AMX VTM-D15/A instruction manual Set the Output resolution of the TPI/3 by entering

Page 35

Configuration and Setup

4.Verify the connection of the Touch Screen Signal cable from the touch monitor to the Mouse Port on the rear of the TPI/3.

5.Launch the NetLinx Studio program from the Start > Programs > AMX Control Disc > NetLinx > NetLinx Studio folder.

6.From the Main menu bar, select Tools > Master Comm. Settings to display the Communication Setting dialog box.

7.Select NetLinx from the Platform section.

8.Select Network from the COM Port drop-down menu.

9.Specify the IP Address and IP Port (default is 1319 for a Master Port).

10.Click OK to accept the changes and exit from the Communication Setting dialog box.

11.Select Tools > Windows Telnet from the Main menu bar to open a telnet session.

12.Select Connect > Remote Systems and specify the same IP Address as in step 8.

13.From within the telnet session window, type SHOW DEVICES. This gives you the device number of the TPI/3. Example would be a TPI/3 with a value of 00130.

14.Use the following command to set the mouse driver:

Send_Command, <TPI/3 device number>,"’@MOU <# for touch driver>’"

Example:

Send_Command 130,"’@MOU 12’"

This command allows you to set the mouse driver number (#12 for VTM-D15/A) on the TPI/3 device using a specific Device ID number (#130). The Supported Touch Devices table on page 27 lists the supported touch devices and their associated ID’s. When

PRGM EX. 10

15.Set the Output resolution of the TPI/3 by entering:

Send_Command, <TPI/3 device number>,"’@res <hor>x<ver>:<res>’"

Example:

Send_Command 130,"’@res 1024x768’"

Sets up the panel to display an output resolution of 1024 x 768 at a default screen refresh rate of 60. If another refresh rate is needed, enter a colon after the vertical value and then enter the refresh rate value.

PRGM EX. 11

16.Refer to the Available Resolutions table on page 27 for information on resolution and refresh rates.

17.Calibrate the TPI/3 by entering:

Send_Command, <TPI/3 device number>,"’calibrate’"

Example:

Send_Command 130,"’calibrate’"

Sets up the panel to begin the calibration process. Touch the cross-hairs that appear on the panel to complete the calibration process.

PRGM EX. 12

18.Once in the calibration mode, press the middle of the on-panel cross-hairs as they appear. After the last cross-hair has been depressed and the coordinates points have been set, a dialog displays the panel coordinate values.

VTM-D15/A 15" MultiMedia Touch Panel Systems

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Contents VTM-D15/A AMX Limited Warranty and Disclaimer Table of Contents Upgrading the TPI/3 Firmware MultiMedia System Components MultiMedia Touch PanelPin Mini Din to 9-pin DB9 Touch Panel Signal Cable Power AdapterPower Cord Pin DB15 VGA Signal CableFloppy Disk VTM-D15/A and VTM-D15/AB SpecificationsSpecifications PSN6.5 Power Supply optionalIBM VGA Rear component connection locations on the VTM-D15/A VTM-D15/A and VTM-D15/AB Rear ComponentsFront Panel AXB-TPI/3 SpecificationsDimensions HWD Rear Panel Components SendCommands Rgbhv AXB-TPI/3 ComponentsPin captive-wire VTM-D15/A Sample ConfigurationRemoving input modules Installation and WiringSetting up the AXB-TPI/3 Installing the input modulesMounting the TPI/3 in an equipment rack Setting up the PanelInstalling the Table Top support bracket Table Top Installation VTM-D15/A and D15/ASFixing holes on each side of pull-out flap Installing the Surface Mount support bracket Surface Mount Installation VTM-D15/AB and D15/ASBConnecting the cables on a VTM-D15/A table top panel Surface Mounting Kit VTM-WMB contents Rear of VTM-D15/AB shown with attached VTM-WMB bracket Connecting the cables on a VTM-D15/AB surface mount panelPreparing captive wires Wiring the AXB-TPI/3Using the AXlink connector for data and power Wiring guidelinesPin Signal Function Connecting the MultiMedia ComponentsUsing the VGA in DB-15 male high-density connector VGA in DB-15 Connector PinoutsYour system is now connected and receiving power Installation and Wiring Front Panel buttons and indicators LEDs Configuration and SetupVTM-D15/A Startup and Setup Procedures Using Axcessx for serial communication Setting Up Serial Communication from PC to the TPI/3Setting Up Serial procedures Parameter Setting COM Port Parameter SettingsUsing HyperTerminal for serial communication Setting up the VTM-D15/A touch device Supported Touch Devices Setting the Output ResolutionAvailable Resolutions Resolution Refresh RatesCalibrating the Monitor Setting Up AXlink Communication from Master to the TPI/3Setting Up AXlink procedures Setting up the VTM-D15/A touch device through AXlink Using Axcessx for AXlink communicationUsing HyperTerminal for AXlink communication Use the following command to set the mouse driver Setting Up NetLinx Communication from PC to the TPI/3Set the Output resolution of the TPI/3 by entering Using NetLinx Studio for communication via an COM Port SendCommand 130,’calibrate’ Configuration and Setup Downloading the Firmware ConfigurationUpgrading the TPI/3 Firmware Press F10 to exit the SoftROM program On Screen Display OSD Icons On Screen Display OSD FeaturesOn Screen Display OSD Icons Selecting the Language of the OSD Exiting the OSDAdjusting Display Performance Phase and Clock Adjusting Screen Brightness and ContrastSelecting the Picture Color Temperature Adjusting Horizontal and Vertical Screen PositionAdjusting OSD Menu Parameters OSD Position and Timer Adjusting Display Color Red, Green, BlueAdjusting the OSD Timer setting Adjusting the Picture SharpnessOptimizing Picture Performance in DOS Graphic/Text Automatic Contrast AdjustmentReturning Recall to Factory Default Settings Troubleshooting TroubleshootingDisplay Troubleshooting Use these messages to address panel issues Troubleshooting VTM-D15/A 15 MultiMedia Touch Panel Systems AMX reserves
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VTM-D15/A specifications

The AMX VTM-D15/A is a next-generation armored vehicle designed for versatility and adaptability in modern combat scenarios. Developed to meet the evolving demands of modern military operations, it embodies advanced technologies and exceptional characteristics that make it a standout choice for armed forces worldwide.

At the heart of the AMX VTM-D15/A is its robust chassis, designed to withstand harsh terrains and explosive devices. The vehicle boasts a well-protected hull using advanced composite materials and ballistic plating, ensuring crew safety in hostile environments. It can be fitted with reactive armor systems that enhance protection against projectiles and anti-tank missiles.

The VTM-D15/A features a powerful engine that provides high mobility across various landscapes, capable of reaching speeds of up to 100 km/h on flat terrain. Its off-road capabilities are complemented by a sophisticated suspension system that allows for excellent maneuverability in rugged conditions. The vehicle is also equipped with all-terrain tires, further enhancing stability and traction.

One of the remarkable aspects of the AMX VTM-D15/A is its modular design that allows for quick configuration changes between various combat roles. This adaptability permits the integration of different weapon systems, including machine guns and anti-tank guided missiles, that can be rapidly mounted or dismounted as per operational requirements.

The vehicle's advanced battlefield management system improves situational awareness, allowing for real-time data sharing and communication with other units. It is equipped with state-of-the-art sensors and reconnaissance tools, ensuring that it can gather intelligence and operate effectively in diverse combat environments.

Moreover, the AMX VTM-D15/A emphasizes crew comfort and ergonomics, featuring a spacious interior designed for extended missions. The vehicle's climate control systems and noise-reduction technologies significantly enhance crew endurance and focus in prolonged operations.

In a world where military operations are increasingly dynamic, the AMX VTM-D15/A stands out as a versatile, powerful, and technologically advanced armored vehicle. Its combination of protection, mobility, and adaptability ensures that it can meet a wide array of mission requirements, making it a vital asset in modern military arsenals.
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