Orion Pdp Mis 4230 Users Manual
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Video Zoom Data ƒ
Video ZoomASCIIValue
HEXHigh ValueLow Value
Value(0~9): - 0(0x30, 0x30), 1(0x30, 0x31), 2(0x30, 0x32), 3(0x30, 0x33), 4(0x30, 0x34), 5(0x30, 0x35), 6(0x30, 0x36), 7(0x30, 0x37), 8(0x30, 0x38), 9(0x30, 0x39)
Factory Data Save & User File Load ƒ
Send : 62byteFactory Data Save& User File Load
HEX
Data[0] ~ Data[9] : User Mode
Data[10] ~ Data[21] : White Balance
Data[22] ~ Data[33] : Graphic PC
Data[34] ~ Data[45] :...](http://img.usermanuals.tech/thumb/3633/54162/w64_orion_pdp_mis-4230-user-s-manual-25.png "Page 26
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Video Zoom Data ƒ
Video ZoomASCIIValue
HEXHigh ValueLow Value
Value(0~9): - 0(0x30, 0x30), 1(0x30, 0x31), 2(0x30, 0x32), 3(0x30, 0x33), 4(0x30, 0x34), 5(0x30, 0x35), 6(0x30, 0x36), 7(0x30, 0x37), 8(0x30, 0x38), 9(0x30, 0x39)
Factory Data Save & User File Load ƒ
Send : 62byteFactory Data Save& User File Load
HEX
Data[0] ~ Data[9] : User Mode
Data[10] ~ Data[21] : White Balance
Data[22] ~ Data[33] : Graphic PC
Data[34] ~ Data[45] :...")
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5.13. BiC Control (MiS-4230 Only)
You can control BIC functions related with burn-in compensation. y
Please select "Menu → Control → BIC Control" or "Ctrl+B" to start BIC control. y
Select one of BIC mode, BYPASS mode, REGENERAION mode and ANTI IMAGE STICKING mode and y
click “EXE” to control Burn-in compensation function.
1.BICOn/Off
BiC Mode:1)
Activate BIC function to reduce burn-in effect. (BIC function On)
BYPaSS Mode:2)
Deactivate BIC function, but BIC board keeps recording burn-in history.(BIC function Off)
2.Additionalcompensation
rEgEnEra TiOn Mode:1)
Compensate burn-in effect by displaying a reversal image of the current burn-in image.
anTi iMagE S TiCking 2) Mode :
In case you find serious Burn-in effect in a certain area, select "Anti Image Sticking Mode,"
White Stripe pattern scans whole screen to make uniform screen condition to eliminate unequally
burned pixels.
BIC Control
“BICControl”functionisMIS-4230
ThisfunctiondoesnotsupportMIS-4220&MIS-4220R.
White bar pattern in the screen moves horizontally.
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Burn-in-Compensation Control Method
User can select a color (Red, Green or Blue) for compensation from Deterioration Menu in the BIC 1.
Control menu.
When you find disturbing Burn-in effect on your screen, please select a proper value from Data 1, 2.
Data 2, Data 3 and Data 4 in the phosphor change option and execute. (It takes 1 ~2 seconds)
Please select Data 1 when Burn-in pattern is brighter than surrounding screen area and select Data 4
for darker Burn-in pattern than surrounding screen area
If the selected value does not cause enough compensation result, repeat above process up to 4 3.
times, and select the most satisfactory value and fix the value.
If the compensation result is still not good enough, you can fine tune Red, Green and Blue colors one 4.
by one in Deterioration Menu
Please control Green, Blue and Red sequentially. 5.
Initial value is set as 100% and it can be controlled within the range of 70% ~ 130%.
In case of Burn-in pattern is brighter than surrounding area, select lower value (under 100%) and 6.
higher value (over 100%) for darker Burn-in pattern.
(Please find optimal value through changing the value by 10 %)
Sequentially control Red, Green, and Blue, examine the result with white pattern and repeat the 7.
process.
If you do not have satisfactory result after repeating above process, please change the value of 8.
Green, Red and Blue by 1% until you can find the best result.
In case, the compensation result is still unsatisfactory, REGENERATION Mode and ANTI IMAGE 9.
STICKING Mode may be applied for better result.
Adjusting White Balance after BIC control process may improve compensation result. 10.
BiC intervals and effect
Due to the property of phosphor material, each panel may show slightly different characteristics from
each other. Therefore, it is important to improve compensation efficiency in early stage using
1) Deterioration function and 2) Phosphor update function. However, such work is only needed when
Burn-in image is developed to a disturbing level.
It should be done after one month from the date of initial operation after installation. In case, you can
notice Burn-in image of disturbing level after two months from the first BIC control work, execute above
mentioned two functions again. After that, it should be done every three or four months as needed.
(※ Above mentioned interval applies for 24hours daily use)
Phosphor Update function changes phosphor value. y
If you cannot have satisfactory compensation result by adjusting Deterioration function, you can
change phosphor value.
Deterioration function adjusts deterioration range for Red, Green and Blue respectively. y
Set up Test pattern-Red, Green, Blue and "SCREEN" external image source, to control 1)
Deterioration.
Adjust Deterioration range for Red, Green and Blue respectively. 2)
Adjustable range is 70% to 130% and initial value is 100%.
In case surrounding pixels are brighter than burn-in image, increase the present value and
surrounding pixels are darker, decrease the value.
BiC status indicator
Red: Malfunction, a small red square continuously blinks at the lower right corner of the screen.
Green: Normal, a small green square blinks several times and disappears at the same position.
Yellow: BIC related events such as Update, a small yellow square continuously blinks at the same
position.
※Caution
When you power on your PDP sets, the screen may repeat fade in and out several times.
It is very normal initial BIC update process and is not a product malfunction.
Lower luminescence. Higher luminescence.
Activation status between 70% ~ 130%
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5.14. Orion PDP Home Page logon and Version information
In order to move to Orion PDP's website, go to "Help" of menu bar → "OrionDisplay HomePage". y
Orion PDP Home Page Logon
Go to "Help" of menu bar → "About" to check MSCS. y
Checking MSCS Version
Protocol Form1.
Send To PDP ƒ
CommandPDP IDSub CommandDataEnd
4byte2byte4byteVariable1byte
Format sent from PC to PDP, only the selected ID("PDP ID") will - correspond to the given command.
Receive From PDP ƒ
CommandPDP IDSub CommandDataEnd
4byte2byte4byteVariable1byte
A respond from PDP to PC, a respond format for certain - commands. Not all commands have response.
Sub Command ƒ
Command code-
Data fomat ƒ
The format is 2byte dividing the Actual Data(1byte) into two, first - 4bits("A") and second 4bits("B"), "B" adds 0x30, "A" shifts 4bit and\
add 0x30. The Send Data(1byte) becomes 2byte.
1byte -
0X6B0X060X06 + 0X30
0X0B + 0X30
0X60
0X0B
Real DataSend Data0X36
0X3B
Protocol Value2.
2.1 Command
Send To PDP ƒ
Send To PDPASCIIk(0x6B)M(0x4D)
HEX0x360x3B0x340x3D
Starting code for Send Command from PC to PDP, fixed 4byte.- Refer to the Data format shown in 6.1 Protocol Form.-
Receive From PDP ƒ
Receive From PDPASCIIk(0x6B)N(0x4E)
HEX0x360x3B0x340x3E
Starting code for Send Respond from PDP to P, fixed 4byte.- Refer to the Data format shown in 6.1 Protocol Form. -
0X6B0X060X06 + 0X30
0X0B + 0X30
0X60
0X0B
Real Data
Send Data0X36
0X3B
2.2 PDP ID
Format ƒ
Send Data is 2byte, Refer to the Data format shown in 6.1 Protocol - Form.Ex) -
ID valueHex valueSend ID value
“1”0x010x30, 0x31
“10”0x0A0x30, 0x3A
“20”0x140x31, 0x34
“99”0x630x36, 0x33
ID ="99" , example -
99
0X630X060X06 + 0X30
0X03 + 0X30
0X60
0X03
Real Data Send Data0X36
0X33
ID ="99", Coding Example -
//==========================================
PDP_ID = 99;
// PDP_ID: 0x63
ID[1] = ((PDP_ID)&0xF0>>4)+0x30; // ID[1]: 0x36
ID[0] = (PDP_ID&0x0F)+0x30; // ID[0]: 0x33//==========================================
2.3 Sub Command
2.3.1 Multi Scale Control
Multi Scale Command ƒ
Multi ScaleASCIIM(0x4D)s(0x73)
HEX0x340x3D0x370x33
MPDP Multi Scale command -
2.3.2 PDP Control
Power Command ƒ
Power On
ASCIIR(0x52)n(0x6E)
HEX0x350x320x360x3E
Power OffASCIIR(0x52)f(0x66)
HEX0x350x320x360x36
PDP Power On/Off command-
Information OSD Command ƒ
Information OSDASCIIR(0x52)I(0x49)
HEX0x350x320x340x39
Command to display current input Mode, Resolution on OSD. -
6. MSCS Protocol*"BIC" function is applicable only to MIS-4230.
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Auto Power Command ƒ
Auto Power OnASCIIR(0x52)M(0x4D)
HEX0x350x320x340x3D
Auto Power OffASCIIR(0x52)m(0x6D)
HEX0x350x320x360x3D
Auto Power On: Enables Power On by connecting AC Power - Supply even without Power On command. Auto Power Off: Enables Power On by connecting AC Power - Supply and sending Power On command.
Input Source Command ƒ
Input SourceChange DVI
ASCIIR(0x52)i(0x69)
HEX0x350x320x360x39
Input SourceChange PC
ASCIIR(0x52)p(0x70)
HEX0x350x320x370x30
Input SourceChange HD
ASCIIR(0x52)t(0x74)
HEX0x350x320x370x34
Input SourceChange SD/DVD
ASCIIR(0x52)d(0x64)
HEX0x350x320x360x34
Input SourceChange S-VIDEO
ASCIIR(0x52)s(0x73)
HEX0x350x320x370x33
Input SourceChange VIDEO
ASCIIR(0x52)v(0x76)
HEX0x350x320x370x36
Command for selecting Input Mode-
Tracking Command ƒ
Auto TrackingASCIIR(0x52)a(0x61)
HEX0x350x320x360x31
Manual Tracking Frequency
ASCIIR(0x52)F(0x46)
HEX0x350x320x340x36
Manual Tracking Phase
ASCIIR(0x52)P(0x50)
HEX0x350x320x350x30
Manual Tracking Line Start
ASCIIR(0x52)L(0x4C)
HEX0x350x320x340x3C
Manual Tracking Pixel Start
ASCIIR(0x52)X(0x58)
0x350x320x350x38
Auto Tracking: Auto screen positioning command in Input Mode PC- Manual Tracking: Manual screen positioning command in Inpuit - Mode PC
Test Pattern Command ƒ
Test Pattern RedASCIIR(0x52)5(0x35)
HEX0x350x320x330x35
Test Pattern GreenASCIIR(0x52)6(0x36)
HEX0x350x320x330x36
Test Pattern BlueASCIIR(0x52)7(0x37)
HEX0x350x320x330x37
Test Pattern WhiteASCIIR(0x52)8(0x38)
HEX0x350x320x330x38
Return ScreenASCIIR(0x52)9(0x39)
0x350x320x330x39
Test Pattern Command -
APL Command ƒ
APL OnASCIIR(0x52)x(0x78)
HEX0x350x320x370x38
APL OffASCIIR(0x52)y(0x79)
0x350x320x370x39
APL(Automatic Power Limit) On/Off-
PDP Tx Command ƒ
PDP Tx EnableASCIIR(0x52)H(0x48)
HEX0x350x320x340x38
PDP Tx DisableASCIIR(0x52)S(0x53)
HEX0x350x320x350x33
Enable: RS232 IC Output(Tx) within PDP - Disable: RS232 IC Output(Tx) within PDP turns to High Impedance - state Caution - Do not enable Tx of plural PDP sets at the same time when you control MPDP. (Make sure only one set is enabled and the other sets are disabled. If plural sets are enabled, it may cause malfunction.)
Software Reset Command ƒ
Software Reset
ASCIIR(0x52)R(0x52)
HEX0x350x320x350x32
Software Reset-
Position Command ƒ
Position UpASCIIP(0x50)u(0x75)
HEX0x350x300x370x35
Position DownASCIIP(0x50)d(0x64)
HEX0x350x300x360x34
Position LeftASCIIP(0x50)l(0x6C)
HEX0x350x300x360x3C
Position RightASCIIP(0x50)r(0x72)
HEX0x350x300x370x32
Position ResetASCIIP(0x50)S(0x53)
0x350x300x350x33
Component, SVIDEO, Composite Video Input screen positioning - command
Global Offset Command ƒ
Global Offset OnASCIIP(0x50)L(0x4C)
HEX0x350x300x340x3C
Global Offset OffASCIIP(0x50)R(0x52)
HEX0x350x300x350x32
Command to enlarge the display considering the seam between - two MPDPGlobal Offset On: To enhance the continuity between MPDPs, data - for the Seam area is erased.
Video Zoom Control Command ƒ
Video Zoom ControlASCIIP(0x50)n(0x6E)
HEX0x350x300x360x3E
- Video Zoom: Default Level is "5", controllable within "1"~"9" -
Color Temp Command ƒ
Normal ModeASCIIG(0x47)N(0x4E)
HEX0x340x370x340x3E
Studio ModeASCIIG(0x47)O(0x4F)
HEX0x340x370x340x3F
Studio Mode: Sets to Colour Temperature approximately 3200K-
Firmware Default Command ƒ
Firmware Default Load
ASCIIF(0x46)1(0x31)
HEX0x340x360x330x31
Set values to default. Values before factory adjusting.-
Factory Data Command ƒ
Factory Data SaveASCIIF(0x46)2(0x32)
HEX0x340x360x330x32
Factory Data LoadASCIIF(0x46)3(0x33)
HEX0x340x360x330x33
Factory Data Save: Data Save after adjusting- Factory Data Load: Load values of Factory Data-
User File Load Command ƒ
User File LoadASCIIF(0x46)6(0x36)
HEX0x340x360x330x36
Read and Load Picture Control Data from saved file -
Reference - Application: Saved Picture Control Data is saved as a - file as the figure adjusted by the user
* File Format: ***.dat* Data Structure (31 byte ASCII Code)
User ModeBrightness, Contrast, Sharpness, Color, Tint
White BalanceGain R, Gain G, Gain B, Offset R, Offset G, Offset B
Device PCGain R, Gain G, Gain B, Offset R, Offset G, Offset B
Device DTVGain R, Gain G, Gain B, Offset R, Offset G, Offset B
Device DVDBrightness, Contrast, Cr, Cb
Device VIDEOBrightness, Contrast, Color, Tint
Data save sequence: User Mode ~Device VIDEO -
2.3.3 Get Data Control
Get Data Command ƒ
Get Data Tracking Manual
ASCIIR(0x52)A(0x41)
HEX0x350x320x340x31
Get Data PDP Current Status
ASCIIR(0x52)C(0x43)
HEX0x350x320x340x33
Get Data Total White Balance
ASCIIG(0x47)T(0x54)
HEX0x340x370x350x34
Get Data New Total White Balance
ASCIIG(0x47)P(0x50)
HEX0x340x370x350x30
Command to read Data saved on EEPROM within the PDP -
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2.3.4 WhiteBalance Control
Graphic User Mode Command ƒ
Graphic User Mode Brightness
ASCIIG(0x47)a(0x61)
HEX0x340x370x360x31
Graphic User Mode Contrast
ASCIIG(0x47)b(0x62)
HEX0x340x370x360x32
Graphic User Mode Sharpness
ASCIIG(0x47)c(0x63)
HEX0x340x370x360x33
Graphic User Mode Color
ASCIIG(0x47)d(0x64)
HEX0x340x370x360x34
Graphic User Mode Tint
ASCIIG(0x47)e(0x65)
HEX0x340x370x360x35
Command for controlling Brightness, Contrast, Sharpness, Color, - Tint for PC and DTV
Video User Mode Command ƒ
Video User Mode Brightness
ASCIIV(0x56)a(0x61)
HEX0x350x360x360x31
Video User Mode Contrast
ASCIIV(0x56)b(0x62)
HEX0x350x360x360x32
Video User Mode Sharpness
ASCIIV(0x56)c(0x63)
HEX0x350x360x360x33
Video User Mode Color
ASCIIV(0x56)d(0x64)
HEX0x350x360x360x34
Video User Mode Tint
ASCIIV(0x56)e(0x65)
HEX0x350x360x360x35
Command for controlling Brightness, Contrast, Sharpness, Color, - Tint for Video
White Balance Command ƒ
White Balance Gain Red
ASCIIG(0x47)A(0x41)
HEX0x340x370x340x31
White Balance Gain Green
ASCIIG(0x47)B(0x42)
HEX0x340x370x340x32
White Balance Gain Blue
ASCIIG(0x47)C(0x43)
HEX0x340x370x340x33
White Balance Offset Red
ASCIIG(0x47)E(0x45)
HEX0x340x370x340x35
White Balance Offset Green
ASCIIG(0x47)F(0x46)
HEX0x340x370x340x36
White Balance Offset Blue
ASCIIG(0x47)G(0x47)
HEX0x340x370x340x37
Command for controlling White Balance for DVI-
Graphic Data Command ƒ
Graphic Data Gain Red
ASCIIG(0x47)r(0x72)
HEX0x340x370x370x32
Graphic Data Gain Green
ASCIIG(0x47)s(0x73)
HEX0x340x370x370x33
Graphic Data Gain Blue
ASCIIG(0x47)t(0x74)
HEX0x340x370x370x34
Graphic Data Offset Red
ASCIIG(0x47)u(0x75)
HEX0x340x370x370x35
Graphic Data Offset Green
ASCIIG(0x47)v(0x76)
HEX0x340x370x370x36
Graphic Data Offset Blue
ASCIIG(0x47)w(0x77)
HEX0x340x370x370x37
Command for controlling White Balance for PC and DTV.-
Video Data Command ƒ
Video Data Bright-ness
ASCIIV(0x56)r(0x72)
HEX0x350x360x370x32
Video Data ContrastASCIIV(0x56)s(0x73)
HEX0x350x360x370x33
Video Data ColorASCIIV(0x56)t(0x74)
HEX0x350x360x370x34
Video Data TintASCIIV(0x56)u(0x75)
HEX0x350x360x370x35
Video Data CrASCIIV(0x56)v(0x76)
HEX0x350x360x370x36
Video Data CbASCIIV(0x56)w(0x77)
HEX0x350x360x370x37
Command for controlling White Balance for Video -
2.3.5 BIC Control
BIC Control Command ƒ
BIC ControlASCIIB(0x42)₩(0x5C)
HEX0x340x320x350x3C
BIC(Burn In Compensation) Control Command -
2.4 Data
2.4.1 Send Data
※ Refer to the Data format shown in 6.1 Protocol Form.Ex) 0x40 -
0X400X040X04 + 0X30
0X00 + 0X30
0X40
0X00
Real DataSand Data0X34
0X30
//========================================== Data = 0x40;
// Data: 0x40 Data[1] = ((Data)&0xF0>>4)+0x30; // Data [1]: 0x34 Data[0] = (Data &0x0F)+0x30; // Data [0]: 0x30//==========================================
Multi Scale Data ƒ
SendMulti Scale
ASCIIS(Source)M(Width)N(Height)P(Position)
HEXHighValueLow ValueHigh ValueLow ValueHigh ValueLow ValueHigh ValueLow Value
※ Source: Refer to the Input Source Command shown in 6.2 Protocol Value
M, N, P -
Ex) Selecting 3x3 within MPDP 5x5-
ID:1ID:2ID:3ID:4ID:5
ID:6ID:7ID:8ID:9ID:10
ID:11ID:12ID:13N:3, M:3P:1
ID:14N:3, M:3P:2
ID:15N:3, M:3P:3
ID:16ID:17ID:18N:3, M:3P:4
ID:19N:3, M:3P:5
ID:20N:3, M:3P:6
ID:21ID:22ID:23N:3, M:3P:7
ID:24N:3, M:3P:8
ID:25N:3, M:3P:9
Tracking Data ƒ
Send Tracking Data
ASCII(Value+127)
HEXHigh ValueLow Value
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Video Zoom Data ƒ
Video ZoomASCIIValue
HEXHigh ValueLow Value
Value(0~9): - 0(0x30, 0x30), 1(0x30, 0x31), 2(0x30, 0x32), 3(0x30, 0x33), 4(0x30, 0x34), 5(0x30, 0x35), 6(0x30, 0x36), 7(0x30, 0x37), 8(0x30, 0x38), 9(0x30, 0x39)
Factory Data Save & User File Load ƒ
Send : 62byteFactory Data Save& User File Load
HEX
Data[0] ~ Data[9] : User Mode
Data[10] ~ Data[21] : White Balance
Data[22] ~ Data[33] : Graphic PC
Data[34] ~ Data[45] : Graphic DTV
Data[46] ~ Data[53] : Video DVD
Data[54] ~ Data[61] : Video VIDEO
User ModeBrightness, Contrast, Sharpness, Color, Tint
White BalanceGain R, Gain G, Gain B, Offset R, Offset G, Offset B
Device Data
Graphic PCGain R, Gain G, Gain B, Offset R, Offset G, Offset B
Graphic DTVGain R, Gain G, Gain B, Offset R, Offset G, Offset B
DVDBrightness, Contrast, Cr, Cb
VideoBrightness, Contrast, Color, Tint,
Graphic&Video Data ƒ
Graphic & VideoASCIIValue
HEXHigh ValueLow Value
White Balance value for PC and DTV-
BIC Local Data Get ƒ
SendBIC Local Data
ASCIIData 1Data 2Data 3
HEX0x300x340x300x310x300x34
Refer to BIC related document. -
Data1Data Size(8Bit, 16bit, 32bit) (Fixed as 32bit)
0x01: 8bit, 0x02: 16bit, 0x04: 32bit
Data2Read(Get), Write(Set)0x00: Write(Set), 0x01: Read(Get)
Data3
BIC Internal Address Access(Refer to BIC related documents)
0x04: BIC Local Data Access Address
BIC Global Data Set ƒ
SendBIC Global Data
ASCIIData1Data2Data3Data4
HEX0x300x340x300x300x300x388byte-LocalMax
Refer to BIC related documents -
Data1Data Size(8Bit, 16bit, 32bit) (Fixed as 32bit)
0x01: 8bit, 0x02: 16bit, 0x04: 32bit
Data2Read(Get), Write(Set) 0x00: Write(Set), 0x01: Read(Get)
Data3
BIC Internal Address Access(Refer to BIC related documents)
0x08: BIC Global Data Access Address
Data4Determined by size of Data1. Fixed as 8byte Data.
Collects BIC Local Data and select Max value as BIC Global Data.
2.4.2 Receive Data
Tracking Data ƒ
Receive : 8byteTracking DataHEX
Data[0] ~ Data[1] : Frequence
Data[2] ~ Data[3] : Phase
Data[4] ~ Data[5] : LineStart
Data[6] ~ Data[7] : PixelStart
Manual Tracking Data -
PDP Current Status Data ƒ
Receive : 22bytePDP Current StatusHEX
Data[0] ~ Data[1] : PDP ID
Data[2] ~ Data[3] : Input Source
Data[4] ~ Data[5] : Standard TableData[6] ~ Data[7] : System Current PowerData[8] ~ Data[9] : BIC Mode
Data[10] ~ Data[11] : Global Offset
Data[12] ~ Data[13] : Color Temp
Data[14] ~ Data[15] : Auto Power
Data[16] ~ Data[21] : Firmware Version
Refer to the Data format shown in 6.1 Protocol Form.
IndexLengthNote
PDP ID2byte “1” : 0x30,0x31, “10” : 0x30,0x3A, “99” : 0x36,0x33
Input Source2byte “14” : DVI “12” : PC “13” : DTV “7” : DVD “5” : SVIDEO “2” : VIDEO
Standard Table2byte
“1” : 640x480x60“2” : 640x480x85“3” : 800x600x56“4” : 800x600x60“5” : 800x600x75“6” : 800x600x85“7” : 853x480x60“8” : 1024x768x60“9” : 1024x768x70“10” :1024x768x75“11” :1024x768x85“12” :1280x768x60
“13” :1280x960x60“14” :1280x1024x60“15” :1366x768x60“16” :1600x1200x60“17” :1400x1050x60“18” :706x960x60“19” : PC_1080ix60“20” : PC_1080ix50“21” : PC_720Px60“22” : PC_720Px50“23” : PC_576Px50“24” : PC_480Px60
“25” : 1920x1080ix60“26” : 1920x1080ix50“27” : 1280x720Px60“28” : 1280x720Px50“29” : PAL“30” : SECAM“31” : PALP“32” : NTSC“33” : NTSCP“34” : Artificial“35” : Unknown“36” : NoSignal
System Power2byte “0” : Off, “1” : On
BIC Mode2byte “0” : Off, “1” : On
Global Offset2byte “0” : Off, “1” : On
Color Temp2byte “0” : Normal Mode, “1” : Studio Mode
Auto Power2byte “0” : Off, “1” : On
Firmware Version6byteEx) version: 123456 0x31,0x32,0x33,0x34,0x35,0x36
White Balance Data ƒ
Receive : 34byteWhite Balance DataHEX
Data[0] ~ Data[9] : User Mode
Data[10] ~ Data[21] : White Balance
Data[22] ~ Data[33] : Device Data
User ModeBrightness, Contrast, Sharpness, Color, Tint
White BalanceGain R, Gain G, Gain B, Offset R, Offset G, Offset B
Device Data
GraphicGain R, Gain G, Gain B, Offset R, Offset G, Offset B
VideoBrightness, Contrast, Color, Tint, Cr, Cb
new White Balance Data ƒ
Receive : 62byteFirmware VersionHEX
Data[0] ~ Data[9] : User Mode
Data[10] ~ Data[21] : White Balance
Data[22] ~ Data[33] : Device PC
Data[34] ~ Data[45] : Device DTV
Data[46] ~ Data[53] : Device DVD
Data[54] ~ Data[61] : Device S-VIDEO or VIDEO
User ModeBrightness, Contrast, Sharpness, Color, Tint
White BalanceGain R, Gain G, Gain B, Offset R, Offset G, Offset B
Device Data
Graphic PCGain R, Gain G, Gain B, Offset R, Offset G, Offset B
Graphic DTVGain R, Gain G, Gain B, Offset R, Offset G, Offset B
DVDBrightness, Contrast, Cr, Cb
VideoBrightness, Contrast, Color, Tint,
BIC Global Data Set ƒ
ReadBIC Local Data
ASCIIData1Data2Data3Data4
HEX0x300x340x300x310x300x348byte-LocalMax
Data1Data Size(8Bit, 16bit, 32bit) (Fixed as 32bit)
0x01: 8bit, 0x02: 16bit, 0x04: 32bit
Data2Read(Get), Write(Set)0x00: Write(Set), 0x01: Read(Get)
Data3
BIC Internal Address Access(Refer to BIC related document )
0x04: BIC Local Data Ac-cess Address
Data4Size determined by Data1Size. Fixed as 8byte Data
2.5 End
End ƒ
End : 1byte0x0d
Shows the end of Protocol-
50
MIS-4220 / MIS-4220R / MIS-4230
51
Infinitely Expandable
Protocol Example3.
3.1 Send Command
3.1.1 Multi Scale Control
Multi Scale Command ƒ(PDP ID = 3, Source = PC, Configuration = 2x2)
MultiScale(19byte)
CommandPDP IDSub Command
0x36 0x3B 0x34 0x3D0x30 0x330x34 0x3D 0x37 0x33
DataEndSourceWidthHeightPosition
0x37 0x300x30 0x320x30 0x320x30 0x330x0d
IndexConverted DataSend Data
Command0x36, 0x3B, 0x34, 0x3D
PDP ID"3": 0x30, 0x330x30, 0x33
Sub Command0x34, 0x3D, 0x37, 0x33
SourcePC(0x70): 0x37, 0x300x37, 0x30
Width"2": 0x32, 0x320x30, 0x32
Height"2": 0x32, 0x320x30, 0x32
PositionID is "3", so position value "3": 0x30, 0x330x30, 0x33
3.1.2 PDP Control
Power On Command (PDP ID = 1) ƒ
Power On(11byte)
CommandPDP IDSub CommandEnd
0x36 0x3B 0x34 0x3D0x30 0x310x35 0x32 0x36 0x3E0x0d
IndexConverted DataSend Data
Command0x36, 0x3B, 0x34, 0x3D
PDP ID"1": 0x30, 0x310x30, 0x31
Sub Command0x35, 0x32, 0x36, 0x3E
3.1.3 Get Data Control
Get WhiteBalance Version Command(PDP ID = 1) ƒ
GetWhiteBalance(11byte)
CommandPDP IDSub CommandEnd
0x36 0x3B 0x34 0x3D0x30 0x310x34 0x37 0x35 0x340x0d
IndexConverted DataSend Data
Command0x36, 0x3B, 0x34, 0x3D
PDP ID"1": 0x30, 0x310x30, 0x31
Sub Command0x34, 0x37, 0x35, 0x34
3.1.4 WhiteBalance Control
Graphic Data Brightness Command ƒ(PDP ID = 1, Data = 50)
GraphicDataBrightness(17byte)
CommandPDP IDSub Command
0x36 0x3B 0x34 0x3D0x30 0x310x34 0x37 0x35 0x34
DataEnd
0x33 0x320x0d
IndexConverted DataSend Data
Command0x36, 0x3B, 0x34, 0x3D
PDP ID"1": 0x30, 0x310x30, 0x31
Sub Command0x34, 0x37, 0x36, 0x31
Data"50"(0x32): 0x33, 0x320x33, 0x32
3.1.5 BIC Control
BIC Local Data Send Command (PDP ID = 1) ƒ
BICLocalData(17byte)
CommandPDP IDSub Command
0x36 0x3B 0x34 0x3D0x30 0x310x34 0x32 0x35 0x3C
DataEnd
0x30 0x34 0x30 0x31 0x30 0x340x0d
IndexConverted DataSend Data
Command0x36, 0x3B, 0x34, 0x3D
PDP ID"1": 0x30, 0x310x30, 0x31
Sub Command0x34, 0x32, 0x35, 0x3C
Data0x30, 0x34, 0x30, 0x31, 0x30, 0x34
3.2 Receive Command
3.2.1BIC Control
BIC Local Data Receive Command (PDP ID = 1) ƒ
BICLocalData(25byte)
CommandPDP IDSub Command
0x36 0x3B 0x34 0x3E0x30 0x310x34 0x32 0x35 0x3C
DataEnd
0x30 0x34 0x30 0x31 0x30 0x34Receive 8 byte0x0d
IndexConverted DataSend Data
Command0x36, 0x3B, 0x34, 0x3D
PDP ID"1": 0x30, 0x310x30, 0x31
Sub Command0x34, 0x32, 0x35, 0x3C
Data0x30, 0x34, 0x30, 0x31, 0x30, 0x34
※a ttachment : a SCii to HEX Conversion Table
※Hex code value according to Set iD
iD 1
id[0] = 0x30
id[1] = 0x31
iD 2
id[0] = 0x30
id[1] = 0x32
iD 3
id[0] = 0x30
id[1] = 0x33
iD 4
id[0] = 0x30
id[1] = 0x34
iD 5
id[0] = 0x30
id[1] = 0x35
iD 6
id[0] = 0x30
id[1] = 0x36
iD 7
id[0] = 0x30
id[1] = 0x37
iD 8
id[0] = 0x30
id[1] = 0x38
iD 9
id[0] = 0x30
id[1] = 0x39
iD 10
id[0] = 0x30
id[1] = 0x3A
iD 11
id[0] = 0x30
id[1] = 0x3B
iD 12
id[0] = 0x30
id[1] = 0x3C
iD 13
id[0] = 0x30
id[1] = 0x3D
iD 14
id[0] = 0x30
id[1] = 0x3E
iD 15
id[0] = 0x30
id[1] = 0x3F
iD 16
id[0] = 0x31
id[1] = 0x30
iD 17
id[0] = 0x31
id[1] = 0x31
iD 18
id[0] = 0x31
id[1] = 0x32
iD 19
id[0] = 0x31
id[1] = 0x33
iD 20
id[0] = 0x31
id[1] = 0x34
iD 21
id[0] = 0x31
id[1] = 0x35
iD 22
id[0] = 0x31
id[1] = 0x36
iD 23
id[0] = 0x31
id[1] = 0x37
iD 24
id[0] = 0x31
id[1] = 0x38
iD 25
id[0] = 0x31
id[1] = 0x39
(MPDPD 5X5)
52
MIS-4220 / MIS-4220R / MIS-4230
53
Infinitely Expandable
7.1. Before calling for service
Before calling for any repair, check the following and then refer to a near A/S center.
7. Other tips
▶"Tick" sound from the main body.
If there is no problem with the screen or sound, the “tick” sound is likely to result y
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 y
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 y
neon sign, which emitting interference wave or electromagnetic induction. Avoid any
interfering object.
▶Screen or a PDP Set is hot
PDP sets or screen can be hot, because basic principle of PDP driving is Plasma y
discharge between electrodes.
It is not a defect or a malfunction of the product, you may continue to use the product. y
7.2. about Plasma display panel
The followings are phenomena caused by characteristics of the plasma display panel.
Since it is not a fault, you may continue to use the product.
▶Black or twinkling spots on the screen
Although the plasma display panel is manufactured with high-precision y
technology, there may exist black or twinkling spots on the screen.
Since it is not a fault, you may continue to use the product.
▶Burn-in effect
Displaying static images such as still video frames or computer screen y
images for an extended period of time may cause burn-in effect.
The burn-in effect may be gradually reduced by displaying full white
pattern.
However, please always be careful in using static images on this product, y
because such burn-in effect may cause permanent damages in some
cases.
▶noise from the inside
When you turn on the product slight buzzing sound may be heard y
from the rear of display panel. Since it is not a fault, you may continue
to use the product.
▶Screen decolorization
Optical film that is attached on the panel can be slightly decolorized y
after long time of use. The degree of decolorization may vary
depending on display contents and conditions.
It is due to the characteristics of the film, but it is not a defect.
(It is caused by chemical characteristics of the film.)
Caution
Caution
Caution
Caution
54
MIS-4220 / MIS-4220R / MIS-4230
55
Infinitely Expandable
8. applicable signals
8.1. DVD / DTV
8.2. PC & DVi
When you select “PC & DVI” for input source, it does not support DTV signal. y
InputSignalResolutionRemarks
DVD
480i720x480
480p720x480
576i720x576
576p720x576
DTV720p1280x720
1080i1920x1080
ResolutionV-Freq.(Hz)H-Freq.(KHz)Remarks
800x6006037.88
VESA DMT853x4806031.50
1024x7686048.36
1280x7686047.69VESA CVT1400x10506065.317
1280x9606060.00
VESA DMT
1280x10246063.97
1360x7686047.71
1600x12006075.00
1706x9606059.57
9. Specifications
Model nameMIS-4220
Power supply100 ~ 240V AC. 50/60Hz
Power consumption
Average (Typical)300W
Max360W
Plasma display panel42 inch, 16:9 Aspect Ratio
Contrast ratio10,000 :1 (Dark Room)
Brightness1,000 cd/㎡ (W/O Film)
Front filterAGAR (Anti Glare Anti Reflection)
number of pixels853(H) X 480(V)
Seam gap (In case of multi formation)4mm
Environmental condition
Temperature0°C~ 35°C
Humidity20% ~ 70%
Signal
Video signalNTSC, PAL, SECAM
PC signalSVGA, WVGA, XGA, SXGA, WXGA, UXGA
FrequencyHorizontal Frequency 15.5 ~75kHz
Vertical Frequency 50/60Hz
ConnectorsInputOutput
VideoCVBS : BNC 1pin
Same as left side
S-Video : DIN 4pin
ComponentY, Pb, Pr : BNC 3pin
PCPC RGB : D-Sub 15pin
DVITMDS : DVI-D 24pin
SerialRS-232C D-Sub 9pin(female)RS-232C D-Sub 9pin (male)
External dimension 924.6mm[W] X 521.8mm[H] X75.4mm[D]
Weight26kg (±1kg)
※Product design and specification can be changed for quality improvement without prior notice.
924.6 mm(±0.2)75.4mm(±0.5)528.8mm (±1)
521.8mm
(±0.2)
336.0mm
(±1)
56
MIS-4220 / MIS-4220R / MIS-4230
57
Infinitely Expandable
Model nameMIS-4230
Power supply100 ~ 240V AC. 50/60Hz
Power consumption
Average (Typical)300W
Max360W
Plasma display panel42 inch, 16:9 Aspect Ratio
Contrast ratio10,000 :1 (Dark Room)
Brightness1,000 cd/㎡ (Without film & BIC)
Burn-in effectBurn-In Compensation (BIC)
Front filterAGAR (Anti Glare Anti Reflection)
number of pixels853(H) X 480(V)
Seam gap (In case of multi formation)4mm
Environmental condition
Temperature0°C~ 35°C
Humidity20% ~ 70%
Signal
Video signalNTSC, PAL, SECAM
PC signalSVGA, WVGA, XGA, SXGA, WXGA, UXGA
FrequencyHorizontal Frequency 15.5 ~75kHz
Vertical Frequency 50/60Hz
ConnectorsInputOutput
VideoCVBS : BNC 1pin
Same as left side
S-Video : DIN 4pin
ComponentY, Pb, Pr : BNC 3pin
PCPC RGB : D-Sub 15pin
DVITMDS : DVI-D 24pin
SerialRS-232C D-Sub 9pin(female)RS-232C D-Sub 9pin (male)
External dimension 924.6mm[W] X 521.8mm[H] X75.4mm[D]
Weight26kg (±1kg)
※Product design and specification can be changed for quality improvement without prior notice.
924.6 mm(±0.2)75.4mm(±0.5)528.8mm (±1)
521.8mm
(±0.2)
336.0mm
(±1)
Model nameMIS-4220R
Power supply100 ~ 240V AC. 50/60Hz
Power consumption
Average (Typical)300W
Max360W
Plasma display panel42 inch, 16:9 Aspect Ratio
Contrast ratio10,000 :1 (Dark Room)
Brightness1,000 cd/㎡ (W/O Film)
Front filterAGAR (Anti Glare Anti Reflection)
number of pixels853(H) X 480(V)
Seam gap (In case of multi formation)5mm
Environmental condition
Temperature0°C~ 35°C
Humidity20% ~ 70%
Signal
Video signalNTSC, PAL, SECAM
PC signalSVGA, WVGA, XGA, SXGA, WXGA, UXGA
FrequencyHorizontal Frequency 15.5 ~75kHz
Vertical Frequency 50/60Hz
ConnectorsInputOutput
VideoCVBS : BNC 1pin
Same as left side
S-Video : DIN 4pin
ComponentY, Pb, Pr : BNC 3pin
PCPC RGB : D-Sub 15pin
DVITMDS : DVI-D 24pin
SerialRS-232C D-Sub 9pin(female)RS-232C D-Sub 9pin (male)
External dimension 926.2mm[W] X 523.6mm[H] X76.5mm[D]
Weight26kg (±1kg)
※Product design and specification can be changed for quality improvement without prior notice.
926.2 mm(±0.2)76.5mm(±0.5)528.9mm (±1)
523.6mm
(±0.2)
336.0mm
(±1)