NEC Display Wall Calibrator User's Guide

Version

1.1.20

User’s Guide

2 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Software Updates

Occasionally updates and enhancements to the NEC Display Wall Calibrator software will be made available. Visit the

NEC Display Wall Calibrator section of the NEC DISPLAY SOLUTIONS web site to check for availability, or use the Check for updates feature in the software to automatically see if a newer version is available.

NEC DISPLAY SOLUTIONS welcomes feedback and suggestions for product improvements. Please use the feedback form on the NEC Display Wall Calibrator section of the NEC DISPLAY SOLUTIONS web site.

Technical Support and Feedback

For technical support with the NEC Display Wall Calibrator product, please visit the NEC Display Wall Calibrator section of the NEC DISPLAY SOLUTIONS web site and check for any Frequently Asked Questions that may help to solve the issue. An online feedback form is available for submitting questions and feedback.

Trademarks and Copyright

Microsoft and Windows are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries.

Apple, Macintosh, Mac and the Mac logo are trademarks of Apple Computer, Inc., registered in the U.S. and other countries.

Adobe, the Adobe logo, Acrobat, the Adobe PDF logo, Distiller and Reader are either registered trademarks or trademarks of Adobe Systems Incorporated in the United States and/or other countries.

The content of this manual is furnished for informational use only, is subject to change without notice, and should not be construed as a commitment by NEC Display Solutions, Ltd. NEC Display Solutions, Ltd. assumes no responsibility or liability for any errors or inaccuracies that may appear in this manual.

It is against the law to copy, reproduce or transmit, including without limitation electronic transmission over any network, any part of the manual except as permitted by the Copyright Act of the United States, Title 17, United States Code. Under the law, copying includes translation into another language or format.

The above is not an inclusive statement of the restrictions imposed on you under the Copyright Act.

For a complete statement of the restrictions imposed on you under the copyright laws of the United States of America, see Title 17, United States Code.

USA and Canada: www.necdisplay.com

Europe: www.nec-display-solutions.com

Asia Pacic: www.nec-display.com/ap/contact/

Revision 150512

3 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

HARDWARE LIMITED WARRANTY (U.S.A. and Canada Only)

NEC DISPLAY SOLUTIONS warrants the NEC Display Wall Calibrator “Calibration Sensor” Hardware (hereinafter “Product” or “Products”) to be free from defects in material and workmanship and, subject to the conditions set forth below, agrees to repair or replace (at NEC DISPLAY SOLUTIONS’s sole option) any part of the enclosed unit which

proves defective for a period of one (1) year from the date of rst consumer purchase. Spare parts are warranted for ninety (90) days. Replacement parts or unit may be new or refurbished and will meet specications of the original parts

or unit.

This warranty gives you specic legal rights and you may also have other rights, which vary from state to state. This

warranty is limited to the original purchaser of the Product and is not transferable. This warranty covers only NEC DISPLAY SOLUTIONS-supplied components. Service required as a result of third party components is not covered under this warranty. Service required as a result of abuse or improper usage is also not covered under this warranty. In order to be covered under this warranty, the Product must have been purchased in the U.S.A. or Canada by the original purchaser. This warranty only covers Product distribution in the U.S.A. or Canada by NEC DISPLAY SOLUTIONS No warranty service is provided outside of the U.S.A. or Canada. Proof of Purchase will be required by NEC DISPLAY SOLUTIONS to substantiate date of purchase. Such proof of purchase must be an original bill of sale or receipt containing name and address of seller, purchaser, and the serial number of the product.

NEC DISPLAY SOLUTIONS SHALL NOT BE LIABLE FOR DIRECT, INDIRECT, INCIDENTAL, CONSEQUENTIAL, OR OTHER TYPES OF DAMAGES RESULTING FROM THE USE OF ANY NEC DISPLAY SOLUTIONS PRODUCT OTHER THAN THE LIABILITY STATED ABOVE. THESE WARRANTIES ARE IN LIEU OF ALL OTHER WARRANTIES EXPRESS OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SOME STATES DO NOT ALLOW THE EXCLUSION OF IMPLIED WARRANTIES OR THE LIMITATION OR EXCLUSION OF LIABILITY FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES SO THE ABOVE EXCLUSIONS OR LIMITATIONS MAY NOT APPLY TO YOU.

This Product is warranted in accordance with the terms of this limited warranty. Consumers are cautioned that Product

performance is affected by system conguration, software, the application, customer data, and operator control of

the system, among other factors. While NEC DISPLAY SOLUTIONS Products are considered to be compatible with

many systems, specic functional implementation by the customers of the Product may vary. Therefore, suitability of a Product for a specic purpose or application must be determined by consumer and is not warranted by NEC DISPLAY

SOLUTIONS.

Federal Communications Commission (FCC) Notice (U.S.A. Only)

WARNING: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

• Reorient or relocate receiving antenna.

• Increase the separation between the equipment and receiver.

• Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.

• Consult the dealer or an experienced radio/TV technician for help.

This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions:

• This device may not cause harmful interference.

• This device must accept any interference received including interference that may cause undesired

operation.

4 | Table of Contents

Contents

Precautions: . . . . . . . . . . . . . . . . . . . . . . . 6

Note: . . . . . . . . . . . . . . . . . . . . . . . . . . 6

Supported Display Monitors . . . . . . . . . . . . . . . . . 7

System Requirements . . . . . . . . . . . . . . . . . . . . 8

What’s new in this version . . . . . . . . . . . . . . . . . . 9

Introduction to NEC Display Wall Calibrator 10

Main Features and benets. . . . . . . . . . . . . . . . . . 11

Calibration Overview 12

Introduction to display monitor calibration . . . . . . . . . . . . 12

About Calibration Targets . . . . . . . . . . . . . . . . . . 12

Intensity . . . . . . . . . . . . . . . . . . . . . . . . 13

White Point . . . . . . . . . . . . . . . . . . . . . . . 14

Gamma and Tone Response Curves (TRC) . . . . . . . . . . 14

Contrast Ratio. . . . . . . . . . . . . . . . . . . . . . 15

Calibration Steps . . . . . . . . . . . . . . . . . . . . . . 15

Calibration Projects . . . . . . . . . . . . . . . . . . . . . 16

Analog Video Inputs - Important Notice . . . . . . . . . . . . . 16

Planning and Conguring a Wall Layout 17

Planning . . . . . . . . . . . . . . . . . . . . . . . . . 17

Physical Considerations . . . . . . . . . . . . . . . . . . 17

Conguring Connections . . . . . . . . . . . . . . . . . . . 18

About Monitor IDs . . . . . . . . . . . . . . . . . . . . 18

Direct LAN . . . . . . . . . . . . . . . . . . . . . . . 19

RS232 Daisy-chain. . . . . . . . . . . . . . . . . . . . 19

LAN Daisy-chain . . . . . . . . . . . . . . . . . . . . . 20

Using the Auto ID function with a LAN daisy-chain . . . . . . . . . 21

Using DHCP (Dynamic Host Conguration Protocol) . . . . . . . . 21

Example: Daisy-chained RS232 with one COM port . . . . . . . . 22

Example: Daisy-chained RS232 with multiple COM ports . . . . . . 23

Example: Single IP LAN with daisy-chained RS232 . . . . . . . . 24

Example: Direct Multi IP LAN . . . . . . . . . . . . . . . . . 25

Example: Multi IP LAN using LAN daisy-chain . . . . . . . . . .26

Example: RS232 using LAN daisy-chain . . . . . . . . . . . . . 28

Connecting to displays wirelessly . . . . . . . . . . . . . . .29

Conguring a Layout with the Layout Wizard . . . . . . . . . . . 30

Calibration Order . . . . . . . . . . . . . . . . . . . . . . 37

Calibration Times. . . . . . . . . . . . . . . . . . . . . . 37

Video Inputs . . . . . . . . . . . . . . . . . . . . . . .38

Dialogs, Settings and Menus 39

Main NEC Display Wall Calibrator window . . . . . . . . . . . . 39

Main window context menu . . . . . . . . . . . . . . . .40

Display Information ToolTip . . . . . . . . . . . . . . . .40

Edit Calibration Target Conguration dialog . . . . . . . . . . 41

Custom Gamma Curve dialog . . . . . . . . . . . . . . .43

Custom White Point dialog . . . . . . . . . . . . . . . .44

Preferences dialog . . . . . . . . . . . . . . . . . . . . . 45

Preferences dialog - Calibration Sensor tab . . . . . . . . . . 45

Preferences dialog - Calibration tab . . . . . . . . . . . . . 46

Preferences dialog - Advanced tab. . . . . . . . . . . . . . 47

Preferences dialog - Interface tab . . . . . . . . . . . . . . 48

Panels . . . . . . . . . . . . . . . . . . . . . . . . . . 49

Actions panel . . . . . . . . . . . . . . . . . . . . . . 49

5 | Table of Contents

Connection panel . . . . . . . . . . . . . . . . . . . .51

Calibration Target panel . . . . . . . . . . . . . . . . . . 51

Colorimeter panel . . . . . . . . . . . . . . . . . . . . 52

Test Pattern panel . . . . . . . . . . . . . . . . . . . . 53

Reset panel . . . . . . . . . . . . . . . . . . . . . .54

Display Measurements panel . . . . . . . . . . . . . . . . 55

Tile Matrix Wizard dialog . . . . . . . . . . . . . . . . . . . 56

Display Settings dialog . . . . . . . . . . . . . . . . . . . 58

Display Settings dialog - Power tab . . . . . . . . . . . . . 58

Display Settings dialog - Schedule tab . . . . . . . . . . . . 59

Display Settings dialog - Input tab . . . . . . . . . . . . . . 60

Display Settings dialog - Video tab. . . . . . . . . . . . . . 61

Display Settings dialog - Calibration tab. . . . . . . . . . . . 62

Display Settings dialog - Status tab . . . . . . . . . . . . . 63

Display Settings dialog - Tile Matrix tab . . . . . . . . . . . . 64

Display Settings dialog - Size/Position tab . . . . . . . . . . . 65

Display Settings dialog - IR Remote tab. . . . . . . . . . . . 66

Display Settings dialog - Advanced Analog tab . . . . . . . . . 67

Summary window . . . . . . . . . . . . . . . . . . . . . 68

Menus . . . . . . . . . . . . . . . . . . . . . . . . . . 70

File menu . . . . . . . . . . . . . . . . . . . . . . .70

Edit menu . . . . . . . . . . . . . . . . . . . . . . . 70

View menu . . . . . . . . . . . . . . . . . . . . . . . 70

Tools menu . . . . . . . . . . . . . . . . . . . . . . . 70

Help menu . . . . . . . . . . . . . . . . . . . . . . . 70

Quick Start Guide 71

Frequently Asked Questions 73

Conguration . . . . . . . . . . . . . . . . . . . . . . . 73

Calibration . . . . . . . . . . . . . . . . . . . . . . . . 73

Troubleshooting 75

Installation and Setup . . . . . . . . . . . . . . . . . . . . 75

Calibration . . . . . . . . . . . . . . . . . . . . . . . . 76

Color Sensor . . . . . . . . . . . . . . . . . . . . . . . 77

Assigning an IP address 78

Calibration Determination Flowchart 80

Visual Trim function 81

Advanced Analog Adjustment function 83

Overview . . . . . . . . . . . . . . . . . . . . . . . . . 83

Calibration Method Comparison 87

Overview . . . . . . . . . . . . . . . . . . . . . . . . . 87

Glossary 89

6 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Precautions:

• The LCD display monitor screen is fragile and can be easily damaged if force is applied. Even slight

forces applied to the screen can cause temporary color distortions that can impact the calibration process.

• Never use suction cups to attach a color sensor to the display.

• Always use the supplied cable or sling and counterweight to gently rest the color sensor on the

face of the display, or hold gently and steadily against the screen surface by hand, using the minimum possible force.

• Always try and position the color sensor in the center of the screen when taking measurements or calibrating.

• During the display calibration procedure, highly sensitive light measurements are made on the screen using the color sensor. High ambient light levels such as direct sunlight on the screen, may affect measurements and cause an inaccurate display calibration. Changes in ambient lighting can alter how images on the screen are perceived.

• Always store the color sensor in the holder when not in use.

• When using the X-Rite Eye-One Display, the white plastic diffuser must be removed prior to taking

any measurements. Replace it when nished to protect the sensor from dust and damage.

• Never touch the measurement window in the color sensor.

• Never disconnect the color sensor while the NEC Display Wall Calibrator software is running.

• Always allow the displays to warm up for at least 30 minutes before calibrating.

Note:

• USB extender cables - Some models of color sensors may not work properly when using a USB extender cable or when connected via a USB hub device. If problems are experienced with detecting color sensor or taking measurements with the color sensor, try connecting it directly to the host PC.

• This document covers both the Mac OS and Windows versions of the software. The features and functions of both versions are identical unless noted otherwise. The majority of the User Interface screen images in this document show the Windows version, however the Mac OS version is identical unless noted otherwise.

• Analog Video Inputs - When using analog video inputs on the displays it may be necessary to automatically adjust the video signal levels to compensate for variations in the video signals that may cause color shifts between displays. See the Analog Inputs - Important Notice for more information.

7 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Supported Display Monitors

NEC Display Wall Calibrator supports the following NEC display monitor models:

• LCD4020 – 40” LCD monitor 1

• LCD4620 – 46” LCD monitor 1

• LCD5220 – 52” LCD monitor 1

• LCD6520 – 65” LCD monitor 1

• M40, M40B, and M40-2 – 40” LCD monitors 1

• M46, M46B, and M46-2 – 46” LCD monitors 1

• M401 – 40” LCD monitor

• M461 – 46” LCD monitor

• M521 – 52” LCD monitor

• P401 – 40” LCD monitor

• P402 – 40” LCD monitor 2

• P403 – 40” LCD monitor

• P461 – 46” LCD monitor

• P462 – 46” LCD monitor

• P463 – 46” LCD monitor

• P521 – 52” LCD monitor

• P551 – 55” LCD monitor

• P552 – 55” LCD monitor

• P553 – 55” LCD monitor

• P701 – 70” LCD monitor 2

• P702 – 70” LCD monitor

• P703 – 70” LCD monitor

• P801 – 80” LCD monitor

• S401 – 40” LCD monitor

• S461 – 46” LCD monitor

• S521 – 52” LCD monitor

• V322 – 32” LCD monitor

• V323 and V323-2 – 32” LCD monitors

• V422 – 42” LCD monitor

• V423 and V423-TM – 42” LCD monitors

• V462 and V462-TM – 46” LCD monitors

• V463 and V463-TM – 46” LCD monitors

• V551 – 55” LCD monitor

• V652 and V652-TM – 65” LCD monitors

• V801 and V801-TM – 80” LCD monitors

• X401S – 40” LCD monitor

• X431BT – 43” LCD monitor 2

• X461HB – 46” LCD monitor

• X461S – 46” LCD monitor

• X461UN – 46” LCD monitor

• X461UNV – 46” LCD monitor

• X462HB – 46” LCD monitor

• X462S – 46” LCD monitor

• X462UN – 46” LCD monitor

• X462UNV – 46” LCD monitor

• X463UN – 46” LCD monitor

• X464UN and X464UN-2 – 46” LCD monitors

• X464UNS – 46” LCD monitor 3

• X464UNV and X464UNV-2 – 46” LCD monitors

• X474HB – 47” LCD monitor

• X551S – 55” LCD monitor

• X551UN – 55” LCD monitor

• X552S – 55” LCD monitor

• X554UN and X554UN-2 – 55” LCD monitors

• X554UNS – 55” LCD monitor

• X651UHD – 65” LCD monitor

• X841UHD – 84” LCD monitor

• X981UHD – 98” LCD monitor

Note: Newer models not listed may also be supported.

These models do not have LAN interfaces and only RS232

is supported for control and calibration.

These models use CCFL (cold-cathode uorescent lamp)

backlights. Unless otherwise noted all other models use LED (Light-emitting diode) backlights.

These models support LAN based daisy-chain connections.

• V552 and V552-TM – 55” LCD monitors

• V651 and V651-TM – 65” LCD monitors

8 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

System Requirements

NEC Display Wall Calibrator has the following system requirements:

Microsoft Windows

Operating System Microsoft Windows XP, XP x64,

Windows Server 2003,

Windows Vista (32 or 64 bit),

Windows 7 (32 or 64 bit),

Windows 8 or 8.1 (32 or 64 bit).

Display Resolution 1024x768 minimum. 1280x1024 recommended.

Mac OS 10.5 and higher. Only Intel based Macs are supported.

Mac OS

Supported Color Sensors

USB At least one available USB port for Color Sensor.

LAN (for supported display models)

RS232 One or more RS232 COM Ports (optional

• GretagMacbeth Eye-One Display V1

• X-Rite/GretagMacbeth Eye-One Display V2

• X-Rite/GretagMacbeth Eye-One Monitor, Eye-One Pro

• X-Rite ColorMunki

• X-Rite iOneDisplay Pro

• NEC SpectraSensor Pro

• NEC MDSVSensor, NEC MDSVSensor3

• X-Rite Hubble (Windows only)

• ColorVision/Datacolor Spyder 2

• Datacolor Spyder 3

• Datacolor Spyder 4

• Datacolor Spyder 5

An active USB extender cable of up to 5M (16 feet) in length can be used if necessary with some models of color sensors. USB extender cables should not be used with the X-Rite/ GretagMacbeth Eye-One Monitor, Eye-One Pro or X-Rite ColorMunki sensors.

Standard TCP/IP LAN interface (optional if using RS232 or Wireless LAN)

if using LAN).

Null modem cables to connect devices.

A USB to RS232 adapter can be used if necessary.

Included on all Macs

A USB to RS232 adapter can be used if connecting the Mac to displays via RS232 instead of via LAN.

Null modem cables to connect devices.

9 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

What’s new in this version

This version of NEC Display Wall Calibrator has the following new features and functionality since version 1.0.25:

• Support for the new generation of display models with LAN daisy-chain connections - The latest

generation of displays feature a LAN daisy-chain connection for communications using standard Cat-5 or higher LAN cables.

• Redesigned Layout Wizard including Print / Save as PDF function - The Layout Wizard now guides the

user through all of the various connection options available for each model of display, and at the end produces

a summary that includes the physical layout of the displays, the connections to each display, the conguration

settings that need to made to each display, as well as a list of troubleshooting tips. This can be printed or saved

to a PDF le, and is a useful reference when setting up the video wall or troubleshooting. See “Conguring a Layout with the Layout Wizard” on page 30.

• Edit Calibration Order function - The order in which displays are measured and calibrated can now be

customized after the project has been created. So the order no longer needs to be the same as the order dened when using the Layout Wizard. See “Calibration Order” on page 37.

• Welcome start screen - This screen is shown when the software starts and provides an easy way to access

previous projects, or start a new project using the Layout Wizard.

• Generate ICC Display prole function - Generates an ICC Display Prole of a display which can be used

together with a color management system and software to produce content with accurate color.

• Print / Save as PDF for Summary window data - The data in the Summary window can be printed or saved to

a PDF le. This is useful for future reference, providing to clients, or for troubleshooting purposes.

• Resume Measure All and Calibrate All function - If measurement or calibration of an entire video wall was stopped for some reason, it can now be easily resumed without having to redo the displays that were already completed.

New since version 1.1.00:

• Support for larger than 10 rows or columns video wall sizes - The maximum video wall size can now be up to 30 displays horizontally or vertically. The total number of possible displays is limited to 100.

• Change Gamma without needing recalibration - The Target Gamma value can now be changed without needing to recalibrate all of the displays. The new LUTs are automatically calculated when the gamma is changed and will be uploaded to the displays.

10 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Chapter

Introduction to NEC Display Wall Calibrator

Overview

The aim of the NEC Display Wall Calibrator system is to automatically adjust multiple displays used in a video wall so that the color characteristics closely match, thereby creating the visual illusion of a single large display.

In order to accomplish this, the color characteristics of each display must be individually measured and compared to all of the other displays in the video wall. The optimal settings for each display can then be calculated so that all the displays will match after calibration.

Since each display will vary in both color and intensity (brightness), due to aging, individual components and tolerances,

it is necessary to nd the lowest common denominator that all of the displays are capable of collectively achieving. In

other words, the video wall can only be as bright as the dimmest individual display.

The color characteristics of each display are measured using a color sensor, which is connected via USB to a host PC. The sensor is placed on the screen and a series of test patterns is generated and measured. This process is repeated for all displays.

The host PC does not have to supply any type of video signal to the displays in the video wall, as test patterns are automatically generated within in each display. Communications with each display from the host PC are performed via either RS232, or LAN (Ethernet) if supported by the display model.

Once all of the displays have been measured, the calibration Target can be calculated. This Target denes the various

calibration parameters such as the white point (color of pure white on the screen), intensity (brightness), gamma, etc.

Each display is then calibrated to this Target setting by placing the color sensor on the screen while the software adjusts the internal controls of the display. This process is repeated for all displays.

When the calibration process is completed, all of the displays will match. The numerical results of the calibration process

can be viewed, and also the conguration settings for each display and the entire project can be saved for future

reference and use.

Once the connections to each display have been made and congured, the measurement and calibration process

typically takes between 3 to 6 minutes per display.

The time until the displays need to be re-calibrated will depend on many factors such as the environment and duration they are used, the age of the displays, the calibration Target settings used, and how critical the color matching requirements are. Newer displays will tend to drift more rapidly than displays that have been in use for several days or weeks. Always allow the displays at least 30 minutes after powering on to warm up before attempting to measure or calibrate.

11 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Main Features and benets

NEC Display Wall Calibrator provides the following features and benets:

• Automatic calibration - NEC Display Wall Calibrator communicates with the display monitors directly using either RS232 or a LAN (Ethernet) connection (on supported models). All adjustments to the display settings are

performed automatically using this communications link. It is not necessary to manually congure the displays as

all of the necessary settings are made by the software.

• Internal Test Patterns - Displays can be calibrated using internally generated test patterns. This simplies

the operation by allowing calibration to be performed automatically without having to manually select different test patterns during the calibration process, and without the need to connect a PC to the video input of the displays.

• 10 bit internal Look Up Tables (LUTs) - Each LCD display monitor supported by NEC Display Wall Calibrator features three internal 10 bit LUTs. These tables allow very precise adjustments to be made to the display’s Tone Response Curve without reducing the number of displayable colors or introducing color banding artifacts.

• Gamma Correction - As well as adjusting the Intensity (luminance) and white point of the displays, the software can also calibrate the grayscale using the internal LUTs of the displays. This means that highly accurate color can be achieved not only at 100% white, but at all steps along the grayscale. A variety of different Tone Response Curves can be applied also, from something as simple as a small simple gamma value to complex custom curves.

• Flexible Connections - Displays can be connected using RS232, LAN, or in combinations of both, to the host PC used to perform the calibration. By using a wireless equipped host PC and LAN, displays can be calibrated without making any physical connections to the host PC.

• Projects - All display congurations, measurements, and calibration data can be saved as a project le for later

reference, re-calibration, restoring settings, etc.

• Multiple Calibration Sets - Different display monitor calibration projects can be uploaded to each group of displays allowing quick and easy switching between different calibration settings without the need to re-calibrate each display.

• Informative - A Summary window shows the results of the calibration and the measurement data. This allows for detailed logging and reporting of the calibration procedure. This information can be printed or saved to a PDF

le.

• Flexible - NEC Display Wall Calibrator provides many features and options that make it exible enough to be used in a large variety of video applications, including “on set” use in TV studios and full DICOM support for medical imaging.

• Colorimeter function - The software features a Colorimeter function which allows direct measurements to be taken by the color sensor and the results displayed in a variety of different formats.

• Generate ICC Display prole function - Generates an ICC Display Prole of a display which can be used

together with a color management system and software to produce content with accurate color.

• Scalable - Video wall sizes from a 1x1 single display, to a maximum of 100 displays with up to 30 rows or

columns are supported.

12 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Chapter

Calibration Overview

Introduction to display monitor calibration

The screen image on color LCD displays is created by emitting white light from a backlight source such as cold cathode

uorescent lamps (CCFLs) or Light Emitting Diodes (LEDs) and then passing it through individual sub-pixels with red, green and blue lters which form each pixel on the screen. The amount of light that is allowed to pass through each pixel

is controlled to form an image on the screen. The color of each pixel is controlled by varying the ratios of light passing through each of the red, green and blue sub-pixels.

The overall brightness or Intensity of the screen is controlled by adjusting the brightness of the uorescent lamp backlight,

however the adjustment range of the backlight is limited. If it is necessary to adjust the Intensity below the level achieved

by adjusting the uorescent lamp backlight alone, further adjustments can be made using the internal LUTs (look up

tables) in the display which control the light that passes through each individual pixel.

Likewise, White Point adjustments to the display are made using the internal LUTs to reduce the brightness of one or more colors (red, green, or blue).

Before calibrating, the desired color characteristics of the calibrated video wall must be selected. In NEC Display Wall Calibrator these characteristics are called Calibration Targets. The software adjusts the monitors to the color characteristics in the selected Target.

When calibrating a video wall, careful consideration should be made as to how the displays will be calibrated so that they match as necessary. The video content shown on the displays, and how it will be divided on individual displays will determine some of the calibration settings.

For example, when using a video wall consisting of several displays that will be displaying video tiled across all of the displays simultaneously, it is essential that all of the displays match in both White Point and Intensity (brightness).

However, if for example, the displays each show separate video on their screen, then the Intensity matching between the displays may not be as important as having each display be as bright as possible. Having the displays match in

White Point only may be sufcient.

The NEC Display Wall Calibrator system provides the exibility for meeting different scenarios such as these.

When calibrating a video wall to match in both White Point (color) and Intensity (brightness), the Target Intensity can

only be as high as the dimmest display. This is why it is necessary to rst measure all of the displays in their native or uncorrected state to nd out the native White Point and Intensity values for each display. From these measurements,

the lowest common Intensity value for the chosen White Point can be calculated by the software.

About Calibration Targets

A Calibration Target consists of up to four specications that describe the color characteristics of the display:

• Intensity

• White Point

• Gamma or Tone Response Curve (TRC)

• Contrast Ratio

13 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Display 1 Display 2

Display 4Display 3

Display 1 Display 2

Display 4Display 3

Before Calibration After Calibration

Maximum Possible Matching Intensity Adjustment

Display 1 Display 2

Display 4Display 3

Display 1 Display 2

Display 4Display 3

Before Calibration After Calibration

Maximum Possible Per Display Intensity Adjustment

Intensity

Intensity species the luminance or “brightness” of white when displayed on the screen. The maximum Intensity value

of a display will depend on many factors, such as, the color temperature of the White Point selected, the type of monitor, individual component tolerances, usage, and age of the display.

Intensity can be measured and specied in units of either Candelas (cd/m²) or Foot Lamberts (fL) within the application.

The NEC Display Wall Calibrator system supports 3 different methods of Intensity adjustment:

• Maximum Possible Matching - Calibrates all of the displays to the maximum possible luminance that can achieve a match in both Intensity and White Point. Use this option if it is desired that all of the displays match in both color and brightness. All of the displays will only be as bright as the dimmest display.

• Maximum Possible Per Display - Calibrates all of the displays to the maximum possible luminance that each individual display can achieve, while matching up the white points on each display. Use this option if it is desired that all of the displays match in color, but is not important if they match each other in luminance.

• Specic Level - Calibrates all of the displays to a specied target value of luminance, while matching the white points on all displays. If a display can not achieve the specied value, it will be calibrated to the

closest possible Intensity, and a warning icon will be displayed after the calibration process is completed.

Use this option if the particular application requires a specic luminance, but keep in mind that each

display must actually be capable of achieving that value.

The difference between Maximum Possible Matching and Maximum Possible Per Display Intensity adjustment types is illustrated below:

14 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

The choice of Intensity adjustment method will depend on the particular application and viewing environment.

If the displays are being used in a bright environment, then the Intensity would generally need to be the maximum possible. So either Maximum Possible Matching or Maximum Possible Per Display would be used.

White Point

The White Point species the color of pure “white” on a display. Since there is no unique perceptual or physical denition of what “white” is, it must be dened in terms of a standard or device-independent color space to be measured and

reproduced.

There are several methods of specifying a white point, including using a blackbody radiator color temperature or as a point in a device-independent color space. NEC Display Wall Calibrator allows the white point to be specied either as a black body radiator color temperature in Kelvin, as a CIE standard illuminant, or as CIE xy chromaticity coordinates.

A White Point expressed as a blackbody radiator color temperature in Kelvin represents the light given off by an object, known as a blackbody, as it is heated to a given temperature. Low color temperatures, such as 2500K, are reddish, while higher color temperatures, such as 9300K, are bluish. A color temperature of 6500K is considered to be “neutral” white.

A CIE Standard Illuminant is a dened white color based on a known light source. In NEC Display Wall Calibrator the D or Daylight Illuminant series can be used to specify a white point. Daylight Illuminants are named according to their corresponding correlated color temperature. For example, D50 is very close in color to a 5000K blackbody radiator.

Since adjusting the White Point away from the native value of the display involves reducing the level of at least one color (red, green, or blue), the brightest possible display will be when least amount of correction is made. Choosing a White Point that is very different from the native White Point will mean that a large correction must be applied, and the maximum brightness will be impacted.

If the application the video wall is being used for does not need a specic White Point, and the brightest possible display

is required, a White Point that will achieve the highest possible overall Intensity after calibrating can be automatically calculated. This calculation factors in the native Intensity and White Points of each display in order to determine the resulting White Point. This function is available in the White Point group in the Edit Calibration Target dialog.

Gamma and Tone Response Curves (TRC)

The Gamma or Tone Response Curve of a display is the relationship between the video input signal level and the light output (“brightness”) displayed on the monitor. The display monitor is a nonlinear display device. In simple terms, this means that doubling the level of the video input signal to the display does not double the light output. For CRT based displays, the light output follows a mathematical power function of the input video signal. This power function has an exponent called gamma, which is commonly used to describe the relationship between the video input signal and light output of the screen.

A gamma value of 1 would result in a perfectly linear display (doubling the signal level doubles the light output) and the Tone Response Curves would be straight lines. The particular Tone Response Curves of a display will change with the display color settings and may vary from one display to the next. If accurate color matching is to be performed, the display’s Tone Response Curves must be accurately measured and compensated for. NEC Display Wall Calibrator uses the color sensor to automatically measure the Tone Response Curves of the display.

Normally, a standard Gamma value is required when working with images. For example, the sRGB standard color space

target species a display Gamma value of 2.2. Since the Gamma value of the display may be different than the required

Gamma value, a correction needs to be applied so that the apparent display Gamma matches that of the required Target. In NEC Display Wall Calibrator, this correction is applied to the LUTs (Look Up Tables) inside the monitor. The software also uses the monitor’s LUTs for Targets that have Tone Response Curves which do not follow a normal Gamma curve. An example is DICOM, which uses a curve that changes shape based on how bright the display is.

Calibrating the gamma or Tone Response Curve of the display during calibration will automatically correct for any color deviations in shades of gray between black and white. This provides the best possible grayscale color tracking.

15 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Contrast Ratio

The Contrast Ratio of the display is the ratio of the measured Intensity to the measured Black Level. The Black Level is the luminance or “brightness” of black when displayed on the screen. For LCD monitors the minimum or native Black

Level is typically xed in ratio to the Intensity value due to the display technology.

NEC Display Wall Calibrator allows the Contrast Ratio to be selected for applications that require a specic contrast

ratio. However the calibrated contrast ratio can not be higher than the native contrast ratio, since the minimum Black Level that the display can achieve is limited by the display technology.

The Contrast Ratio is adjusted (reduced) by increasing the black level as necessary.

For most applications the highest possible Contrast Ratio is most suitable and can be achieved by selecting Monitor Default as the Contrast Ratio.

Specic Contrast Ratios in the range 50:1 to 500:1 can be selected.

Note: If the selected contrast ratio is higher than what the display is actually capable of achieving, then the display will calibrate

to the highest possible contrast ratio. For example if 500:1 is selected, but the display is only capable of say 320:1 with the current Target settings, then the resulting calibration will have a contrast ratio of 320:1.

Calibration Steps

The display calibration process for a video wall when matching both the Intensity and White Point is outlined in the following steps:

1. Initializing Displays - This step resets each display to the default color settings so that the “native” performance

of each display can be measured before the calibration. Settings such as the Brightness, Color mode, Contrast etc. will be reset.

2. Measuring Displays - During this step, all displays are measured to determine the default “native” color characteristics of each display. This step involves placing the color sensor on the screen while various test patterns are displayed and measured. This step repeated for all displays in the video wall.

3. Target Calculation - Once all of the displays have been measured the software will automatically calculate the maximum possible Intensity that will give a color match with all the displays. This is done by determining the dimmest display in the video wall at the chosen White Point.

4. Calibrating Displays - Once the Target has been calculated, all of the displays can be calibrated. This step involves placing the color sensor on the screen while various test patterns are displayed and the display is adjusted. This step repeated for all displays in the video wall.

5. Visual Trim (ne tune by eye) - If necessary, the white point and brightness of any of the displays can be ne tuned

visually by using the software.

Note: When calibrating to a Target that uses either Maximum Possible Per Display or Specic Level option for the Intensity,

steps 2 and 3 are optional because it is not necessary to measure and calculate the matching Target value.

However if Specic Level is used, performing steps 2 and 3 will allow the software to verify that each display is capable of achieving the specied Intensity value at the selected White Point. If a display can not achieve this, then a yellow warning icon is shown in both the Summary window, and in the main display window for that particular display.

16 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Analog Video Inputs - Important Notice

The display calibration process adjusts the digital portion of the video processing within the display. For analog

video signals such as VGA, RGB/HV, and Option-Analog, the signal is digitized within the display using an

Analog-to-Digital converter. Due to variances in analog video signal levels and offsets from the video source device, it may be necessary to also adjust the settings for the video Analog-to-Digital conversion.

If the screens on the video wall do not match well in color after calibration, use the Test Pattern tool with the Calibrated White setting to evaluate the displays using their internally generated test patterns. If the Test Patterns match well, then it indicates that the analog video signal levels need to be adjusted. Use the Display Settings dialog - Video tab to perform an automatic adjustment of the video levels.

If the analog automatic adjustment procedure still does not provide a good enough match between displays, a more advanced manual method of adjusting the analog video signal levels can be used.

See the Calibration Determination Flowchart for a more detailed guide on the process of determining when to calibrate and perform the analog setup.

Note: This adjustment process requires specic patterns to be displayed on the video signal in order for the display to

automatically adjust the video signal levels correctly. Failure to display the correct signal may result in the video levels being incorrectly set and the displays may not match in color when using an analog video source.

Calibration Projects

The NEC Display Wall Calibrator application uses Project les to store the following information and settings:

• Layouts including all of the connection settings and video wall size information.

• Measurements for each display, including the time each measurement was taken.

• Calibration results for each display, including the nal color characteristics of each display and when it was

calibrated.

• Calibrated Monitor Settings for each display so that settings can be restored to one or all displays if necessary.

All of the display measurements and settings are unique to each display and are identied within the software by the

model and serial number of each display.

Project les can be saved at any point. By saving Projects using different le names, different congurations for the

same video wall can be stored and later restored to the displays if necessary.

Project les can also be used to keep track of when a video wall was last calibrated.

17 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Chapter

Planning and Conguring a Wall Layout

Planning

Careful planning prior to installing, wiring, and conguring a video wall will help streamline the process. This chapter provides some insight into different congurations and the amount of time required to successfully calibrate a video wall.

In order for the software to uniquely identify and communicate with each display, the following conguration settings

must be made:

• The number of rows and columns of displays in the video wall.

• The communications interface type for each display (RS232 or LAN).

• How the displays are connected to the host PC, and to each other.

• The Monitor ID of each display.

• The order in which displays are assigned IP addresses and Monitor IDs.

Note: NEC Display Wall Calibrator includes a Layout Wizard which greatly assists in planning the conguration and

connections of a video wall. This feature can be used for planning purposes even before any hardware is installed in order to determine the optimal conguration for smooth deployment, conguration and calibration. See “Conguring a Layout with the Layout Wizard” on page 30 for more information.

Physical Considerations

For large video walls where it is necessary to use a ladder or platform to access the screen of each display, careful

consideration should be made of the layout order in order to minimize physical movement and in turn maximize the efciency and speed of the calibration process.

For example, if using a ladder, it may be easier to calibrate a vertical column of displays, and then move the ladder

across to the next column. Similarly if using a horizontal platform, it may be easier to calibrate a horizontal row of

displays, and then move the platform up or down to the next row.

For very large video walls, for example larger than a 5x5, it may be more efcient to split the calibration into two separate

projects and divide the wall into two. However keep in mind that depending on the calibration Target type being used, it may be necessary to measure all of the displays in the video wall in order to determine the dimmest display.

For video walls that use LAN based daisy-chaining and use the Auto ID function, the Monitor IDs are assigned based on

the physical wiring connection order from the rst display. So the connection order of the LAN cables between displays

is an important consideration.

Note: The calibration order for existing video wall congurations can be changed at any time using the “Calibration Order” on

page 37.

18 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

About Monitor IDs

• Each display has a Monitor ID number that is used to individually identify and address it when used in a daisy-chain.

• Each display in a daisy-chain must have a unique Monitor ID.

• The Monitor ID is congured via the OSD. Models that support LAN daisy-chains can have

the Monitor ID set automatically using the Auto ID function. See “Using the Auto ID function with a LAN daisy-chain” on page 21 and the display User’s Manual for more information.

• The Monitor ID congured in the software must match the Monitor ID on each display.

• Monitor IDs also allow displays to be individually controlled from a single IR remote control.

See the display User’s Manual for more information on using the IR Remote with multiple displays.

RS-232CINRS-232C

LAN

LAN1 LAN2

RS-232C

Conguring Connections

Displays can be connected to the host PC in a variety of ways using RS232 or LAN, depending on the model.

Displays can also be daisy-chained together using RS232 or LAN cables, depending on the model. Daisy-chaining displays can simplify cable wiring, and allows more than one display to be controlled from one access connection, as

well as minimizing the lengths and number of cable runs.

The following table shows the types of daisy-chains available depending on the connection conguration of the display

model being used.

Display connection

conguration

OUT

Connection description Daisy-chain type Input connection to rst

display in daisy-chain

RS-232C IN and OUT RS232 RS232

RS-232C IN, OUT, and LAN RS232 LAN or RS232 (selectable)

RS-232C IN, LAN 1 and LAN2 LAN LAN or RS232

There are several ways to determine the correct display connection conguration for each model:

• Use the Layout Wizard and select the display model.

• Refer to the “Supported Display Monitors” on page 7.

• Look at the physical connections on the display.

• Refer to the display’s User’s Manual.

The following sections describe each of the 3 basic connection types for connecting multiple displays.

19 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

RS-232CINRS-232C

LAN

LAN1 LAN2

RS-232C

RS-232CINRS-232C

LAN

Direct LAN

Supported display connection congurations

OUT

RS-232C IN, OUT, and LAN

RS-232C IN, LAN 1 and LAN2

Models that have an RJ45 LAN connection can be individually connected directly to a LAN via a hub or switch instead of daisy-chaining displays together. This may require more wiring since each display is individually connected directly to a central LAN hub or switch. The advantages of using this method is that communications to other displays will still function even if:

• A display is removed from the video wall without bridging the daisy-chain.

• A display loses AC power or is turned off via the display’s main power switch.

• A display fails.

• There is a fault in cabling to an individual display.

• A display enters standby power mode and the LAN POWER setting is set to OFF (models that support

LAN daisy-chain only).

See “Example: Direct Multi IP LAN” on page 25.

Important points to note:

• Each display must have a unique IP address.

• Since each display is addressed by the combination of IP address and Monitor ID, each display can have

the same or unique Monitor IDs.

RS232 Daisy-chain

Supported display connection congurations

OUT

Models that have two RS232 connections (not including any RS232 connections on OPS devices), support RS232 daisy-chaining. The connection labeled IN is the input to the display from the host PC. The other connection labeled OUT is the output to connect to the IN on the next display in the daisy chain.

See “Example: Single IP LAN with daisy-chained RS232” on page 24 and “Example: Daisy-chained RS232 with one COM port” on page 22.

Important points to note:

• When using RS232 to connect displays using a daisy-chain, each display on the chain must have a unique Monitor ID (set via the display’s OSD).

• Displays must be connected using an RS232 serial NULL modem cable (also known as a “crossover” cable).

• The rst display in the daisy-chain can be connected to the host PC either via RS232, or by LAN if the

model has an RJ45 LAN connection (not including any RJ45 LAN connections on OPS devices). When

RS-232C IN and OUT

RS-232C IN, OUT, and LAN

20 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

LAN1 LAN2

RS-232C

connected via LAN, the rst display can forward commands received over LAN to other displays in the

RS232 daisy-chain.

• The RS232 connection from the host PC must connect to the RS232 IN on the rst display.

• Communications via both LAN and RS232 are not supported at the same time. The type of

communications link to use to the display must be selected by OSD setting EXTERNAL CONTROL RS232C / LAN.

LAN Daisy-chain

Supported display connection congurations

RS-232C IN, LAN 1 and LAN2

Models that have two RJ45 LAN connections (not including any RJ45 LAN connections on OPS devices) support LAN daisy-chaining. The RJ45 LAN connection labeled LAN1 should be used as an input to the display from the network or host PC. The other LAN connection labeled LAN2 is the output to connect to the LAN1 on the next display in the daisy chain.

The display functions as a two port LAN hub for LAN trafc.

Important: The LAN hub function only works when AC power is applied to the display and the LAN interface is powered

on. By default the LAN POWER setting is set to turn o when the display enters a standby power mode. This will prevent communications with other devices along the LAN daisy-chain. To prevent this, change the LAN POWER setting ON - either via the OSD, or via the “Display Settings dialog - Power tab” on page 58. This setting will also be automatically set to ON when the Initialize action is used.

The rst display in a LAN daisy-chain communicates with the host PC using either an RS232 direct connection, or by

connecting LAN1 to the network. Selection between the LAN1 and RS232 ports is done automatically by the display.

Displays in a LAN daisy-chain that are connected to a LAN network can be addressed in two different ways:

1. Directly:

Each display in a LAN daisy-chain can also be communicated with directly by addressing the display by it’s IP address and Monitor ID.

See “Example: Multi IP LAN using LAN daisy-chain” on page 26.

2. Via Translation:

The rst display in a LAN daisy-chain can act as a host for commands it receives for any of the other displays further

along the daisy-chain. It will translate and forward to the relevant display any commands received via the LAN2 connection sent to it’s IP address, but with Monitor IDs for other displays in the daisy-chain.

In order to do this, the Auto ID function must be successfully performed on the rst display. The Auto ID function is used to identify all displays along the LAN daisy-chain and assign them sequential Monitor IDs. The rst display in

the LAN daisy-chain stores a table of the IP addresses and assigned Monitor IDs for all of the other displays in the daisy-chain.

Note:

The translation process is always used when connecting to the RS232 port on the rst display. See “Example: RS232 using LAN daisy-chain” on page 28.

This translation and forwarding process makes communications slightly slower.

See the following for more information on using the Auto ID function.

21 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

Using the Auto ID function with a LAN daisy-chain

• The LAN2 RJ45 (output) of a display must connect to the LAN1 RJ45 (input) on the next display in a daisy-chain.

• Each display must have a unique IP address assigned.

• Network hub devices must not be used to create multiple branches of displays along the LAN daisy-

chain. All displays must be connected sequentially.

• The LAN2 RJ45 of the last display in the daisy-chain must not be connected back to the network (do not form a network loop).

• Monitor IDs are automatically assigned sequentially starting at Monitor ID 1.

• Monitor IDs are assigned based on the physical LAN cable connection order - not the IP address

assignment order.

• All displays must be powered on when performing the Auto ID function.

• The Auto ID function should only be performed from the rst display in the daisy-chain. Do not

perform Auto ID from displays further along the daisy-chain.

Using DHCP (Dynamic Host Conguration Protocol)

• Using DHCP with video wall connected via LAN is not recommended, since the IP address assigned to each display may change if the entire system is restarted.

• The software always uses static IP addresses together with a Monitor ID to individually address each display. If the IP address changes, then the wrong display location may be unintentionally accessed.

22 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

RS-232CINRS-232C

LAN

Display 1

Display 2

Example: Daisy-chained RS232 with one COM port

Supported display connection congurations

OUT

In this example, the host PC has one RS232 COM port, and all displays are daisy-chained together via RS232. Each

display must have a unique MONITOR ID since they are all on the same daisy-chain. The RS232 OUT on the rst

display is connected to the RS232 IN on the next, etc.

COM1

RS-232C IN and OUT

RS-232C IN, OUT, and LAN

RS232 IN

RS232 OUT

Display 3

RS232 IN

ID 1

RS232

ID 3

RS232

RS232 IN

RS232 OUT

RS232 IN

RS232 OUT

ID 2

RS232

Display 4

ID 4

RS232

Note: For RS232 daisy-chains, the cable connections between displays does not need to follow the same ordering as the ID

assignments. In this example the daisy-chain is connected in order 1 - 2 - 4 - 3.

The following image shows how this layout looks in the Summary window when congured. Notice that all displays are congured to use the same COM port, even though only the rst display is actually connected to the host PC.

23 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

RS-232CINRS-232C

LAN

Example: Daisy-chained RS232 with multiple COM ports

Supported display connection congurations

OUT

In this example, the host PC has two RS232 COM ports, and there are two separate daisy-chains. Each display on a daisy-chain must have a unique MONITOR ID.

COM1

COM2

RS-232C IN and OUT

RS-232C IN, OUT, and LAN

Display 1

RS232 IN

RS232 OUT

Display 3

RS232 IN

RS232 OUT

ID 1

RS232

ID 1

RS232

Display 2

RS232 IN

ID 2

RS232

Display 4

RS232 IN

ID 2

RS232

The following image shows how this layout looks in the Summary window when congured. Notice that displays

connected on COM1 can have the same IDs as those on COM2 because they are on separate daisy-chains.

Note: This type of connection that uses two or more separate COM ports cannot be fully congured using the Layout Wizard.

Use the Layout Wizard to congure the video wall size and rst COM port, then manually edit the connections for each display using the Connection Panel to set the other COM ports to use and Monitor IDs.

24 | NEC DISPLAY WALL CALIBRATOR - USER’S GUIDE

RS-232CINRS-232C

LAN

RS232 OUT

RS232 IN

RS232 OUT

RS232 IN

RS232 OUT

RS232 IN

ID 1

LAN

IP 192.168.0.1

Display 1

ID 2

RS232

Display 2

ID 3

RS232

Display 3

ID 4

RS232

Display 4

IP 192.168.0.200

LAN

Example: Single IP LAN with daisy-chained RS232

Supported display connection congurations

OUT

In this example, the host PC is connected to the rst display via LAN. Subsequent displays are connected together using

RS232 daisy-chaining. Each display on a daisy-chain must have a unique MONITOR ID.

RS-232C IN, OUT, and LAN

Important: The rst display is congured to use LAN as the EXTERNAL CONTROL on the OSD. The other displays are

congured to use RS232 as the EXTERNAL CONTROL on the OSD. The RS232 OUT on the rst display is connected to the RS232 IN on the next display.

Since communications to all of the displays is routed through the rst display, the software uses only the IP address of the rst display. The rst display then translates commands received via LAN to the RS232 OUT to be received by the