Orion OLW-4651, OLWU-5550, OLW-5550, OLWU-5520 User Manual

Hybrid Video System

ORION CO.,LTD.

www.oriondisplay.net

• 2015.08.03

Thank you for purchasing our MLCD.

Please read through this user's manual for safety before installing this product.

This product is manufactured for Multi LCD model only.

User’s Manual

OLW-4651 | OLW-5550 | OLWU-5520 | OLWU-5550

Address: 217, 1gongdan-ro, Gumi-si, Gyeongsangbuk-do, Korea

Tel : +82-2-6678-8533, Fax: +82-2-6678-8599

A revolutionary MLCD

A revolutionary MLCD

Hybrid Video System

- 1 -

Hybrid Video System

MAIN FRAME

(refer to page 16~17)

DVI Converter
(ODC-10000)

19" Rack

Guide Pin(4pcs) CAT-6 Cable(1EA)Power Cable DC Power Cable(1EA) RS232 Cable(1EA)User's Manual

Power Module Image Processor Module

Multi-Screen Control

System(MSCS)

VIDEO Cable

(1ea per panel)

The length may vary according to

customers’ request.

(2, 3, 5, 7, 10, 15, 20. 30M)

COMM Cable

(1ea per panel)

The length may vary according to

customers’ request.

(2, 3, 5, 7, 10, 15, 20. 30M)

DC Power Cable

(1ea per panel)

The length may vary according to

customers’ request.

(2, 5, 8, 10, 15, 20M)

Features of MLCD

▶ Enjoy a wide flat screen with high brightness and high quality.
▶Easy to install and move due to its thin design
▶ Enjoy your favorite programs with various split-screen features simultaneously presenting

several programs.

To prevent electric shock, Do not remove cover.
No user serviceable part inside
Refer servicing to qualified service personal.

Warning

Thank you for purchasing our MLCD monitor.

This manual describes how to use the product and notes in use.
Please read the manual carefully before using it.
After reading this manual, please retain for future reference.
If you have any questions or a problem occurs, please contact either the company you purchased this
product from or an authorized service center.

※Displaying static picture for an extended period of time may cause an burn-in effect.
※ Burn-in effect and the faults in brightness and picture elements caused by fixed images are not subject

to the warranty coverage.

If you fail to comply with the regulations for safety and proper use,
fire or injury may be caused.

Warning

Supplied Accessories

Optional Accessories

Notice to users

Class A digital device

It is a device designed for business purpose with a safety certificate for electromagnetic interference, which
user should be mindful of.

" Important Safety Instructions"

1) Read these instructions.

2) Keep these instructions.

3) Heed all warnings.

4) Follow all instructions.

5) Do not use this apparatus near water.

6) Clean only with dry cloth.

7) Do not block any ventilation openings. Install in accordance with the manufacturer’s instructions.

8) Do not install near any heat sources such as radiators, heat registers, stoves, or other apparatus
(including ampliers) that produce heat.

9) Do not defeat the safety purpose of the polarized or grounding-type plug. A polarized plug has
two blades with one wider than the other. A grounding type plug has two blades and a third
grounding prong. The wide blade or the third prong are provided for your safety. If the provided
plug does not t into your outlet, consult an electrician for replacement of the obsolete outlet.

10) Protect the power cord from being walked on or pinched particularly at plugs, convenience
receptacles, and the point where they exit from the apparatus.

11) Only use attachments/accessories specied by the manufacturer.

12) Use only with the cart, stand, tripod, bracket, or table specied by the
manufacturer, or sold with the apparatus. When a cart is used, use
caution when moving the cart/apparatus combination to avoid injury
from tip-over.

13) Unplug this apparatus during lightning storms or when unused for long periods of time.

14) Refer all servicing to qualied service personnel. Servicing is required when the apparatus has
been damaged in any way, such as power-supply cord or plug is damaged, liquid has been
spilled or objects have fallen into the apparatus, the apparatus has been exposed to rain or
moisture, does not operate normally, or has been dropped.
The symbol in gure 21 shall be shown adjacent to the text of item 12 above.

- 2 - - 3 -

ORION

Hybrid Video System

Contents

1. Safety Precautions ...................................................................................................................................................10

2. Guidance for Users .................................................................................................................................................12

2.1. LCD Panel ...................................................................................................................................................................... 12

2.2. Receiver Module ...........................................................................................................................................................13

2.3. Power Module ............................................................................................................................................................... 14

2.4. Image Processor Module .............................................................................................................................................15

3. How to Install ................................................................................................................................................................16

4. How to Connect Cables ......................................................................................................................................18

4.1. Single Image Processor Connection (for One 2X2 MLCD formation) ......................................................................18

4.2. Multi Image Processor Connection (for two or more 2X2 MLCD formation) ...........................................................20

5. Setting and operation of MSCS software ...............................................................................................22

5.1. MSCS Installation ...........................................................................................................................................................22

5.2. Start MSCS ....................................................................................................................................................................23

5.3. Control signal connections ......................................................................................................................................... 24

5.3.1. Setting of COM Port ...................................................................................................................................................24

5.3.2. Setting of LAN Port ..................................................................................................................................................25

5.4. "New design/Last design" setting ...............................................................................................................................30

5.5. Selecting the command transmission method ...........................................................................................................31

5.6. Image Processor Configuration ...................................................................................................................................32

5.7. Multi Screen Configuration ...........................................................................................................................................33

5.9. Power On/Off ................................................................................................................................................................. 37

5.8. Input Channel Change ................................................................................................................................................. 38

5.8.1. Play button .................................................................................................................................................................38

5.8.2. Mouse (left button use) .............................................................................................................................................39

5.8.3. Mouse Drag & Drop ..................................................................................................................................................40

5.10. Loop Out (Daisy-Chain Out) Channel Configuration .............................................................................................41

5.11. Slide Show ................................................................................................................................................................... 42

5.12. Picture Control ............................................................................................................................................................. 47

5.13. Timer Control ...............................................................................................................................................................48

5.14. Equalizer Control ......................................................................................................................................................... 49

5.15. Option Control ............................................................................................................................................................. 51

5.16. ORION Homepage log on and Version Information ................................................................................................52

6. MSCS Protocol ............................................................................................................................................................ 53

※Attachment : ASCII to HEX Conversion Table ...............................................................................................................74

7. Before calling for service .................................................................................................................................... 75

8. DVI Resolution .............................................................................................................................................................76

9. Specification .................................................................................................................................................................77

NOTICE

1. To disconnect the apparatus from the mains, the plug must be pulled out from the mains socket,
therefore the mains plug shall be readily operable

2. WARNING - To Reduce The Risk Of Fire Or Electric Shock, Do Not Expose This Appliance To
Rain Or Moisture.

3. Apparatus shall not be exposed to dripping or splashing and no objects lled with liquids, such
as vases, shall be placed on the apparatus.

4. Use only a properly grounded plug and receptacle

5. "Warning" CAUTION – These servicing instructions are for use by qualied service personnel only.
To reduce the risk of electric shock, do not perform any servicing other than that contained in the
operating instructions unless you are qualied to do so.

6. "Warning" CAUTION – These servicing instructions are for use by qualied service personnel only.
To reduce the risk of electric shock, do not perform any servicing other than that contained in the
operating instructions unless you are qualied to do so.

RISK OF ELECTRIC SHOCK

DO NOT OPEN

CAUTION

CAUTION : TO REDUCE THE RISK OF ELECTRIC SHOCK,

DO NOT REMOVE COVER (OR BACK).

NO USER-SERVICEABLE PARTS INSIDE.

REFER SERVICING TO QUALIFIED SERVICE PERSONNEL.

This symbol is intended to alert the user to the presence of uninsulated "dangerous
voltage" within the product's enclosure that may be of sufcient magnitude to
constitute a risk of electric shock to persons.

This symbol is intended to alert the user to the presence of important operating and
maintenance(servicing) instructions in the literature accompanying the appliance.

※

Cautions for consisting System

Caution for the other control program besides MLCD Control
Program (MSCS)

- If you want to use automatic power on/off function that make MLCD turned on/off by
connecting main power, allow at least 20 seconds of Stand-by time before MLCD is
turned on, when you make control program.

- If RS-232C communication signal or other image signal is applied to 9 or more sets
simultaneously, communicational error may occur. (Power on & Broadcast)

Environmental condition for installation

- Since MLCD panel is very sensitive for physical impact, installation requires
considerable caution.

- Minimum clearance(20cm) must be secured for smooth ventilation. (See page
5, 16~17)Installation must avoid air tight or near air tight places. Improper
ventilation causes malfunction and shortens product lifetime by rapid internal
temperature rise. If MLCD has to installed at the improper ventilation, additional
ventilation openings or fans must be provided to keep the internal temperature
between 0 ~ 35˚C.

- For ground of MLCD and application devices, it should be connected as frame
ground.

- Considering MLCD Max power consumption, check the main electric specication.

Consideration for easier service

- When you design the exterior design for MLCD system, consider easier disassembly
for possible service occasion in the future.

- The sliding Universal Unit of ORION is recommended for easier service.

- If service people can step into the backside of MLCD system, it can greatly reduce
time and effort for service.

- In case of higher locations, consider the installation location and exterior design for
easier service.

- 4 - - 5 -

ORION

Hybrid Video System

WARNING

WARNING

- When you install MLCD, make sure there is at least 20cm clearance for
effective ventilation and do not seal off MLCD sets.
If MLCD sets are installed at the locations of bad ventilation, the inner
temperature can be raised rapidly and it can cause frequent malfunctions and
rapid reduction of the product life.

※ Ventilation space in front of MLCD must be furnished for heat dispersion.If

the front space of MLCD has to be sealed, there must be consideration for
the heat dispersion in the rear side of MLCD.

※

Clearance for Ventilation

- 6 - - 7 -

ORION

Hybrid Video System

WARNING

WARNING

PANEL

PANEL

PANEL

PANEL

CUSHION

PANEL

WarningWarning

※

Handle with Caution.

- Shock/Impact on the set's sides will result in
internal circuit damages.

- The edge/bottom of the panel are fragile.
Use shock-absorbing pads or rugs for laying down
the product.

• Please do not stand LCD
alone. It may fall or slip off
and Panel can be broken
or damaged.

• If you need to stand LCD,
you must use handles on
the back and lean over
the LCD to avoid panel
touches ground or oor.

• Please do not lean over
the LCD. It may damage
the bottom part of the
LCD.

• If you need to lay down
LCD as face down
position, please use
shock-absorbing pads
under the LCD.

• Please do not lean over the
LCD toward the edge part.
It may damage the edge
part of the LCD.

• If you need to lay down
LCD as face up position,
please be cautious for falling
objects on the surface of
the LCD.

※

Please keep following instruction
for panel protection without
exception.

- This product can be damaged even with minor
impact for its nature.
Please keep following instruction to carry or
store the products.

- 8 - - 9 -

ORION

Hybrid Video System

WARNING

WARNING

※

How to carry MLCD

It always needs two persons to carry or install MLCD.
When you carry MLCD with up straight manner, please hold handles on the back and

bottom part of the panel together.
Please be careful not to touch the bottom part of the panel when you put down the

panel.

Please do not touch the panel with your hand.

When you carry MLCD with atbed manner, please hold handles on the back and
lower part of the back.

Please be careful not to touch the bottom part of the panel when you put down the
panel.

※

Application information

If static images are displayed on the screen for a long time, it causes burn-in
image.
Please keep the following instruction to optimize the lifetime and functions of the
product.

1. Operating condition

- Temperature: 20 ± 15˚C

- Humidity: 55 ± 20 %

- Display pattern: moving picture or regular switchover display

- Environmental condition : Well ventilated place is recommended.

- Power off and screen saver : Periodical power-off or screen saver is needed after long-term static
display.

※

Note : Moving picture or black pattern is strongly recommended for screen saver.

2. Operating methods to minimize burn-in image due to long-term static information
display

- Suitable operating time : under 20 hours a day.

- Periodical display contents change from static image to moving picture.

- Periodical background color and character (image) color change

DEPARTURE

ÅÆ

DEPARTURE

Flight No. Time Gate Flight No. Time Gate

UA 012 11:20 A02 UA 012 11:20 A02

KE 732 12:10 K17 KE 732 12:10 K17

AN 291 12:45 F11 AN 291 12:45 F11

- Change the images of little luminance difference between the background and characters, periodically.

DEPARTURE

Æ

DEPARTURE

Æ

DEPARTURE

Æ

DEPARTURE

Flight No. Time Gate Flight No. Time Gate Flight No. Time Gate Flight No. Time Gate

UA 012 11:20 A02 UA 012 11:20 A02 UA 012 11:20 A02 UA 012 11:20 A02

- It is not recommended to display the images of huge luminance difference between the background
and characters or the images of grey tone.

ARRIVAL

(X)

ARRIVAL

(X)

Flight No. Time Gate Delay Flight No. Time Embark Delay

AA 213 9:20 K11 On time AA 213 9:20 New York On time

OZ 621 11:25 G21 10 min. OZ 621 11:25 Seoul 10 min.

JA 032 12:05 A19 On time JA 032 12:05 Beijing On time

- Scroll the characters periodically.

DEPARTURE

Æ Æ

DEPARTURE

Flight No. Time Gate Flight No. Time Gate

UA 012 11:20 A02 UA 012 11:20 A02

KE 732 12:10 K17 KE 732 12:10 K17

AN 291 12:45 F11 AN 291 12:45 F11

(Whole Screen Scroll)

DEPARTURE

Flight No.

Time

Gate

UA 012

UA 012

11:20

A02

13:40

K17

UA 012

17:03

A02

- 10 - - 11 -

ORION

Hybrid Video System

1. Safety Precautions

• If it operates abnormally, stop using it
immediately.

• Please refer to a specialized
construction company for installing
stand or wall mount unit. Otherwise,
damage or injury may be caused.

• Avoid any action to damage the
power cord or power plug. It may
cause fire or electric shock.

• Do not alter (or disassemble) the
product. It may cause electric shock
since high voltage is flowing inside.

• Do not place any liquid-containing
container on it. If the inside is wet, it
may cause electric shock or fire.

• Do not touch the device when
lightning strikes.

• Do not pull out the power plug with
a wet hand. It may cause electric
shock.

• Do not install the product where it
may be exposed to direct sunlight
or near any heating device. It may
shorten the product's life span or
cause failure.

• Do not put any foreign material into
the product. It may cause a failure or
shorten the life span.

• Do not install in an unstable location
It may cause injury.

• Do not exceed ratings of AC outlet
or extension cords. It may cause
failure.

• Make sure the product is not covered
with any object. If the ventilation hole
is blocked, the inside temperature may
rise to cause overheating resulting in
fire.

• Do not poke the front screen with
sharp material. It may damage the
screen and may cause malfunction of
the product.

• Do not lean against the product or
keep it leaned. It may cause injury or
failure.

• Do not put it at any place with much
humidity, dust, oil, smoke or steam. It
may cause failure.

• If you do not want to use the product
for a long time, keep the power plug
unplugged to save electricity.

• The socket-outlet should be installed
near the equipment and be easily
accessible.

• Do not put any heavy object on it.
It may cause failure.

• Do not pull out or hang down the
connection cable. It may damage the
cord to cause fire or electric shock.

• Pull out the power plug by holding the
plug. Otherwise, it may damage the
power cord to cause fire or electric
shock.

• Do not ride or step on the product
It may cause breakage when fallen
down.

• When moving it, disconnect the
connecting cable. Otherwise, it may
damage the cable to cause fire or
electric shock.

• Install the product on safe and flat
surface.

• Do not put candles on the product. If
the liquid flows inside the product. It
may cause electric shock or fire.

• Do not touch product’s front surface
with hand. Otherwise, the image
quality can be lowered.

- 12 - - 13 -

ORION

Hybrid Video System

2. Guidance for Users

2.1. LCD Panel

2.2. Receiver Module

¡¡ Upper¡Deck¡

LVDS OUT

①.

LVDS OUT : Output port for transferring LVDS signal to LCD Panel

¡¡ Lower¡Deck

BLU1 BLU2 PWR VIDEO COMM ID

RECEIVER
MODULE

0

1

2

3

4

5

6

7

8

9

①.

BLU1 ~ BLU2 : Power supply and control signal input ports for the back light unit in LCD panel

②.

VIDEO : Image signal input port

③.

COMM : Control signal input port

④.

ID : ID configuration switch for Receiver Module

¡¡ Front

¡¡ Rear

Receiver Module

- 14 - - 15 -

ORION

Hybrid Video System

¡¡ Front¡

OUTPUT 1 OUTPUT 2 ID OUTPUT 3 OUTPUT 4

IMAGE PROCESSOR MODULE

IN : DVI 1
NO SIGNAL

IN : DVI 1
NO SIGNAL

IN : DVI 1
NO SIGNAL

IN : DVI 1
NO SIGNAL

0

1
2

3

4

5

6

7

8

9

①.

Output 1 ~ 4 : Indicates the operating status of each Image Processor.

- Firmware information

- Input port information for image signal

- Input image resolution

- On/Off information for image output port (If the window is off, the port is off.)

②.

ID : ID input switch for image Processor (For multi Image Processors)

¡¡ Rear¡

PWR

LAN

P-CON

232IN

232OUT COMM4 VIDEO4 COMM3 VIDEO3 COMM2 VIDEO2 COMM1 VIDEO1

DVI IN4 DVI IN3 DVI IN2 DVI IN1 LOOP IN LOOP OUT

①.

PWR : Power input port for Image Processor Module

②.

LAN : Ethernet signal input port

③.

P-CON : Power Module control port

④.

232IN : RS-232C signal input port

⑤.

232OUT : RS-232C signal output port (for Daisy Chain)

⑥.

DVI IN1 ~ 4 : DVI signal input ports

⑦.

LOOP IN : DVI signal input port for multi Image Processors

⑧.

LOOP OUT : DVI signal output port for multi Image Processors

⑨.

COMM1 ~ COMM4 : Receiver Module control signal output port

⑩.

VIDEO1 ~ VIDEO4 : Receiver Module image signal output port

2.4. Image Processor Module

¡¡ Front¡

PWR 1
PWR 2

PWR 3
PWR 4

PWR IP

PWR S

FAN1

AC

FAN2

POWER MODULE

①.

PWR 1 ~ PWR 4 : Indicator LEDs of the power output port for the Receiver Module 1 ~ 4

②.

PWR S : Indicator LED for the back-up power output port

③.

PWR IP : Indicator LED of the power output port for Image Processor Module

④.

FAN1 ~ FAN2 : Indicator LED for the fans in the front

⑤.

AC : Indicator LED for AC power input

¡¡ Rear

PWR 1PWR 2PWR 3PWR 4PWR IP P-CON

POWER

AC INPUT

OFF ON

①.

POWER : AC Power On/Off switch

②.

AC INPUT : AC Power input port

③.

PWR IP : Power output port for Image Processor Module

④.

PWR 4 : Power output port for Receiver Module 4

⑤.

PWR 3 : Power output port for Receiver Module 3

⑥.

PWR 2 : Power output port for Receiver Module 2

⑦.

PWR 1 : Power output port for Receiver Module 1

⑧.

P-CON : Control signal input port for Power Module

2.3. Power Module

- 16 - - 17 -

ORION

Hybrid Video System

Hanger

행거볼트

LCD

MAIN
FRAME

가이드핀

Hanger

행거볼트

LCD

MAIN
FRAME

WALL BRACKET

20cm

20cm

20cm

20cm

20cm

20cm20cm

3. How to Install

가이드핀

Install¡on¡a¡MAIN¡FRAME¡Stand

Please secure minimum clearance as shown in the picture for adequate ventilation and technical service.

MAIN¡FRAME¡Stand¡Unit¡(Option)

• The set can be installed as shown below.
(For further information, refer to the optional 'MAIN FRAME Installation and Setup Guide'.)

• Please do not install our product at following locations to protect the product
and prevent possible malfunction.

- Places of vibration or shock: LCD set may fall and damaged

- Next or near to Sprinkler sensors: The sensors may detect heat from a set and sprinkler can be activated.

- Around high voltage power lines: Noise from the power line may affect screen images

- Around heating apparatus: LCD set may be overheated and damaged.

MAIN¡FRAME¡Wall¡Mounting¡Unit¡(Option)

• The set can be installed on the wall as shown below.
(For further information, refer to the optional 'MAIN FRAME Installation and Setup Guide'.)

Mount¡on¡the¡MAIN¡FRAME¡wall

Please secure minimum clearance as shown in the picture for adequate ventilation and technical service.

• Please check the stability of wall.
If the wall is not strong enough, reinforce the wall before installation.

• Please connect all the cables to proper ports in a set before installation.

- 18 - - 19 -

ORION

Hybrid Video System

BLU1 BLU2 PWR VIDEO COMM ID

RECEIVER
MODULE

PWR 1PWR 2PWR 3PWR 4PWR IP P-CON

POWER

AC INPUT

OFF ON

PWR

LAN

P-CON

232IN

232OUT COMM4 VIDEO4 COMM3 VIDEO3 COMM2 VIDEO2 COMM1 VIDEO1

DVI IN4 DVI IN3 DVI IN2 DVI IN1 LOOP IN LOOP OUT

0

1

2

3

4

5

6

7

8

9

4. How to Connect Cables

• Do not connect/disconnect cables while MLCD or other external equipments are turned on.

• First turn off the power all the attached equipment and make connections.

4.1. Single Image Processor Connection (for One 2X2 MLCD formation)

• Connect the RS-232C IN port of the Image Processor to the Com port of the PC with RS-232C
cable.

• Use MSCS (Multi-Screen Control System) program to turn on or off the display and control the
screen.

• To control the display, the ID on the Image Processor and the ID in the MSCS must be identical.

• In case there is no Com port, it is necessary to use the converting gender from USB to
RS-232C. There can be some malfunctions based on the gender makers.

• The IDs for each Receiver Module must not be overlapped. It should be set from 1 to 4.

• The ID for Image Processor must be set as 1.

• The IDs for Image Processor and Receiver should be set after turning off the power.

PC

Receiver Module (Lower Deck)

Image Processor Module (Rear)

Power Module (Rear)

PC (MSCS) to control MLCD

RS-232C (Maximum 15m)

DVI connection
(Maximum 5m)

※

If you need longer connection, please use
DVI boosters or DVI fiber-optic cable.

※

Select only one cable
connection for the control signal
between RS-232C cable and
LAN cable.

※

Make sure there is at least 4.4cm (1U) clearance between Image Processor Module and Power Module.

HUB or Router (Wireless & Cable)

LAN Cable

(Direct Cable)

LAN Cable

(Cross Cable)

0

1

2

3

4

5

6

7

8

9

ID : 1

0

1

2

3

4

5

6

7

8

9

ID : 2

0

1

2

3

4

5

6

7

8

9

ID : 3

0

1

2

3

4

5

6

7

8

9

ID : 4

- 20 - - 21 -

ORION

Hybrid Video System

4.2. Multi Image Processor Connection (for two or more 2X2 MLCD formation)

• This instruction is for multi Image processor connection (More than 2 Image processors)

• Configure the ID in the front side of the Image Processor to connect more than 2 Image
processors.

• Configure the IDs for Image Processor and Receiver after turning off the power.

• RS-232 signal must be used for the control signal connection between Image Processors.

• Only the first Image Processor, which is connected to the LAN port, can be controlled via LAN.

BLU1 BLU2 PWR VIDEO COMM ID

RECEIVER
MODULE

POWER

OFF ON

PWR

LAN

P-CON

232IN

232OUT COMM4 VIDEO4 COMM3 VIDEO3 COMM2 VIDEO2 COMM1 VIDEO1

DVI IN4 DVI IN3 DVI IN2 DVI IN1 LOOP IN LOOP OUT

0

1

2

3

4

5

6

7

8

9

BLU1 BLU2 PWR VIDEO COMM ID

RECEIVER
MODULE

POWER

OFF ON

PWR

LAN

P-CON

232IN

232OUT COMM4 VIDEO4 COMM3 VIDEO3 COMM2 VIDEO2 COMM1 VIDEO1

DVI IN4 DVI IN3 DVI IN2 DVI IN1 LOOP IN LOOP OUT

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

0

1

2

3

4

5

6

7

8

9

PC

Receiver Module
(Lower Deck)

Receiver Module
(Lower Deck)

Image Processor Module (Rear) Image Processor Module (Rear)

Power Module (Rear) Power Module (Rear)

RS-232C (Maximum 15m)

DVI connection
(Maximum 5m)

※

If you need longer connection, please use
DVI boosters or DVI fiber-optic cable.

PC (MSCS) to control MLCD

HUB or Router (Wireless & Cable)

LAN Cable

(Direct Cable)

LAN Cable

(Cross Cable)

- 22 - - 23 -

ORION

Hybrid Video System

5. Setting and operation of MSCS software

5.1. MSCS Installation

• Insert the Installation CD.

• You can see following installation start screen.

• Select proper version for your product and start installation

• MSCS supports Windows® 2000, Windows® XP and Windows® Vista, Windows® 7™ only

MSCS Installation start screen.

Caution for using MSCS

1. Data for Picture control, Manual Tracking and so forth can be read by clicking the
right button of your mouse on the desired MLCD set from MSCS.
Please do not use above function together with the other functions.

2. When you off AC power, execute power off by MSCS first and disconnect AC power
to save your configuration.

Caution

※ MSCS Versions can be changed for function improvement without prior notice.

5.2. Start MSCS

• MSCS is an application program needed to control MLCD.

• When you execute MSCS (v X.X) for your product at the installation screen, it will create a new folder
at C:/Program File/MSCS (vX.X) and an icon on your computer screen.

• By double clicking the MSCS (v X.X) icon, the initial screen image of MSCS (v X.X) will be displayed as
shown in the picture.

Main Image of MSCS (Multi Screen Control system)

①

②

③

④

⑤

⑥

⑦

⑧ ⑨

①.

Menu Bar

②.

Image Processor, Add/Remove button

③.

Screen Configuration Window : Window for configuration and checking the operating
conditions.

④.

Tree View Window : Show the Image Processor System.

⑤.

DVI Loop Out Status and Configuration Window: Configure the input channel of
Loop Out in the Image Processor or display the operating status.

⑥.

Command Mode Window

⑦.

Power Mode Window : Turn On/Off the display

⑧.

Play : All the connected screens display 1:1 screen play from input channel.

⑨.

INFO : Display the input information of the selected screen.

- 24 - - 25 -

ORION

Hybrid Video System

5.3. Control signal connections

5.3.1. Setting of COM Port

• Com Port connects or disconnects the communication between PC and MLCD.

• Connect MLCD to PC Com Port via RS-232C cable.

• Go to MSCS Menu -> Communication and set Com Port. Click 'Connect' using mouse or press
'Ctrl+C' using keyboard.

• In order to disconnect communication, click 'Disconnect' using mouse or press 'Ctrl+D' using
keyboard.

When you use USB-to-RS-232C converters, you need to set Com Port again, because MSCS
uses one of Com Port no. 1 to 30.

※ Available Com Port on the PC is automatically recognized and displayed.

• Com Port Configuration

Baud Rate 115200bps(Fixed)

Data Bit 8Bits

Parity None

Stop Bit 1Bit

Flow Control None

5.3.2. Setting of LAN Port

1)¡In¡case¡of¡connecting¡to¡a¡LAN¡Hub

• This function is used to control the MLCD via LAN PORT.

• During the setting process, MLCD and control PC should be connected via RS-232C cable only. Do not
connect ethernet cable.

• After setting process, the control PC should be connected to one of MLCD sets with Ethernet cable only.
For the connection between the MLCD sets, they should be connected with RS-232C cables.

¡■ Network¡IP¡setting¡for¡MLCD

1) Execute the LAN Configurator from installation CD.

2) Select Com Port and select "OPEN".

3) Select ID of MLCD which you want to control.

4) Input the authorized IP address.

- 26 - - 27 -

ORION

Hybrid Video System

5) Click “SET TCP/IP Info.” to save the IP address..

6) Click "GET TCP/IP Info." to check if the IP address is saved correctly.

7) Close the LAN Configurator.

2)¡In¡case¡of¡connecting¡directly¡to¡user's¡computer

• Cross-LAN cable is required to connect.

¡■ Check¡the¡network¡informations

1) Execute the LAN Configurator from installation CD.

2) Select Com Port and select "OPEN".

3) Select ID of MLCD which you want to control.

- 28 - - 29 -

ORION

Hybrid Video System

4) Click "GET TCP/IP Info." and check the network informations.

5) Input the network information of the user’s PC to be identical with MLCD set.
However, the final digit of the IP address must be different.

3)¡Network¡IP¡setting¡for¡MSCS¡

1) Execute the MSCS.

2) Select "Menu->Communication -> Setup" or "Ctrl+U" to start setup.

3) Select "Socket" radio button.

4) Type in IP Address of MLCD.

5) Click "Ping Test" to check status of communication.

6) Close the Commnication setup window

●¡Menu¡Description¡

• Serial : Set the serial communication as a default communication.

• Com Port : Set the port of a PC to communicate with MLCD.

• Baud Rate : Fixed at 115200bps.

※ Caution: Users cannot change the Baud rate.

• Socket : Set the Ethernet LAN communication.

• Edit Box : Set the IP address.

• Port Number : Fixed as 9761.

※ Caution: Users cannot change the port number.

• Ping Test: Test the IP address.

• Connect : Connect the communication.

Communication Setup

- 30 - - 31 -

ORION

Hybrid Video System

5.4. "New design/Last design" setting

• You can see following pop-up window for "New design/Last design" when you click "Connect" or
press "Ctrl+C" using keyboard after select communication type.

New/Last Design Set

• Click "Open New Design" to prepare new configuration.

• Click "Open Last Design" to go to last design before closing.

• When the connection is successfully completed after setting Com Port, following Message dialog is
displayed. The dialog window will be disappeared in 1 second.

• When the connection is successfully completed after setting Lan Port, following Message dialog is
displayed. The dialog window will be disappeared in 1 second.

5.5. Selecting the command transmission method

• ONE LCD : Transmit Protocol Command to one MLCD.

• ALL LCD : Transmit the Protocol command sequentially to all connected MLCD sets.

• Broadcast : Transmit the Protocol command simultaneously to all connected MLCD sets.

- 32 - - 33 -

ORION

Hybrid Video System

5.6. Image Processor Conguration

1) Click ADD IMAGE Processor button according to the number of installed Image Processor.
The input channel of Image Processor Module will be displayed at the View window.

You can find out the number of the currently connected Image Processor Module and input
channel.(The number of controllable Image Processor is 9 and the maximum input channels are

45.)

The current Input channel of the Image Processor Module is displayed in the Tree View window.

5.7. Multi Screen Conguration

1) Screen Configuration Dialog will pop up, when you Click Image Processor ID Node in the Tree
View window.

2) Screen formations can be selected by Screen Configuration Dialog.

3) The number of LCD set in the horizontal direction and vertical direction can be increased or
decreased to make your selected screen formation. In case of 1X4 formation, the number of LCD
set can be selected 1 to 9 horizontally, and 1 to 3 vertically.

4) In case of 2X2 formation, the number of LCD set can be selected 1 to 7 both horizontally and vertically.

5) In case of 1X4 formation, the number of LCD set can be selected 1 to 3 horizontally, and 1 to 9
vertically.

- 34 - - 35 -

ORION

Hybrid Video System

6) Add Image Processor : Click Add Image Processor button, each time one set of Image
Processor Module is increased.

7) Then, the number of Image Processor Module and input channel will be displayed.

8) As you click Add Image Processor button again after one Image Processor Module is added,
additional Image Processor Module is created as shown in the picture below.

9) Select 2x2 LCD set formation in Screen Configuration Dialog and click +button to increase
the number 1 to 2, and click button, 4x2 LCD screen formation will be created at Screen
Configuration.

- 36 - - 37 -

ORION

Hybrid Video System

10) Remove All IMAGE Processor : If there are any changes in Image Processor Modules or you want
to re-configure Image Processor Module, initialize Tree View window with Remove All IMAGE Processor
button.

Unexpected momentary power cut may cause malfunction.
If you have the malfunction from power cut, unplug the power cord and plug
it again at least 1 minute later.

Caution

5.9. Power On/Off

1) Select Broadcast or ALL LCD for command transmission method and click POWER ON.
All connected devices will be turned on.

- 38 - - 39 -

ORION

Hybrid Video System

5.8. Input Channel Change

5.8.1. Play button

¡ e.g.) select DVI 2

1) Select the input channel source of your choice at the Input Channel in Tree View window.

2) The selected input source will be displayed at the all screens by clicking Play button.
Image Processor ID and the Input Channel will be displayed on the screen of MSCS.

5.8.2. Mouse (left button use)

¡ e.g.) select DVI 3

1) Select the input channel source of your choice at the Input Channel in Tree View window.

2) The selected input source will be displayed at the all screens by clicking the left button of the
mouse. Image Processor ID and the Input Channel will be displayed on the screen of MSCS.

- 40 - - 41 -

ORION

Hybrid Video System

5.8.3. Mouse Drag & Drop

• Select the input channel source of your choice at the Input Channel in Tree View window.

¡ e.g.) select DVI 2

1) Click the selected screen with the left button and drag.

2) The screen will be converted to DVI 2 as soon as you release the button.

5.10. Loop Out (Daisy-Chain Out) Channel Conguration

• Configure the channel for Loop Out (Daisy-Chain Out)

¡ e.g.) Selecting Loop Out Channel DVI 3 for Image Processor Module ID 1

• Read the configuration of De-Emphasis Read

Æ Æ Æ

1) Select the ID number of Image Processor Module to make Loop Out Channel.
Click + button and - button to increase or decrease the number.
The numbers for Image Processor ID are available from 1 to 9.

2) Select the DVI channel you want and Click Set button (DVI1, 2, 3, 4, Loop In Channel).

3) The information for Image Processor Module ID and Loop Out Channel will be displayed at the
Status widow.

4) The Loop Out Status for the connected Module can be checked by clicking the right button of
the mouse.

- 42 - - 43 -

ORION

Hybrid Video System

5.11. Slide Show

• Display the screens formats saved by users sequentially..

• Select Menu -> Control -> Slide Control or press 'Ctrl+S' keys in the keyboard to start slide show.

①

②

③

④

⑤

1) Create the screen format of your choice.

2) Set the operation time (10 seconds ~ 1 hour)

• "Operation Time"can be set from 10 seconds up to 1 hour.

• Save the screen format by clicking Add button.

①.

Slide Show Status Window : Display the Slide Show Configuration.

②.

Operation Time : Set the duration time for each screen format of the Slide Show.

③.

Configuration : Add or delete the screen format for the Slide Show.

④.

Play : - Repeat : Repeat the Slide Show.

- Start : Start the Slide Show.

- Stop : Stop the Slide Show.

⑤.

User Data Adj. : Save or load the Slide Show.

- 44 - - 45 -

ORION

Hybrid Video System

3) Configure various screen format in the same manner.

4) Click Start button after screen configuration. Screen formats are displayed according to the
configured time and sequence.

• The screen formats of Slide Show are displayed only for scheduled time.

5) To repeat the configured screen format, click Repeat button.

- 46 - - 47 -

ORION

Hybrid Video System

6) Click "Stop" button to end "Slide Control"

7) Save or Load the slide configuration.

• Click "SAVE" button to save user added Slide configuration as "*.ssd" file.

• Click "LOAD" button to open saved "*.ssd" file.

5.12. Picture Control

• Register values related to display of MLCD can be changed.

• To use Picture Control, go to MSCS Menu -> Control -> Picture Control or press "Ctrl+P" using
Keyboard.

• In order to control display values, input values directly in "Edit Box" and
press Enter key. Or click -/+ button using mouse.

• Click "Exit" button or press "Ctrl+X" using keyboard to close "Picture
Control" window.

• Color Temp : Change the color temperature of the screen.

-Normal : Initial setting. Proper for normal video image view.

-Studio : Low Color temperature. Proper for broadcasting purpose.

• Brightness : The range of "Brightness" you can adjust is 0 to 100.

• Contrast : The range of "Contrast" you can adjust is 0 to 100.

• Sharpness : The range of "Sharpness" you can adjust is 0 to 28.

• User Data : Users can adjust color impression with white screen

and save or load the adjusted value.

- Save : Save User’s data file (*.pdt)

- Load : Load User’s data file (*.pdt)

- 48 - - 49 -

ORION

Hybrid Video System

5.13. Timer Control

• Users can set the time for turn on or turn off.

• To use this function, click Menu -> Control-> Timer Control or use 'Ctrl +M' keys from the keyboard.

Timer Control Dialog

• How to set the time of power on or off.

a. Select Hour and Minutes of turn on or off
b. After setting Power On/Off time, click “Add” button to add it to Power On/Off List Box.

You can save up to 10 settings for Power On/Off. Also, you can delete the saved settings in the List

Box one by one with “Remove” button. If you delete all the settings, click “Remove All” button.
c. Select once for one time use and Daily for daily use, then click 'Start'
d. Power on or off signal will be transmitted to MLCD at the time of user set.

• Time Dialog must be activated to use Timer function.

5.14. Equalizer Control

• You can control the Equalizer for more stable image quality according to the length of the image signal
cable.

• Click Menu -> Control-> Equalizer Control or press "Ctrl + E" to use Equalizer Control Dialog

• Read the configuration of DVI Loop Out.

• Configure De-Emphasis.

• Read Equalization value.

• Configure the Equalizer

- 50 - - 51 -

ORION

Hybrid Video System

¡ Image De-Emphasis Control(IP Board in Image Processor Module) compensates output signal loss

and Image Receiver Equalization Control(Image Receiver Board) compensates input signal loss.

¡ The default value of Image De-Emphasis Control is 0 and its compensation value is 0dB.

If it is set as 1, the compensation value is -3dB, and 2 for -9dB.

Recommended Image Receiver Equalization Control Value

¡ For STP Cable

Format

(Data Rate)

0~10 m Over 10m

1080P

(1.65Gbps)

0 ~ 1 2 ~ 6

¡ For UTP Cable

Format

(Data Rate)

0~10 m Over 10m

1080P

(1.65Gbps)

0 ~ 1 2 ~ 5

5.15. Option Control

• There are various optional functions for convenient use.

• Click Menu -> Control-> Option Control or press "Ctrl+M" keys to use Option Control Dialog.

• Test Pattern : Display the embedded patterns on the screen.

- Pattern : 4 Patterns are embedded (Red, Green ,Blue, White, Test)

- Screen : Return to the input source

• Global Offset : The images on the seam area between the screens can
be displayed on the screen or omitted from the screen.
It can be selected to improve the continuity of the
images.

• DVI Over Scan : DVI Over Scan : Over Scan can be used for DTV reso

lution.

• Dimming Control : The brightness of LCD backlight can be adjusted.

The adjusted vales can be saved and re-loaded.

- 52 - - 53 -

ORION

Hybrid Video System

5.16. ORION Homepage log on and Version Information

• In order to move to Orion website, go to "Help" of menu bar ->"OrionDisplay HomePage".

ORION Homepage Log on

• Go to "Help" of menu bar -> "About" to check MSCS.

Checking MSCS Version

- PWR : Power Supply Board

- IP : Image Processor Board

- IC: Image Control Board

- IR : Image Receiver Board

1. Power On

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 0X40 0X01 Variable Variable Variable 0x03

- Send To MLCD

- CMD : 0x40

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.)
In case of 4 LCD sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 0X40 0X01 0x00 Variable 0x03

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 0X40 0X01 Variable Variable Variable 0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

2. Power Off

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 0X41 0X01 Variable Variable Variable 0x03

6. MSCS Protocol

- 54 - - 55 -

ORION

Hybrid Video System

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 0X42 0X02 Variable Variable 0x01 Variable 0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

4. Input Mode Change

- Convert the input mode without the scaling of LCD screen.

A. General Command

STX CMD LENGTH

Data

Check

sum

ETX

ID(1Byte)

Master XY X

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X04 Variable Variable 0x01 0x11 0x01 Variable 0x03

- Send To MLCD

- CMD : 0xDD(DVI 1), 0xDE(DVI 2), 0xDF(DVI 3), 0xE0(DVI 4), 0xE1(DVI Loop In)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check

sum

ETX

ID(1Byte)

XY S X

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X04 0x00 0x 11 0x00 0 x01 Variable 0x0 3

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable 0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

- Send To MLCD

- CMD : 0x41

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 0X41 0X01 0x00 Variable 0x03

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 0X41 0X01 Variable Variable Variable 0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

3. Information

- Display the information on the LCD screen.

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 0X42 0X02 Variable Variable 0x01 Variable 0 x03

- Send To MLCD

- CMD : 0x42

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 0x42 0X01 0x00 Variable 0x03

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- 56 - - 57 -

ORION

Hybrid Video System

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X01 0x00 Variable 0x03

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable 0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

7. White Balance Control

- Command to control Gain RGB and Offset RGB for White Balance

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master Control

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X03 Variable Variable 0x01 Variable Variable 0x03

- Send To MLCD

- CMD : 0xAC(Gain R), 0xAD(Gain G), 0xAE(Gain B), 0xB0(Offset R), 0xB1(Offset G), 0xB2(Offset B)

- Control Value : 0(0x00)~255(0xFF)

• The adjusted value can be applied while MLCD is operating with the input signal of the responding Mode.It cannot be applied during
stand-by phase or with no input signal.

• The adjusted value can be applied to all MLCD sets by conguring the ID value as “0x00.” However, it is hard to adjust white balance for
all MLCD set with the same value, because each MLCD set has its own characteristics. So, it is recommended to adjust white balance
one by one.

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable 0x03

5. Graphic User Mode Control

- Commands for Brightness, Sharpness, and Contrast

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master Control

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X03 Variable Variable 0x01 Variable Variable

0x03

- Send To MLCD

- CMD : Brightness(0x8A), Contrast(0x8B), Sharpness(0x8C)

- Control Value : Brightness(0~100), Contrast(0~100), Sharpness(0~28)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Control

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 0x00 Variable Variable

0x03

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable 0x01 Variable

0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

6. Color Temperature

- Normal mode is designed for general use and Studio mode for broadcasting purpose.

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable 0x03

- Send To MLCD

- CMD : Normal(0xB3), Studio(0xB4)

- 58 - - 59 -

ORION

Hybrid Video System

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 0x89 0X0 2 Variable 0x01 Variable 0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

10. Factory Data

- Apply the Picture Control values adjusted in the factory.

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable

0x03

- Send To MLCD

- CMD : 0x82(Save), 0x83(Load)

• The command can be executed only for Power On status.

• The present Color Temperature value is indicated based on the current mode (Normal Mode/ Studio Mode.)

• Use “Get Picture Control Data” after sending the command to check whether the Data was applied properly.

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Commands cannot be executed with Broadcast mode.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable

0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

8. Firmware Default(Flash Screen Data Load)

- Initialize the rmware as the phase before adjusting any values at the factory

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 0x81 0X02 Variable Variable 0x01 Variable 0x03

- Send To MLCD

- CMD : 0x81

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Commands cannot be executed with Broadcast mode.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 0x81 0X02 Variable Variable 0x01 Variable 0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

9. Gamma Control

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master Control

Image Processor

Module ID

IP ID

Value 0X02 0x89 0x03 Variable Variable 0x01 Variable Variable 0x03

- Send To MLCD

- CMD : 0x89

- Control Value : 1(0x01)~6(0x06)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Control

Image Processor

Module ID

IP ID

Value 0X02 0 x89 0X02 0x00 Variable Variable 0x03

- 60 - - 61 -

ORION

Hybrid Video System

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master Control

Image Processor

Module ID

IP ID

Value 0X02 0x88 0x0 C Variable Variable 0x01 ……….. Variable

0x03

- Control(10 Bytes)

No. Data Length Explanation

1 Brightness 1 byte Ran ge: 0(0x00)~100(0x64)

2 Contrast 1 byte Ran ge: 0(0x00)~100(0x64)

3 Sharpness 1 byte Range: 0(0x0 0)~28(0x1C)

4 White Balance-Gain R 1 byte Range: 0 (0x00)~255(0xFF)

5 White Balance - Gain G 1byte Range: 0 (0x00)~255(0xFF)

6 White Balance Ga in B 1byte R ange: 0(0x00)~255(0 xFF)

7 White Balance – O ffset R 1byte Range: 0(0x0 0)~255(0xFF)

8 White Balance – Of fset G 1byte Range: 0(0x00)~255 (0xFF)

9 White Balance – O ffset B 1byte Range: 0(0x0 0)~255(0xFF)

10 Gamma 1byte Range: 0(0x00)~6(0x0 6)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

13. Test Pattern

- The command for loading the embedded patterns on LCD screen.

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable

0x03

- Send To MLCD

- CMD : 0x57(Red), 0x58(Green), 0x59(Blue), 0x5A(White), 0x5C(Test), 0x5B(Screen)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X01 0x00 Variable

0x03

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

11. Dimming Control

- The command for controlling the backlight of LCD

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Control

Image Processor

Module ID

IP ID

Value 0X02 0xDC 0X02 Variable Variable Variable Variable

0x03

- Send To MLCD

- CMD : 0xDC

- Control Value : 0~100(0x00~0x64)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Control

Image Processor

Module ID

IP ID

Value 0X02 0xDC 0X02 0x00 Variable Variable

0x03

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Control

Image Processor

Module ID

IP ID

Value 0X02 0xDC 0X02 Variable Variable Variable Variable 0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

12. Get Picture Control Data

- The command for checking the current Picture Control Data of LCD

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 0x88 0X0 2 Variable Variable 0x01 Variable

0x03

- Send To MLCD

- CMD : 0x88

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Commands cannot be executed with Broadcast mode.

- 62 - - 63 -

ORION

Hybrid Video System

15. Global Offset

- The images on the seam area between the screens can be displayed on the screen or omitted from the screen.

It can be selected to improve the continuity of the images.

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable

0x03

- Send To MLCD

- CMD : 0x74(select), 0x73(deselect)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

Power

ID

Value 0X02 Variable 0X01 0x00 Variable

0x03

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable

0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

16. Factory Dimming Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X01 Variable Variable Variable

0x03

- Send To MLCD

- CMD : 0x6C(Save), 0x6B(Load)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Commands cannot be executed with Broadcast mode.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable

0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

14. DVI Over Scan ON / OFF

- The optional adjustment command for Over Scan while DTV input signal is detected at DVI port.

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable 0x03

- Send To MLCD

- CMD : 0xE4(ON), 0xE5(OFF)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X01 0x00 Variable

0x03

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable

0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

- 64 - - 65 -

ORION

Hybrid Video System

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IR ID

Value 0X02 0x87 0X01 Variable Variable Variable 0x03

- Send To MLCD

- CMD : 0x87

• ID Range (0x15~0x98): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IR Board(5~8) In case of 4 LCD
sets, IDs will be 0x15, 0x16, 0x17, and 0x18.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Commands cannot be executed with Broadcast mode.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Control

Image Processor

Module ID

IR ID

Value 0X02 0x87 0X13 Variable Variable …………. Variable

0x03

- Control (18 Bytes)

No Dat a Length Explanation

1 Dimming Status 1 Byte 0(0x00)~100(0x64)

2 Temperature 1 Byte

0(0x00):0 ˚C ~127 (0x 7F) :

127˚C / 128(0 x80):

-1˚C~254(0xFE):-127˚C

0xFF: Temp Sensor Error

3 Elapsed Time 6 By tes

54321 : 0x00 0x05 0 x04 0x03 0x02 0x01

10 : 0x00 0x00 0x00 0 x00 0x01 0x00

4 F/W Version 10 Byt es

Board Name : 3 byte s

Year : 2 bytes
Month : 2bytes

Day : 2bytes

Version Mode : (Re lease Or Test)

1 byte

Ex) Image Rece iver Board, Decembe r 29th, 2012 Release

->I/R(ASCII)

0x49 0x2F 0x52

0x01 0x02 0x01 0x02

0x02 0x09

R(ASCII) -> 0x52

• ID Range (0x15~0x98): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IR Board(5~8) In case of 4 LCD
sets, IDs will be 0x15, 0x16, 0x17, and 0x18.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Image Processor Board Status

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 0x87 0X02 Variable Variable 0x01 Variable

0x03

- Send To MLCD

- CMD : 0x87

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Control

Image Processor

Module ID

IP ID

Value 0X02 Variable 0x02 Variable Variable ……………………… Variable

0x03

- Control Value : 0(0x00)~100(0x64)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

17. Multi Scale

- The command for enlarging the screen of MLCD

A. General Command

STX CMD LENGTH

Data

Check

sum

ETXID

Master XY P

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X04 Variable Variable 0x01 Variable Variable Variable 0x03

- Send To MLCD

- CMD : 0xDD(DVI 1), 0xDE(DVI 2), 0xDF(DVI 3), 0xE0(DVI 4), 0xE1(DVI 5)

• XY : the number of horizontal axis (X), the number of vertical axis (Y)

Upper 4bits(X- Max :15), lower 4bits(Y - Max:15)

• P : the enlarged position

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master

Image Processor

Module ID

IP ID

Value 0X02 Variable 0X02 Variable Variable 0x01 Variable

0x03

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

18. Get Current Status

- The command for getting the current information on IP, IR, IC, and Power.

A. Image Receiver Board Status

- 66 - - 67 -

ORION

Hybrid Video System

- Control (27 Bytes)

No Data Length Explanation

1 Loop Out Channel 1 byte

Loop Out Chann els from Image Process or Module :

0x00(DVI Loop In),0x01(DVI1), 0x02(DVI2),0x03(DVI3),0x04(DVI4)

2 Fan Status 1 byte 0x00 : Error , 0x 01: Good

3 TBD 1 byte TBD

4 IP Board 1 Input Channel 1 byte 0x00(DVI Loop In),0x01(DVI1), 0x02(DVI2),0x03(DVI3),0x04(DVI4)

5 IP Board 2 Input Channel 1 byte 0x00(DVI Loop In),0x01(DVI1), 0x02(DVI2),0x03(DVI3),0x04(DVI4)

6 IP Board 3 Input Channel 1 byte 0x00(DVI Loop In),0x01(DVI1), 0x02(DVI2),0x03(DVI3),0x04(DVI4)

7 IP Board 4 Input Channel 1 byte 0x00(DVI Loop In),0x01(DVI1), 0x02(DVI2),0x03(DVI3),0x04(DVI4)

8 F/W Version 10 bytes

Board Name:3by tes, Year : 2bytes, Month : 2bytes , Day : 2bytes

Version Mode( Release or Test) : 1byte

Ex)Image Control Board, December 29th, 2012 Release

I/C(ASCII) 0x49 0x 2F 0x43 0x01 0x02 0x01 0x02 0x0 2 0x09

R(ASCII) 0x52

9 F/W Version 10 bytes

Board Name:3by tes, Year : 2bytes, Month : 2bytes , Day : 2bytes

Version Mode( Release or Test) : 1byte

Ex)Matrix Swi tcher Board, Decemb er 29th, 2012 Release

MTX(ASCII) 0x4D 0x54 0x58 0x01 0x02 0x01 0x02 0x02 0x09

R(ASCII) 0x52

• ID Range (0x10~0x90): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IC Board(xed as 0.) In case of
36 LCD sets or 9 Image Processor Module Sets, IDs will be 0x10, 0x20, 0x30, 0x40, 0x50, 0x60, 0x70, 0x80,and 0x90.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

D. Power Board Status

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

Power ID

Value 0X02 Variable 0X01 Variable 0x09 Variable 0x03

- Send To MLCD

- CMD : 0x87

• ID Range (0x19~0x99): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of Power Board(xed as 9.) In
case of 4 LCD sets, current status information of 4 sets can be obtained by sending command with the ID of 0x19.

• IDs will be 0x19 for 4 sets, 0x29 for 8 sets, 0x39 for 12 sets,….and 0x99 for 36sets..

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Control

Image Processor

Module ID

Power ID

Value 0X02 0x87 0X13 Variable 0x09 …………. Variable

0x03

- Control(18 Bytes)

No Data Length Explanation

1 Power Board 1 Statu s 1 byte 0:Power Off(Stand-by), 1:PowerOn( Working)

2 Power Board 2 Statu s 1 byte 0:Power Off(Stand-by), 1:PowerOn( Working)

3 Power Board 3 Statu s 1 byte 0:Power Off(Stand-by), 1:PowerOn( Working)

4 Power Board 4 Statu s 1 byte 0:Power Off(Stand-by), 1:PowerOn( Working)

5 Redundant Power Status 1 byte

It is all time Power Of f. It will be turned on, if ther e is any abnormal

situation for Powe r 1, 2, 3, and 4

0:PowerOff(St and-by), 1:PowerOn(Working)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Commands cannot be executed with Broadcast mode.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Master Control

Image Processor

Module ID

IP ID

Value 0X02 0x87 0x10 Variable Variable 0x01 ……….. Variable

0x03

- Control(14 Bytes)

No Data Length Explanation

1 Input Channel 1 Byte 0x01: DVI 1, 0x02: DVI 2, 0x03: DVI 3 , 0x04: DVI 4, 0x05: DVI Loop In

2 Resolution 1 Byte The Value of Disp lay Resolution at the time o f detection

3 Global Offset 1 Byte 0: Global Off set Off, 1: Global Offse t On

4 Color Temperature 1 Byte 0: Normal Mode, 1: Stud io Mode

5 F/W Version 10 Byte s

Board Name:3by tes, Year : 2bytes, Month : 2bytes , Day : 2bytes

Version Mode( Release or Test) : 1byte

Ex)Image Proc essor Board, Dece mber 29th, 2012 Release

I/P(ASCII) 0x49 0 x2F 0x50 0x01 0x02 0x01 0x02 0x 02 0x09

R(ASCII) -> 0x52

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

C. Image Control Board Status

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IC ID

Value 0X02 Variable 0X01 Variable 0x00 Variable 0x03

- Send To MLCD

- CMD : 0x87

• ID Range (0x10~0x90): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IC Board(xed as 0.) In case of
36 LCD sets or 9 Image Processor Module Sets, IDs will be 0x10, 0x20, 0x30, 0x40, 0x50, 0x60, 0x70, 0x80,and 0x90.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Command cannot be executed with Broadcast mode.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Control

Image Processor

Module ID

IC ID

Value 0X02 0x87 0X1C Variable 0x00 …………. Variable 0x03

- 68 - - 69 -

ORION

Hybrid Video System

20. DE-Emphasis Control

- The command for compensating output signal loss according to the cable length

- CMD : 0x51

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Equalizer

Control

DE-

Emphasis

Control

Image Processor

Module ID

IP ID

Value 0X02 0x51 0x03 Variable Variable 0x00

Vari-

able

Variable

0x03

- Send To MLCD

- DE-Emphasis Control Value : 0(0x00),1(0x01),2(0x02),3(0x03)

Inputs Result

DE-Emphasis VO De-Emphasis Level in mVp-p(VODE w/VOD_CRL=24kΩ VO De-Emphasis in Db

0 1000(Default) 0(Default)

1 710 -3

2 500 -6

3 355 -9

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Equalizer

Control

DE-

Emphasis

Control

Image Processor

Module ID

IP ID

Value 0X02 0x51 0x03 0x00 0x00 Variable Variable

0x03

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Equalizer

Control

DE-

Emphasis

Control

Image Processor

Module ID

IP ID

Value 0X02 0x51 0x03 Variable Variable 0x00 Variable Variable

0x03

- DE-Emphasis Control Value : 0(0x00),1(0x01),2(0x02),3(0x03)

Inputs Result

DE-Emphasis VO De-Emphasis Level in mVp-p(VODE w/VOD_CRL=24kΩ VO De-Emphasis in Db

0 1000(D efault) 0(Default)

1 710 -3

2 500 -6

3 355 -9

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

No Data Length Explanation

6 TBD 1 byte TBD

7 Fan 1 Status 1 byte 0x31 : Good, 0x30 : Erro r

8 Fan 2 Status 1 byte 0x31 : Good, 0x30 : Erro r

9 F/W Version 10 bytes

Board Name:3by tes, Year : 2bytes, Month : 2bytes , Day : 2bytes

Version Mode( Release or Test) : 1byte

Ex)Power Board, D ecember 29th, 2012 Release

PWR(ASCII) 0x50 0x57 0x52 0x01 0x02 0x01 0x02 0x02 0x09

R(ASCII) 0x52

• ID Range (0x19~0x99): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of Power Board(xed as 9.) In
case of 4 LCD sets, current status information of 4 sets can be obtained by sending command with the ID of 0x19.

• IDs will be 0x19 for 4 sets, 0x29 for 8 sets, 0x39 for 12 sets,….and 0x99 for 36sets..

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

19. DVI Loop Out Channel Change

- If there are 2 or more than Image Processor Module Sets, user can select a channel for Loop out (Daisy-Chain

Out.)

- CMD : 0x50

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Loop

OutChannel

Image Processor

Module ID

IC ID

Value 0X02 0x50 0X02 Variable 0x00 Variable Variable

0x03

- Send To MLCD

- Loop Out Channel Value : DVI 1(0x01), DVI 2(0x02), DVI 3(0x03), DVI 4(0x04),

- DVI Loop In(0x00)

• ID Range (0x10~0x90): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IC Board(xed as 0.) In case of
36 LCD sets or 9 Image Processor Module Sets, IDs will be 0x10, 0x20, 0x30, 0x40, 0x50, 0x60, 0x70, 0x80,and 0x90.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Loop

OutChannel

Image Processor

Module ID

IC ID

Value 0X02 0x50 0X02 0x00 Variable Variable

0x03

- Send To MLCD

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Loop

OutChannel

Image Processor

Module ID

IC ID

Value 0X02 0x50 0X02 Variable 0x00 Variable Variable

0x03

- Loop Out Channel Value : DVI 1(0x01), DVI 2(0x02), DVI 3(0x03), DVI 4(0x04),

- DVI Loop In(0x00)

• ID Range (0x10~0x90): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IC Board(xed as 0.) In case of
36 LCD sets or 9 Image Processor Module Sets, IDs will be 0x10, 0x20, 0x30, 0x40, 0x50, 0x60, 0x70, 0x80,and 0x90.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

- 70 - - 71 -

ORION

Hybrid Video System

22. Equalizer Control

- The command for compensating the input signal loss from the cable length.

- CMD : 0x51

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Equalizer

Control

DE-

Emphasis

Control

Image Processor

Module ID

IR ID

Value 0X02 0x51 0x03 Variable Variable Variable 0x00 Variable

0x03

- Send To MLCD

• Equalizer Control Value : 0(0x00),1(0x01),2(0x02),3(0x03),4(0x04),5(0x05),6(0x06),7(0x07)

• Recommendation for STP Cable

Format (Data Rate) 0~10m Cable Over 10m Cable

1080 P (1.65G bps) 0~1 2~6

• Recommendation for UTP Cable

Format (Data Rate) 0~10m Cable Over 10m Cable

1080 P (1.65G bps) 0~1 2~5

• ID Range (0x15~0x98): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IR Board(5~8.) In case of 4 LCD
sets, IDs will be 0x15, 0x16, 0x17, and 0x18.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

B. Broadcast Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Equalizer

Control

DE-

Emphasis

Control

Image Processor

Module ID

IR ID

Value 0X02 0x51 0x03 0x00 Variable 0x00 Variable 0x03

• Send the same command for all MLCD. No response will be made.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Equalizer

Control

DE-

Emphasis

Control

Image Processor

Module ID

IR ID

Value 0X02 0x51 0x03 Variable Variable Variable 0x00 Variable

0x03

• Equalizer Control Value : 0(0x00),1(0x01),2(0x02),3(0x03),4(0x04),5(0x05),6(0x06),7(0x07)

• ID Range (0x15~0x98): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IR Board(5~8.) In case of 4 LCD
sets, IDs will be 0x15, 0x16, 0x17, and 0x18.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

21. DE-Emphasis Get Current Status

- The command for collecting the current conguration information of DE-Emphasis for compensating the output

signal loss based on the cable length.

- CMD : 0x52

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IP ID

Value 0X02 0x52 0X01 Variable 0x00 Variable 0x03

- Send To MLCD

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Command cannot be executed with Broadcast mode.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Equalizer

Current

Status

DE-

Emphasis

Current

Status

Image Processor

Module ID

IP ID

Value 0X02 0x52 0x03 Variable Variable 0x00 Variable Variable

0x03

- DE-Emphasis Current Status Value : 0(0x00),1(0x01),2(0x02),3(0x03)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

- 72 - - 73 -

ORION

Hybrid Video System

No. Data Length Explanation

5 White Balance-Gain R 1 byte Range: 0(0x0 0)~255(0xFF)

6 Wh ite Balance- Gain G 1byte Range: 0(0x00)~255 (0xFF)

7 White Balanc e – Gain B 1byte Range: 0(0x00)~255(0 xFF)

8 White Balance – Off set R 1byte Range: 0(0x00 )~255(0xFF)

9 White Balance – Offs et G 1byte Range: 0(0x00)~255(0 xFF)

10 Whi te Balance – Offset B 1byte Ra nge: 0(0x00)~255(0x FF)

11 Gamma 1byte Range: 0(0x00)~6(0x06)

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Picture

Control

Image Processor

Module ID

IP ID

value 0X02 0x84 0x0C Variable Variable ………. . Variable 0x03

- Control(11 Bytes)

No. Data Length Explanation

1 Color Temperature Mode 1 byte Normal : 0x00, Studio : 0x01

2 Brightness 1 byte Range: 0(0x0 0)~100(0x64)

3 Contrast 1 by te Range:0(0x00 )~100(0x64)

4 Sharpness 1 byte Range:0(0x0 0)~28(0x1C)

5 White Balance-Gain R 1 byte Rang e:0(0x00)~255(0xFF )

6 Wh ite Balance- Gain G 1byte Range:0 (0x00)~255(0xFF)

7 White Balanc e – Gain B 1byte Range:0(0 x00)~255(0xFF)

8 White Balance – Off set R 1byte Range: 0(0x00)~255(0xFF )

9 White Balance – Offs et G 1byte Range:0(0 x00)~255(0xFF)

10 Whi te Balance – Offset B 1byte Range:0(0x00)~255(0 xFF)

11 Gamma 1byte Range:0(0x0 0)~6(0x06)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

25. Picture Control Data Load to IP

- The command for loading Picture Control Data; Brightness, Contrast, Sharpness, White Balance Data and

Gamma Data

- Send To MLCD

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Color Temperature

Mode

Image Processor

Module ID

IP ID

value 0X0 2 0x85 0x02 Variable Variable Variable Variable 0x03

- CMD : 0x85

- Color Temperature Mode : Normal(0x00), Studio(0x01)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

23. Equalizer Get Current Status

- The command for collecting information of the current Equalizer conguration.

Equalizer is adjusted to compensate the input signal loss according to the cable length.

- CMD : 0x52

A. General Command

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Image Processor

Module ID

IR ID

Value 0X02 0x52 0X01 Variable Variable Variable 0x0 3

- Send To MLCD

• ID Range (0x15~0x98): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IR Board(5~8.) In case of 4 LCD
sets, IDs will be 0x15, 0x16, 0x17, and 0x18.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Command cannot be executed with Broadcast mode.

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Equalizer

Current

Status

DE-

Emphasis

Current

Status

Image Processor

Module ID

IR ID

Value 0X02 0x52 0x03 Variable Variable Variable 0x0 0 Variable

0x03

- Equalizer Current Status Value: 0(0x00),1(0x01),2(0x02),3(0x03),4(0x04),5(0x05),6(0x06),7(0x07)

• ID Range (0x15~0x98): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IR Board(5~8.) In case of 4 LCD
sets, IDs will be 0x15, 0x16, 0x17, and 0x18.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

24. Picture Control Data Save in IR

- The command for saving Picture Control Data in IR ; Brightness, Contrast, Sharpness, White Balance Data and

Gamma Data

- Send To MLCD

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Picture

Control

Image Processor

Module ID

IP ID

value 0X02 0x84 0x0C Variable Variable ……….. Variable 0x03

- CMD : 0x84

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

• Command cannot be executed with Broadcast mode.

- Control

No. Data Length Explanation

1 Color Temperature Mode 1 byte Normal : 0x00, Studio : 0x01

2 Brightness 1 byte Range: 0(0x0 0)~100(0x64)

3 Contrast 1 by te Ran ge: 0(0x00)~100(0x64)

4 Sharpness 1 byte Range:0(0x0 0)~28(0x1C)

- 74 - - 75 -

ORION

Hybrid Video System

- Receive Data

STX CMD LENGTH

Data

Check sum ETX

ID(1Byte)

Picture Control

Image Processor

Module ID

IP ID

value 0X0 2 0x85 0x0C Variable Variable ……….. Variable 0x03

- Control(11 Bytes)

No. Data Length Explanation

1 Color Temperature Mode 1 byte Normal : 0x00, Studio : 0x01

2 Brightness 1 byte Range: 0(0x0 0)~100(0x64)

3 Contrast 1 by te Range:0(0x00 )~100(0x64)

4 Sharpness 1 byte Range:0(0x0 0)~28(0x1C)

5 White Balance-Gain R 1 byte Rang e:0(0x00)~255(0xFF )

6 Wh ite Balance- Gain G 1byte Range:0 (0x00)~255(0xFF)

7 White Balanc e – Gain B 1byte Range:0(0 x00)~255(0xFF)

8 White Balance – Off set R 1byte Range: 0(0x00)~255(0xFF )

9 White Balance – Offs et G 1byte Range:0(0 x00)~255(0xFF)

10 Whi te Balance – Offset B 1byte Range:0(0x00)~255(0 xFF)

11 Gamma 1byte Range:0(0x0 0)~6(0x06)

• ID Range (0x11~0x94): Upper Byte is Image Processor Module Set ID(1~9) and Lower Byte is the ID of IP Board(1~4.) In case of 4 LCD
sets, IDs will be 0x11, 0x12, 0x13, and 0x14.

• Check Sum : Add values from STX to Data and execute logical operation “NOT.”

STX

ETX0203

※

Attachment : ASCII to HEX Conversion Table

7. Before calling for service

• Before calling for any repair, check the following and then refer to a near A/S center.

▶"Tick" sound from the main body.

• If there is no problem with the screen or sound, the "tick"
sound is likely to result from the cabinet lightly shrinking
with the change of room temperature. The sound does not
affect product’s performance.

▶ No image at upper and lower part of the

screen.

• As for a screen which is over 16:9 in width (such as
cinema-sized one), no image may be displayed at upper
and bottom part of the screen.

▶Speckles or white lines on the screen.

• Check whether the problem is caused by vehicle, streetcar,
high-voltage cable or neon sign, which emitting interference
wave or electromagnetic induction. Avoid any interfering
object.

▶ Light leakage can be found at the edge areas

around the screen.

• If the light leakage is not detected at 1m from the screen, the
panel is considered as no defect.(SAMSUNG LCD applies the
same inspection standard)

• To minimize the light leakage, the MLCD sets should be installed
with high accuracy in horizontal and vertical position.

- 76 - - 77 -

ORION

Hybrid Video System

8. DVI Resolution

Resolution

V-Freq

(Hz)

H-Freq

(KHz)

Pixel
Clock
(MHz)

Horizontal (Pixels) Vertical (Lines)

Pol.

(H/V)

Standard

Type

Total

Addr.
Width

Sync.
Width

Back

Porch

Total

Addr.

Width

Sync.
Width

Back
Porch

640*480*60

60 31.469 25.175 800 640 96 40 525 480 2 25 -/- DMT

800*600*50

50 30.998 30.750 992 800 72 96 621 600 4 14 +/+ CVT

800*600*60

60 37.879 40.000 1056 800 128 88 628 600 4 23 +/+ DMT

1024*768*60

60 48.363 65.000 1344 1024 136 160 806 768 6 29 -/+ DMT

1280*768*60

60 47.776 79.500 1664 1280 128 192 798 768 7 20 -/+ CVT

1280*960*60

60 60.000 108.000 1800 1280 112 312 1000 960 3 36 +/+ CVT

1280*1024*50

50 52.679 88.500 1680 1280 128 200 1057 1024 7 23 +/+ CVT

1280*1024*60

60 63.981 108.000 1688 1280 112 248 1066 1024 3 38 +/+ DMT

1360*768*50

50 39.564 69.000 1744 1360 136 192 793 768 5 17 +/+ CVT

1360*768*60

60 47.712 85.5000 1792 1360 112 256 795 768 6 18 +/+ DMT

1366*768*60

60 50.000 80.000 1600 1366 128 64 838 768 5 22 -/+ ORION(46")

1400*1050*60

60 65.317 121.750 1864 1400 144 232 1089 1050 4 32 -/+ CVT

1600*900*50

50 46.394 96.500 2080 1600 160 240 929 900 5 21 -/+ CVT

1600*900*60

60 55.990 118.250 2112 1600 168 256 934 900 5 26 -/+ CVT

1600*1200*50

50 61.795 131.500 2128 1600 168 264 1238 1200 4 31 +/+ CVT

1600*1200*60

60 75.000 162.000 2160 1600 192 304 1250 1200 3 46 +/+ DMT

480p

60 31.469 27.000 858 720 62 62 525 480 6 30 +/+ EDTV

576p

50 31.250 27.000 864 720 64 68 625 576 5 39 +/+ EDTV

720p50

50 37.500 74.250 1980 1280 80 220 750 720 5 20 +/+ HDTV

750p60

60 45.000 74.250 1650 1280 80 220 750 720 5 20 +/+ HDTV

1080i50

50 28.125 74.250 2640 1920 88 148 1125 1080 10 30 +/+ HDTV

1080i60

60 33.750 74.250 2200 1920 88 148 1120 1080 10 25 +/+ HDTV

1080p50

50 56.250 148.500 2640 1920 88 148 1125 1080 5 36 -/- HDTV

1080p60

60 67.500 148.500 2200 1920 88 148 1125 1080 5 36 -/- HDTV

9. Specication

MODEL NAME OLW-4651 OLW-5550 OLWU-5520 OLWU-5550

LCD PANEL

Diagonal 46" 55" 55" 55"

Resolution 1920 x 1080

Brightness 700cd/m² 500cd/m² 700cd/m²

Contrast Ratio 3,500:1 1,400:1

Power Consumption 150W 350W 230W 270W

Backlight Type LED

Acoustic Noise Fanless Operation

IMAGE
PROCESSOR
MODULE

(Embedded Matrix
Switcher)

Type 1 Module drives up to 4 LCD Panels

Maximum Image Scaling Up to 9 x 4 (36 Sets) (Connecting up to 9 Image Processor Modules)

Video Input DVI 4 ea (With HDCP), Loop In 1ea

Video Output RJ45 4 ea (To Receiver), Loop Out 1ea

Control

RS-232 1 IN/1 OUT

Ethernet(RJ45) 1 IN

LCD Panel Control (RJ45) 4 OUT

Power Module Control (RJ45) 1OUT

Maximum Distance From LCD 30m (150m with Extender)

ETC Status Display (LED, C-LCD) Rotary Switch

Power DC24V / 5A

Case 19” Rack 1U

RECEIVER
MODULE

Video Input RJ45 (From Image Processor Module)

Power DC 24V / 10.5A (From Power Supplay)

POWER SUPPLY
MODULE

Type 1 Module drives up to 4 LCD Panels

AC Input AC 100 ~ 240V, 50/60Hz

DC Output

DC24V / 5A 1 OUT(For Image Processor Module)

DC24V / 10.5A 4 OUT(For Reveiver Module)

Control Power Module Control (RJ45) 1Input

Maximum Distance from LCD 30m

Status Display LED

Case 19” Rack 2U

※Product design and specification can be changed for quality improvement without prior notice.

- 78 - - 79 -

ORION

Hybrid Video System

Image Processor Module Power Module

Weights 5.5Kg ± 0.2 Weights 11.2Kg ± 0.2

※Product design and specification can be changed for quality improvement without prior notice.

OLW-4651 / OLW-5550

Weights 22Kg(±0.5Kg)

OLWU-5520 / OLWU-5550

Weights 22Kg(±0.5Kg)

※Product design and specification can be changed for quality improvement without prior notice.

443.4mm(±0.2)

PWR 1
PWR 2
PWR 3
PWR 4

PWR IP

S

R

W

P

FAN1

AC

FAN2

88mm(±0.2)

460mm(±0.2)

88mm(±0.2)

PWR 1
PWR 2

PWR 3
PWR 4

PWR IP

PWR S

FAN1

AC

FAN2

POWER MODULE

PWR 1

PWR 2PWR 3PWR 4PWR IP P-CON

POWER

AC INPUT

OFF ON

443.4mm(±0.2)

460mm(±0.2)

44mm(±0.2)

44mm(±0.2)

OUTPUT 1 OUTPUT 2

ID OUTPUT 3 OUTPUT 4

IMAGE PROCESSOR MODULE

IN : DVI 1
NO SIGNAL

IN : DVI 1
NO SIGNAL

IN : DVI 1
NO SIGNAL

IN : DVI 1
NO SIGNAL

0

1

2

3

4

5

6

7

8

9

PWR

LAN

P-CON

232IN

232OUT COMM4

VIDEO4 COMM3 VIDEO3

COMM2

VIDEO2

COMM1

VIDEO1

DVI IN4 DVI IN3

DVI IN2 DVI IN1 LOOP IN LOOP OUT

1.023.98mm / 1,215.63mm(±1.0)

80.1mm(±1.0)
600mm(±1.0)

578.57mm/

686.43mm
(±1.0)

400mm
(±1.0)

1,213.4mm(±1.0)

100.5mm(±1.0)
600mm(±1.0)

684.2mm
(±1.0)

400mm
(±1.0)

- 80 -

ORION

MEMO