Parallel I/O, Port A, Bit 7 9 PB0 PIO Parallel I/O, Port B, Bit 0 (see also: Alternate Function) 10 PB1 PIO Parallel I/O, Port B, Bit 1 (see also: Alternate Function) 11 PB2 PIO Parallel I/O, Port B, Bit 2 (see also: Alternate Function) 12 PB3 PIO Parallel I/O, Port B, Bit 3 (see also: Alternate Function) 13 PB4 PIO Parallel I/O, Port B, Bit 4 (see also: Alternate Function) 14 PB5 PIO Parallel I/O, Port B, Bit 5 (see also: Alternate Function) 15 PB6 PIO Parallel I/O, Port B, Bit 6 (see also: Alternate Function) 16 PB7 PIO Parallel I/O, Port B, Bit 7 (see also: Alternate Function) 17 PC0 PIO Parallel I/O, Port C, Bit 0 (see also: Alternate Function) 18 PC1 PIO Parallel I/O, Port C, Bit 1 (see also: Alternate Function) 19 PC2 PIO Parallel I/O, Port C, Bit 2 (see also: Alternate Function) 20 PC3 PIO Parallel I/O, Port C, Bit 3 (see also: Alternate Function) 21 RXD1 SIO COM1 Serial Port, RXD Pin 22 TXD1 SIO COM1 Serial Port, TXD Pin 23 CTS1 SIO COM1 Serial Port, CTS Pin 24 RTS1 SIO COM1 Serial Port, RTS Pin 25 DCD1 SIO COM1 Serial Port, DCD Pin 26 DSR1 SIO COM1 Serial Port, DSR Pin 27 DTR1 SIO COM1 Serial Port, DTR Pin 28 RI1 SIO COM1 Serial Port, RI Pin 29 RESIN RESET RESET Input 30 TX+ LAN 10BASE-T/100BASE-TX Ethernet Interface, TX+ Pin 31 TX- LAN 10BASE-T/100BASE-TX Ethernet Interface, TX- Pin 32 GND --- Ground Table 1: Pinout DIL-64 socket pin 1 to 32 SSV EMBEDDED SYSTEMS 9
DNP/EVA9 Hardware Reference Pinouts 3.2 DIL-64 Socket J1 (2. Part) Pin Name Group Function 33 RX+ LAN 10BASE-T/100BASE-TX Ethernet Interface, RX+ Pin 34 RX- LAN 10BASE-T/100BASE-TX Ethernet Interface, RX- Pin 35 RESOUT RESET RESET Output 36 VBAT PSP* Real Time Clock Battery Input 37 CLKOUT PSP* Clock Output 38 TXD2 PSP* COM2 Serial Port, TXD Pin 39 RXD2 PSP* COM2 Serial Port, RXD Pin 40 HDMA PSP* USB Host Port- (Interrupt Input on other DIL/NetPCs) 41 HDPA PSP* USB Host Port+ (Interrupt Input on other DIL/NetPCs) 42 DDM PSP* USB Device Port- (Interrupt Input on other DIL/NetPCs) 43 DDP PSP* USB Device Port+ (Interrupt Input on other DIL/NetPCs) 44 INT1 PSP* Interrupt Input 1 45 CS4 PSP* Chip Select Output 4. Physical Address Range 0x7000.0000-0x7FFF.FFFF 46 CS3 PSP* Chip Select Output 3. Physical Address Range 0x6000.0000-0x6FFF.FFFF 47 CS2 PSP* Chip Select Output 2. Physical Address Range 0x5000.0000-0x5FFF.FFFF 48 CS1 PSP* Chip Select Output 1. Physical Address Range 0x4000.0000-0x4FFF.FFFF 49 RDY PSP* External Ready Input 50 RD PSP* Read Signal, Expansion Bus 51 WR PSP* Write Signal, Expansion Bus 52 SA3 PSP* Expansion Bus, Address Bit 3 53 SA2 PSP* Expansion Bus, Address Bit 2 54 SA1 PSP* Expansion Bus, Address Bit 1 55 SA0 PSP* Expansion Bus, Address Bit 0 56 SD7 PSP* Expansion Bus, Data Bit 7 57 SD6 PSP* Expansion Bus, Data Bit 6 58 SD5 PSP* Expansion Bus, Data Bit 5 59 SD4 PSP* Expansion Bus, Data Bit 4 60 SD3 PSP* Expansion Bus, Data Bit 3 61 SD2 PSP* Expansion Bus, Data Bit 2 62 SD1 PSP* Expansion Bus, Data Bit 1 63 SD0 PSP* Expansion Bus, Data Bit 0 64 Vcc --- 3.3 Volt Power Input Table 2: Pinout DIL-64 socket pin 33 to 64 * Please note: Some pins are called "Product Specific Pins (PSP)". Other members of the DIL/NetPC family will differ with these pins from the DNP/9200. All other pins will have the same primary functions. The DNP/9200 alternate functions (pin 1 to 20) are AT91RM9200-specific. SSV EMBEDDED SYSTEMS 10
DNP/EVA9 Hardware Reference Pinouts 3.3 SPI J3 Pin Name DIL-64 Pin Function 1 Vcc --- 3.3 VDC 2 GND --- Ground 3 MOSI 17 Master Out Slave In (SPI Data) 4 GND --- Ground 5 MISO 18 Master In Slave Out (SPI Data) 6 GND --- Ground 7 SPICLK 19 SPI Clock 8 GND --- Ground 9 SPICS0 20 SPI Chip Select 10 GND --- Ground 11 Reserved --- Reserved 12 GND --- Ground 13 Reserved --- Reserved 14 Vcc --- 3.3 VDC Table 3: Pinout SPI SSV EMBEDDED SYSTEMS 11
DNP/EVA9 Hardware Reference Pinouts 3.4 Expansion Bus J5 Pin Name DIL-64 Pin Function 1 GND --- Ground 2 GND --- Ground 3 SD0 63 Expansion Bus, Data Bit 0 4 SD1 62 Expansion Bus, Data Bit 1 5 SD2 61 Expansion Bus, Data Bit 2 6 SD3 60 Expansion Bus, Data Bit 3 7 SD4 59 Expansion Bus, Data Bit 4 8 SD5 58 Expansion Bus, Data Bit 5 9 SD6 57 Expansion Bus, Data Bit 6 10 SD7 56 Expansion Bus, Data Bit 7 11 GND --- Ground 12 GND --- Ground 13 SA0 55 Expansion Bus, Address Bit 0 14 SA1 54 Expansion Bus, Address Bit 1 15 SA2 53 Expansion Bus, Address Bit 2 16 SA3 52 Expansion Bus, Address Bit 3 17 GND --- Ground 18 GND --- Ground 19 WR 51 Write Signal, Expansion Bus 20 RD 50 Read Signal, Expansion Bus 21 RDY 49 External Ready Input 22 RESOUT 35 RESET Output 23 GND --- Ground 24 GND --- Ground 25 CS1 48 Chip Select Output 1. Physical Address Range 0x4000.0000-0x4FFF.FFFF 26 CS2 47 Chip Select Output 2. Physical Address Range 0x5000.0000-0x5FFF.FFFF 27 CS3 46 Chip Select Output 3. Physical Address Range 0x6000.0000-0x6FFF.FFFF 28 CS4 45 Chip Select Output 4. Physical Address Range 0x7000.0000-0x7FFF.FFFF 29 GND --- Ground 30 GND --- Ground 31 INT1 44 Interrupt Input 1 32 DDP 43 USB Device Port + (Interrupt Input on other DIL/NetPCs) 33 DDM 42 USB Device Port - (Interrupt Input on other DIL/NetPCs) 34 HDPA 41 USB Host Port + (Interrupt Input on other DIL/NetPCs) 35 HDMA 40 USB Host Port - (Interrupt Input on other DIL/NetPCs) 36 NC 37 GND --- Ground 38 GND --- Ground 39 CLKOUT 37 Clock Output 40 GND --- Ground Table 4: Pinout expansion bus SSV EMBEDDED SYSTEMS 12
DNP/EVA9 Hardware Reference Pinouts 3.5 COM1 Connector J6 Pin Name Function 1 DCD COM1 Serial Port, DCD pin 2 RXD COM1 Serial Port, RXD pin 3 TXD COM1 Serial Port, TXD pin 4 DTR Fixed to Vcc 5 GND Ground 6 DSR COM1 Serial Port, DSR pin 7 RTS COM1 Serial Port, RTS pin 8 CTS COM1 Serial Port, CTS pin 9 RI Not connected to CPU Table 5: Pinout COM1 connector 3.6 COM2 Connector J7 Pin Name Function 1 --- Not Connected 2 RXD COM2 Serial Port, RXD pin 3 TXD COM2 Serial Port, TXD pin 4 --- Not Connected 5 GND Ground 6 --- Not Connected 7 --- Not Connected 8 --- Not Connected 9 --- Not Connected Table 6: Pinout COM2 connector SSV EMBEDDED SYSTEMS 13
DNP/EVA9 Hardware Reference Pinouts 3.7 GSM Modem Connector 1 J8 (1. Part) Pin Name Function 1 3.6 VDC 3.6 VDC 2 GND Ground 3 3.6 VDC 3.6 VDC 4 GND Ground 5 3.6 VDC 3.6 VDC 6 GND Ground 7 3.6 VDC 3.6 VDC 8 GND Ground 9 3.6 VDC 3.6 VDC 10 GND Ground 11 NC Not Connected 12 GND Ground 13 NC Not Connected 14 PWRON GSM Modem Power On 15 SIMVcc SIM Card Vcc 16 SIMPRE SIM Card Present 17 SIMRES SIM Card Reset 18 SIMDAT SIM Card Data 19 SIMCLK SIM Card Clock 20 NC Not Connected 21 NC Not Connected 22 NC Not Connected 23 NC Not Connected 24 NC Not Connected 25 NC Not Connected 26 NC Not Connected 27 NC Not Connected 28 NC Not Connected 29 NC Not Connected 30 NC Not Connected Table 7: Pinout GSM modem connector 1 pin 1 to 30 SSV EMBEDDED SYSTEMS 14
DNP/EVA9 Hardware Reference Pinouts 3.8 GSM Modem Connector 1 J8 (2. Part) Pin Name Function 31 --- Not Connected 32 --- Not Connected 33 GSMACT GSM Modem Activity Output 34 --- Not Connected 35 --- Not Connected 36 --- Not Connected 37 DTR GSM Modem DTR 38 --- Not Connected 39 RTS GSM Modem RTS 40 CTS GSM Modem CTS 41 TXD GSM Modem TD 42 RXD GSM Modem RD 43 --- Not Connected 44 --- Not Connected 45 --- Not Connected 46 --- Not Connected 47 --- Not Connected 48 --- Not Connected 49 --- Not Connected 50 --- Not Connected 51 --- Not Connected 52 --- Not Connected 53 --- Not Connected 54 --- Not Connected 55 --- Not Connected 56 --- Not Connected 57 --- Not Connected 58 --- Not Connected 59 --- Not Connected 60 --- Not Connected Table 8: Pinout GSM modem connector 1 pin 31 to 60 SSV EMBEDDED SYSTEMS 15
DNP/EVA9 Hardware Reference Pinouts 3.9 GSM Modem Connector 2 J9 (1. Part) Pin Name Function 1 SIMCLK SIM Card Clock 2 SIMVcc SIM Card Vcc 3 SIMDAT SIM Card Data 4 SIMRES SIM Card Reset 5 SIMPRE SIM Card Present 6 SIMGND SIM Card GND 7 --- Not Connected 8 --- Not Connected 9 --- Not Connected 10 --- Not Connected 11 --- Not Connected 12 --- Not Connected 13 GSMACT GSM Modem Activity Output 14 --- Not Connected 15 RXD GSM Modem RD 16 --- Not Connected 17 TXD GSM Modem TD 18 --- Not Connected 19 --- Not Connected 20 --- Not Connected 21 GND Ground 22 GND Ground 23 GND Ground 24 GND Ground 25 GND Ground Table 9: Pinout GSM modem connector 2 pin 1 to 25 SSV EMBEDDED SYSTEMS 16
DNP/EVA9 Hardware Reference Pinouts 3.10 GSM Modem Connector 2 J9 (2. Part) Pin Name Function 26 3.6 VDC 3.6 VDC 27 3.6 VDC 3.6 VDC 28 3.6 VDC 3.6 VDC 29 3.6 VDC 3.6 VDC 30 3.6 VDC 3.6 VDC 31 --- Not Connected 32 --- Not Connected 33 --- Not Connected 34 RTS GSM Modem RTS 35 DTR GSM Modem DTR 36 --- Not Connected 37 CTS GSM Modem CTS 38 --- Not Connected 39 --- Not Connected 40 --- Not Connected 41 PWRON GSM Modem Power On 42 --- Not Connected 43 --- Not Connected 44 --- Not Connected 45 --- Not Connected 46 --- Not Connected 47 --- Not Connected 48 --- Not Connected 49 --- Not Connected 50 --- Not Connected Table 10: Pinout GSM modem connector 2 pin 26 to 50 SSV EMBEDDED SYSTEMS 17
DNP/EVA9 Hardware Reference Pinouts 3.11 SIM Card Holder J10 Pin Name Function 1 SIMVcc SIM Card Vcc 2 SIMRES SIM Card Reset 3 SIMCLK SIM Card Clock 4 SIMGND SIM Card GND 5 NC Not Connected 6 SIMDAT SIM Card Data Table 11: Pinout SIM card holder 3.12 USB Device Port J11 Pin Name DIL-64 Pin Function 1 Reserved --- Reserved 2 DATA- 42 USB Device Port - 3 DATA+ 43 USB Device Port + 4 GND --- Ground Table 12: Pinout USB device port 3.13 USB Host Port J12 Pin Name DIL-64 Pin Function 1 5 VDC --- 5 VDC Output* 2 DATA- 40 USB Host Port - 3 DATA+ 41 USB Host Port + 4 GND --- Ground Table 13: Pinout USB host port * Please note: Jumper JP6 (USB 5 VDC) enables the 5 VDC output of this pin. SSV EMBEDDED SYSTEMS 18
DNP/EVA9 Hardware Reference Pinouts 3.14 SD/MMC Socket J14 Pin Name DIL-64 Pin Function 1 MCDA3 14 Multimedia Card A Data 3 2 MCCDA 10 Multimedia Card A Command 3 GND --- Ground 4 Vcc --- 3.3 VDC 5 MCCK 9 Multimedia Card Clock 6 GND --- Ground 7 MCDA0 11 Multimedia Card A Data 0 8 MCDA1 12 Multimedia Card A Data 1 9 MCDA2 13 Multimedia Card A Data 2 Table 14: Pinout SD/MMC socket Please note: The pins 1, 2, 5, 7, 8 and 9 go over jumper JP8. 3.15 LCD Connector J15 Pin Name Function 1 GND Ground 2 5 VDC* 5 VDC* 3 V0 Contrast Voltage over R19 4 RS Register elect 5 R/W Read/Write 6 E Enable 7 --- Not Connected 8 --- Not Connected 9 --- Not Connected 10 --- Not Connected 11 DB4 LCD Data Bit 4 12 DB5 LCD Data Bit 5 13 DB6 LCD Data Bit 6 14 DB7 LCD Data Bit 7 15 Reserved Reserved 16 Reserved Reserved Table 15: Pinout LCD connector * Please note: The 5 VDC output is connected directly to pin 1 of J17 (power connector). SSV EMBEDDED SYSTEMS 19
DNP/EVA9 Hardware Reference Pinouts 3.16 10/100 Mbps Ethernet Interface J16 Pin Name Function 1 TX+ 10/100 Mbps LAN, TX+ pin 2 TX- 10/100 Mbps LAN, TX- pin 3 RX+ 10/100 Mbps LAN, RX+ pin 4 --- Not Connected 5 --- Not Connected 6 RX- 10/100 Mbps LAN, RX- pin 7 --- Not Connected 8 --- Not Connected Table 16: Pinout 10/100 Mbps Ethernet interface 3.17 Power Connector J17 Pin Name Function 1 5 VDC Power Input (max. 5.5 VDC) 2 GND Ground 3 GND Ground Table 17: Pinout power connector 3.18 USB Mode Jumper JP2 Pin Name DIL-64 Pin Function 1 DDP 43 USB Device Port + 2 DDP --- to USB Device Port Pin 3 3 DDM 42 USB Device Port - 4 DDM --- to USB Device Port Pin 2 5 HDPA 41 USB Host Port + 6 HDPA --- to USB Host Port Pin 3 7 HDMA 40 USB Host Port - 8 HDMA --- to USB Host Port Pin 2 Table 18: Pinout USB mode jumper Default setting of JP2 is set (USB enabled): SSV EMBEDDED SYSTEMS 20
DNP/EVA9 Hardware Reference Pinouts 3.19 COM2 Mode Jumper JP3, JP5, JP10 Default setting of JP3, JP5 and JP10 (COM2 enabled): Setting of JP3, JP5 and JP10 to enable the GSM modem (COM2 disabled): 3.20 GSM Modem Select Jumper JP4 Pin Name Function 1 SIMVcc SIM Card Vcc 2 SIMPRE SIM Card Present 3 SIMGND SIM Card GND Table 19: Pinout GSM modem select jumper Default setting of JP4 (GSM modem connector 1 enabled): Setting of JP4 to enable GSM modem connector 2 (GSM modem connector 1 disabled): 3.21 USB 5 VDC Jumper JP6 Pin Name Function 1 Vcc 3.3 VDC 2 ENA USB 5 VDC Enabled Table 20: Pinout USB mode jumper Default setting of JP6 is set (USB 5 VDC enabled): If this jumper is set the 5 VDC output of the USB host port J12 is enabled. If this jumper is not set there is no voltage on the USB host port J12 available. SSV EMBEDDED SYSTEMS 21
DNP/EVA9 Hardware Reference Pinouts 3.22 MMC Mode Jumper JP8 Pin Name DIL-64 Pin Function 1 MCDA3 14 Multimedia Card A Data 3 2 MCDA3 --- to SD/MMC Socket Pin 1 3 MCCDA 10 Multimedia Card A Command 4 MCCDA --- to SD/MMC Socket Pin 2 5 MCCK 9 Multimedia Card Clock 6 MCCK --- to SD/MMC Socket Pin 5 7 MCDA0 11 Multimedia Card A Data 0 8 MCDA0 --- to SD/MMC Socket Pin 7 9 MCDA1 12 Multimedia Card A Data 1 10 MCDA1 --- to SD/MMC Socket Pin 8 11 MCDA2 13 Multimedia Card A Data 2 12 MCDA2 --- to SD/MMC Socket Pin 9 Table 21: Pinout MMC mode jumper Default setting of JP8 is set (MMC enabled): 3.23 SPI Mode Jumper JP9 Pin Name DIL-64 Pin Function 1 MOSI 17 Master Out Slave In (SPI Data Output) 2 MOSI --- to SD/MMC Socket Pin 2 3 MISO 18 Master In Slave Out (SPI Data Input) 4 MISO --- to SD/MMC Socket Pin 7 5 SPICLK 19 SPI Clock 6 SPICLK --- to SD/MMC Socket Pin 5 7 SPICS0 20 SPI Chip Select CS0 8 SPICS0 --- to SD/MMC Socket Pin 1 Table 22: Pinout SPI mode jumper Default setting of JP9 is not set (SPI disabled): Please note: Do not set JP8 (MMC mode) and JP9 (SPI mode) at the same time. SSV EMBEDDED SYSTEMS 22
DNP/EVA9 Hardware Reference Battery Holder 4 BATTERY HOLDER Please use a CR 2032 lithium battery from Sony or other vendors. The battery holder on the DNP/EVA9 is a Renata SMTU 2032-1. Figure 5: Battery holder of DNP/EVA9 SSV EMBEDDED SYSTEMS 23
DNP/EVA9 Hardware Reference Mechanical Dimensions 5 MECHANICAL DIMENSIONS All length dimensions have a tolerance of 0.5 mm. The drillings are suitable for M3 screws. Figure 6: Mechanical dimensions of DNP/EVA9 SSV EMBEDDED SYSTEMS 24
DNP/EVA9 Hardware Reference Mechanical Dimensions Figure 7: Mechanical dimensions of LCD area SSV EMBEDDED SYSTEMS 25
DNP/EVA9 Hardware Reference Document History CONTACT SSV Embedded Systems Heisterbergallee 72 D-30453 Hannover / Germany Phone: +49-(0)511-40000-0 Fax: +49-(0)511-40000-40 E-mail: sales@ist1.de Internet: www.dilnetpc.com DOCUMENT HISTORY Revision Date Remarks Name 1.0 2006-01-05 first version WBU 1.1 2006-03-21 error in board layout corrected (COM2 mode jumper) WBU The content of this document can change any time without announcement. There is taken over no guarantee for the accuracy of the statements. The user assumes the entire risk as to the accuracy and the use of this document. Information in this document is provided as is without warranty of any kind. Some names within this document can be trademarks of their respective holders. 2006 SSV EMBEDDED SYSTEMS. All rights reserved. SSV EMBEDDED SYSTEMS 26
DIL/NetPC DNP/9200 Board Revision 1.1 Installing an SSH Connection User Manual SSV Embedded Systems Heisterbergallee 72 D-30453 Hannover Phone: +49 (0)511/40 000-0 Fax: +49 (0)511/40 000-40 E-mail: sales@ist1.de Manual Revision: 1.1 Date: 2006-07-24 For further information regarding our products please visit us at www.dilnetpc.com
DIL/NetPC DNP/9200 User Manual Introduction CONTENT 1 INTRODUCTION...3 1.1 Safety Guidelines...3 1.2 Conventions...3 1.3 Hardware Requirements...4 1.4 Software Requirements...4 2 PREPARATIONS...5 2.1 Serial Link between Evaluation Board and PC...5 2.2 Ethernet Link between Evaluation Board and PC...6 2.3 Configuring Ethernet Link...7 2.4 Connecting Power Supply...8 2.5 Configuring HyperTerminal...9 3 INSTALLING THE SSH CONNECTION...10 3.1 Uploading the SSH Files on the DNP/9200...10 3.2 Installing the SSH Files on the DNP/9200...11 3.3 Starting an SSH Connection...12 3.4 Login as root...13 4 HELPFUL LITERATURE...14 CONTACT...14 DOCUMENT HISTORY...14 SSV EMBEDDED SYSTEMS 2
DIL/NetPC DNP/9200 User Manual Introduction 1 INTRODUCTION This document describes how to install an SSH (Secure Shell Protocol) connection on the DNP/9200 with a Windows-PC. For further information about the individual components of this product you may follow the links from our website at http://www.dilnetpc.com. Our website contains a lot of technical information, which will be updated in regular periods. The SSH shell script ssh-dnp9200.sh will install: OpenSSL 0.9.8a OpenSSH 4.1p1 OpenSSL Lib supports Message Digest: md2, md4, md5, rmd160, sha, sha1 Cipher: aes-128-cbc, aes-128-ecb, aes-192-cbc, aes-192-ecb, aes-256-cbc, aes-256-ecb base64, bf, bf-cbc, bf-cfb, bf-ecb, bf-ofb (blowfish), cast, cast-cbc, cast5-cbc, cast5-cfb, cast5-ecb, cast5-ofb, des, des-cbc, des-cfb, des-ecb, des-ede, des-ede-cbc, des-ede-cfb, des-ede-ofb, des-ede3, des-ede3-cbc, des-ede3-cfb, des-ede3-ofb, des-ofb, des3, desx (Triple DES), idea, idea-cbc, idea-cfb, idea-ecb, idea-ofb, rc2, rc2-40-cbc, rc2-64-cbc, rc2-cbc, rc2-cfb, rc2-ecb, rc2-ofb. 1.1 Safety Guidelines Please read the following safety guidelines carefully! In case of property or personal damage by not paying attention to this document and/or by incorrect handling, we do not assume liability. In such cases any warranty claim expires. ATTENTION: Observe precautions for handling electrostatic sensitive device! Discharge yourself before you work with the device, e.g. by touching a heater of metal, to avoid damages. Stay grounded while working with the device to avoid damage through electrostatic discharge. 1.2 Conventions Convention Usage bold Important terms italic Filenames, user inputs and command lines monospace Pathnames, internet addresses and program code Table 1: Conventions used in this Document SSV EMBEDDED SYSTEMS 3
DIL/NetPC DNP/9200 User Manual Introduction 1.3 Hardware Requirements The following hardware is needed to install an SSH connection on the DNP/9200: One PC with Windows XP and one unused COM port One Evaluation Board (e.g. EVA9) with mounted DNP/9200 and one COM port One plug-in power supply (5 VDC) One Ethernet cross-over cable One null modem cable 1.4 Software Requirements ssh-dnp9200.sh for Linux Kernel version 2.4 or ssh-sftp-dnp9200.sh for Linux Kernel version 2.6 (Starter Kit CD directory CD:\Linux\SSH) PuTTY (Starter Kit CD directory CD:\Putty-Win32) PuTTY is a small terminal software with SSH support. PuTTY works without installation, just run the putty.exe. PuTTY is freeware. You may also look for a newer version of PuTTY in the internet at http://www.chiark.greenend.org.uk/~sgtatham/putty. SSV EMBEDDED SYSTEMS 4
DIL/NetPC DNP/9200 User Manual Preparations 2 PREPARATIONS 2.1 Serial Link between Evaluation Board and PC Setup the serial link between the Evaluation Board and your PC. Use the null modem cable for this connection. The serial link is for communication between the DNP/9200 and your PC via HyperTerminal. Connect one end of the null modem cable with the COM1 port of your PC. Connect the other end with the COM1 port of the Evaluation Board. Figure 1: Serial link between Evaluation Board and PC Please make sure that the PC COM port supports 115.200 bps and is unused. SSV EMBEDDED SYSTEMS 5
DIL/NetPC DNP/9200 User Manual Preparations 2.2 Ethernet Link between Evaluation Board and PC Setup the Ethernet link between the Evaluation Board and your PC. Use an Ethernet cross-over cable for this connection. The Ethernet link is for the SSH connection between the DNP/9200 and your PC. Connect one end of the Ethernet cross-over cable with the LAN interface of your PC and the other end with the LAN interface of the Evaluation Board. Figure 2: Ethernet link between Evaluation Board and PC SSV EMBEDDED SYSTEMS 6
DIL/NetPC DNP/9200 User Manual Preparations 2.3 Configuring Ethernet Link The IP address of the DNP/9200 is ex factory set to 192.168.0.126. To enable the Ethernet connection between the DNP/9200 and the PC, please change the IP address of the PC. Open the Control Panel and select Network Connections. Right click on the LAN connection and click on Properties. Open the tab General and select Internet Protocol (TCP/IP) from the list and click on Properties. In the following dialog select Use the following IP address and enter 192.168.0.254 as IP address and 255.255.255.0 as subnet mask. Click on OK to close the dialog. Click again on OK to finish the configuration. Figure 3: Changing the IP address of the Ethernet link on the Windows PC SSV EMBEDDED SYSTEMS 7
DIL/NetPC DNP/9200 User Manual Preparations 2.4 Connecting Power Supply Connect a 5 VDC power supply with a 5.5 mm x 2.5 mm jack plug with the Evaluation Board. Figure 4: Power supply for the Evaluation Board Please pay attention to the polarity of the power connector: the + pole is in the center! Figure 5: Polarity of the power connector SSV EMBEDDED SYSTEMS 8
DIL/NetPC DNP/9200 User Manual Preparations 2.5 Configuring HyperTerminal Run HyperTerminal on your PC. Enter a name for the new connection. In the next dialog select COM1 for the connection. Figure 6: Direct connection setup with HyperTerminal Now change the connection parameters to the values of table 1. Make sure, that you use the COM1 port of your PC and that it supports 115.200 bps. Figure 7: Parameter setup with HyperTerminal Parameter Value Speed 115.200 bps Data Bits 8 Parity None Stop Bits 1 Protocol No (Xon/Xoff, RTS/CTS or similar) Table 2: Setup parameters for HyperTerminal SSV EMBEDDED SYSTEMS 9
DIL/NetPC DNP/9200 User Manual Installing the SSH Connection 3 INSTALLING THE SSH CONNECTION 3.1 Uploading the SSH Files on the DNP/9200 Start the HyperTerminal connection you created in chapter 2.5. If you have not powered up the Evaluation Board so far, please do it now. Wait until the Linux boot process finishes (this may take a few seconds). You will see the Linux login prompt. Enter the user name root and hit Return if Linux asks for a password. Figure 8: DNP/9200 boot messages and login prompt Change to the directory tmp with the command cd../tmp. Open Transfer > Send file from the menu bar and select the ssh-dnp9200.sh (Linux Kernel 2.4) or the ssh-sftp-dnp9200.sh (Linux Kernel 2.6) from the Starter Kit CD-ROM directory CD:\Linux\SSH. Choose Zmodem with Crash Recovery as protocol and send the file. Figure 9: Selecting SSH file for transfer SSV EMBEDDED SYSTEMS 10
DIL/NetPC DNP/9200 User Manual Installing the SSH Connection 3.2 Installing the SSH Files on the DNP/9200 Change to the directory tmp if you are not already there and enter the command sh ssh-dnp9200.sh to start the installation. The SSH files will be installed automatically in the directory flash. Figure 10: Installing the file ssh-dnp9200.sh Generating the SSH keys may take a while, please be patient. Reboot the DNP/9200, when the installation is complete. Figure 11: SSH installation complete After the reboot the DNP/9200 is ready for an SSH connection. SSV EMBEDDED SYSTEMS 11
DIL/NetPC DNP/9200 User Manual Installing the SSH Connection 3.3 Starting an SSH Connection Run the putty.exe on the PC. Enter the IP address of the DNP/9200 (192.168.0.126), select SSH as protocol and click on Open. Figure 12: Configuring PuTTY Before the SSH session starts, PuTTY shows an alert, that the host key of the server is unknown. Click Yes to save the key permanently. Click No, if you want to connect just once. Figure 13: PuTTY security alert The username as well as the password for the SSH session is guest. In the directory /home/guest you can store and/or modify your own files. It is also possible to login as root, please refer to chapter 3.4. SSV EMBEDDED SYSTEMS 12
DIL/NetPC DNP/9200 User Manual Installing the SSH Connection Figure 14: PuTTY SSH session as guest To gain root permissions while working as guest enter the command su ( superuser ) and hit Return if Linux asks for a password. 3.4 Login as root Before you can login as root in a Telnet session, you have to set a password for root. Open a serial connection (HyperTerminal), start Linux, login as root and enter the command passwd. Just follow the instructions on the screen. Please note: The root password is temporary. After a reset of the DNP/9200 you have to set the root password again. SSV EMBEDDED SYSTEMS 13
DIL/NetPC DNP/9200 User Manual Document History 4 HELPFUL LITERATURE Hardware Reference Evaluation Board DNP/EVA9 First Steps Starter Kit DNP/SK23 CONTACT SSV Embedded Systems Heisterbergallee 72 D-30453 Hannover / Germany Phone: +49 (0)511/40 000-0 Fax: +49 (0)511/40 000-40 E-mail: sales@ist1.de Internet: www.dilnetpc.com DOCUMENT HISTORY Revision Date Remarks Name 1.0 2006-04-25 first version WBU 1.1 2006-07-24 chapter 1.1 and 1.2 added, chapter 3.1 and 3.3 modified WBU The content of this document can change any time without announcement. There is taken over no guarantee for the accuracy of the statements. The user assumes the entire risk as to the accuracy and the use of this document. Information in this document is provided as is without warranty of any kind. Some names within this document can be trademarks of their respective holders. 2006 SSV EMBEDDED SYSTEMS. All rights reserved. SSV EMBEDDED SYSTEMS 14
DIL/NetPC DNP/9200 Installing a PPP Connection User Manual SSV Embedded Systems Heisterbergallee 72 D-30453 Hannover Phone: +49-(0)511-40 000-0 Fax: +49-(0)511-40 000-40 E-mail: sales@ist1.de Manual Revision: 1.0 Date: 2006-05-22 For further information regarding our products please visit us at www.ssv-embedded.de
DIL/NetPC DNP/9200 Content CONTENT 1 INTRODUCTION...3 1.1 Hardware Requirements...3 1.2 Software Requirements...3 2 PREPARATIONS...4 2.1 Serial Links between Evaluation Board and PC...4 2.2 Connecting Power Supply...5 2.3 Configuring HyperTerminal...6 3 INSTALLING THE PPP CONNECTION...7 3.1 Uploading the PPP Files on the DNP/9200...7 3.2 Installing the PPP Files on the DNP/9200...8 3.3 Changing the IP Address on the DNP/9200...9 3.4 Creating the PPP Connection on the Windows PC...10 3.5 Configuring the PPP Connection on the Windows PC...14 3.6 Testing the PPP Connection...16 CONTACT...18 DOCUMENT HISTORY...18 COPYRIGHT...18 SSV EMBEDDED SYSTEMS 2
DIL/NetPC DNP/9200 Introduction 1 INTRODUCTION This document describes how to install a PPP (point-to-point) connection for the DNP/9200 on a Windows-PC. For further information about the individual components of this product you may follow the links from our website at http://www.dilnetpc.com. Our website contains a lot of technical information, which will be updated in regular periods. 1.1 Hardware Requirements The following hardware is needed to install a PPP connection on the DNP/9200: One PC with Windows XP and two unused COM ports One Evaluation Board (e.g. EVA9) with mounted DNP/9200 and two COM ports One plug-in power supply (5 VDC) Two null modem cables 1.2 Software Requirements To install a PPP connection on the DNP/9200 you need the ppp-dnp9200.tar.gz. You find this file on your Starter Kit CD-ROM in the directory CD:\Linux\PPP. SSV EMBEDDED SYSTEMS 3
DIL/NetPC DNP/9200 Preparations 2 PREPARATIONS 2.1 Serial Links between Evaluation Board and PC Setup the serial links between the Evaluation Board and your PC. Use the null modem cables for these connections. The first serial link is for communication between the DNP/9200 and your PC via HyperTerminal. Connect one end of null modem cable #1 with the COM1 port of your PC and the other end with the COM1 port of the Evaluation Board. Figure 1: Serial links between Evaluation Board and PC The second serial link creates the PPP connection between the DNP/9200 and your PC. Connect one end of null modem cable #2 with the COM2 port of your PC and the other end with the COM2 port of the Evaluation Board. Please make sure that the PC COM ports support 115.200 bps and are unused. Please note: The COM2 mode jumper of the DNP/EVA9 has to be set as shown in the following figure to enable the COM2 port. Figure 2: Jumper setting to enable COM2 port on the DNP/EVA9 SSV EMBEDDED SYSTEMS 4
DIL/NetPC DNP/9200 Preparations 2.2 Connecting Power Supply Connect a 5 VDC power supply with a 5.5 mm x 2.5 mm jack plug with the Evaluation Board. Figure 3: Power supply for the Evaluation Board Please pay attention to the polarity of the power connector: the + pole is in the center! Figure 4: Polarity of the power connector SSV EMBEDDED SYSTEMS 5
DIL/NetPC DNP/9200 Preparations 2.3 Configuring HyperTerminal Run HyperTerminal on your PC. Enter a name for the new connection. In the next dialog select COM1 for the connection. Figure 5: Direct connection setup with HyperTerminal Now change the connection parameters to the values of table 1. Make sure, that you use the COM1 port of your PC and that it supports 115.200 bps. Figure 6: Parameter setup with HyperTerminal Parameter Value Speed 115.200 bps Data Bits 8 Parity None Stop Bits 1 Protocol No (Xon/Xoff, RTS/CTS or similar) Table 1: Setup parameters for HyperTerminal SSV EMBEDDED SYSTEMS 6
DIL/NetPC DNP/9200 Installing the PPP Connection 3 INSTALLING THE PPP CONNECTION 3.1 Uploading the PPP Files on the DNP/9200 Start the HyperTerminal connection you created in chapter 2.3. If you have not powered up the Evaluation Board so far, please do it now. Wait until the Linux boot process finishes (this may take a few seconds). You will see the Linux login prompt. Enter the user name root and hit Return if Linux asks for a password. Figure 7: DNP/9200 boot messages and login prompt Change to the directory tmp with the command cd../tmp. Open Transfer > Send file from the menu bar and select the ppp-dnp9200.tar.gz from the Starter Kit CD-ROM directory CD:\Linux\PPP. Choose Zmodem with Crash Recovery as protocol and send the file. Figure 8: Selecting the ppp-dnp9200.tar.gz for transfer SSV EMBEDDED SYSTEMS 7
DIL/NetPC DNP/9200 Installing the PPP Connection 3.2 Installing the PPP Files on the DNP/9200 Unzip the file ppp-dnp9200.tar.gz into the directory flash. Change to that directory with the command cd../flash. Unzip the file with these commands: 1. gunzip../tmp/ppp-dnp9200.tar.gz 2. tar xvf../tmp/ppp-dnp9200.tar Figure 9: Unzipping the file ppp-dnp9200.tar.gz into the flash directory Now reset the DNP/9200 to complete the installation. SSV EMBEDDED SYSTEMS 8
DIL/NetPC DNP/9200 Installing the PPP Connection 3.3 Changing the IP Address on the DNP/9200 Open HyperTerminal and login as root. Enter the following command to change the IP address on the DNP/9200: ifconfig eth0 192.168.10.1. Figure 10: Changing the IP address on the DNP/9200 You can view the changed IP address by entering the following command: ifconfig -a. Figure 11: Checking the IP address on the DNP/9200 SSV EMBEDDED SYSTEMS 9
DIL/NetPC DNP/9200 Installing the PPP Connection 3.4 Creating the PPP Connection on the Windows PC Open the Control Panel and select Network Connections. Click on Create a new connection. The New Connection Wizard opens. Click on Next. Figure 12: New Connection Wizard In the following dialog select Set up an advanced connection and click on Next. Figure 13: Selecting a network connection type SSV EMBEDDED SYSTEMS 10
DIL/NetPC DNP/9200 Installing the PPP Connection Select Connect directly to another computer and click on Next. Figure 14: Selecting the advanced connection options In the next dialog select Guest and click on Next. Figure 15: Selecting guest SSV EMBEDDED SYSTEMS 11
DIL/NetPC DNP/9200 Installing the PPP Connection Enter a name for the new connection, e.g. DNP9200 and click on Next. Figure 16: Entering a connection name Select COM2 as device to make the connection and click on Next. Figure 17: Selecting COM2 to make the connection SSV EMBEDDED SYSTEMS 12
DIL/NetPC DNP/9200 Installing the PPP Connection Click on Finish to complete the New Connection Wizard. Figure 18: Completing the New Connection Wizard SSV EMBEDDED SYSTEMS 13
DIL/NetPC DNP/9200 Installing the PPP Connection 3.5 Configuring the PPP Connection on the Windows PC Open the Control Panel and select Network Connections. Double click on the new created connection, e.g. DNP9200 and click on Properties. Figure 19: Connection dialog In the following dialog select the tab General and click on Configure. Select 115.200 bps as maximum speed and click on OK. Figure 20: Modem configuration SSV EMBEDDED SYSTEMS 14
DIL/NetPC DNP/9200 Installing the PPP Connection Open the tab Networking, select Internet Protocol (TCP/IP) from the list and click on Properties. In the following dialog select Use the following IP address and enter 192.168.11.1. Click on OK to close the dialog. Click again on OK to finish the configuration. Figure 21: Changing the IP address of the PPP connection on the Windows PC SSV EMBEDDED SYSTEMS 15
DIL/NetPC DNP/9200 Installing the PPP Connection 3.6 Testing the PPP Connection In HyperTerminal enter the following command to start the PPP connection on the DNP/9200: pppd /dev/ttys1 nodetach. Figure 22: Starting the PPP connection on the DNP/9200 Open the new created PPP connection on the PC and click on Connect. You do not have to enter a user name or password. Figure 23: Starting the PPP connection on the Windows PC SSV EMBEDDED SYSTEMS 16
DIL/NetPC DNP/9200 Installing the PPP Connection In HyperTerminal you will see the PPP messages shown in the figure below. Figure 24: PPP connection messages on the DNP/9200 To test the connection open your browser and enter the IP address of the DNP/9200 (192.168.10.1) in the address bar. You will see a web page from the DNP/9200 web server. Figure 25: Web page from the DNP/9200 web server That s all. SSV EMBEDDED SYSTEMS 17
DIL/NetPC DNP/9200 Contact CONTACT SSV Embedded Systems Heisterbergallee 72 D-30453 Hannover Phone: +49 (0)511/40 000-0 Fax: +49 (0)511/40 000-40 E-mail: sales@ist1.de Internet: www.ssv-embedded.de DOCUMENT HISTORY Revision Date Remarks Name 1.0 2006-05-22 first version WBU COPYRIGHT The content of this document can change any time without announcement. There is taken over no guarantee for the accuracy of the statements. The user assumes the entire risk as to the accuracy and the use of this document. Information in this document is provided as is without warranty of any kind. Some names within this document can be trademarks of their respective holders. 2006 SSV EMBEDDED SYSTEMS. All rights reserved. SSV EMBEDDED SYSTEMS 18