................................................................................17 How the Program Works...........................................................................................18 How to Create the Program .......................................................................................18 Reserved Join Numbers.............................................................................................21 Problem Solving .....................................................

A reduction in image size will save a considerable amount of memory space for your project. In VT Pro-e, the Compress checkbox permits the image to be compressed when compiling. The 16 Bits checkbox converts a 24-bit or 32-bit image to 16 bits. This conversion to a 16-bit image may cause the loss of some subtle shading. To compensate for this, use the dithering to simulate the original shading. Various dithering types are available. Refer to the following illustrations. VT Pro-e “Page Properties

The Exit and Run Program button verifies that all of the setup information has been saved to the EEPROM and displays the main page that has been programmed into your system. The remaining buttons on the MAIN MENU open other menus which are discussed in subsequent paragraphs. MAIN MENU Calibration Menu CALIBRATION MENU Touch Perform Calibration. The message “Touch Upper Left” appears centered on the panel with a cross hair in the upper left corner. Touch the center of the cross hair in the corner

Multi-Mode Objects Multi-mode objects offer high- performance programming! The single most-advanced VT Pro-e high-performance programming technique involving the TPS-12B/W, TPS-15B/W & TPS-17B/W is the concept of multi-mode objects. A multi-mode object (i.e. button, legend, etc.) is an object drawn on a VT Pro-e page that can have one or more active and inactive visible settings (modes). For examples, refer to and search for multi-mode object examples. This file contains the VT Pro-e touchpanel

Windows®, Windows® XP and Windows® Vista are registered trademarks of Microsoft Corporation in the United States and other countries. ©2009 Crestron Electronics, Inc. Contents Isys i/O™ 8.4” TableTop WiFi Touchpanel: TPMC-8T 1 Introduction...............................................................................................................................1 Features and Functions................................................................................................1 Specificatio

©2003 Crestron Electronics, Inc. Crestron STX-1700CXP 2-Way RF Wireless Touchpanel Crestron STX-1700CXP 2-Way RF Wireless Touchpanel s 2-Way RF Wireless Touchpanel: STX-1700CXP Introduction ...............................................................................................................................1 Functions and Features................................................................................................1 Specifications ..............................................

When the touchpanel is unlatched, it snaps outward slightly, and then may be removed by hand. The control system program defines the method (i.e., touchpanel button) of unlatching. Electrical Undocking of Touchpanel 1. Via the touchpanel and/or control system program, unlatch the touchpanel. 2. Pull the upper edge of the touchpanel outward and remove the touchpanel. Remove STX-1700CW Manual Undocking of Touchpanel The STX-1700CW can be undocked manually. The only tool required is a long-reach (m

©2002 Crestron Electronics, Inc. Contents 1-Way Wireless RF Touchpanel: ST-1700C 1 Introduction...............................................................................................................................1 Specifications..............................................................................................................2 Physical Description....................................................................................................3 Industry Compliance.........

©2005 Crestron Electronics, Inc Contents DualTouch™ Technology Touchpanel: DTT-15V2 1 Introduction........................................................................................................................1 Features and Functions..............................................................................................................1 Specifications............................................................................................................................3 Physic

...............................................................................15 How the Program Works...........................................................................................15 How to Create the Program .......................................................................................16 Reserved Join Numbers.............................................................................................19 Problem Solving ......................................................