UNO-1019 PXA 200MHZ, 64MB RAM, 2 x LAN,4 x COM Universal Network Controller User Manual
Copyright The documentation and the software included with this product are copyrighted 2006 by Advantech Co., Ltd. All rights are reserved. Advantech Co., Ltd. reserves the right to make improvements in the products described in this manual at any time without notice. No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of Advantech Co., Ltd. Information provided in this manual is intended to be accurate and reliable.
Product Warranty (2 years) Advantech warrants to you, the original purchaser, that each of its products will be free from defects in materials and workmanship for two years from the date of purchase. This warranty does not apply to any products which have been repaired or altered by persons other than repair personnel authorized by Advantech, or which have been subject to misuse, abuse, accident or improper installation.
Declaration of Conformity CE This product has passed the CE test for environmental specifications when shielded cables are used for external wiring. We recommend the use of shielded cables. This kind of cable is available from Advantech. Please contact your local supplier for ordering information. FCC Class A Note: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules.
Safety Instructions 1. Read these safety instructions carefully. 2. Keep this User's Manual for later reference. 3. Disconnect this equipment from any AC outlet before cleaning. Use a damp cloth. Do not use liquid or spray detergents for cleaning. 4. For plug-in equipment, the power outlet socket must be located near the equipment and must be easily accessible. 5. Keep this equipment away from humidity. 6. Put this equipment on a reliable surface during installation.
15. DO NOT LEAVE THIS EQUIPMENT IN AN ENVIRONMENT WHERE THE STORAGE TEMPERATURE MAY GO BELOW 20° C (-4° F) OR ABOVE 60° C (140° F). THIS COULD DAMAGE THE EQUIPMENT. THE EQUIPMENT SHOULD BE IN A CONTROLLED ENVIRONMENT. 16. CAUTION: DANGER OF EXPLOSION IF BATTERY IS INCORRECTLY REPLACED. REPLACE ONLY WITH THE SAME OR EQUIVALENT TYPE RECOMMENDED BY THE MANUFACTURER, DISCARD USED BATTERIES ACCORDING TO THE MANUFACTURER'S INSTRUCTIONS.
Contents Chapter 1 Overview .......................................................... 2 1.1 1.2 1.3 1.4 Chapter Introduction ....................................................................... 2 Features ............................................................................ 2 Hardware Specifications .................................................. 3 Chassis Dimensions.......................................................... 5 Figure 1.1:UNO-1019 Top View Dimensions ...............
4.3 4.4 4.5 4.6 4.7 Remote Access Server Configuration ............................. 42 Autorun Configuration Note ........................................... 51 Application Development Procedure .............................. 55 4.5.1 4.5.2 4.5.3 Application Development Procedure ........................... 55 Watchdog Timer .......................................................... 57 DIO, LED and Buzzer ................................................. 63 Saving Your Settings........................
CHAPTER 1 2 Overview This chapter gives background information on the UNO-1019. It shows you the UNO-1019 overview and specifications.
Chapter 1 Overview 1.1 Introduction Advantech’s UNO-1019 is a RISC-grade embedded platform that offers 2 LANs, 4 serial ports and 4 Digital Inputs and Outputs to fulfill user’s I/O device expansion. For data storage, UNO-1019 also provides a CompactFlash for data storage. UNO-1019 comes with a Windows CE.NET OS offering a pre-build image on board. Microsoft Windows CE is a compact, highly efficient, real-time operating system designed for embedded systems.
1.3 Hardware Specifications General • Certifications CE, FCC Class A • Dimensions (W*H*D) 46 x 162 x 126 mm • Enclosure ABS+PC with solid mounting hardware • Mounting DIN35 rail, wall • Power Consumption 8.
Digital I/O Digital In 2 Digital Input Dry Contact Logic level 0 : Open Logic level 1 : Close Wet Contect Logic level 0: +3V max Logic level 1: +10VDC to 30VDC Digital Out 2 Digital Output Open Collect to 30V 200mA max Load Power Dissipation 450mW Environment • Operating Temperature 0 ~ 70° C (32° ~ 158° F) • Storage Temperature -20° ~ 80° C (-4° ~ 176° F) • Operating Humidity 20 ~ 95% (non-condensing) • Storage Humidity 0 ~ 95% (non-condensing) UNO-1019 User Manual 4
1.4 Chassis Dimensions Figure 1.1: UNO-1019 Top View Dimensions Figure 1.
Figure 1.3: UNO-1019 Front View Dimensions Figure 1.
CHAPTER 2 2 Installation In this chapter, you will be given an overview of the UNO-1019 hardware installation procedures.
Chapter 2 Installation 2.1 Overview Figure 2.
2.2 LEDs LEDs to display the power, network, serial and programmable LED status are located on the front panel of UNO-1019, and each of them has its own specific meaning, as shown in the table below. Table 2.
2.4 Serial Connections 2.4.1 Serial Type Selection UNO-1019 provides 4 serial Com ports, COM1 & COM2 provide RS232, and COM3 & COM4 provide RS-232/422/485. The default settings of COM3 & COM4 is RS-422/485, and the UNO-1019 could identify RS-422 or RS-485 automatically according to your wiring. If users want to change the serial type, the chassis can be opened and modified. Figure 2.
2.4.2 Enable Mode You could set the Enable mode by using DIP switches (S10). If the switches are set to "Off", the driver automatically senses the direction of the data flow and switches the direction of transmission. No handshaking is necessary. If DIP switches are set to "On," the driver is always enabled, and always in high or low status. Please must select a mode before beginning RS-422 applications.
Refer to the figure and table below for COM1 & COM2 descriptions.
Refer to the figure and table below for COM3 & COM4 descriptions. COM3 & COM4 Pin Assignments Pin RS-232 RS-422 RS-485 1 DCD TxD- Data- 2 RxD TxD+ Data+ 3 TxD RxD+ - 4 DTR RxD- - 5 GND GND GND 6 DSR - - 7 RTS - - 8 CTS - - 9 RI - - 2.5 Power Connections UNO-1019 supports +10 ~ 30 VDC power inputs. A detailed power pin image is shown below Figure 2.
2.6 Digital Input/Output There are two digital inputs and outputs for UNO-1019. Figure 2.5: Digital I/O Pin Assignments You can refer to Figures 2.6 & 2.7 for the digital input connection. UNO-1019 provides 2 ways to use digital inputs function, please refer below figure shows how to connect digital input function.
Figure 2.6: Digital Input Connection (Dry Contact) Figure 2.
UNO-1019 also provides digital outputs connection, please refer below figure shows how to connect digital output function. (The default DO status is high) Figure 2.8: Digital Output Connections (Wet Contact) 2.7 CompactFlash The procedure for installing a CompactFlash card into the UNO-1019 is detailed below, please follow these steps carefully 1. Make sure system power is off 2. Remove the power cord 3. Remove CompactFlash the card door on the top panel of UNO-1019 4.
2.8 Mounting UNO-1019 supports two different mounting methods: Panel & DIN-rail. 2.8.1 Panel Mounting UNO-1019 can be wall mounted by using the included mounting kit. First, use the screws included in the package to combine the UNO-1019 and metal mounting kit. Figure 2.
Then, screw the whole device to the wall. Figure 2.
2.8.2 DIN-rail Mounting You can also mount UNO-1019 on a standard DIN-rail by below steps. First, pull down the kit in the back of UNO-1019 Figure 2.
Then, hang the UNO-1019 to the DIN-rail with angle of inclination. Figure 2.
Put the UNO-1019 at a right angle with the Din-rail. The grounding spring in the back should be flush with the aluminum rail. Then pull up the kit to wedge the UNO-1019 firmly into place. Figure 2.
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CHAPTER 3 2 Initial Setup This chapter shows how to initialize the UNO-1019, sections include: Sections include: • Initial Procedure • Configure UNO-1019
Chapter 3 Initial Setup 3.1 Initial Procedure The UNO-1019 offers an easy setup feature: it takes four easy steps for your initial setup before use. Take out the UNO-1019 from the package and follow the steps below for initial setup: 1. Connect all peripheral devices, such as RJ-45 connector of Ethernet connection, RS-232 (RJ-48 connector) and RS-485 connectors. 2. Connect the power cord to the UNO-1019 and plug the other end of the cord into the power outlet, and then UNO-1019 boots up immediately.
*actually you can set any IP address other than 10.0.0.1 and 10.0.0.2 from 10.0.0.3 to 10.0.0.255 . If you connected you computer and UNO-1019 to a router, don't set your computer IP address the same as the Router's. Connect UNO-1019 with your computer by using a crossover Ethernet cable. Or connect both UNO-1019 and your computer into a hub. After UNO-1019 boot up, it will broadcast it's IP to the network.
Choose the connected device in the list : After clicking “Connect” bottom, the configuration computer will connect with UNO-1019.
Please go to the “Command Prompt” for network IP setting User can use “ipchange” command for IP change setting in command prompt mode. Please type “ipchange /?” for command reference.
If LAN1 of UNO-1019 will be set as DHCP, the ipchange 1/1 will be used as set up command.
Press “Enter”, the remote display will show the following message. Wait for the “Saving Registry Done” to make sure the IP change setting work is successfully done. Power on the UNO-1019 module again to reboot the WinCE for new IP address implement. Note: The uScope Remote Display tool is only used for the configuration work. It wasn’t design to run a long time to be used as the remote monitoring tool.
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CHAPTER 4 2 Advanced Applications This Chapter will provide detailed explanations of the UNO-1019’s Advanced Applications Sections include: • Inserting a CompactFlash Card • ActiveSync Connection • Remote Access Configuration • Autorun Configuration • Application Development Procedure • Saving Your Settings • Network Administration User Guide
Chapter 4 Advanced Applications 4.1 Inserting a CompactFlash Card The procedure for installing a CompactFlash card into the UNO-1019 is as follows, please follows these steps carefully. 1. Remove the power connector to power off the UNO-1019 2. Remove the CF slot cover. 3. Plug a CompactFlash card with user's OS and application program into a CompactFlash card slot on board. 4. Plug in the CD slot cover for protecting the CF card. 5.
ActiveSync Connection The tool is used for the application program on-line programming/debug requirement. User has to install the Microsoft ActiveSync program in configuration computer first. For the detail operating procedure of ActiveSync, please follow the steps by steps operating guide. Step 1 : Setting Up ActiveSync in a Configuration Computer 1. Insert UNO-1019 CD into the configuration computer. 2. Install UNO-1019 Software Development Kit for eVC++ from below path: \UNO-1019\SDK 3.
1.
2. Choose the COM port of UNO-1019. 3. Press Start / Settings / Control Panel, and then “PC Connection”. 4. Click Change button to choose your network communication. In this example, change the network to “My Connection”.
Step 4 : Setting Up the Communication Environment of the Host 1. Double click the icon ActiveSync. 2.
3. Configure the connection settings as below. 4.
Note: 5. Don’t click Next button at this time. Press Start/ Run of UNO-1019; enter the \windows\repllog.
6. Now, press the Next button in the “Get Connected” dialog in the host. It will build the connection between UNO-1019 and host. 7. If the connection between UNO-1019 and the host has been established, you will see below message in UNO-1019.
8. If the connection between UNO-1019 and the host has been established, you will see below message in the host. Select No, then press Next button. After the New partnership setting, it will show the below dialog window in the host.
9. Press Explore button in Microsoft ActiveSync window, it will pop up the Mobile Device window to display the file resources and information of UNO-1019 as below: For example, if you click the icon “My Documents’”, you will see the content of storage in UNO-1019.
Begin Transferring Files from the PC to UNO-1019 Double click “My Computer” in “Mobile Device” for file translation. 4.3 Remote Access Server Configuration UNO-1019 provides “Remote Access Services” which offers the possibilities for remote network and user to have TCP/IP access local mail servers, access to database, web servers or other Intranet services. The following description introduces how to set the dial-up and dial-in configuration.
Dial-up Configuration 1. Press start of task bar of window system and select “Settings” / “Networking and Dial-up Connections” 2. Double click “Make New Connection”, then a dialog window will pop out. Select Dial-Up Connection and press Next >.
3. Setup the device according to the specification of the modem and press Next >.
Enter the telephone number in the “Phone Number” window. Press Finish button to complete the dial-up configuration. 4. Press start of task bar of window system and select “Setting” ‡ “Networking and Dial-up connections”. Double click the new connection that you made previously (it is RAS Connection in this case), and it will pop out the “Dial-Up Connection” dialog window. Enter your user name / password, then press Dial Properties.
5. Note: Press Dialing Patterns button in the Dialing Properties window. Edit the dialing pattern for each type of call to change how the phone is dialed.
6. Double click My Connection and press Connection button to build a PPP connection. Dial-in Configuration 1. Press start of task bar of window system and select “Setting” / “Control Panel”.
2. Double click the RAS Server icon from Control Panel. 3. Select the “General” tab under “Advantech RAS Server Configuration”. Select “Enable RAS”, “Use Static IP Address” and enter a specified IP in Static IP Address blank.
4. Select the “Input Lines” tab under “Advantech RAS Server Configuration”. Click Add button to setup the input line according to the available RAS device. 5. Select the “Logon Security” tab under “Advantech RAS Server Configuration”. Select security protocol if necessary.
6. Select the “Logon Security” tab under “Advantech RAS Server Configuration”. Add a new account for remote access services. 7. After all settings are completed, press Apply button and then it will pop up the RasConfig dialog window. Press Yes button to save registry setting to storage card. RAS configuration procedure is completed and you can access UNO1019 via remote device.
4.4 Autorun Configuration Note This document introduces how to execute applications automatically when you boot UNO-1019 up. Autorun Configuration Procedure 1. Execute the “UNO Configuration Utility” 2. Go to the “Misc” page in UNO Configuration Utility.
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3. Click on the “Program Path” bottom for selecting the program for Auto-Run setting.. Please choose the program then press “OK”.
4. Click on the “Add” bottom to set the program for Auto-Run action. The UNO Configuration Utility will add the selected program in AutoRun requirement. Please press “OK” to finish the configuration.
4.5 Application Development Procedure UNO-1019 provides Software Development Kit (SDK) and a built-in runtime library; you can use your existing windows-based programming skills to develop applications easily and rapidly through those tools. This document introduces how to develop custom application step by step. 4.5.1 Application Development Procedure 1. Install Microsoft eMbedded Visual C++ V4.
8. Select “UNO-1019” in the main window of Visual C++ .
9. After you complete above configuration procedure, you can start to develop your application. Press “Build”/ “Build xxx.exe” to compile your program to .exe file and download it to UNO-1019. 10. If you want to execute your program, press “Build” / “Execute xxx.exe” and then the program will be executed in UNO-1019. 4.5.2 Watchdog Timer There is a built-in watchdog timer in UNO-1019. Users can utilize the WDT driver with standard WIN32 API to implement the watchdog function in their applications.
How to Use the Control Code There are 6 control codes for the operation codes in the WDT driver. 1. IOCTL _WDT_ENABLE: Enable the Watchdog timer on your application. By default, if the Watchdog timer is enabled, the WDT driver will automatically reload the timeout counter after a specified period and your application does not need to trigger the strobe periodically for masking the timeout, unless use IOCTL_WDT_REBOOT to stop this automatic strobe triggering. lpInBuffer : unused. nInBufferSize: unused.
4. IOCTL_WDT_GETTIMEOUT: Get the Watchdog timeout value. lpInBuffer: unused. nInBufferSize: unused. lpOutBuffer: The DWORD pointer to your Watchdog timeout setting. The Watchdog timeout setting is just a number. 0 means 2 seconds, 1 means 5 seconds, 2 means 10 seconds, 3 means 15 seconds, 4 means 30 seconds, 5 means 45 seconds, 6 means 60 seconds, 7 means 120 seconds, 8 means 300 seconds, 9 means 600 seconds, 10 means 900 seconds, others means the maximum 1140 seconds. The default setting is 5 seconds.
DeviceIOControl This function sends a control code directly to a specified device driver, causing the corresponding device to perform the specified operation. BOOL DeviceIoControl( HANDLE hDevice, DWORD dwIoControlCode, LPVOID lpInBuffer, DWORD nInBufferSize, LPVOID lpOutBuffer, DWORD nOutBufferSize, LPDWORD lpBytesReturned, LPOVERLAPPED lpOverlapped ); Parameters: . hDevice [in] Handle to the device that is to perform the operation. Call the CreateFile function to obtain a device handle. .
[out] Long pointer to a buffer that receives the output data for the operation. This parameter can be NULL if the dwIoControlCode parameter specifies an operation that does not produce output data. . nOutBufferSize [in] Size, in bytes, of the buffer pointed to by lpOutBuffer. . lpBytesReturned [out] Long pointer to a variable that receives the size, in bytes, of the data stored into the buffer pointed to by lpOutBuffer. The lpBytesReturned parameter cannot be NULL.
#define IOCTL_WDT_REBOOT CTL_CODE(FILE_DEVICE_UNKNOWN, 0x905, METHOD_BUFFERED, FILE_ANY_ACCESS) HANDLE m_hWDT=NULL; TCHAR szClassName[60]; // assign the WDT driver name wsprintf(szClassName, TEXT("WDT1:")); // Open the WDT driver m_hWDT = CreateFile(szClassName, GENERIC_READ|GENERIC_WRITE, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if ( m_hWDT == INVALID_HANDLE_VALUE ) { DebugMsg(CString("WDT driver fail")); return; } DWORD dwTemp; DWORD nIndex=2; // Set the Watchdog Timer as 10 seconds.
While (1) { // do your job here. Sleep(8000); DeviceIoControl(m_hWDT, IOCTL_WDT_STROBE, NULL,0, NULL, 0, &dwTemp, NULL); } DeviceIoControl(m_hWDT, IOCTL_WDT_DISABLE, NULL, , NULL, 0, &dwTemp, NULL); CloseHandle(m_hWDT); 4.5.3 DIO, LED and Buzzer UNO-1019 has 2 DI(Digital Input) , 2 DO(Digital Output), 3 LED and a Buzzer. Users can access these resources via the built-in Advantech IO Service driver named “ADV1:”.
2. ADV_IOCTL_WRITE_DO: Write value out the Digital Output. lpInBuffer : The BYTE pointer to the DO value that is requesting to write out. BIT0 indicates DO_0 state; BIT1 indicates DO_1 state. nInBufferSize: User provided input buffer size. lpOutBuffer: unsed. nOutBufferSize: unsed. 3. ADV_IOCTL_READ_DO: Read the written Digital Output value. lpInBuffer : unsed. nInBufferSize: unsed. lpOutBuffer: The BYTE pointer to the current DO value. BIT0 indicates DO_0 state; BIT1 indicates DO_1 state.
6. ADV_IOCTL_TURN_ON_LED2: Turn LED2 on. lpInBuffer :unused. nInBufferSize: unused. lpOutBuffer: unused. nOutBufferSize: unused. 7. ADV_IOCTL_TURN_OFF_LED2: Turn LED2 off. lpInBuffer :unused. nInBufferSize: unused. lpOutBuffer: unused. nOutBufferSize: unused. 8. ADV_IOCTL_TURN_ON_LED3: Turn LED3 on. lpInBuffer :unused. nInBufferSize: unused. lpOutBuffer: unused. nOutBufferSize: unused. 9. ADV_IOCTL_TURN_OFF_LED3: Turn LED3 off. lpInBuffer :unused. nInBufferSize: unused. lpOutBuffer: unused.
10. IOCTL_PLAY_BUZZER: Make the buzzer start beeping. lpInBuffer : The DWORD pointer to the number of mini-seconds to play. nInBufferSize: User provided input buffer size. lpOutBuffer: unsed. nOutBufferSize: unsed. 11. IOCTL_STOP_BUZZER: Stop the buzzer that is playing. lpInBuffer :unused. nInBufferSize: unused. lpOutBuffer: unused. nOutBufferSize: unused.
Parameters: . hDevice [in] Handle to the device that is to perform the operation. Call the CreateFile function to obtain a device handle. . dwIoControlCode [in] Specifies the control code for the operation. This value identifies the specific operation to be performed and the type of device on which the operation is to be performed. No specific values are defined for the dwIoControlCode parameter. However, the writer of a custom device driver can define IOCTL_XXXX control codes, per the CTL_CODE macro.
Nonzero indicates success. Zero indicates failure. To get extended error information, call GetLastError.
CTL_CODE(FILE_DEVICE_UNKNOWN, 0x950, METHOD_BUFFERED, FILE_ANY_ACCESS) #define IOCTL_STOP_BUZZER CTL_CODE(FILE_DEVICE_UNKNOWN, 0x951, METHOD_BUFFERED, FILE_ANY_ACCESS) HANDLE hDev; DWORD i, dwGot, dwNumReturned; // LED & IO Test Program.
dwGot |= 0x01; // set Dout_0 high dwGot |= 0x02; // set Dout_1 high printf("Set Dout_0 high, Set Dout_1 high ...\r\n"); } else { dwGot &= ~0x01; // set Dout_0 low dwGot &= ~0x02; // set Dout_1 low printf("Set Dout_0 low, Set Dout_1 low ...\r\n"); } if( !DeviceIoControl (hDev, ADV_IOCTL_WRITE_DO, &dwGot, 4, NULL, 0, &dwNumReturned, NULL) ) { printf("ADV_IOCTL_WRITE_DO failed! exit.
DeviceIoControl(hDev, ADV_IOCTL_TURN_OFF_LED1, NULL, 0, NULL, 0, NULL, NULL); } if( dwGot & 0x02 ) { DeviceIoControl(hDev, ADV_IOCTL_TURN_ON_LED2, NULL, 0, NULL, 0, NULL, NULL); } else { DeviceIoControl(hDev, ADV_IOCTL_TURN_OFF_LED2, NULL, 0, NULL, 0, NULL, NULL); } Sleep(1000); } CloseHandle(hDev); 71 Chapter 4
4.6 Saving Your Settings Once you made changes for UNO-1019, you may need run RegSave.exe to save Windows CE system Registry to CF card or on-board flash disk to keep your settings. See Registry Saving section for detail. Registry Saving Running RegSave.exe to save system Registry to CF card or on-board Flash. you can specify command line parameter for RegSave.
4.7.1 Network Administration Following steps introduces how to connect the UNO-1019 by standard browser, and configure the field-site UNO-1019’s network setting remotely. 1. Execute standard browser (for instance, Internet Explorer), and enter UNO-1019 (which you would like to connect)’s IP address as below, IP address/networkadmin Instance: 172.18.3.89/networkadmin 2. Note: System will ask you to enter password when you login UNO-1019 first time.
3. Connect to the UNO-1019 again, and the system will ask you to enter user name and password. After authorization, you will enter Windows CE networking setup page.
Network Settings Change IP information about the UNO-1019. 1. Change device name Enter proper device name and press Submit button. Please MUST change UNO-1019’s device name at your first usage. But after you change UNO-1019's device name, please don't ever change device name back to UNO-1019, it's not permitted for WinCE OS Note: When you change the device name, UNO-1019 will need some time to register to DNS (Domain Name Server) automatically.
Note: You also could find device name in WinCE's "setting" / "Control Panel" / "System" 's device name tag. You could see below picture for referrence. IPV6 If you want to enable “IPV6”, please check “Enable IPV6” and press Submit button. System will ask you to restart UNO-1019, the UNO-1019 will support IPV6 after restarting.
Advanced Setting “Advanced setting” allows ports to be statically reserved and mapped. System will list all of the adapters present on the UNO-1019. You can configure the adapter bindings as public, private, bridged, or default to simply bind it to TCP/IP. Caution: Incorrect settings may render the UNO-1019 inoperable.
User Accounts “User Accounts” function allows you to add, modify and delete user accounts on this UNO-1019. "ADMIN" is the only account allowed to manage account information Note: The account we manage here is for network service such as File server ,FTP,Telnet and Web server, but NOT "ACCESS THIS ADMIN WEBPAGE" 1. Create a User Account <1-A> Enter a user name in the “Create a new …” field, and press Create. <1-B> Enter a password, and press Create Account button.
2. Create a Group <2-A> Enter a group name in the “Create a new” field, and press Create. <2-B> If you want to choose which users are members of group, please press Modify button behind the group name. Set the box next the user’s name to have them be part of this group.
<2-C> If you want to delete a group, please press Delete button behind the group name. Features Allows configuration of advanced gateway features. You can configure the File server, FTP server, Telnet server and Web Server Administration accordingly.
4.7.2 File Server Choose the folder in UNO-1019 you wish to share and then enter a share name then press “Submit”. Press "Modify" to set up share permissions, choose the account who will use file server function, then click "Allowed" then press "Modify".
Note: If you want to use password to protect UNO file server, please key in your ADMIN password, chossing "PWD Enabled" and click "Submit", every time you access file server, UNO file sever will ask you a password of account to enable file accessing.
Creating a Network Disk Windows CE provides the command to enable remote network disk as a local disk. Usage: net use [|*] [] [/ user:] [/d] or net view | /DOMAIN: [/d] Disable network disk 1. Share the “temp folder” in the remote site (nb940902) to authorized users, and set the permissions (read/write).
2. Execute the blow command by local UNO-1019’s command prompt, and system will ask you to enter your user name, password and domainif you would like to save your user name and password as “default user”, please check “Update Default Credentials”. net use UNO1019V1\\nb940902\temp /user:daniel.hsu 3. The remote network disk (Ex:\\nb940902\temp) will launch in the local UNO-1019’s “Network” folder.
If you want to delete this folder on UNO-1019 , you could execute the command as below net use UNO1019V1 \\nb940902\temp /user:daniel.hsu /d 4.7.3 FTP Server The FTP server accepts ftp connections and allows the UNO-1019 to be configured remotely. Basic Configuration You can set following items in Basic Configuration field..
Logs Use Logs section to control what information about the FTP transactions is logged.
FTP Users Use FTP Users section to control access to the FTP server for each user. To add new user, please go to the “User Account” page. You can configure a seprate home directory for each user by appending the user’s name to home directory. Denying read permission to a user, denies complete access to the FTP server for that user.
Virtual Roots You can add/delete virtual roots to the FTP server. Virtual roots allow you map a physical directory to and directory with a different name.
4.7.4 Telnet Server The telnet server accepts telnet connections and allows the UNO-1019 to be configured remotely. Telnet Server Configuration • Server Enabled- Will the telnet server accept incoming connections? • Require Authentication- Will the telnet server prompt for user name and password? Telnet Server Users Choose which users can access the telnet server.
4.7.5 Restart Network Restart for network change to take effect. To make the changes you have made take effect immediately, please press “Restart Networking” button, and then the home gateway networking services will be restart.
