User's Manual

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External Control

for LCD8205

Revision Date History

Ver. 1.0

Dec.9.2008 The first edition.

Summary of content (79 pages)

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External Control for LCD8205 Revision Date History Ver. 1.0 Dec.9.2008 The first edition.
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1. Application - This document defines the communications method for control of the LCD8205 monitor. 2. Connectors and Writing Connector : D-Sub 9-pin Cable : Cross (reversed) cable or null modem cable (please refer to LCD 8205 User’s Manual ) 3. Communication Parameter Item Baud Rate Data Bit Stop Bit Parity Bit Stream Control Setting 9600bps 8bit 1bit None None 3.1. Communication timing - The controller should wait for a packet interval before next command is sent.
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4. Command List 4.1. Basic Command List 4.1.1. VCP Command Command Picture Mode Brightness Contrast Color Tint Sharpness Color Temp (R/G/B) Size Auto in progress Volume Balance Language OSD Tone BG Gray Fan Control Input Mute Cooling Fan Status Read Out Temperature Hours Running On Time Display Device On Time p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.16 p.12-p.
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.2.
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. Basic Commands 5.1. Communication Format (for Basic Commands) Header Message Check Code Delimiter The command packet consists of four parts, Header, Message, Check code and Delimiter. Sequence of a typical procedure to control a monitor is as follows, [A controller and a monitor, two-way communication composition figure] Get Parameter The controller sends command to get a value from the monitor that you want to change. Get Parameter Reply The monitor replies a current value of the requested item.
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“Monitor ID” to “Destination Address” conversion table Monitor ID Destination Monitor ID Address (ASCII) 1 ‘A’(41h) 14 2 ‘B’(42h) 15 3 ‘C’(43h) 16 4 ‘D’(44h) 17 5 ‘E’(45h) 18 6 ‘F’(46h) 19 7 ‘G’(47h) 20 8 ‘H’(48h) 21 9 ‘I’(49h) 22 10 ‘J’(4Ah) 23 11 ‘K’(4Bh) 24 12 ‘L’(4Ch) 25 13 ‘M’(4Dh) 26 ALL ‘*’(2Ah) is as follows, Destination Address (ASCII) ‘N’(4Eh) ‘O’(4Fh) ‘P’(50h) ‘Q’(51h) ‘R’(52h) ‘S’(53h) ‘T’(54h) ‘U’(55h) ‘V’(56h) ‘W’(57h) ‘X’(58h) ‘Y’(59h) ‘Z’(5Ah) Ex.
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2）Get Parameter reply The monitor will reply with the status of the requested item specified by the controller in the “Get parameter message”. “Message type” of the “Get parameter reply” is as follows, STX OP code Type Max value Current Value OP code page Hi Lo Hi Lo Hi Lo Hi Lo MSB LSB MSB LSB << Refer to section 5.2.2. “Get parameter reply” for more details. >> Result ETX 3）Set parameter The controller sends this message to change a setting of the monitor.
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Header 5.1.3. Check code Message Delimiter Check code Check code is the Block Check Code (BCC) between the Header and the End of Message except SOH. 27 SOH Reserved Destination Source Type Length D0 D1 D2 D3 D4 D5 D6 STX D7 Data D8 | | | | ETX Dn Check code Dn+1 P Dn+1 = D1 XOR D2 XOR D3 XOR ,,, Dn XOR: Exclusive OR 26 25 24 23 22 21 20 P P P P P P P Following is an example of a Check code (BCC) calculation.
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5.2. Message type 5.2.1. Get current Parameter from a monitor. – Send this message when you want to get the status of a monitor. For the status that you want to get, specify the “OP code page” the “OP code”, refer to “VCP (OP code page/OP code) List”. 5.3.1. 1stbyte) STX: Start of Message ASCII STX (02h) 2nd-3rdbytes) OP code page: Operation code page. Specify the “OP code page” for the control which you want to get the status. Refer to 5.3.1. “VCP (OP code page/OP code) List” for each item.
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8th -9thbytes) Type: Operation type code 00h: Set parameter 01h: Momentary Like the Auto Setup function which automatically changes the parameter. This returned value from the monitor is encoded to ASCII characters. Ex.) The byte data 01h is encoded to ASCII character '0' and '1' (30h and 31h). 10th-13thbytes) Max. value: Maximum value which monitor can accept. (16bits) This returned value from the monitor is encoded to ASCII characters. Ex.
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2nd-3rdbytes) Result code ASCII '0''0' (30h, 30h): No Error. ASCII '0''1' (30h, 31h): Unsupported operation with this monitor or unsupported operation under current condition. 4th-5thbytes) OP code page: Echoes back the Operation code page for confirmation. Reply data from the monitor is encoded to ASCII characters. Ex.) OP code page 02h -> OP code page = ASCII '0' and '2' (30h and 32h) Refer to 5.3.1. “VCP (OP code page/OP code) List”. 6th-7thbytes) OP code: Echoes back the Operation code for confirmation.
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5.3. VCP Command 5.3.1.
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ETC OSD Tone 02h B8h 0: None 1: Off(Opaque) 2: ON BG Gray 02h DFh 0: black / Max:white Fan Control 02h 7Dh 0: None 1: Auto 2: Always On Fan control not used the ‘off’ command. Input 00h 60h 0: NOP 1: PC 3: DVI 4: HDMI 5: AV1 6: AV2 7: S-VIDEO 12: Component Mute 00h 8Dh 0,2: UNMUTE 1: MUTE Cooling Fan Status 02h 7Bh 0:off 1:on Get only Read Out Temparature 02h 79h Get only Get current temperature of main sensor.
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5.3.2. How to change the “Brightness” setting. The following is a sample of procedures to control the monitor, these are examples of "Get parameter", "Set parameter" and "Save current settings". Step 1. The controller requests the Monitor to reply with the current brightness setting and capability to support this operation.
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Step 3. The controller request the monitor to change the Brightness setting Header Message SOH-'0'-Monitor ID-'0'-'E'-'0'STX-'0'-'0'-'1'-'0'-'0'-'0'-'5'-'0''A' ETX Header SOH (01h): Start Of Header '0' (30h): Reserved Monitor ID: Specify the Monitor ID of which you want to change a setting. Ex.) If Monitor ID is '1', specify 'A'. '0' (30h): Message sender is the controller . 'E' (45h): Message Type is "Set parameter command". '0'-'A' (30h, 41h): Message length is 10 bytes.
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SOH (01h): Start Of Header '0' (30h): Reserved Monitor ID: Specify the Monitor ID which you want to store the setting. Ex.) If Monitor ID is '1', specify 'A'. '0' (30h): Message sender is the controller. 'A' (41h): Message type is "Command". '0'-'4' (30h, 34h): Message length is 4 bytes. Message STX (02h): Start of Message '0'-'C' (30h, 43h): Command code is 0Ch as "Save current settings". ETX (03h): End of Message Check code BCC: Block Check Code Refer to the section 5.1.3.
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5.4. Commands message Power control procedure 5.4.1. Power Command Power Mode ( Power status read ) POWER On/Off ( Power control ) 01h D6h 1: ON 2: Standby 4: OFF Get only C2h,03h D6h 1: ON 4: OFF Set only 5.4.2. Power status read Header SOH-'0'-Monitor ID-'0'-'A'-'0'-'6' Message STX-'0'-'1'-'D'-'6'-ETX Check code BCC CR Delimiter Header SOH (01h): Start Of Header '0' (30h): Reserved Monitor ID: Specify the Monitor ID from which you want to get status. Ex.
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'0'-'0'-'0'-'4' (30h, 30h, 30h, 34h): Power mode is 4 types. '0'-'0'-'0'-'1' (30h, 30h, 30h, 31h): Current power mode 0001: ON 0002: Stand-by (power save) 0003: Suspend (power save) 0004: OFF (same as IR power off) ETX (03h): End of Message Check code BCC: Block Check Code Refer to the section 5.1.3. “Check code” for a BCC calculation. Delimiter CR (0Dh): End of packet 5.4.3.
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Note.) The maximum data length that can be written to the monitor at a time is 32bytes. Ex.) The byte data 20h is encoded as ASCII characters '2' and '0' (32h and 30h). Message STX (02h): Start of Message '0'-'0' (30h, 30h): Result code. No error. 'C'-'2’,'0'-'3'-'D'-'6' (43h, 32h, 30h, 33h, 44h, 36h): power control reply command  The monitor replies same as power control command to the controller. '0'-'0'-'0'-'1' (30h, 30h, 30h, 31h): Power mode 0001: ON 0002, 0003: Do not set.
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6. Optional Commands 6.1. Communication Format (for Optional Commands) 6.1.1. Virtual Remote Control 6.1.2. Setting Parameters to Juno 6.1.3.
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6.2. Control Command Packet 6.2.1. System Parameter Direct Settings/Read Packet CMD Command Data1 Target Data2 ID 0xF5 (Start Set) 0x88(Set) 0x00 0x89(Get) 0xF4 (Start Get) Data3 CMD Data4 Param Data5 Value 0xFE 0x00 0x00~0xFF Set /Get Param.
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0x33 (3) 0 200 0x34 MIN_ILLUMINANCE 0 200 0x35 AUTO_DIM 0 1 0x37 CURTEMP_MAIN 0 - 0x38 CURTEMP_AUX 0 - (4) 0x39 TEMP_THRESHOLD 60 200 0x3A TEMP_HYSTERESIS(5) 2 20 0x3B FAN_CONTROL 1 2 0x3C FAN_ACTIVE(only read) 0 1 0x3D SETX 0 2 0x3E SETY 0 2 0x3F SETXMAX 1 3 0x40 SETYMAX 1 3 0x41 0x42 SETXGAP SETYGAP 0 0 200 200 Notice (1) CURSOURCE Setting Value AV1:0, AV2:1, AV3:2, COMP1:6, DVI:9, DSUB:10 (2) MAX_ILLUMINANCE Settings Setting Value = Ambient Level (
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6.3. Control Examples at Master PC 6.3.1. Set Input Source to RGB Input 6.3.2.
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7. Typical procedure example The following is a sample of procedures to control the monitor, these are examples of “ Set parameter” , “ Get parameter”. 7.1. “ Language ” Control procedure 7.1.1.
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7.2. “CURRENTSOURCE” Control procedure 7.2.1. Current Source Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x01) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x01) : ‘ Current Source ’ parameter Value : Data value 0 : AV1 1 : AV2 2 : AV3 6 : COMPONENT 9 : DVI 10 : DSUB 7.2.2.
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7.3. “PC_PICTUREMODE” Control procedure 7.3.1. Picture Control (PC, Digital video mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x02) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x02) : ‘ PC_PICTUREMODE ’ parameter Value : Data value 0 : User 1 : dynamic 2 : standard 3 : movie 4 : mild 7.3.2.
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7.4. “COLORTEMP” Control procedure 7.4.1. color temperature Control (PC, Digital video mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x03) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x03) : ‘ COLORTEMP ’ parameter Value : Data value 0 : User 1 : cool2 2 : cool1 3 : normal 4 : warm1 5 : warm2 7.4.2.
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7.5. “CONTRAST” Control procedure 7.5.1. Contrast Control (PC, Digital video mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x04) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x04) : ‘ CONTRAST ’ parameter Value: 0 ~ 100 (range) 7.5.2.
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7.6. “BRIGHTNESS” Control procedure 7.6.1. Brightness Control (PC, Digital video mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x05) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x05) : ‘ BRIGHTNESS ’ parameter Value: Data value 0 : User 1 : dynamic 2 : standard 3 : movie 4 : mild 7.6.2.
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7.7. “SHARPNESS” Control procedure 7.7.1. Sharpness Control (PC, Digital video mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x06) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x06) : ‘ SHARPNESS ’ parameter Value: 0 ~ 100 / step 5 (range) 7.7.2.
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7.8. “RF_PICTUREMODE” Control procedure 7.8.1. Picture Control (AV , S-video , Component mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x07) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x07) : ‘ PICTUREMODE ’ parameter Value : Data value 0 : User 1 : dynamic 2 : standard 3 : movie 4 : mild 7.8.2.
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7.9. “ RF_COLORTONE ” Control procedure 7.9.1. Color temperature Control (AV , S-video , Component mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x08) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x08) : ‘ RF_COLORTONE ’ parameter Value : Data value 1 : cool2 2 : cool1 3 : normal 4 : warm1 5 : warm2 7.9.2.
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7.10. “ RF_CONTRAST ” Control procedure 7.10.1. Contrast Control (AV , S-video , Component mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x09) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x09) : ‘ RF_CONTRAST ’ parameter Value: 0 ~ 100 (range) 7.10.2.
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7.11. “ RF_BRIGHTNESS ” Control procedure 7.11.1. Brightness Control (AV , S-video , Component mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x0A) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x0A) : ‘ RF_BRIGHTNESS ’ parameter Value: 0 ~ 100 (range) 7.11.2.
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7.12. “ RF_COLOR ” Control procedure 7.12.1. Color Control (AV , S-video , Component mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x0B) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x0B) : ‘ RF_COLOR ’ parameter Value: 0 ~ 100 (range) 7.12.2.
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7.13. “ NTSC_TINT ” Control procedure 7.13.1. TINT Control (AV , S-video , Component mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x0C) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x0C) : ‘ NTSC_TINT ’ parameter Value: 0 ~ 100 (range) 7.13.2.
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7.14. “ RF_SHARPNESS ” Control procedure 7.14.1. Sharpness Control (AV , S-video , Component mode) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x0D) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x0D) : ‘ RF_SHARPNESS ’ parameter Value: 0 ~ 100 (range) 7.14.2.
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7.15. “SCALEMODE” Control procedure 7.15.1.
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7.16. “ USERRED ” Control procedure 7.16.1. USERRED Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x0F) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x0F) : ‘ USERRED ’ parameter Value: 0 ~ 100 (range) 7.16.2.
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7.17. “ USERGREEN ” Control procedure 7.17.1. USERGREEN Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x10) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x10) : ‘ USERGREEN ’ parameter Value: 0 ~ 100 (range) 7.17.2.
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7.18. “ USERBLUE ” Control procedure 7.18.1. USERBLUE Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x11) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x11) : ‘ USERBLUE ’ parameter Value: 0 ~ 100 (range) 7.18.2.
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7.19. “MUTE” Control procedure 7.19.1. Mute Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x16) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x16) : ‘ MUTE ’ parameter Value: Data value 0 : Mute Off 1 : Mute On 7.19.2.
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7.20. “SOUNDSTD” Control procedure 7.20.1. Sound STD Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x17) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x17) : ‘ SOUNDSTD ’ parameter Value: Data value 0 : User 1 : Standard 2 : Music 3 : Movie 4 : Speech 7.20.2.
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7.21. “ AUTOVOLUME ” Control procedure 7.21.1. Auto Volume Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x18) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x18) : ‘ AUTOVOLUME ’ parameter Value: Data value 0 : Off 1 : On 7.21.2.
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7.22. “ VOLUME ” Control procedure 7.22.1. VOLUME Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x1A) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x1A) : ‘ VOLUME ’ parameter Value: 0 ~ 100 (range) 7.22.2.
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7.23. “ BALANCE ” Control procedure 7.23.1. BALANCE Control (sound L+R balance) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x1C) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x1C) : ‘ BALANCE ’ parameter Value: 0 ~ 100 (range) 7.23.2.
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7.24. “ Equalizer ” Control procedure 7.24.1. Equalizer Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter 0x1D : EQ 100Hz 0x1E : EQ 300Hz 0x1F : EQ 1KHz 0x20 : EQ 3KHz 0x21 : EQ 10KHz Value: 0 ~ 20 (range) 7.24.2.
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7.25. “ ONHOUR ” Control procedure 7.25.1. ONHOUR Control (Power on time) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x22) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x22) : ‘ ONHOUR ’ parameter Value: 0 ~ 23 (range) 7.25.2.
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7.26. “ ONMINUTE ” Control procedure 7.26.1. ONMINUTE Control (Power on time) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x23) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x23) : ‘ ONMINUTE ’ parameter Value: 0 ~ 59 (range) 7.26.2.
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7.27. “ ONTIMEONOFF ” Control procedure 7.27.1. ONTIMEONOFF Control ( Power ON time control ) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x24) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x24) : ‘ ONTIMEONOFF ’ parameter Value: Data value 0 : Disable 1 : Enable 7.27.2.
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7.28. “ ONTIMEVOL ” Control procedure 7.28.1. ONTIMEVOL Control (Power ON Volume) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x25) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x25) : ‘ ONTIMEVOL ’ parameter Value: 0 ~ 100 (range) 7.28.2.
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7.29. “ OFFHOUR ” Control procedure 7.29.1. OFFHOUR Control (Power OFF time) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x26) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x26) : ‘ OFFHOUR ’ parameter Value: 0 ~ 23 (range) 7.29.2.
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7.30. “ OFFMINUTE ” Control procedure 7.30.1. OFFMINUTE Control (Power OFF time) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x27) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x27) : ‘ OFFMINUTE ’ parameter Value: 0 ~ 59 (range) 7.30.2.
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7.31. “ OFFTIMEONOFF ” Control procedure 7.31.1. OFFTIMEONOFF Control ( Power OFF time control ) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x28) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x28) : ‘ OFFTIMEONOFF ’ parameter Value: Data value 0 : Disable 1 : Enable 7.31.2.
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7.32. “ HALFTONE ” Control procedure 7.32.1. HALFTONE Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x2A) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x2A) : ‘ HALFTONE ’ parameter Value: Data value 0 : Disable 1 : Enable 7.32.2.
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7.33. “ BLUESCREEN ” Control procedure 7.33.1. BLUESCREEN Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x2B) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x2B) : ‘ BLUESCREEN ’ parameter Value: Data value 0 : Disable 1 : Enable 7.33.2.
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7.34. “ PIXELSHIFT_EN ” Control procedure 7.34.1. PIXELSHIFT_EN Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x2C) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x2C) : ‘ PIXELSHIF_EN ’ parameter Value: Data value 0 : Disable 1 : Enable 7.34.2.
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7.35. “ WIPER_EN ” Control procedure 7.35.1. WIPER Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x2D) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x2D) : ‘ WIPER ’ parameter Value: Data value 0 : Disable 1 : Enable 7.35.2.
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7.36. “ BGGRAY ” Control procedure 7.36.1. BGGRAY Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x2E) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x2E) : ‘ BGGRAY ’ parameter Value: 0~7 (range) 7.36.2.
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7.37. “ POWER ”(read only) Control procedure 7.37.1.
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7.38. “ CURHOUR ” Control procedure 7.38.1. CURHOUR Control (Current time) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x30) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x30) : ‘ CURHOUR ’ parameter Value: 0 ~ 23 (range) 7.28.2.
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7.39. “ CURMINUTE ” Control procedure 7.39.1. CURMINUTE Control (Current time) CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x31) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x31) : ‘ CURMINUTE ’ parameter Value: 0 ~ 59 (range) 7.39.2.
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Dimming Control (7.40 ~ 7.42) Auto dimming control mode.
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7.40. “ MAX_ILLUMINANCE ” Control procedure 7.40.1. MAX_ILLUMINANCE Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x33) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x33) : ‘ MAX_ILLUMINANCE ’ parameter Value: 0 ~ 200 (range) 7.40.2.
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7.41. “ MIN_ILLUMINANCE ” Control procedure 7.41.1. MIN_ILLUMINANCE Control CMD Data1 Data2 Data3 Data4 Command Target Monitor ID CMD Parameter (0xF5) (0x88) (0x00) (0xFE) (0x34) Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x34) : ‘ MIN_ILLUMINANCE ’ parameter Value: 0 ~ 200 (range) 7.41.2.
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7.42. “ AUTO_DIM ” Control procedure 7.42.1. AUTO_DIM Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x35) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x35) : ‘ AUTO_DIM ’ parameter Value: Data value 0 : off 1 : on 7.42.2.
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Fan Control (7.43 ~ 7.47) There are three kind of fan control mode as below; Please refer to diagram of ATC On : Always activates fan Auto : Automatic activates/deactivates fans by temperature variation.
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7.43. “ CURTEMP_MAIN ” Control procedure 7.43.1. Current main Temperature state read CMD Data1 Data2 Data3 Command (0xF4) Target (0x89) Monitor ID (0x00) CMD (0xFE) Data4 Parameter (0x37) Command (0xF4) : Start bit Target (0x89) : Get bit Monitor ID (0x00) : Default value -> 0x00 CMD(0xFE) : command data Parameter (0x37) : ‘CURTEMP_MAIN ’ parameter CMD Data1 Command (0xF1) Value Command (0xF1) : Start send bit Value : Current Temperature getting value 7.44. “ CURTEMP_AUX ” Control procedure 7.44.1.
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7.45. “ TEMP_THRESHOLD ” Control procedure 7.45.1. TEMP_THRESHOLD Control CMD Data1 Data2 Data3 Data4 Command Target Monitor ID CMD Parameter (0xF5) (0x88) (0x00) (0xFE) (0x39) Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x39) : ‘ TEMP_THRESHOLD ’ parameter Value: 60 ~ 200 (range) 7.45.2.
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7.46. “ TEMP_HYSTERESIS ” Control procedure 7.46.1. TEMP_ HYSTERESIS Control CMD Data1 Data2 Data3 Data4 Command Target Monitor ID CMD Parameter (0xF5) (0x88) (0x00) (0xFE) (0x3A) Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x3A) : ‘ TEMP_HYSTERESIS ’ parameter Value: 2 ~ 20 (range) 7.46.2.
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7.47. “ FAN_CONTROL ” Control procedure 7.47.1. FAN_CONTROL Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x3B) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x3B) : ‘ FAN_CONTROL ’ parameter Value: Data value 1 : on 2 : auto 7.47.2.
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(5.48 ~ 5.
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7.48. “ SETX ” Control procedure 7.48.1. SETX Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x3D) Value Data3 Data4 Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x3D) : ‘ SETX ’ parameter Value: 0 ~ 2 (range) 7.48.2.
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7.49. “ SETY ” Control procedure 7.49.1. SETY Control CMD Data1 Data2 Command (0xF5) Target (0x88) Monitor ID (0x00) Data3 Data4 Data5 CMD (0xFE) Parameter (0x3E) Value Data3 Data4 Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x3E) : ‘ SETY ’ parameter Value: 0 ~ 2 (range) 7.49.2.
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7.50. “ SETXMAX ” Control procedure 7.50.1. SETXMAX Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x3F) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x3F) : ‘ SETXMAX ’ parameter Value: 1 ~ 3 (range) 7.50.2.
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7.51. “ SETYMAX ” Control procedure 7.51.1. SETYMAX Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x40) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x40) : ‘ SETYMAX ’ parameter Value: 1 ~ 3 (range) 7.51.2.
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7.52. “ SETXGAP ” Control procedure 7.52.1. SETXGAP Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x41) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x41) : ‘ SETXGAP ’ parameter Value: 0 ~ 200 (range) 7.52.2.
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7.53. “ SETYGAP ” Control procedure 7.53.1. SETYGAP Control CMD Data1 Data2 Data3 Data4 Data5 Command (0xF5) Target (0x88) Monitor ID (0x00) CMD (0xFE) Parameter (0x42) Value Command (0xF5) : Start bit Target (0x88) : Set bit Monitor ID (0x00) : Default value -> 0x00 CMD (0xFE) : command data Parameter(0x40) : ‘ SETYGAP ’ parameter Value: 0 ~ 200 (range) 7.53.2.