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ASTRO VG-870 Instruction Manual

ASTRO VG-870 Instruction Manual

Vg series terminal commands

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VG series

Terminal Commands

Instruction Manual

Ver1.21

Supporting Models : VG-870/VG-871/VG-880/VG-870A/

VG-871A/VG-870B/VG-871B/VG-873/VG-874/

VG-876/VG-877/VG-881/VG-882(-A)/VG-884

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Summary of Contents for ASTRO VG-870

Page 1 VG series Terminal Commands Instruction Manual Ver1.21 Supporting Models : VG-870/VG-871/VG-880/VG-870A/ VG-871A/VG-870B/VG-871B/VG-873/VG-874/ VG-876/VG-877/VG-881/VG-882(-A)/VG-884...
Page 3: Instruction Manual
VG series Terminal Commands Instruction Manual 2014.10 Ver1.21 Supporting Models : VG-870/VG-871/VG-880/VG-870A/ VG-871A/VG-870B/VG-871B/VG-873/VG-874/ VG-876/VG-877/VG-881/VG-882(-A)/VG-884 ASTRODESIGN，Inc...
Page 5: Table Of Contents
Concerning the configuration of this manual........................x Chapter 1 CONCERNING THE TERMINAL COMMANDS ....................1 1.1 Introduction ................................1 1.2 Communication specifications ........................... 1 1.2.1 RS-232C ................................1 1.2.2 LAN ..................................2 1.3 Connection configuration ............................2 1.3.1 RS-232C ................................2 1.3.2 LAN ..................................
Page 6 2.13 SPT4 [20H 2CH]: Pattern data registration ......................41 2.14 LPT4 [20H 2DH]: Pattern data readout ........................51 2.15 SACT4 [20H 2EH]: Action data registration ......................61 2.16 LACT4 [20H 2FH]: Action data readout ......................... 64 2.17 SWLF4 [20H 30H]: Window level flicker data registration ..................67 2.18 LWFL4 [20H 31H]: Window level flicker data readout ....................
Page 7 CONTENTS 2.58 LGED4 [20H 5CH]: Group enable readout ......................131 2.59 SCCM4 [20H 5DH]: User subtitle data setting 1 ....................132 2.60 LCCM4 [20H 5EH]: User subtitle data acquisition 1 .................... 133 2.61 SCCD4 [20H 5FH]: User subtitle data setting 2 ....................134 2.62 LCCD4 [20H 60H]: User subtitle data acquisition 2 .....................
Page 8 2.103 LITMDS4 [20H 94H] : iTMDS data acquisition....................193 2.104 SVBO4 [20H 97H] : VbyOne data setting......................195 2.105 LVBO4 [20H 98H] : VbyOne data aquisition ....................197 2.106 SHDMISW4 [20H 99H ] : HDMI SW data setting .................... 199 2.107 LHDMISW4［20H 9AH］...
Page 9 CONTENTS 2.148 QDISP4 [24H 2CH]: H/V Disp acquisition ....................257 2.149 EXCCN4 [24H 2DH]: User subtitle data execution ..................258 2.150 LVGID4 [24H 2EH]: VG ID acquisition ....................... 259 2.151 EXSGON4 [24H 2FH]: RGB output ON/OFF ..................... 260 2.152 EXPONOFF4 [24H 30H]: Pattern data output ON/OFF ................261 2.153 AAUDIO4 [24H 31H]: Analog audio change ....................
Page 10 3.16 GRAPSET4 [28H 41H]: Graphic Plane Dot Drawing ..................312 3.17 GRALINE4 [28H 42H]:GraphicPlane Straight Line Drawing ................313 3.18 GRASQRE4 [28H 43H]: Graphic Plane Square Drawing ................314 3.19 GRASQPA4 [28H 44H]: Graphic Plane Filled-in Square................315 3.20 GRACIRC4 [28H 45H]: Graphic Plane Circle Drawing .................. 316 3.21 GRACIRCPA4 [28H 46H]: Graphic Plane Filled-in Circle Drawing ..............
Page 11 CONTENTS 4.22 DISPHV [28H]: Display dot count readout ......................365 4.23 INDC [29H]: Program no incrementing/decrementing..................366 4.24 EXBN [0CH]: Current program execution ......................367 4.25 EXSGON [0BH]: Output signal ON/OFF ......................368 4.26 EXSYNC [51H]: Separate sync ON/OFF ......................369 4.27 SGROUP [52H]: Group data registration ......................
Page 12 4.67 SHDCPEN [81H]: Program HDCP enable/disable setting ................... 416 4.68 LHDCPEN [80H]: Program HDCP enable/disable readout .................. 417 4.69 LOPTB [74H]: Optional board data acquisition ....................418 4.70 SOPTB [75H]: Optional board data setting ......................419 4.71 LOPTB2 [79H]: Optional board data 2 acquisition ....................420 4.72 SOPTB2 [7AH]: Optional board data 2 setting .....................
Page 13 CONTENTS 5.17.2 G8CIRCPA [E6H]: Filled-in circle drawing (color designation)............... 450 5.18 G8LINE [E1H]: Straight line drawing (color designation) ..................451 5.19 G8PSET [E2H]: Dot drawing (color designation) ....................452 5.20 G8SQRE [E4H]: Square drawing (color designation) G8SQPA [E3H]: Filled-in square drawing (color designation) .................................
Page 14: Concerning The Configuration Of This Manual
Concerning the configuration of this manual This instruction manual contains the terminal commands used by the VG-870 series. It describes the setting methods, precautions and other matters using the configuration shown below. Read through the manual carefully to ensure that the operations are performed correctly and the settings are established correctly.
Page 15: Chapter 1 Concerning The Terminal Commands
This manual describes the terminal commands which are supported by the VG-870, VG-871, VG-873, VG-874, VG-880, VG-881 VG-882 and VG-883 generators. Also the terminal commands of the VG-848 series (hereafter indicated as the “old VG models”) are described.
Page 16: Lan
1.2.2  Communication parameters 10BASE-T, 100BASE-TX  Connectors RJ-45 Connection configuration 1.3.1 RS-232C RS-232C straight cable Host computer VG-870 Fig. 1-3-1 1.3.2 Host computer VG-870 Fig. 1-3-2...
Page 17: Differences In Commands From Conventional Vg Series
Chapter 1 CONCERNING THE TERMINAL COMMANDS Differences in commands from conventional VG series The following commands used by the old VG models are not supported by the VG-870. Command Function Remarks SPbPrD [92H] Color difference coefficient data registration PbPrDNAMES3 [93H]...
Page 18: Description Of Terms Used
Description of terms used Term Description Auto display data The length of the interval (in seconds) after the patterns have been output until the next program is run as well as the sequence of the numbers of the programs to be run when the VG generator is operated in the auto display mode are set as parameters.
Page 19: Error Statuses
Chapter 1 CONCERNING THE TERMINAL COMMANDS Error statuses Error code Description “00” This error occurs when an attempt has been made to write data when the memory card was not installed. “01” This error occurs when the program which was input is disabled when direct display or a program was executed.
Page 20 “69” The blanking period of the vertical timing data is outside the specified range. “70” The vertical frequency of the vertical timing data is outside the specified range. “71” VDstart + VDline of the vertical timing data are outside the specified range. (Vtotal ≥ VDstart + VDline) “72”...
Page 21: Command Formats
Chapter 1 CONCERNING THE TERMINAL COMMANDS Command formats Two types of formats are used for the commands sent to the VG generator: the new commands and old commands. There are two types of old commands: ones which are compatible with the VG generators available in the past, and the extended commands which are used by the VG-848 series.
Page 22: Basic Formats
Basic formats 1.9.1 When setting commands are sent Command transmission from computer to VG generator (PC → VG) VG4CMD Command 1 Command 2 VG4CMD Command 1 Command 2 Parameters Return value from VG generator to computer after command transmission (PC ← VG) ESTS Error code When data is required, transmission is as shown below only when the commands were...
Page 23: Communication Protocol
Chapter 1 CONCERNING THE TERMINAL COMMANDS 1.10 Communication protocol 1.10.1 Type 1 This is the sequence when the terminal commands are started. Fig. 1-10-1-1 Flow Command Send/receive direction Send Receive Fig. 1-10-1-2...
Page 24: Type 2
1.10.2 Type 2 This is the sequence when commands consisting of only a command and parameters (if required) only are transmitted. Fig. 1-10-2-1 Flow Command Send/receive direction Command* (Parameters) Send 2a (Successful) Receive 2b (Failed) ESTS Error code Receive Fig. 1-10-2-2 * It is assumed here that the following three codes are entered in the command portion.
Page 25: Type 3
Chapter 1 CONCERNING THE TERMINAL COMMANDS 1.10.3 Type 3 This is the sequence for receiving the VG data. Fig. 1-10-3-1 Flow Command Send/receive direction Command*1 (Parameters) Send 2a (Successful) Receive 2b (Failed) ESTS Error code Receive TRDT Data Receive Fig. 1-10-3-2 Note 1) It is assumed here that the following three codes are entered in the command portion.
Page 26: Type 4
1.10.4 Type 4 This is the sequence for sending the VG data. Fig. 1-10-4-1 Flow Command Send/receive direction Command*1 (Parameters) Send 2a (Successful) Receive 2 b (Failed) ESTS Error code Receive TRDT Data Send 4a (Successful) Receive 4b (Failed) ESTS Error code Receive Fig.
Page 27: Type 5
Chapter 1 CONCERNING THE TERMINAL COMMANDS 1.10.5 Type 5 This is the sequence for receiving the VG data. The data must be received for the desired number of times. Fig. 1-10-5-1 Flow Command Send/receive direction Command*1 (Parameters) Send 2a (Successful) Receive 2b (Failed) ESTS...
Page 28: Type 6
1.10.6 Type 6 This is the sequence for sending the VG data. The data must be sent for the desired number of times. Fig. 1-10-6-1 Flow Command Send/receive direction Command*1 (Parameters) Send 2a (Successful) Receive 2b (Failed) ESTS Error code Receive TRDT Data...
Page 29: Type 7
Chapter 1 CONCERNING THE TERMINAL COMMANDS 1.10.7 Type 7 This is the sequence for receiving the VG data. Unlike with type 3, “TRDT” is not received. Fig. 1-10-7-1 Flow Command Send/receive direction Command*1 (Parameters) Send 2a (Successful) Receive 2b (Failed) ESTS Error code Receive...
Page 31: Chapter 2 Individual Formats For Vg Control Commands
INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS SHT4 [20H 20H]: H timing data registration Function: This command registers the H timing data of the program whose number has been designated. When the program number is 0, it writes the data into the buffer RAM.
Page 32: Lht4 [20H 21H]: H Timing Data Readout
LHT4 [20H 21H]: H timing data readout Function: This command reads the H timing data of the program whose number has been designated. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 33: Svt4 [20H 22H]: V Timing Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS SVT4 [20H 22H]: V timing data registration Function: This command registers the V timing data of the program whose number has been designated. When the program number is 0, it writes the data into the buffer RAM.
Page 34 “0” = Other TV Mode 1 to 2 bytes “1” = NTSC “2” = PAL “3” = SECAM “4” = HDTV1080 “5” = Reserved “6” = NTSC-M “7” = NTSC-443 “8” = PAL-M “9” = PAL-60 “10” = PAL-N “11” = PAL-Nc “12”...
Page 35: Lvt4 [20H 23H]: V Timing Data Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS LVT4 [20H 23H]: V timing data readout Function: This command reads the V timing data of the program whose number has been designated. When the program number is 0, it reads out the data from the buffer RAM.
Page 36 1 byte 2CH (Delimiter) “0” to “99995” (0 to 9999.5H) * In 0.5H increments VD-START2 1 to 5 bytes 1 byte 2CH (Delimiter) “0” to “99995” (0 to 9999.5H) * In 0.5H increments VD-WIDTH2 1 to 5 bytes 1 byte 2CH (Delimiter) “0”...
Page 37: Sot4 [20H 24H]: Output Condition Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS SOT4 [20H 24H]: Output condition data registration Function: This command registers the output condition data of the program whose number has been designated. When the program number is 0, it writes the data into the buffer RAM.
Page 38 1 byte 2CH (Delimiter) “0” = OFF, “1” = ON CS ON/OFF 1 byte 1 byte 2CH (Delimiter) “0” = Nega, “1” = Posi CS MODE 1 byte 1 byte 2CH (Delimiter) “0” = CS, “1” = HS, “2” = VS CS Sel 1 byte 1 byte...
Page 39 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” = OFF, “1” = ON S-Connector ON/OFF 1 byte 2CH (Delimiter) “0” = OFF, “1” = ON D-Connector ON/OFF 1 byte 1 byte 2CH (Delimiter) “0” = OFF, “1” = ON TV-DSUB ON/OFF 1 byte 1 byte...
Page 40 “0” = FULL, “1” = LIMITED Level Mode3 (TV All) 1 byte 1 byte 2CH (Delimiter) Fixed at “0” Level Mode4 (Reserved) 1 byte 1 byte 2CH (Delimiter) “0” = FULL, “1” = LIMITED Level Mode5 (DVI) 1 byte 1 byte 2CH (Delimiter) “0”...
Page 41: Lot4 [20H 25H]: Output Condition Data Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS LOT4 [20H 25H]: Output condition data readout Function: This command reads the output condition data of the designated program. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 42 1 byte 2CH (Delimiter) “0” = HS, “1” = CS HS Sel 1 byte 1 byte 2CH (Delimiter) “0” = OFF, “1” = ON VS ON/OFF 1 byte 1 byte 2CH (Delimiter) “0” = Nega, “1” = Posi VS MODE 1 byte 1 byte 2CH (Delimiter)
Page 43 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” = OFF, “1” = ON DVI-D ON/OFF 1 byte 1 byte 2CH (Delimiter) “0” = OFF, “1” = ON VBS ON/OFF 1 byte 2CH (Delimiter) “0” = OFF, “1” = ON BNC ON/OFF 1 byte 2CH (Delimiter)
Page 44 “0” = Disable, “1” = Enable HDCP Enable 1 byte 1 byte 2CH (Delimiter) Fixed at “0” Level Mode1 (Reserved) 1 byte 1 byte 2CH (Delimiter) “0” = FULL, “1” = LIMITED Level Mode2 (PC All) 1 byte 1 byte 2CH (Delimiter) “0”...
Page 45 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS HDMI3 ON/OFF 1 BYTE "0"=OFF "1"=ON 1 BYTE 2CH (Delimiter) HDMI4 ON/OFF 1 BYTE "0"=OFF "1"=ON 1 byte Fig. 2-6-2...
Page 46: Spar4 [20H 26H]: Parallel Data Registration
SPAR4 [20H 26H]: Parallel data registration Function: This command registers the parallel data of the designated program. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 47 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” = CS, “1” = VD, “2” = HD, “3” = Low, “4” = High Ch2 SW2 1 byte 1 byte 2CH (Delimiter) “0” = CS, “1” = VD, “2” = HD, “3” = Low, “4” = High Ch2 SW3 1 byte 1 byte...
Page 48: Lpar4 [20H 27H]: Parallel Data Readout
LPAR4 [20H 27H]: Parallel data readout Function: This command reads the parallel data of the designated program. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 49 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” = Hi-Z, “1” = ON Ch2 Sync 1 byte 1 byte 2CH (Delimiter) “0” = Hi-Z, “1” = ON Ch2 Power 1 byte 1 byte 2CH (Delimiter) “0” = Nega, “1” = Posi Ch2 RGB Polarity 1 byte 1 byte...
Page 50: Slvds4 [20H 28H]: Lvds Data Registration
SLVDS4 [20H 28H]: LVDS data registration Function: This command registers the LVDS data of the designated program. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 51: Llvds4 [20H 29H]: Lvds Data Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.10 LLVDS4 [20H 29H]: LVDS data readout Function: This command reads the LVDS data of the designated program. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 52: Spts4 [20H 2Ah]: Pattern Select Data Registration
2.11 SPTS4 [20H 2AH]: Pattern select data registration Function: This command registers the pattern select data of the designated program. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 53 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS   DOTS CROSS CHARA Fig. 2-11-2...
Page 54: Lpts4 [20H 2Bh]: Pattern Select Data Readout
2.12 LPTS4 [20H 2BH]: Pattern select data readout Function: This command reads the pattern select data of the designated program. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 55: Spt4 [20H 2Ch]: Pattern Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.13 SPT4 [20H 2CH]: Pattern data registration Function: This command registers the pattern data of the designated program. It selects the pattern block to be set as a parameter and sends the corresponding data.
Page 56 Character data “0” = Character List, “1” = All 1 Chara, Character format 1 byte “2” = Corner & Center 1 byte 2CH (Delimiter) “0” = 5×7, “1” = 7×9, “2” = 16×16 Character font 1 byte 1 byte 2CH (Delimiter) “20”...
Page 57 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS Window data “0” = %, “1” = dot Window mode 1 byte 1 byte 2CH (Delimiter) “0” = 1Window, “1” = 4Window, “2” = 9Window, Format 1 or 2 bytes “3” = 16Window, “4” = 25Window, “5” = 64Window, “6”...
Page 58 2CH（Delimiter） 1 byte G Cursor 2Mode 1 to 5 byte "0" to "65535" 1 BYTE 2CH（Delimiter） B Cursor 2Mode 1 to 5 byte "0" to "65535" Fig. 2-13-9 Pattern name “0” = Name Type 1 byte “1” = TIM LIST “2”...
Page 59 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) “0” = Horizontal, “1” = Vertical, Direction H/V 1 byte “2” = Repeated horizontally, “3” = Repeated vertically 1 byte 2CH (Delimiter) “0” = None, “1” = R, “2” = G, “3” = RG, “4” = B, Color specification 1 byte ×...
Page 60 (11) Gray scale data “0” = Refer to the parameters Type 1 byte “1” = 8STEP-H “2” = 16STEP-H “3” = 32STEP-H “4” = 8STEP-V “5” = 16STEP-V “6” = 32STEP-V 1 byte 2CH (Delimiter) “0” = %, “1” = dot MODE 1 byte 1 byte...
Page 61 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS (12) Ramp data “0” = Refer to the parameters Type 1 byte “1” = LINEAR-H “2” = RGB1 “3” = TURN-H “4” = LINEAR-V “5” = RGB2 “6” = Invalid “7” = LINEAR-256 “8”...
Page 62 (13) Sweep data “1” = MBURST100 Type 1 byte “2” = MBURST50 “3” = SWEEP Fig. 2-13-14 (14) Monoscope data “1” = PR-133 Type 1 byte “2” = PR-133COL “3” = MONOSCOPE “4” = PHILIPS “5” = CHINA "6" = APDC “7”...
Page 63 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS (16) Checker data “1” = DOT×DOT Type 1 byte “2” = BLK×BLK “3” = SubPixel 1 byte 2CH (Delimiter) “1” to “8” Xsize of dot × dot 1 byte 1 byte 2CH (Delimiter) “1”...
Page 64 (18) Background color data “0” to “65535” 1 to 5 bytes 1 byte 2CH (Delimiter) “0” to “65535” 1 to 5 bytes 1 byte 2CH (Delimiter) “0” to “65535” 1 to 5 bytes 1 byte 2CH (Delimiter) “8” to “16” Edit Bit Mode 1 or 2 bytes Fig.
Page 65: Lpt4 [20H 2Dh]: Pattern Data Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.14 LPT4 [20H 2DH]: Pattern data readout Function: This command reads the pattern data of the designated program. It selects the pattern block to be set as a parameter and receives the corresponding data. When the program number is 0, it reads out the data from the buffer RAM.
Page 66 Character data 1 byte TRDT 1 byte “0” = Character List, “1” = All 1 Chara, Character format 1 byte “2” = Corner & Center 1 byte 2CH (Delimiter) “0” = 5×7, “1” = 7×9, “2” = 16×16 Character font 1 byte 1 byte 2CH (Delimiter)
Page 67 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS Burst data 1 byte TRDT 1 byte “0” = L → R, “1” = L ← R, “2” = L ← C → R Burst format 1 byte “3” = L → C ← R, “4” = T → B, “5” = T ← B “6”...
Page 68 Cursor data 1 byte TRDT 1 byte “0” = 5×5, “1” = Full cross, “2” = Vertical line Shape 1 byte “3” = dot 1 byte 2CH (Delimiter) “0” = None, “1” = 1 V, “2” = 2 V, “3” = 4 V, “4” = 8 V, Flicker 1 byte “5”...
Page 69 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS Pattern name 1 byte TRDT 1 byte “0” = Name Type 1 byte “1” = TIM LIST “2” = HDMI LIST “3” = HDCP LIST “4” = CEC “5” = DDC_CI “6” = EDID “7”...
Page 70 1 byte 2CH (Delimiter) “0” = None, “1” = R, “2” = G, “3” = RG, “4” = B, Color specification 1 byte × 16 “5” = RB, “6” = GB, “7” = RGB 1 byte 2CH (Delimiter) “0” to “1000” (0.0 to 100.0%) Level 0 1 to 4 bytes 1 byte...
Page 71 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” to “65535” Level 4 1 to 5 bytes 1 byte 2CH (Delimiter) “0” to “65535” Level 5 1 to 5 bytes 1 byte 2CH (Delimiter) “0” to “65535” Level 6 1 to 5 bytes 1 byte 2CH (Delimiter) “0”...
Page 72 “0” to “65535” Start level of gray scale 2 1 to 5 bytes 1 byte 2CH (Delimiter) “0” to “65535” End level of gray scale 2 1 to 5 bytes 1 byte 2CH (Delimiter) “1” to “8192” Number of line 2 1 to 4 bytes gradations 1 byte...
Page 73 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS (15) Raster data 1 byte TRDT 1 byte “0” = Refer to the parameters Type 1 byte “1” = White “2” = Red “3” = Green “4” = Blue “5” = Black “6”...
Page 74 (17) Optional pattern data 1 byte TRDT 1 byte “1” to “200” Internal optional pattern 1 to 3 bytes code 1 byte 2CH (Delimiter) “1” to “200” User optional pattern 1 to 3 bytes code 1 byte 2CH (Delimiter) “1” to “200” Image data code 1 to 3 bytes 1 byte...
Page 75: Sact4 [20H 2Eh]: Action Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.15 SACT4 [20H 2EH]: Action data registration Function: This command registers the action data of the designated program. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM.
Page 76 1 byte 2CH (Delimiter) “0” to “255” Group pattern interval 2 1 to 3 bytes 1 byte 2CH (Delimiter) “0” to “255” Group pattern interval 3 1 to 3 bytes 1 byte 2CH (Delimiter) “0” to “255” Group pattern interval 4 1 to 3 bytes 1 byte 2CH (Delimiter)
Page 77 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) “0” = User, “1” = 60i → 60i, “2” = 24p → 60i, Group pull-down mode 1 byte “3” = 25p → 50i, “4” = 30p → 60i 1 byte 2CH (Delimiter) “0”...
Page 78: Lact4 [20H 2Fh]: Action Data Readout
2.16 LACT4 [20H 2FH]: Action data readout Function: This command reads the action data of the designated program. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 79 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) “0” to “255” Character pattern step V2 1 to 3 bytes 1 byte 2CH (Delimiter) “0” to “255” Character pattern step V3 1 to 3 bytes 1 byte 2CH (Delimiter) “0”...
Page 80 “1” to “255” Window level change 1 to 3 bytes interval 1 byte 2CH (Delimiter) “1” to “255” Window level change 1 to 3 bytes step 1 byte 2CH (Delimiter) “0” = User, “1” = 60i → 60i, “2” = 24p → 60i, Character pull-down 1 byte “3”...
Page 81: Swlf4 [20H 30H]: Window Level Flicker Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.17 SWLF4 [20H 30H]: Window level flicker data registration Function: This command registers the window level flicker data of the designated program. When the program number is 0, it writes the data into the buffer RAM.
Page 82: Lwfl4 [20H 31H]: Window Level Flicker Data Readout
2.18 LWFL4 [20H 31H]: Window level flicker data readout Function: This command reads the window level flicker data of the designated program. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 83: Saad4 [20H 32H]: Audio Data Registration (Analog)
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.19 SAAD4 [20H 32H]: Audio data registration (Analog) Function: This command registers the audio data of the designated program No. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM.
Page 84: Laad4 [20H 33H]: Audio Data Readout (Analog)
2.20 LAAD4 [20H 33H]: Audio data readout (Analog) Function: This command reads the audio data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 85: Sdad4 [20H 34H]: Audio Data Registration (Digital)
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.21 SDAD4 [20H 34H]: Audio data registration (Digital) Function: This command registers the audio data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM.
Page 86 1 byte 2CH (Delimiter) “0” to “8388607” Audio Internal Level 5 1 to 7 bytes 1 byte 2CH (Delimiter) “0” to “8388607” Audio Internal Level 6 1 to 7 bytes 1 byte 2CH (Delimiter) “0” to “8388607” Audio Internal Level 7 1 to 7 bytes 1 byte 2CH (Delimiter)
Page 87: Ldad4 [20H 35H]: Audio Data Readout (Digital)
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.22 LDAD4 [20H 35H]: Audio data readout (Digital) Function: This command reads the audio data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 88 “0” to “8388607” Audio Internal Level 1 1 to 7 bytes 1 byte 2CH (Delimiter) “0” to “8388607” Audio Internal Level 2 1 to 7 bytes 1 byte 2CH (Delimiter) “0” to “8388607” Audio Internal Level 3 1 to 7 bytes 1 byte 2CH (Delimiter) “0”...
Page 89: Shdmi4 [20H 36H]: Hdmi Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.23 SHDMI4 [20H 36H]: HDMI data registration Function: This command registers the HDMI data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM.
Page 90: Lhdmi4 [20H 37H]: Hmdi Data Acquisition
2.24 LHDMI4 [20H 37H]: HMDI data acquisition Function: This command gets the HDMI data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out the data from the fixed data.
Page 91: Sif4 [20H 38H]: Infoframe Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.25 SIF4 [20H 38H]: InfoFrame data registration Function: This command registers the InfoFrame data of the designated program number. When the program number is 0, it writes the data into the buffer RAM.
Page 92 “0” = Unknown, “1” = Horiz, “2” = Vert, AVI Scaling 1 byte “3” = Horiz&Vert 1 byte 2CH (Delimiter) “0” = Default, “1” = Limited, “2” = Full AVI QuantRange 1 byte 1 byte 2CH (Delimiter) AVI ExtColor 1 byte "0"=xvYCC601 "1"=xvYCC709 "2"=sYCC601...
Page 93 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” = Refer, “1” = 32 kHz, “2” = 44.1 kHz, “3” = 48 kHz, Audio Sample Freq 1 byte “4” = 88.2 kHz, “5” = 96 kHz, “6” = 176.4 kHz, “7”...
Page 94: Lif4 [20H 39H]: Infoframe Data Acquisition
2.26 LIF4 [20H 39H]: InfoFrame data acquisition Function: This command gets the InfoFrame data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out the data from the fixed data.
Page 95 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” = No Data, “1” = 4:3, “2” = 16:9 AVI Picture Aspect 1 byte 1 byte 2CH (Delimiter) “0” = No Data AVI Colorimetry 1 byte “1” = SMPTE “2” = ITU709 "3"...
Page 96 1 byte 2CH (Delimiter) Audio Coding Type 1 byte "0"=Refer "1"=IEC60958 "2"=AC3 "3"=MPEG1 "4"=MP3 "5"=MPEG2 "6"=AAC "7"=DTS "8"=ATRAC "9"=DSD ISO/IEC 14496-3 "10"=E-AC-3 ATSC A/52B "11"=DTS-HD DVD Forum DTSHD "12"=MLP DVD Forum MLP "13"=DST ISO/IEC 14496-3 "14"=WMA Pro WMA Pro Decoder "15"=Refer to Audio Coding Extension Type 1 byte 2CH (Delimiter)
Page 97 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 BYTE 2CH (Delimiter) Data Byte 14 1 - 2 BYTE "0" - "FF" 1 BYTE 2CH (Delimiter) Data Byte 15 1 - 2 BYTE "0" - "FF" 1 BYTE 2CH (Delimiter) 1 byte Fig.
Page 98: Sacp4 [20H 3Ah]: Acp Data Registration
2.27 SACP4 [20H 3AH]: ACP data registration Function: This command registers the ACP data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 99 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” or “1” SACD A 1 byte 1 byte 2CH (Delimiter) “0” or “1” SACD S 1 byte 1 byte 2CH (Delimiter) “0” or “1” SACD U 1 byte 1 byte 2CH (Delimiter) “0”...
Page 100: Lacp4 [20H 3Bh]: Acp Data Acquisition
2.28 LACP4 [20H 3BH]: ACP data acquisition Function: This command gets the ACP data of the program whose number has been designated. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out the data from the fixed data.
Page 101 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “00000” to “99999” Recording (item) code 5 bytes 1 byte 2CH (Delimiter) “0” to “255” SACD Count_A 1 to 3 bytes 1 byte 2CH (Delimiter) “0” to “255” SACD Count_S 1 to 3 bytes 1 byte 2CH (Delimiter) “0”...
Page 102: Ssd4 [20H 3Ch]: Scart Data Registration
2.29 SSD4 [20H 3CH]: Scart data registration Function: This command registers the Scart data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 103: Lsd4 [20H 3Dh]: Scart Data Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.30 LSD4 [20H 3DH]: Scart data readout Function: This command reads the Scart data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 104: Spd4 [20H 3Eh]: Program Data Registration
2.31 SPD4 [20H 3EH]: Program data registration Function: This command registers all the data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 105 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 3BH (Delimiter 2) Optional pattern ? bytes Refer to Fig. 2-13-18. 1 byte 3BH (Delimiter 2) Background color ? bytes Refer to Fig. 2-13-19. 1 byte 3BH (Delimiter 2) Aspect ? bytes Refer to Fig.
Page 106: Lpd4 [20H 3Fh]: Program Data Readout
2.32 LPD4 [20H 3FH]: Program data readout Function: This command reads all the data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out the data from the fixed data.
Page 107 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 3BH (Delimiter 2) Monoscope ? bytes Refer to Fig. 2-13-15. 1 byte 3BH (Delimiter 2) Raster ? bytes Refer to Fig. 2-13-16. 1 byte 3BH (Delimiter 2) Checker ? bytes Refer to Fig.
Page 108: Smacrov4 [20H 40H]: Macrovision Data Registration
2.33 SMACROV4 [20H 40H]: Macrovision data registration Function: This command registers the Macrovision data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 109: Lmacrov4 [20H 41H]: Macrovision Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.34 LMACROV4 [20H 41H]: Macrovision data acquisition Function: This command gets the Macrovision data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM.
Page 110: Safd4 [20H 42H]: Afd Data Registration
2.35 SAFD4 [20H 42H]: AFD data registration Function: This command registers the AFD data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 111: Lafd4 [20H 43H]: Afd Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.36 LAFD4 [20H 43H]: AFD data acquisition Function: This command gets the AFD data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out the data from the fixed data.
Page 112: Scaption4 [20H 44H]: Closedcaption Data Registration
2.37 SCAPTION4 [20H 44H]: ClosedCaption data registration Function: This command registers the ClosedCaption data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 113: Lcaption4 [20H 45H]: Closedcaption Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.38 LCAPTION4 [20H 45H]: ClosedCaption data acquisition Function: This command gets the ClosedCaption data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM.
Page 114: Svchip4 [20H 46H]: V-Chip Data Registration
2.39 SVCHIP4 [20H 46H]: V-Chip data registration Function: This command registers the V-Chip data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 115: Lvchip4 [20H 47H]: V-Chip Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.40 LVCHIP4 [20H 47H]: V-Chip data acquisition Function: This command gets the V-Chip data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out the data from the fixed data.
Page 116: Sttext4 [20H 48H]: Teletext Data Registration
2.41 STTEXT4 [20H 48H]: TeleText data registration Function: This command registers the TeleText data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Command: 1 byte...
Page 117 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) 1 byte 2CH (Delimiter) “100” to “899” Channel 20 3 bytes 1 byte Fig. 2-41-1...
Page 118: Lttext4 [20H 49H]: Teletext Data Acquisition
2.42 LTTEXT4 [20H 49H]: TeleText data acquisition Function: This command gets the TeleText data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out the data from the fixed data.
Page 119 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) “0” = OFF, “1” = ON Data output line, line 23 1 byte 1 byte 2CH (Delimiter) “100” to “899” Channel 1 3 bytes 1 byte 2CH (Delimiter) “100”...
Page 120: Pnames4 [20H 4Ah]: Program Name Registration
2.43 PNAMES4 [20H 4AH]: Program name registration Function: This command registers the name of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 3 Command: 1 byte...
Page 121: Pnamer4 [20H 4Bh]: Program Name Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.44 PNAMER4 [20H 4BH]: Program name readout Function: This command gets the name of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out the data from the fixed data.
Page 122: Lped4 [20H 4Dh]: Program Enable Readout
2.45 LPED4 [20H 4DH]: Program enable readout Function: This command returns enable or disable for the file of the designated program number. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LPED4 2 bytes 20H 4DH “0” to “2000”, “9999” Program number 1 to 4 bytes 1 byte...
Page 123: Sat4 [20H 50H]: Auto Display Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.46 SAT4 [20H 50H]: Auto display data registration Function: This command registers the data for executing auto display. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte SAT4 2 bytes 20H 50H “0”...
Page 124: Lat4 [20H 51H]: Auto Display Data Readout
2.47 LAT4 [20H 51H]: Auto display data readout Function: This command receives the data for executing auto display. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LAT4 2 bytes 20H 51H 1 byte Fig. 2-47-1 Data: 1 byte TRDT 1 byte “0”...
Page 125: Sgroup4 [20H 52H]: Group Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.48 SGROUP4 [20H 52H]: Group data registration Function: This command registers the data of the designated group number. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte SGROUP4 2 bytes 20H 52H “1”...
Page 126: Lgroup4 [20H 53H]: Group Data Readout
2.49 LGROUP4 [20H 53H]: Group data readout Function: This command reads the data of the designated group number. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LGROUP4 2 bytes 20H 53H “1” to “99” Group No. 1 or 2 bytes 1 byte Fig.
Page 127: Scfg4 [20H 54H]: Config Data Registration
Parameter N setting ? bytes 1 byte Fig. 2-50-1 Concerning the identification codes Code Item Byte Value Supported VG Beep "0"=OFF, "1"=ON VG-870,VG-871,VG-873,VG-874, VG-876, VG-877,VG-880,VG-881, VG-882, VG-884 RS Speed "0"=9600, VG-870,VG-871,VG-873,VG-874, VG-876, "1"=19200, VG-877,VG-880,VG-881, VG-884 "2"=38400, "3"=57600, "4"=115200 RS Data Length "1"=8...
Page 128 VG-877,VG-881 Gate Way 2 "0" - "255" VG-870,VG-871,VG-873,VG-874, VG-876, VG-877,VG-881 Gate Way 3 "0" - "255" VG-870,VG-871,VG-873,VG-874, VG-876, VG-877,VG-881 Gate Way 4 "0" - "255" VG-870,VG-871,VG-873,VG-874, VG-876, VG-877,VG-881 Net Mask 1 "0" - "255" VG-870,VG-871,VG-873,VG-874, VG-876, VG-877,VG-881 Net Mask 2 "0"...
Page 129 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS HDMI AV Mute IF Change "0"=Normal Mode VG-870,VG-871,VG-873,VG-874, VG-876, "1"=Game Mode VG-877 CursTextMoveMode "0"=Normal VG-870,VG-871,VG-873,VG-874, VG-876, "1"=Move with Curs VG-877,VG-880, VG-882, VG-884 Mouse Speed "0" - "9" VG-870,VG-871,VG-873,VG-874, VG-876, VG-877 INC/DEC I/F Change VG-881 "0"=OFF、"1"=ON...
Page 130 "1"=20/22 "2"=21/23 "3"=22/24 CC Overlay Field 2 Line "0"=282/333 VG-870,VG-871,VG-873,VG-874 "1"=283/334 "2"=284/335 "3"=285/336 CF Program Folder No "0"=Pro4 folder VG-870,VG-871,VG-873,VG-874, VG-876, "1"-"999"=Prg4ext xxx folder VG-877 AV MUTE Mode "0"=Keeping Status "1"=Pulse VariableDotClock "10"-"50000" VG-870,VG-871 Chapter 7 SDI "0"=OFF, "1"=ON VG-876,VG-877...
Page 131 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS HDCP EDID CEC "0"=HDCP/EDID/CEC result VG-870,VG-871,VG-873,VG-874, VG-876, Check Mode multi-display is not displayed. VG-877,VG-882, VG-884 "1"=HDCP/EDID/CEC result multi-display is displayed. 40H-47H *12 HDCP-PcDVI VG-870,VG-871,VG-873,VG-874 HDCP-DVI 40H-47H *12 VG-870,VG-871,VG-873,VG-874 HDCP-HDMI 40H-7FH *13 VG-870,VG-871,VG-873,VG-874, VG-876,...
Page 132 Hotplug Detect "0"=refer Program VG-870,VG-871,VG-873,VG-874, VG-884 "1"=ON "2"=OFF Analize Port "0"=DP1 VG-870,VG-871,VG-873,VG-874, VG-876, "1"=DP2 VG-877, VG-884 Below is for VG-876 and 877. "2"=DP3 "3"=DP4 "4"=DP5 "5"=DP6 "6"=DP7 "7"=DP8 Link Sel Mode "0"=refer Program VG-870,VG-871,VG-873,VG-874, VG-876, "1"=Auto VG-877, VG-884 "2"=Manual “0”=disable, “1”=enable...
Page 133 "2"=Group Power ON Exe GrpNo "1" - "99" VG-870,VG-871,VG-873,VG-874, VG-876, VG-877, VG-880,VG-881,VG-882, VG-884 Power ON Exe PrgNo VG-870: "1" - "1000" VG-870,VG-871,VG-873,VG-874, VG-876, VG-880: "1" - "2000" VG-877, VG-880, VG-882, VG-884 Power ON Exe TimNo VG-870: "1001" - "2000" VG-870,VG-871,VG-873,VG-874, VG-876, VG-880: "1"...
Page 134 Note 2) transfer byte number (command + parameter) should be within 1024 bytes. If it is over 1024 bytes, it sends by several times by dividing the data. Note3) the KeyLock data cannot be sent out to both VG-870 and VG-880 together. The setting data is shown below.
Page 135 Note 2) transfer byte number (command + parameter) should be within 1024 bytes. If it is over 1024 bytes, it sends by several times by dividing the data. Note3) the KeyLock data cannot be sent out to both VG-870 and VG-880 together.
Page 136: Lcfg4 [20H 55H]: Config Data Readout
2.51 LCFG4 [20H 55H]: Config data readout Function: This command reads the system setting (config) data from the VG generator. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LCFG4 2 bytes 20H 55H 1 byte Fig. 2-51-1 Data: 1 byte TRDT 1 byte “0”...
Page 137: Sinb4 [20H 56H]: Black Insertion Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.52 SINB4 [20H 56H]: Black insertion data registration Function: This command registers the black insertion data of the designated program number When the program number is 0, it writes the data into the buffer RAM.
Page 138: Linb4 [20H 57H]: Black Insertion Data Readout
2.53 LINB4 [20H 57H]: Black insertion data readout Function: This command reads the black insertion data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 139: Scec4 [20H 58H]: Cec Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.54 SCEC4 [20H 58H]: CEC data registration Function: This command registers the CEC data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM.
Page 140 “0” = Port1 PortSel 1 byte “1” = Port2 (HDMI port specification) "2" = port3 * VG-882,883, 876 "3" = port4 * VG-882,883, 876 Below is for VG-876 "4" = port5, "5" = port6, "6" = port7 "7" = port8, "8"...
Page 141: Lcec [20H 59H]: Cec Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.55 LCEC [20H 59H]: CEC data acquisition Function: This command reads the CEC data of the designated program number. When the program number is 0, it reads out the data from the buffer RAM. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 142 1 byte 2CH (Delimiter) “0” = Port1 PortSel 1 byte “1” = Port2 (HDMI port specification) "2" = port3 * VG-882,883, 876 "3" = port4 * VG-882,883, 876 Below is for VG-876 "4" = port5, "5" = port6, "6" = port7 "7"...
Page 143: Lbed4 [20H 5Ah]: Bitmap Enable Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.56 LBED4 [20H 5AH]: Bitmap enable readout Function: This command reads enable or disable for the bitmap whose number has been designated. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LBED4 2 bytes 20H 5AH “1”...
Page 144: Loed4 [20H 5Bh]: User Option Enable Readout
2.57 LOED4 [20H 5BH]: User option enable readout Function: This command reads enable or disable for the designated user option number. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LOED4 2 bytes 20H 5BH “1” to “899” User option No. 1 to 3 bytes 1 byte Fig.
Page 145: Lged4 [20H 5Ch]: Group Enable Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.58 LGED4 [20H 5CH]: Group enable readout Function: This command reads enable or disable for the designated group number. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LOED4 2 bytes 20H 5BH “1”...
Page 146: Sccm4 [20H 5Dh]: User Subtitle Data Setting 1
2.59 SCCM4 [20H 5DH]: User subtitle data setting 1 Function: This command sets the mode and style data of the user subtitles. Sequence: Type 2 Parameters: 1 byte VG4CMD 1 byte SCCVC4 2 bytes 20H 5DH “1” to “20” User No. 1 or 2 bytes 1 byte 2CH (Delimiter)
Page 147: Lccm4 [20H 5Eh]: User Subtitle Data Acquisition 1
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.60 LCCM4 [20H 5EH]: User subtitle data acquisition 1 Function: This command gets the mode and style data of the user subtitles. Sequence: Type 3 Parameters: 1 byte VG4CMD 1 byte LCCM4 2 bytes 20H 5EH “1”...
Page 148: Sccd4 [20H 5Fh]: User Subtitle Data Setting 2
2.61 SCCD4 [20H 5FH]: User subtitle data setting 2 Function: This command sets the data of the user subtitles. Sequence: Type 2 Parameters: 1 byte VG4CMD 1 byte SCCVC4 2 bytes 20H 5FH “1” to “20” User No. 1 or 2 bytes 1 byte 2CH (Delimiter) “0”...
Page 149 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) “0” = OFF Underline 1 byte “1” = ON 1 byte 2CH (Delimiter) “0” = OFF Italic 1 byte “1” = ON 1 byte 2CH (Delimiter) “0” = OFF Flash 1 byte “1”...
Page 150: Lccd4 [20H 60H]: User Subtitle Data Acquisition 2
2.62 LCCD4 [20H 60H]: User subtitle data acquisition 2 Function: This command gets the user subtitle data. Sequence: Type 3 Parameters: 1 byte VG4CMD 1 byte LCCM4 2 bytes 20H 60H “1” to “20” User No. 1 or 2 bytes 1 byte 2CH (Delimiter) “0”...
Page 151 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) “0” = OFF Underline 1 byte “1” = ON 1 byte 2CH (Delimiter) “0” = OFF Italic 1 byte “1” = ON 1 byte 2CH (Delimiter) “0” = OFF Flash 1 byte “1”...
Page 152: Sgm4 [20H 61H]: Gamutmeta Data Registration
2.63 SGM4 [20H 61H]: GamutMeta data registration Function: This command registers the GamutMeta data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters: 1 byte...
Page 153 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” = Reserved GBD_Color_Space_ 1 byte “1” = xvYCC601 Range “2” = xvYCC709 “3” = Reserved 1 byte 2CH (Delimiter) Byte 0 is a sign code: “0” for + or “1” for - Packeted_Range_Data 2 to 11 byte (MinRedData)
Page 154: Lgm4 [20H 62H]: Gamutmeta Data Acquisition
2.64 LGM4 [20H 62H]: GamutMeta data acquisition Function: This command gets the GamutMeta data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data. When the program number is 9999, the command reads the data from the command work RAM.
Page 155 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) “0” to “4095” *2 Packeted_GBD_Vertices 1 to 4 bytes _Data 1 byte 2CH (Delimiter) “0” = Reserved GBD_Color_Space_ 1 byte “1” = xvYCC601 Range “2” = xvYCC709 “3” = Reserved 1 byte 2CH (Delimiter) Byte 0 is a sign code: “0”...
Page 156: Sls4 [20H 63H]: Lipsync Data Setting
2.65 SLS4 [20H 63H]: LipSync data setting Function: This command sets the LipSync data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters:...
Page 157: Lls4 [20H 64H]: Lipsync Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.66 LLS4 [20H 64H]: LipSync data acquisition Function: This command gets the LipSync data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 158: Shps4 [20H 65H]: 0.5/0.25-Pixel Scroll Data Setting
2.67 SHPS4 [20H 65H]: 0.5/0.25-pixel scroll data setting Function: This command sets the 0.5- or 0.25-pixel scroll data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM.
Page 159: Lhps4 [20H 66H]: 0.5/0.25-Pixel Scroll Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.68 LHPS4 [20H 66H]: 0.5/0.25-pixel scroll data acquisition Function: This command gets the 0.5- or 0.25-pixel scroll data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 160: Sddcci4 [20H 67H]: Ddc/Ci Data Setting
2.69 SDDCCI4 [20H 67H]: DDC/CI data setting Function: This command sets the DDC/CI data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters: 1 byte...
Page 161: Lddcci4 [20H 68H]: Ddc/Ci Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.70 LDDCCI4 [20H 68H]: DDC/CI data acquisition Function: This command gets the DDC/CI data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 162: Sep4 [20H 69H]: Edid Port Data Setting
2.71 SEP4 [20H 69H]: EDID port data setting Function: This command sets the EDID port data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters: 1 byte...
Page 163: Lep4 [20H 6Ah]: Edid Port Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.72 LEP4 [20H 6AH]: EDID port data acquisition Function: This command gets the EDID port data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 164: Scgms4 [20H 6Bh]: Cgms Data Setting
2.73 SCGMS4 [20H 6BH]: CGMS data setting Function: This command sets the CGMS data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters: 1 byte...
Page 165: Lcgms4 [20H 6Ch]: Cgms Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.74 LCGMS4 [20H 6CH]: CGMS data acquisition Function: This command gets the CGMS data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 166: Sap4 [20H 6Dh]: Aspect Ratio Data Setting
2.75 SAP4 [20H 6DH]: Aspect ratio data setting Function: This command sets the aspect ratio data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters: 1 byte...
Page 167: Lap4 [20H 6Eh]: Aspect Ratio Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.76 LAP4 [20H 6EH]: Aspect ratio data acquisition Function: This command gets the aspect ratio data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 168: Swss4 [20H 6Fh]: Wss Data Setting
2.77 SWSS4 [20H 6FH]: WSS data setting Function: This command sets the WSS data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters: 1 byte...
Page 169: Lwss4 [20H 70H]: Wss Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.78 LWSS4 [20H 70H]: WSS data acquisition Function: This command gets the WSS data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 170: Sid14 [20H 71H]: Id1 Data Setting
2.79 SID14 [20H 71H]: ID1 data setting Function: This command sets the ID1 data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters: 1 byte...
Page 171: Lid14 [20H 72H]: Id1 Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.80 LID14 [20H 72H]: ID1 data acquisition Function: This command gets the ID1 data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 172: Skeyl4 [20H 73H]: Key Lock Data Registration
Fig. 2-81-1 Concerning the identification codes Code Item Byte Value * Key lock items for VG-870 and 871 generators “0” = OFF, “1” = LOCK Key Lock Color “0” = OFF, “1” = LOCK Key Lock Gray “0” = OFF, “1” = LOCK Key Lock RAMP “0”...
Page 173 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” = OFF, “1” = LOCK Key Lock Level “0” = OFF, “1” = LOCK Key Lock R “0” = OFF, “1” = LOCK Key Lock G “0” = OFF, “1” = LOCK Key Lock B “0”...
Page 174 “0” = OFF, “1” = LOCK Key Lock VS “0” = OFF, “1” = LOCK Key Lock GS “0” = OFF, “1” = LOCK Key Lock YPbPr “0” = OFF, “1” = LOCK Key Lock MUTE “0” = OFF, “1” = LOCK Key Lock PROG “0”...
Page 175 Key Lock TIM/PAT (for VG-883) Remote control keys Key lock for remote control keys is same as VG-870 setting. Fig. 2-81-2 * This command sends only the above-listed key lock data of the system settings. * The data is prepared on the basis of the SCFG4 [20H 54H] config data registration...
Page 176: Lkeyl4 [20H 74H]: Key Lock Data Readout
2.82 LKEYL4 [20H 74H]: Key lock data readout Function: This command reads the key lock data of the system settings (config) from the VG generator. * This command is supported only by the VG-880 generator. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LKEYL4...
Page 177: Lpdf4 [20H 75H]: Program Format Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.83 LPDF4 [20H 75H]: Program format readout Function: This command reads whether the designated program number has either timing only or pattern only from the VG generator. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LPDF4...
Page 178: Smb4 [20H 76H]: Motion Blur Data Setting
2.84 SMB4 [20H 76H]: Motion Blur data setting Function: This command sets the Motion Blur data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters: 1 byte...
Page 179 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) “0” to “65535” 1 to 5 bytes 1 byte 2CH (Delimiter) “0” to “65535” 1 to 5 bytes 1 byte 2CH（Delimiter） Distance of 2 pair motion 1 to 3 bytes "0"...
Page 180: Lmb4 [20H 77H]: Motion Blur Data Acquisition
2.85 LMB4 [20H 77H]: Motion Blur data acquisition Function: This command gets the Motion Blur data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data. When the program number is 9999, the command reads the data from the command work RAM.
Page 181 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “0” to “65535” 1 to 5 bytes 1 byte 2CH (Delimiter) “0” to “255” v Speed 1 to 3 bytes 1 byte 2CH (Delimiter) “0” to “65535” 1 to 5 bytes 1 byte 2CH (Delimiter) “0”...
Page 182: Sdp4 [20H 78H]: Displayport Data Setting
2.86 SDP4 [20H 78H]: DisplayPort data setting Function: This command sets the DisplayPort data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters: 1 byte...
Page 183 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS Fixed at “28” Reserved 8 2 bytes 1 byte 2CH (Delimiter) Nvid 1 to 7 bytes "1" to "1667216" 1 byte 2CH (Delimiter) SSC ON/OFF 1 byte "0"=OFF "1"=ON 1 byte 2CH (Delimiter) Fixed at “1”...
Page 184: Ldp4 [20H 79H]: Displayport Data Acquisition
2.87 LDP4 [20H 79H]: DisplayPort data acquisition Function: This command gets the DisplayPort data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data. When the program number is 9999, the command reads the data from the command work RAM.
Page 185 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS "0"=1 lane Number of Lane 1 byte "1"=2 lanes "2"=4 lanes 1 byte 2CH (Delimiter) Fixed at “28” Reserved 8 2 bytes 1 byte 2CH (Delimiter) Nvid 1 to 7 bytes "1" to "1667216" 1 byte 2CH (Delimiter) SSC ON/OFF...
Page 186: Sss4 [20H 7Ah]: Scroll Sequence Data Setting
2.88 SSS4 [20H 7AH]: Scroll Sequence data setting Function: This command sets the Scroll Sequence data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM. Sequence: Type 2 Parameters:...
Page 187: Lss4 [20H 7Bh]: Scroll Sequence Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.89 LSS4 [20H 7BH]: Scroll Sequence data acquisition Function: This command gets the Scroll Sequence data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 188 “0” = Left , “1” = Right, “2” = Up, 1 byte “3” = Down, “4” = Top left, “5” = Bottom left, “6” = Top right, “7” = Bottom right 1 byte Fig. 2-89-2...
Page 189: Sdplp4 [20H 7Ch]: Dp List Port Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.90 SDPLP4 [20H 7CH]: DP List Port data setting Function: This command sets the DidplayPort List Port data of the designated program number. When the program number is 0, it writes the data into the buffer RAM.
Page 190: Ldplp4 [20H 7Dh]: Dp List Port Data Acquisition
2.91 LDPLP4 [20H 7DH]: DP List Port data acquisition Function: This command gets the DisplayPort List Port data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data. When the program number is 9999, the command reads the data from the command work RAM.
Page 191: Svif4 [20H 7Eh]: Vendor Specific Infoframe Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.92 SVIF4 [20H 7EH]: Vendor Specific InfoFrame data setting Function: This command sets the Vendor Specific InfoFrame data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. When it is 9999, it writes the data into the command work RAM.
Page 192 3D Meta Present 1 BYTE "0"=no meta data "1"= have meta data 1 BYTE 2CH (Delimiter) 3D Meta Type 1 BYTE Fixed at "0" 1 BYTE 2CH (Delimiter) 3D Meta DataLength 1 to 2 BYTE "0" to "21" 1 BYTE 2CH (Delimiter) 3D Meta Data1 2 BYTE...
Page 193: Lvif4 [20H 7Fh]: Vendor Specific Infoframe Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.93 LVIF4 [20H 7FH]: Vendor Specific InfoFrame data acquisition Function: This command gets the Vendor Specific InfoFrame data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data.
Page 194 "0"=HorSubSampling (O/L,O/R) "1"=HorSubSampling (O/L,E/R) "2"=HorSubSampling (E/L,O/R) "3"=HorSubSampling (E/L,E/R) "4"=Quincunx Matrix(O/L,O/R) 3D Extension 1 BYTE "5"=Quincunx Matrix(O/L,E/R) "6"=Quincunx Matrix(E/L,O/R) "7"=Quincunx Matrix(E/L,E/R) Note) these are effective when 3D structure="6". 1 BYTE 2CH (Delimiter) 3D Meta Present 1 BYTE "0"=no meta data "1"= have meta data 1 BYTE 2CH (Delimiter) 3D Meta Type...
Page 195: Snif4 [20H 80H]: Ntsc Vbi Infoframe Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.94 SNIF4 [20H 80H]: NTSC VBI InfoFrame data setting Function: This command sets the NTSC VBI InfoFrame data of the designated program number. When the program number is 0, it writes the data into the buffer RAM.
Page 196: Lnif4 [20H 81H]: Ntsc Vbi Infoframe Data Acquisition
2.95 LNIF4 [20H 81H]: NTSC VBI InfoFrame data acquisition Function: This command gets the NTSC VBI InfoFrame data of the designated program number. When the program has any number from 1001 to 2000, the command reads out from the fixed data. When the program number is 9999, the command reads the data from the command work RAM.
Page 197: Lted4 [20H 82H] : Subtitle Image Enable Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.96 LTED4 [20H 82H] : Subtitle image enable readout. Function : This command read the data of enable(display) or disable(not display) setting of indicated Subtitle image No. Sequence : Type 3 STX～ETX ACK or STX+TRDT+DATA+ETX STX+ESTS+ERROR CODE+ETX...
Page 198: Lidno4 [20H 83H] : Serial No. Readout
2.97 LIDNO4 [20H 83H] : Serial No. readout. Function This command gets the serial No. of VG which is connected. Sequence : Type 3 STX～ETX ACK or STX+TRDT+DATA+ETX STX+ESTS+ERROR CODE+ETX Command ： 1 BYTE VG4CMD 1 BYTE LIDNO4 2 BYTE 20H 83H 1 BYTE Fig.
Page 199: S9Marker4 [20H 8Bh] : Opt 9 Marker Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.98 S9Marker4 [20H 8BH] : OPT 9 Marker data setting. ： This command set the Option 9 Marker data of the indicated program No. The data is Function saved in Buffer RAM temporally in case of program No.0. The data is saved in this RAM will be disappeared when VG power is turned off.
Page 200 line / horizontal line. 1 BYTE 2CH（Delimiter） The center coordinates Y of 1 to 4 BYTE "0" to "4095" Vertical / Horizontal line. 2CH（Delimiter） 1 BYTE The color of Vertical line / 1 to 5 BYTE "0" to "65535" horizontal line R 1 BYTE 2CH（Delimiter）...
Page 201: L9Marker4［20H 8Ch］:Opt 9 Marker Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS L9Marker4 ［20H 8CH］ :OPT 9 Marker data acquisition 2.99 Function : This command gets the data of Option 9Marker of the indicated program No. In case NO.1001 to 2000 program, original data of VG is read. In case NO.9999, the data is read out from command work ROM.
Page 202 horizontal line. 1 BYTE 2CH（Delimiter） Center coordinates 1 to 4 BYTE "0" to "4095" vertical line / horizontal line. 2CH（Delimiter） 1 BYTE The center coordinates Y of 1 to 4 BYTE "0" to "4095" Vertical / Horizontal line. 1 BYTE 2CH（Delimiter）...
Page 203: Stelop4 [20H 91H] : Subtitle Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.100 STELOP4 [20H 91H] : Subtitle data setting. Function : This command sets subtitle data of the indicated program No. In case, program No.0, this data is saved in Buffer RAM temporally in case, NO.9999, the data is recorded in command work RAM.
Page 204: Ltelop4 [20H 92H] : Subtitle Data Acquisition
2.101 LTELOP4 [20H 92H] : Subtitle data acquisition. Function This command gets the Subtitle data of the indicated program. In case NO.1001 to 2000, the data is read out from original program data of VG. In case,NO.9999, the data is read out from command workRAM.
Page 205: Sitmds4 [20H 93H] : Itmds Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.102 SITMDS4 [20H 93H] : iTMDS data setting. Function : This command sets iTMDS data of the indicated program. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 206 * This command is active when “iTMDS 240Hz enable” setting is enable. * This command is active only when Dual Link Mode is Quad(8bit) or Octal (8bit). 1 BYTE 2CH（Delimiter） “0”=disable, “1”=enable OCT MUX 1 BYTE 1 BYTE Fig2-102-1...
Page 207: Litmds4 [20H 94H] : Itmds Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.103 LITMDS4 [20H 94H] : iTMDS data acquisition. Function : This command gets iTMDS data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 208 “3” Dividing normal mode “4” Dividing cross mode “5” No split * This command is active when “iTMDS 240Hz enable” setting is enable. * This command is active only when Dual Link Mode is Quad(8bit) or Octal (8bit). 1 BYTE 2CH（Delimiter）...
Page 209: Svbo4 [20H 97H] : Vbyone Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.104 SVBO4 [20H 97H] : VbyOne data setting Function : This command gets VbyOne data of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 210 * This command is active when lane number is 8 or 16. 1 BYTE 2CH（Delimiter） 3D Flag 1 BYTE "0"=2D Mode "1"=3D Mode 1 BYTE Fig 2-104-1 * This command is ignored by VG-876. Refer to "SDIV4 [20H BDH] : DotClk Mode settin" about Split mode of VG-876 is...
Page 211: Lvbo4 [20H 98H] : Vbyone Data Aquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.105 LVBO4 [20H 98H] : VbyOne data aquisition Function : This command gets VbyOne data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 212 Note) this command is active when “240Hz enable” setting is enable. This command is active when Lane number is set as 8 or 16 lanes. 1 BYTE 2CH（Delimiter） 3D Flag 1 BYTE "0"=2D Mode "1"=3D Mode 1 BYTE Fig 2-105-2...
Page 213: Shdmisw4 [20H 99H ] : Hdmi Sw Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.106 SHDMISW4 [20H 99H ] : HDMI SW data setting Function : This command gets HDMI SW data of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 214: Lhdmisw4［20H 9Ah］：Hdmi Sw Data Aquisition
2.107 LHDMISW4［20H 9AH］：HDMI SW data aquisition Function : This command gets VbyOne data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM. Sequence : TYPE 3 STX～ETX...
Page 215: Stpkey4 [20H 9Bh] : Key Information Of Timing And Pattern Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.108 STPKEY4 [20H 9BH] : Key information of Timing and Pattern data registration Function : This command registers key information of Timing and Pattern of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case , No.2001-2010, the data is saved in the Internal memory.
Page 216: Ltpkey4 [20H 9Ch] : Key Information Of Timing And Pattern Data Readout
2.109 LTPKEY4 [20H 9CH] : Key information of Timing and Pattern data readout Function: This command reads the Key information of Timing and Pattern data of the indicated program. In case, program No.0, the data is read out from buffer RAM. In case , No.2001-2010, the data is read out from the Internal memory.
Page 217: Slgrp5 [20H 9Fh] : Large Group Data Registration
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.110 SLGRP5 [20H 9FH] : Large group data registration Function : This command registers indicated large group No. data. Sequence : TYPE2 STX～ETX ACK or STX+ESTS+ERROR CODE+ETX Command: 1 BYTE VG4CMD 1 BYTE SLGRP5 2 BYTE 20H 9FH...
Page 218 1 BYTE 2CH (Delimiter) Execution sequence No. 1-2 BYTE "1"-"12" #4-2 1 BYTE 2CH (Delimiter) Small group No. 1-2 BYTE "0"-"99" ("0"=unregistered) 1 BYTE 2CH (Delimiter) Execution sequence No. 1-2 BYTE "1"-"12" #4-3 1 BYTE 2CH (Delimiter) Small group No. 1-2 BYTE "0"-"99"...
Page 219: Llgrp5 [20H A0H] : Large Group Data Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.111 LLGRP5 [20H A0H] : Large group data readout Function : This command reads out indicated large group No. data. Sequence : TYPE3 STX～ETX ACK or STX+TRDT+DATA+ETX STX+ESTS+ERROR CODE+ETX Command : 1 BYTE VG4CMD 1 BYTE LLGRP5...
Page 220 "1"-"5" "1"=HDMI "2"=HDMI & VGA Board Type 1 BYTE "3"=TVAnalog(YPbPr) "4"=TVAnalog(D5) "5"=Scart Note) 0 is invalid. 1 BYTE 2CH (Delimiter) Execution sequence No. 1-2 BYTE "1"-"12" #4-1 1 BYTE 2CH (Delimiter) Small group No. 1-2 BYTE "0"-"99" ("0"=unregistered) 1 BYTE 2CH (Delimiter) Execution sequence No.
Page 221: Llged5 [20H A1H] : Large Group Enable Readout
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.112 LLGED5 [20H A1H] : Large group enable readout Function This command reads out enable or disable setting of the indicated large group No. data. Sequence : TYPE3 STX～ETX ACK or STX+TRDT+DATA+ETX STX+ESTS+Error code+ETX Command : 1 BYTE...
Page 222: Lgdel5 [20H A2H] : Delete Large Group Data
2.113 LGDEL5 [20H A2H] : Delete Large group data Function This command deletes the indicated large group data. Sequence : TYPE 2 STX～ETX ACK or STX+ESTS+ERROR CODE+ETX Command : 1 BYTE VG4CMD 1 BYTE LGDEL5 2 BYTE 20H A2H Top of deleting data No. 1-2 BYTE "1""99"...
Page 223: Ssdi4 [20H A3H] : Sdi Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.114 SSDI4 [20H A3H] : SDI data setting Function : This command gets SDI data of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 224 1 BYTE 2CH (Delimiter) “0”=Auto, “1”=Manual Manual Payload ID 1 BYTE 2CH (Delimiter) “00”-“FF” Payload ID Byte1 1-2 BYTE 1 BYTE 2CH (Delimiter) “0”=1, “1”=2, “2”=3, “3”=4 Channel Assignment 1 1 BYTE Below is available only for VG-876. "4"=5 "5"=6 "6"=7 "7"=8 1 BYTE...
Page 225: Lsdi4 [20H A4H] : Sdi Data Aquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.115 LSDI4 [20H A4H] : SDI data aquisition Function : This command gets SDI data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM. Sequence : TYPE 3 STX～ETX...
Page 226 DynamicRange 1 BYTE "0"=100% "1"=200% "2"=400% 1 BYTE 2CH (Delimiter) BitDepth 1 BYTE "0"=8bit "1"=10bit "2"=12bit 1 BYTE 2CH (Delimiter) Payload H YSampling 1 BYTE "0"-"1" 1 BYTE 2CH (Delimiter) “0”=Auto, “1”=Manual Manual Payload ID 1 BYTE 2CH (Delimiter) “00”-“FF” Payload ID Byte1 1-2 BYTE 1 BYTE...
Page 227: Shan4 [20H A5H] : N Value Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.116 SHAN4 [20H A5H] : N value data setting Function : This command sets N value of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 228: Lhan4 [20H A6H] : N Value Data Aquisition
2.117 LHAN4 [20H A6H] : N value data aquisition Function : This command gets N value of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 229: S3Dpat4［20H A9H］ :Opt 3D Pattern Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.118 S3DPAT4［20H A9H］ :OPT 3D pattern data setting Function : This command sets OPT 3D pattern data of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 230 Level R 1-3 BYTE "0"-"100"% (When L or R is set ON) 1 BYTE 2CH (Delimiter) OutputMode 1 BYTE "0"=3D Structure "1"=Frame Sequential 1 BYTE 2CH (Delimiter) Bit Mode 1-2 BYTE "8"-"16" 1 BYTE 2CH (Delimiter) LeftColor R 1-5 BYTE "0"-"65535"...
Page 231 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 BYTE 2CH (Delimiter) HPosR 1-3 BYTE "0"-"100"% 1 BYTE 2CH (Delimiter) VPosR 1-3 BYTE "0"-"100"% 1 BYTE Fig 2-118-1...
Page 232: L3Dpat4［20H Aah］ :Opt 3D Pattern Data Aquisition
2.119 L3DPAT4［20H AAH］ :OPT 3D pattern data aquisition Function This command gets OPT 3D pattern data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM. Sequence : TYPE 3 STX～ETX...
Page 233 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 BYTE 2CH (Delimiter) Color G 1-3 BYTE "0"-"255" (When L or R is set OFF) 1 BYTE 2CH (Delimiter) Color B 1-3 BYTE "0"-"255" (When L or R is set OFF) 1 BYTE 2CH (Delimiter) Level L...
Page 234 "2"=30° … "11"=165° 1 BYTE 2CH (Delimiter) SubSampling 1 BYTE "0"=Not use, "1"=Use 1 BYTE 2CH (Delimiter) Real Circle 1 BYTE "0"=Not use, "1"=Use 1 BYTE 2CH (Delimiter) VerBarWidth 1-2 BYTE "1"-"16" 1 BYTE 2CH (Delimiter) HPosR 1-3 BYTE "0"-"100"% 1 BYTE 2CH (Delimiter) VPosR...
Page 235: Sarc4 [20H Abh] :Hdmi Arc Pattern Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.120 SARC4 [20H ABH] :HDMI ARC pattern data setting Function : This command sets HDMI ARC pattern data of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 236: Larc4 [20H Ach] :Hdmi Arc Pattern Data Aquisition
2.121 LARC4 [20H ACH] :HDMI ARC pattern data aquisition Function : This command gets HDMI ARC pattern data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 237: Sheca4 [20H Adh] :Hdcp, Edid, Cec, Hdmi Arc On/Off Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.122 SHECA4 [20H ADH] :HDCP, EDID, CEC, HDMI ARC ON/OFF data setting Function : This command sets HDCP, EDID, CEC, HDMI ARC ON/OFF data of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 238: Lheca4 [20H Aeh] :Hdcp, Edid, Cec, Hdmi Arc On/Off Data Aquisition
2.123 LHECA4 [20H AEH] :HDCP, EDID, CEC, HDMI ARC ON/OFF data aquisition Function : This command gets HDCP, EDID, CEC, HDMI ARC ON/OFF data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 239: Stm4 [20H Afh] :Transmission Mode Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.124 STM4 [20H AFH] :Transmission Mode data setting : This command sets Transmission Mode data of the indicated program No. In case, Function program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 240: Ltm4 [20H B0H] :Transmission Mode Data Aquisition
2.125 LTM4 [20H B0H] :Transmission Mode data aquisition Function : This command gets Transmission Mode data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM. Sequence : TYPE 3 STX～ETX...
Page 241: Shec4 [20H B1H] : Hdmi Hec Data Setting
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.126 SHEC4 [20H B1H] : HDMI HEC data setting Function : This command sets HDMI CEC data of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM.
Page 242 [0]upper 2 digits [1]lower 2 digits 1 BYTE 2CH (Delimiter) Report State "0000"-"FFFF" TargetDevPa 4 BYTE [0]upper 2 digits [1]lower 2 digits 1 BYTE 2CH (Delimiter) "0"= HEC Not Support "1"= HEC Inactive HEC Func State 1 BYTE "2"= HEC Active "3"= HEC Activation Field ，...
Page 243: Lhec4 [20H B2H] : Hdmi Hec Data Aquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.127 LHEC4 [20H B2H] : HDMI HEC data aquisition Function : This command gets Transmission Mode data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 244 1 BYTE 2CH (Delimiter) Target Logical Address 1 BYTE "0"-"F" 1 BYTE 2CH (Delimiter) Inquire State "0000"-"FFFF" TermDevPa1 4 BYTE [0]upper 2 digits [1]lower 2 digits 1 BYTE 2CH (Delimiter) "0000"-"FFFF" TermDevPa2 4 BYTE [0]upper 2 digits [1]lower 2 digits 1 BYTE 2CH (Delimiter) Report State...
Page 245 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS SndInterval3 1 BYTE "0"-"70" 1 BYTE 2CH (Delimiter) SendTime 1 BYTE "1"-"10" 1 BYTE Fig 2-127-2...
Page 246: Ssmd3D4［20H B3H］ :Smd 3D Pattern Data Setting
2.128 SSMD3D4［20H B3H］ :SMD 3D Pattern data setting Function : This command sets SMD 3D pattern data of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM. Sequence : TYPE2 STX～ETX ACK or...
Page 247: Lsmd3D4 [20H B4H] : Smd 3D Pattern Data Aquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.129 LSMD3D4 [20H B4H] : SMD 3D pattern data aquisition Function : This command gets SMD 3D pattern data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 248: S3Dimg4［20H B5H］ :3D Image Pattern Data Setting
2.130 S3DIMG4［20H B5H］ :3D Image pattern data setting Function : This command gets 3D Image pattern data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM. Sequence : TYPE 3 STX～ETX...
Page 249 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS OutputMode 1 BYTE "0"=3D Structure "1"=Frame Sequential 1 BYTE 2CH (Delimiter) "0"=OFF LRDisp 1 BYTE "1"= Display on top "2"= Display in center 1 BYTE 2CH (Delimiter) LRBlackBack 1 BYTE "0"=Not use "1"=Use 1 BYTE 2CH (Delimiter) SubSampling...
Page 250: L3Dimg4 [20H B5H] :3D Image Pattern Data Aquisition
2.131 L3DIMG4 [20H B5H] :3D Image pattern data aquisition Function : This command gets 3D Image pattern data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 251 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS (When L/R is OFF) 1 BYTE 2CH (Delimiter) Level L 1-3 BYTE "0"-"100"% (When L/R is ON) 1 BYTE 2CH (Delimiter) Level R 1～3 BYTE "0"-"100"% (When L/R is ON) 1 BYTE 2CH (Delimiter) OutputMode 1 BYTE...
Page 252: Scon4 [20H Bbh] : Output Terminal Setting
1 BYTE Fig. 0-1 * About output terminal code, refer to Fig.2-132-2 for VG-870, 871 and 880. Refer to Fig. 2-132-3 for VG-882 and VG-883. Refer to Fig. 2-132-4 for VG-884. Refer to Fig.2-132-5 for VG-876. * If the output terminal code that does not exist in VG, it is ignored.
Page 253 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS About output terminal code: *VG-870, 871 and 880 Code Terminal PC-BNC PC-DSub DVI-A DVI-D S-Connector D-Connector TV-DSub Scart-1 Scart-2 HDMI-1 HDMI-2 DVI-D1 DVI-D2 LVDS-1 LVDS-2 LVDS-3 LVDS-4 Parallel-1 Parallel-2 Parallel-3 Parallel-4 TV-DVI Digital...
Page 254 * VG-884 Code Terminal HDMI 1 HDMI 2 DP 1 DP 2 YPbPr CVBS Fig. 0-4 * VG-876 Code Code Terminal Terminal HDMI-1 SDI-1 HDMI-2 SDI-2 HDMI-3 SDI-3 HDMI-4 SDI-4 HDMI-5 SDI-5 HDMI-6 SDI-6 HDMI-7 SDI-7 HDMI-8 SDI-8 HDMI-9 SDI-9 HDMI-10 SDI-10 HDMI-11...
Page 255: Lcon4 [20H Bch] : Output Terminal Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.133 LCON4 [20H BCH] : Output terminal acquisition Function This command gets Output terminal data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 256: Sdiv4 [20H Bdh] : Dotclk Mode Data Setting
2.134 SDIV4 [20H BDH] : DotClk Mode Data setting Function : This command sets Dot Clock Mode data of the indicated program No. In case, program No.0, the data is saved in buffer RAM temporally. In case, NO.9999, the data is saved in command work RAM. Sequence : TYPE2 STX-ETX...
Page 257: Ldiv4 [20H Beh] : Dotclk Mode Data Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.135 LDIV4 [20H BEH] : DotClk Mode Data Acquisition Function : This command gets Dot Clock Mode data of the indicated program No. In case program NO.1001 to 2000, the VG original data is read out. In case ,NO.9999, the data is read out from command work RAM.
Page 258: Expdn4 [24H 20H]: Program Data Execution
2.136 EXPDN4 [24H 20H]: Program data execution Function: This command designates the program number and executes the program. When the program number is 9999, it executes the data written in the command work RAM. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte EXPDN4...
Page 259: Indc4 [24H 21H]: Program No. Incrementing / Decrementing
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.137 INDC4 [24H 21H]: Program No. incrementing / decrementing Function: This command increments or decrements the program number (or timing or pattern number), and executes the program. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte INDC4...
Page 260: Exbn4 [24H 22H]: Buffer Ram Program Execution
2.138 EXBN4 [24H 22H]: Buffer RAM program execution Function: This command executes the programs in the current buffer RAM. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte EXBN4 2 bytes 24H 22H 1 byte Fig. 2-138-1...
Page 261: Inibuf 4 [24H 23H]: Work Ram Data Initialization
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.139 INIBUF 4 [24H 23H]: Work RAM data initialization Function: This command initializes the programs in the command work RAM using the data of the program whose number has been designated. Sequence: Type 2 Command: 1 byte VG4CMD...
Page 262: Savbuf 4 [24H 24H]: Work Ram Data Registration
2.140 SAVBUF 4 [24H 24H]: Work RAM data registration Function: This command registers the programs in the command work RAM on the memory card. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte SAVBUF4 2 bytes 24H 24H “1” to “1000” Program number 1 to 4 bytes 1 byte...
Page 263: Exsync4 [24H 25H]: Separate Sync On/Off
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.141 EXSYNC4 [24H 25H]: Separate sync ON/OFF Function: This command sets each of the HS, VS and CS sync signals to ON or OFF. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte EXSYNC4 2 bytes 24H 25H...
Page 264: Cursor4 [24H 26H]: Cursor Pattern Control
2.142 CURSOR4 [24H 26H]: Cursor pattern control Function: This command controls the cursor pattern. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CURSOR4 2 bytes 24H 26H “A” = Switch coordinate display Command code 1 byte “B” = Change flicker speed “C”...
Page 265 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS “E” Change cursor color “0” to “65535” Cursor color R 1 to 5 bytes 1 byte 2CH (Delimiter) “0” to “65535” Cursor color G 1 to 5 bytes 1 byte 2CH (Delimiter) “0”...
Page 266: Vlevel4 [24H 27H]: Video Level Change
2.143 VLEVEL4 [24H 27H]: Video level change Function: This command changes the video level. The changes are immediately reflected in the signals output from the VG generator. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte VLEVEL4 2 bytes 24H 27H “A”...
Page 267: Hdcpon4 [24H 28H]: Hdcp Execution Start/Stop
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.144 HDCPON4 [24H 28H]: HDCP execution start/stop Function: This command starts or stops the HDCP execution. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte HDCPON4 2 bytes 24H 28H “0” = Stop, “1” = Start HDCP execution 1 byte 1 byte...
Page 268: Pbpron4 [24H 29H]: Rgb Signal / Color Difference Signal Switching
2.145 PBPRON4 [24H 29H]: RGB signal / color difference signal switching Function: This command switches between the RGB signals and color difference signals. The changes are immediately reflected in the signals output from the VG generator. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte...
Page 269: Sedid4 [24H 2Ah]: Edid Write
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.146 SEDID4 [24H 2AH]: EDID write Function: This command writes the EDID in the monitor via the VG generator. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte SEDID4 2 bytes 24H 2AH “0”...
Page 270: Ledid4 [24H 2Bh]: Edid Readout
2.147 LEDID4 [24H 2BH]: EDID readout Function: This command reads the EDID from the monitor via the VG generator. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LEDID4 2 bytes 24H 2BH “0” to “255” Block No. 1 to 3 bytes 1 byte Fig.
Page 271: Qdisp4 [24H 2Ch]: H/V Disp Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.148 QDISP4 [24H 2CH]: H/V Disp acquisition Function: This command gets the H/V Disp (Number of display dots/lines). Sequence: Type 3 Command: 1 byte VG4CMD 1 byte QDISP4 2 bytes 24H 2CH 1 byte Fig.
Page 272: Exccn4 [24H 2Dh]: User Subtitle Data Execution
2.149 EXCCN4 [24H 2DH]: User subtitle data execution Function: This command specifies the user number for the user subtitle data, and executes the data. Sequence: Type 2 Parameters: 1 byte VG4CMD 1 byte EXCCN4 2 bytes 24H 2DH 1 or 2 bytes “1” to “20” User No.
Page 273: Lvgid4 [24H 2Eh]: Vg Id Acquisition
LVGID4 2 bytes 24H 2EH 1 byte Fig. 2-146-1 Data: 1 byte TRDT 1 byte VGID 1 byte 70H: VG-870 71H: VG-871 72H: VG-872-B 73H: VG-873 74H: VG-874 76H: VG-876 77H: VG-877 7CH: VG-872-C 80H: VG-880 81H: VG-881 82H: VG-882...
Page 274: Exsgon4 [24H 2Fh]: Rgb Output On/Off
2.151 EXSGON4 [24H 2FH]: RGB output ON/OFF Function: This command sets the output of R, G and B each to ON or OFF. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte EXSGON4 2 bytes 24H 2FH “0” = OFF, “1” = ON 1 byte 1 byte 2CH (Delimiter)
Page 275: Exponoff4 [24H 30H]: Pattern Data Output On/Off
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.152 EXPONOFF4 [24H 30H]: Pattern data output ON/OFF Function: This command sets the designated patterns and signals to ON. The patterns and signals which are not designated are set to OFF. * Some patterns cannot be output simultaneously. Sequence: Type 2 Command: 1 byte...
Page 276 Cursor Window Burst Chara plane items Circle    DOTS CROSS CHARA Fig. 2-152-2 • When “0” is set Only the designated patterns and signals are output. The patterns and signals which are not designated are set to OFF. •...
Page 277: Aaudio4 [24H 31H]: Analog Audio Change
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.153 AAUDIO4 [24H 31H]: Analog audio change Function: This command changes the analog audio signal frequency and level. The changes are immediately reflected in the signals output from the VG generator. Sequence: Type 2 Command: 1 byte VG4CMD...
Page 278: Scroll4 [24H 32H]: Pattern Scroll Execution
2.154 SCROLL4 [24H 32H]: Pattern scroll execution Function: This command executes pattern scrolling. The changes are immediately reflected in the signals output from the VG generator. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte SCROLL4 2 bytes 24 32H “0”...
Page 279 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 1 byte 2CH (Delimiter) “1” to “4095” Group pattern step H1 1 to 4 bytes 1 byte 2CH (Delimiter) “0” to “255” Group pattern step H2 1 to 3 bytes 1 byte 2CH (Delimiter) “0”...
Page 280 “0” to “255” Subtitle pattern stepV4 1 to 3 bytes 1 BYTE Fig. 2-154-1...
Page 281: Exsyncp4 [24H 33H]: Separate Sync Polarity Switching
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.155 EXSYNCP4 [24H 33H]: Separate sync polarity switching Function: This command switches the polarity of each of the HS, VS and CS separate sync signals. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte EXSYNCP4 2 bytes...
Page 282: Lksv4［24H 34H］：Ksv Data Acquisition
2.156 LKSV4［24H 34H］：KSV data acquisition Function: This command gets the KSV data. Sequence: Type 3 Command: 1 byte VG4CMD 1 byte LKSV4 2 bytes 24H 34H 1 byte Fig. 2-156-1 Data: 1 byte TRDT 1 byte Transmitter 2 to 10 byte "00" to "FFFFFFFFFF" 1 byte 2CH (Delimiter) Receiver...
Page 283: Exdptp4 [24H 39H] : Dp Training Pattern Execution
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.157 EXDPTP4 [24H 39H] : DP Training Pattern execution Function : this command executes Training Pattern Mode of DisplayPort Analysis. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE EXDPTP4...
Page 284: Lerr4 [24H 3Ah] : Error Code Acquisition
2.158 LERR4 [24H 3AH] : Error code acquisition. ： This command gets the error code. Function Sequence ： TYPE 3 STX-ETX ACK or STX+TRDT+DATA+ETX STX+ESTS+ERROR CODE+ETX Command ： 1 byte VG4CMD 1 byte LERR4 2 byte 24H 3AH 1 byte Fig.2-158-1 ：...
Page 285 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS General error “80000301” Program data is disabling. “80000302” H-Timing DotClock data error “80000303” H-Timing H Frontp data error “80000305” H-Timing HD data error “80000307” H-Timing H Period data error “80000308” H-Timing H Disp data error “80000309”...
Page 286 “8000035d” Lip Sync： Invalid EDID Latency OFF “8000035e” Lip Sync ‘Audio Source’ error “8000035f” Lip Sync ‘EDID Port’ error “80000360” Image data License error “80000361” Data does not saved “80000362” Copy Condition error “80000363” Shortage of internal Image RAM. “80000364” Audio data License error “80000365”...
Page 287: Exgdn4 [24H 3Bh] : Group Data Selection
Fig 2-159-1 Note 1 : when you designate Group No.1, group is not executed. Note 2 : in case of VG-870 series, group number is selected. In case of VG-881, the first program data of the selected group is executed.
Page 288: Exgdn4 [24H 3Ch] : Execution Of The Program Data In A Group
2.160 EXGDN4 [24H 3CH] : Execution of the program data in a group Function : this command executes the program data in a group. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE EXGPDN4 2 BYTE 24H 3CH...
Page 289: Lhdcp4 [24H 3Dh] : Hdcp Operation Start / Stop Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.161 LHDCP4 [24H 3DH] : HDCP operation start / stop acquisition. Function : This command order the ON/OFF of HDCP. Swquence : TYPE 3. STX～ETX ACK or STX+TRDT+DATA+ETX STX+ESTS+ERROR CODE+ETX Command ： 1 byte VG4CMD 1 byte...
Page 290: Muteon4 [24H 3Eh] : Mute Operation On/Off
2.162 MUTEON4 [24H 3EH] : MUTE operation ON/OFF ： This command sets ON/OFF of MUTE operation. Function Sequence ： Type 2 STX～ETX ACK or STX+ESTS+ERROR CODE+ETX Command ： 1 byte VG4CMD 1 byte MUTEON4 2 byte 24H 3EH MUTE Operation 1 byte "0"=OFF, "1"=ON 1 byte...
Page 291 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.163 LMUTE4[24H 3FH]: MUTE operation ON/OFF acquisition. ： This command sets MUTE status ON/OFF. Function Sequence ： TYPE3 STX～ETX ACK or STX+TRDT+DATA+ETX STX+ESTS+ERROR CODE+ETX Command ： 1 byte VG4CMD 1 byte LMUTE4 2 byte 24H 3FH 1 byte...
Page 292: Exhdmisw4[24H 40H] : Hdmi Sw Control
2.164 EXHDMISW4[24H 40H] : HDMI SW control Function : this command controls HDMI SW Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command ： 1 BYTE VG4CMD 1 BYTE EXHDMISW4 2 BYTE 24H 40H Command Code 1 BYTE "A"= Reserve "B"= Mode change "C"= Change of input selection "D"= Change of output selection...
Page 293: Lobt4 [24H 41H] : Output Board Acquisition
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.165 LOBT4 [24H 41H] : output board acquisition Function : this command gets the information of output board type of the designated slot. Sequence : Type 3 STX～ETX ACK or STX+TRDT+Data+ETX STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD...
Page 294: Lott4 [24H 42H] : Output Terminal Type Acquisition
2.166 LOTT4 [24H 42H] : Output terminal type acquisition Function : this command gets the information of output terminal type of the designated slot. Sequence : Type 3 STX～ETX ACK or STX+TRDT+Data+ETX STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE LOTT4 2 BYTE 24H 42H...
Page 295: Exepif4[24H 43H] : Set Slot No. And Terminal No. To Be Executed Or Transmitted
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.167 EXEPIF4[24H 43H] : set slot No. and terminal No. to be executed or transmitted. Function : this command sets slot No. and terminal No. to be executed or transmitted. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX...
Page 296: Exekey4[24H 44H] : Execution Of Timing Keys And Pattern Keys
2.168 EXEKEY4[24H 44H] : execution of timing keys and pattern keys Function : this command executes the data of the designated timing keys and pattern keys. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE EXEKEY4 2 BYTE...
Page 297: Exeifonoff4[24H 45H] : On/Off Setting Of Terminal
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.169 EXEIFONOFF4[24H 45H] : ON/OFF setting of terminal Function : this command sets ON/OFF of terminals. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE EXEIFONOFF4 2 BYTE 24H 45H...
Page 298: Lcurpos4 [24H 46H] : Cursor Coordinate Aquisition
2.170 LCURPOS4 [24H 46H] : cursor coordinate aquisition Function : this command will get the coordinate of the center of the cursor. Sequence : Type 3 STX～ETX ACK or STX+TRDT+Data+ETX STX+ESTS+Error Code+ETX Parameter : 1 BYTE VG4CMD 1 BYTE LCURPOS4 2 BYTE 24H 46H 1 BYTE...
Page 299: Exlgdn5 [24H 47H] : Large Group Data Selection
Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS 2.171 EXLGDN5 [24H 47H] : large group data selection Function : this command designates the large group number to execute. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE EXLGDN5...
Page 300: Lerr5 [24H 48H] : Error Code Aquisition
2.172 LERR5 [24H 48H] : Error code aquisition Function : this command obtains error code. Sequence : Type 3 STX～ETX ACK or STX+TRDT+Data+ETX STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE LERR5 2 BYTE 24H 48H 1 BYTE Fig 2.172-1 Command : 1 BYTE TRDT...
Page 301 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS Distinguish Code Code Slot, Terminal Terminal 1 of Slot1 Terminal 2 of Slot1 Terminal 3 of Slot1 Terminal 1 of Slot2 Terminal 2 of Slot2 Terminal 3 of Slot2 Terminal 1 of Slot3 Terminal 2 of Slot3 Terminal 3 of Slot3 Terminal 1 of Slot4...
Page 302: Lhce4 [24H 49H] : Test Result Acquisition Of Hdcp, Cec And Edid
2.173 LHCE4 [24H 49H] : test result acquisition of HDCP, CEC and EDID Function : this command obtains HDCP, CEC and EDID test result of the designated terminal. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE LHCE4...
Page 303 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS Note 1 : this command is only for VG-881. Note 2 : if there is no terminal (or not output) or the terminal cannot be tested (including set as “Test OFF”), “0”(Invalid) is returned from those terminal. Note 3 In case set as “ALL”, the below sequence of data is returned.
Page 304: Exeukb4 [24H 4Ah] : Designate User Key Block
2.174 EXEUKB4 [24H 4AH] : designate User KEY Block Function : this command designate the Block number that will send/receive User Key data. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command ： 1 BYTE VG4CMD 1 BYTE EXEUKB4 2 BYTE 24H 4AH Mode...
Page 305: Execon4 [24H 4Ch] : Output Terminal Setting
1 BYTE Fig. 0-1 * About output terminal code, refer to Fig.2-132-2 for VG-870, 871 and 880. Refer to Fig. 2-132-3 for VG-882 and VG-883. Refer to Fig. 2-132-4 for VG-884. Refer to Fig.2-132-5 for VG-876. * If the output terminal code that does not exist in VG, it is ignored.
Page 306: Vg Control Command Table
2.176 VG control command table Code 1 Code 2 Command Description Type SHT4 H timing data registration LHT4 H timing data readout SVT4 V timing data registration LVT4 V timing data readout SOT4 Output condition data registration LOT4 Output condition data readout SPAR4 Parallel data registration LPAR4...
Page 307 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS SGM4 GamutMeta data registration LGM4 GamutMeta data readout SLS4 LipSync data registration LLS4 LipSync data readout SHPS4 0.5/0.25-pixel data registration LHPS4 0.5/0.25-pixel data readout SDDCCI4 DDC/CI data registration LDDCCI4 DDC/CI data readout SEP4 EDID port data registration LEP4...
Page 308 SHECA4 HDCP, EDID, CEC, HAMI ARC ON/OFF data registration LHECA4 HDCP, EDID, CEC, HAMI ARC ON/OFF data acquisition STM4 Transmission Mode data registration LTM4 Transmission Mode data acquisition SHEC4 HDMI HEC data registration LHEC4 HDMI HEC data acquisition SSMD3D4 SMD 3D pattern data setting LSMD3D4 SMD 3D pattern data acquisition S3DIMG4...
Page 309 Chapter 2 INDIVIDUAL FORMATS FOR VG CONTROL COMMANDS LHCE4 HDCP, CEC and EDID test result acquisition EXEUKB4 Designate User KEY Block ECECON4 Output Terminal Setting...
Page 311: Chaclr4 [28H 20H]: Character Plane Clear
INDIVIDUAL FORMATS FOR VG DRAWING COMMANDS CHACLR4 [28H 20H]: Character plane clear Function: This command clears the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHACLR4 2 bytes 28H 20H 1 byte Fig. 3-1-1...
Page 312: Chapset4 [28H 21H]: Character Plane Dot Drawing
CHAPSET4 [28H 21H]: Character plane dot drawing Function: This command draws one dot on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHAPSET4 2 bytes 28H 21H “0” to “4095” X coordinate 1 to 4 bytes 1 byte 2CH (Delimiter) “0”...
Page 313: Chaline4 [28H 22H]: Character Plane Straight Line Drawing
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS CHALINE4 [28H 22H]: Character plane straight line drawing Function: This command draws a straight line on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHALINE4 2 bytes 28H 22H Sign code + “0”...
Page 314: Chasqre4 [28H 23H]: Character Plane Square Drawing
CHASQRE4 [28H 23H]: Character plane square drawing Function: This command draws a square on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHASQRE4 2 bytes 28H 23H “0” to “4095” Top left coordinate X 1 to 4 bytes 1 byte 2CH (Delimiter) “0”...
Page 315: Chasqpa4 [28H 24H]: Character Plane Filled-In Square Drawing
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS CHASQPA4 [28H 24H]: Character plane filled-in square drawing Function: This command draws a filled-in square on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHASQPA4 2 bytes 28H 24H “0”...
Page 316: Chacirc4 [28H 25H]: Character Plane Circle Drawing
CHACIRC4 [28H 25H]: Character plane circle drawing Function: This command draws a circle on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHACIRC4 2 bytes 28H 25H Sign code + “0” to “4095” Center X coordinate 2 to 5 bytes Sign code: “0”...
Page 317: Chacircpa4 [28H 26H]: Character Plane Filled-In Circle Drawing
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS CHACIRCPA4 [28H 26H]: Character plane filled-in circle drawing Function: This command draws a filled-in circle on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHACIRCPA4 2 bytes 28H 26H Sign code + “0”...
Page 318: Chaelps4 [28H 27H]: Character Plane Ellipse Drawing
CHAELPS4 [28H 27H]: Character plane ellipse drawing Function: This command draws an ellipse on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHAELPS4 2 bytes 28H 27H Sign code + “0” to “4095” Center X coordinate 2 to 5 bytes Sign code: “0”...
Page 319: Chaelpspa4 [28H 28H]: Character Plane Filled-In Ellipse Drawing
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS CHAELPSPA4 [28H 28H]: Character plane filled-in ellipse drawing Function: This command draws a filled-in ellipse on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHAELPSPA4 2 bytes 28H 28H Sign code + “0”...
Page 320: Chatri4 [28H 29H]: Character Plane Triangle Drawing
3.10 CHATRI4 [28H 29H]: Character plane triangle drawing Function: This command draws a triangle on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHATRI4 2 bytes 28H 29H Sign code + “0” to “4095” Coordinate X1 2 to 5 bytes Sign code: “0”...
Page 321: Chatripa4 [28H 2Ah]: Character Plane Filled-In Triangle Drawing
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.11 CHATRIPA4 [28H 2AH]: Character plane filled-in triangle drawing Function: This command draws a filled-in triangle on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHATRIPA4 2 bytes 28H 2AH Sign code + “0”...
Page 322: Chabitblt4 [28H 2Bh] : Character Plane Copy
3.12 CHABITBLT4 [28H 2BH] : Character Plane copy Function : this command performs area-copy of character plane. Sequence : Type 2 Command : 1 BYTE VG4CMD 1 BYTE CHASTR4 2 BYTE 28H 2DH Font size 1 BYTE "0"=5x7 "1"=7x9 "2"=16x16 1 BYTE 2CH (Delimiter) Coordinate X...
Page 323: Chacol4 [28H 2Ch]: Character Plane Color Setting
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.13 CHACOL4 [28H 2CH]: Character plane color setting Function: This command sets the color of the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHACOL4 2 bytes 28H 2CH “0” to “65535” 1 to 5 bytes 1 byte 2CH (Delimiter)
Page 324 3.14 CHASTR4 [28H 2DH]: Character plane character string drawing Function: This command draws a character string on the character plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte CHASTR4 2 bytes 28H 2DH “0” = 5×7, “1” = 7×9, “2” = 16×16 Font size 1 byte 1 byte...
Page 325: Graclr4 [28H 40H]: Graphic Plane Clear
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.15 GRACLR4 [28H 40H]: Graphic Plane Clear Function ： This command clears the graphic plane Sequence ： Type 2 STX～ETX ACK or STX +ESTS+Error code +ETX Command ： 1 BYTE VG4CMD 1 BYTE GRACLR4 2 BYTE 28H 40H...
Page 326: Grapset4 [28H 41H]: Graphic Plane Dot Drawing
3.16 GRAPSET4 [28H 41H]: Graphic Plane Dot Drawing Function ： This command draws dot on the graphic plane Sequence ： Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ： 1 BYTE VG4CMD 1 BYTE GRAPSET4 2 BYTE 28H 41H X coordinate...
Page 327: Graline4 [28H 42H]:Graphicplane Straight Line Drawing
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.17 GRALINE4 [28H 42H]:GraphicPlane Straight Line Drawing Function ： This command draw straight line on the graphic plane Sequence ： Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ： 1 BYTE VG4CMD 1 BYTE...
Page 328: Grasqre4 [28H 43H]: Graphic Plane Square Drawing
3.18 GRASQRE4 [28H 43H]: Graphic Plane Square Drawing Function ： This command draw square on the graphic plane Sequence ： Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ： 1 BYTE VG4CMD 1 BYTE GRASQRE4 2 BYTE 28H 43H Top left coordinate X...
Page 329: Grasqpa4 [28H 44H]: Graphic Plane Filled-In Square
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.19 GRASQPA4 [28H 44H]: Graphic Plane Filled-in Square Function ： This command draws filled-in square on the graphic plane Sequence ： Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ：...
Page 330: Gracirc4 [28H 45H]: Graphic Plane Circle Drawing
3.20 GRACIRC4 [28H 45H]: Graphic Plane Circle Drawing Function ： This command draws circle on the graphic plane Sequence ： Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ： 1 BYTE VG4CMD 1 BYTE GRACIRC4 2 BYTE 28H 45H Sign code + “0”...
Page 331: Gracircpa4 [28H 46H]: Graphic Plane Filled-In Circle Drawing
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.21 GRACIRCPA4 [28H 46H]: Graphic Plane Filled-in Circle Drawing Function ： This command draws filled-in circle on the graphic plane Sequence ： Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ：...
Page 332: Graelps4 [28H 47H]: Graphic Plane Ellipse Drawing
3.22 GRAELPS4 [28H 47H]: Graphic Plane Ellipse drawing Function : This command draw ellipse on the graphic plane Sequence : Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ： 1 BYTE VG4CMD 1 BYTE GRAELPS4 2 BYTE 28H 47H Sign code + “0”...
Page 333: Graelpspa4 [28H 48H]: Graphic Plane Filled-In Ellipse Drawing
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.23 GRAELPSPA4 [28H 48H]: Graphic Plane Filled-in Ellipse Drawing Function : This command draw filled-in ellipse on the graphic plane Sequence : Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ：...
Page 334: Gratri4 [28H 49H]: Graphic Plane Triangle Drawing
3.24 GRATRI4 [28H 49H]: Graphic Plane triangle Drawing Function : This command draws triangle on the graphic plane Sequence : Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ： 1 BYTE VG4CMD 1 BYTE GRATRI4 2 BYTE 28H 49H Sign code + “0”...
Page 335: Gratripa4 [28H 4Ah]: Graphic Plane Filled-In Triangle Drawing
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.25 GRATRIPA4 [28H 4AH]: Graphic Plane Filled-in Triangle Drawing Function ： This command draw filled-in triangle on the graphic plane Sequence ： Type 2 STX～ETX Command ： 1 BYTE VG4CMD 1 BYTE GRATRIPA4 2 BYTE 28H 4AH Sign code + “0”...
Page 336: Gratripa4 [28H 4Bh] : Graphic Plane Copy
3.26 GRATRIPA4 [28H 4BH] : Graphic Plane Copy Function : this command performs area-copy of graphic plane. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE GRABITBLT4 2 BYTE 28H 4BH Left-top coordinate X 1-4 BYTE "0"-"4095"...
Page 337: Gracol4 [28H 4Ch]: Graphic Plane Color Setting
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.27 GRACOL4 [28H 4CH]: Graphic Plane Color Setting Function : This command sets the color of the graphic plane Sequence : Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ：...
Page 338: Gralev4 [28H 4Dh]: Graphic Plane Level Edit
3.28 GRALEV4 [28H 4DH]: Graphic Plane Level Edit Function ： This command edit the level of the graphic plane Sequence ： Type 2 STX～ETX ACK or STX + ESTS + Error code +ETX Command ： 1 BYTE VG4CMD 1 BYTE GRACOL4 2 BYTE 28H 4DH...
Page 339: Grapal4 [28H 4Eh] : Graphic Plane Palette Mode Setting
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.29 GRAPAL4 [28H 4EH] : Graphic Plane Palette Mode Setting Function : this command sets the palette mode of the Graphic Plane. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE...
Page 340: Grampal4 [28H 4Fh] : Multiple Colors Setting Of The Graphic Plane
3.30 GRAMPAL4 [28H 4FH] : multiple colors setting of the graphic plane Function : this command sets multiple color number for the graphic plane. Sequence : Type 2 STX～ETX ACK or STX+ESTS+Error Code+ETX Command : 1 BYTE VG4CMD 1 BYTE GRAMPAL4 2 BYTE 28H 4FH...
Page 341 Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS Example) available case：in case RGB is set by 51 steps in the range of 255, the palette 0 should be set as “black”. 1 BYTE VG4CMD 1 BYTE GRAPAL4 2 BYTE Data number "51"...
Page 342 NG case) unable to transfer： in case all RGB is set as 255. 1 BYTE VG4CMD 1 BYTE GRAPAL4 2 BYTE Data number "100" 3 BYTE 1 BYTE Bit Mode "8" 1 BYTE 1 BYTE Palette No. "0" 1 BYTE 1 BYTE "255"...
Page 343: Allclr4 [28H 60H]: All Planes Clear
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.31 ALLCLR4 [28H 60H]: All planes clear Function: This command clears all the planes. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte ALLCLR4 2 bytes 28H 60H 1 byte Fig. 3-31-1...
Page 344: Window4 [28H 61H]: Window Drawing
3.32 WINDOW4 [28H 61H]: Window drawing Function: This command draws windows. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte WINDOW4 2 bytes 28H 61H “0” to “4095” Top left coordinate X 1 to 4 bytes 1 byte 2CH (Delimiter) “0”...
Page 345: Wincol4 [28H 62H]: Window Color Setting
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.33 WINCOL4 [28H 62H]: Window color setting Function: This command sets the window color. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte WINCOL4 2 bytes 28H 62H “0” to “65535” 1 to 5 bytes 1 byte 2CH (Delimiter) “0”...
Page 346: Winclr4 [28H 63H]: Window Plane Clear
3.34 WINCLR4 [28H 63H]: Window plane clear Function: This command clears the window plane. Sequence: Type 2 Command: 1 byte VG4CMD 1 byte WINCLR4 2 bytes 28H 63H 1 byte Fig. 3-34-1...
Page 347: Allscol4 [28H 70H] : Rgb Output On/Iff And Color Setting
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.35 ALLSCOL4 [28H 70H] : RGB output ON/IFF and Color setting Function : this command sets RGB output ON/OFF and colors of all planes. Sequence： Type 2 Command : 1 BYTE VG4CMD 1 BYTE ALLSCOL4 2 BYTE 28H 70H...
Page 348 Palette No. 1-3 BYTE "0"-"255" Palette No of graphic plane (Delimiter) 1 BYTE 1-5 BYTE "0"-"65535" (Delimiter) 1 BYTE 1-5 BYTE "0"-"65535" (Delimiter) 1 BYTE 1-5 BYTE "0"-"65535" 1 BYTE Fig 3-35-1 Note 1) The items below Bit Mode can be omitted. However, if you omit “color setting” part, you need to delete both “plane code”...
Page 349: Bcol4 [28H 71H] : Back Ground Color Setting
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.36 BCOL4 [28H 71H] : back ground color setting Function : this command sets background color. Sequence : Type 2 Command : 1 BYTE VG4CMD 1 BYTE BCOL4 2 BYTE 28H 71H 1-5 BYTE "0"-"65535"...
Page 350: Cap4 [28H 72H] : Capture Execution
3.37 CAP4 [28H 72H] : capture execution Function : this command captures the data that is drawn by drawing command in 4K mode to VRAM. Sequence : Type 2 Command ： 1 BYTE VG4CMD 1 BYTE CAP4 2 BYTE 28H 72H 1 BYTE Fig 3-37-1 Note 1) when using drawing command in 4K mode, after sending all drawing commands, this...
Page 351: Vg Drawing Command Table
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 3.38 VG drawing command table Code 1 Code 2 Command Description Type CHACLR4 Character plane clear CHAPSET4 Character plane dot drawing CHALINE4 Character plane straight line drawing CHASQRE4 Character plane square drawing CHASQPA4 Character plane filled-in square drawing CHACIRC4 Character plane circle drawing...
Page 353: Sht [48H]: H Timing Data Registration
INDIVIDUAL FORMATS FOR CONTROL COMMANDS SHT [48H]: H timing data registration Function: This command registers the H timing data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte 1 byte...
Page 354: Lht [42H]: H Timing Data Readout
LHT [42H]: H timing data readout Function: This command reads the H timing data of the designated program number. Sequence: Type 3 Command: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig. 4-2-1 Data: Same as Fig.
Page 355: Chapter 4 Individual Formats For Control Commands
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS SVT [49H]: V timing data registration Function: This command registers the V timing data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte...
Page 356: Lvt [43H]: V Timing Data Readout
LVT [43H]: V timing data readout Function: This command reads the V timing data of the designated program number. Sequence: Type 3 Command: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig. 4-4-1 Data: Same as Fig.
Page 357: Sot [4Ah]: Output Condition Data Registration
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS SOT [4AH]: Output condition data registration Function: This command registers the output condition data of the designated program number. The registered data is either digital data or analog data. When the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte...
Page 358 Analog data 1 byte TRDT 1 byte “0” = Analog, “1” = TTL OUT PUT 1 byte “0” = Neoga, “1” = Posy, “2” = OFF 1 byte “0” = Neoga, “1” = Posy, “2” = OFF 1 byte “0” = Neoga, “1” = Posy, “2” = OFF, “3” = HS, “4” 1 byte = VS “0”...
Page 359: Lot [44H]: Output Condition Data Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS LOT [44H]: Output condition data readout Function: This command reads the output condition data of the designated program number . Sequence: Type 3 Command: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig.
Page 360: Spt [4Bh]: Pattern Data Registration
SPT [4BH]: Pattern data registration Function: This command registers the pattern data of the designated program number. It selects the pattern block to set a parameter and sends the corresponding data. When the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte...
Page 361 Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS Data: Graphic color data 1 byte TRDT 1 byte “000” to “255” 3 bytes “000” to “255” 3 bytes “000” to “255” 3 bytes Fixed at “0” * This function cannot be used. Graphic color (TTL) 1 byte Fixed at “0”...
Page 362 Window data 1 byte TRDT 1 byte “0” = %, “1” = dot Window mode 1 byte % = “0001” to “1000” (0.1 to 100.0%) H width 4 bytes dot = “0001” and above % = “0001” to “1000” (0.1 to 100.0%) V width 4 bytes dot = “0001”...
Page 363 Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS “000” to “255” Level 3 bytes “000” to “255” Level 3 bytes “000” to “255” Level 3 bytes “000” to “255” Level 3 bytes “000” to “255” Level 3 bytes “000” to “255” Level 3 bytes “000”...
Page 364: Lpt [45H]: Pattern Data Readout
LPT [45H]: Pattern data readout Function: This command reads the pattern data of the designated program number. It selects the pattern block to set a parameter and receives the corresponding data. Sequence: Type 3 Command: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes “01”...
Page 365: Spd [4Dh]: Program Data Registration
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS SPD [4DH]: Program data registration Function: This command registers all the data of the designated program number. The registered data is either digital data or analog data. When the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte...
Page 366 Analog data 1 byte TRDT 1 byte Horizontal timing 30 bytes Refer to Fig. 4-1-2. “, “ Delimiter 1 byte Vertical timing 34 bytes Refer to Fig. 4-3-2. “, “ Delimiter 1 byte Analog output 20 bytes Refer to Fig. 4-5-3. condition “, “...
Page 367: Lpd [4Ch]: Program Data Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.10 LPD [4CH]: Program data readout Function: This command reads all the data of the designated program number. Sequence: Type 3 Command: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig.
Page 368: Sat [46H]: Auto Display Data Registration
4.11 SAT [46H]: Auto display data registration Function: This command registers the data for executing auto display. Sequence: Type 4 Command: 1 byte 1 byte 1 byte Fig. 4-11-1 Data: 1 byte TRDT 1 byte “000” to “999” Interval time (Sec) 3 bytes “000”...
Page 369: Lat [40H]: Auto Display Data Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.12 LAT [40H]: Auto display data readout Function: This command receives the data for executing auto display. Sequence: Type 3 Command: 1 byte 1 byte 1 byte Fig. 4-12-1 Data: Same as Fig. 4-11-2.
Page 370: Spts [47H]: Pattern Select Data Registration
4.13 SPTS [47H]: Pattern select data registration Function: This command registers the pattern select data of the designated program number. . When the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte SPTS 1 byte “0”...
Page 371: Lpts [41H]: Pattern Select Data Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.14 LPTS [41H]: Pattern select data readout Function: This command reads the pattern select data of the designated program number. Sequence: Type 3 Command: 1 byte LPTS 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig.
Page 372: Sch [4Fh]: Character Data Registration
4.15 SCH [4FH]: Character data registration Function: This command registers the data for the designated character number. Sequence: Type 6 Command: 1 byte 1 byte “0” to “F” Character No. 1 byte 1 byte Fig. 4-15-1 Data: The binary data of the character drawn inside the 64×64 cell is converted into ASCII code as shown below.
Page 373: Lch [4Eh]: Character Data Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.16 LCH [4EH]: Character data readout Function: This command reads the data for the designated character number. Sequence: Type 5 Command: 1 byte 1 byte “0” to “F” Character No. 1 byte 1 byte Fig.
Page 374: Exppn [07H]: Timing Data Execution
4.17 EXPPN [07H]: Timing data execution Function: This command executes only the timing data of the designated program number.. Sequence: Type 2 Command: 1 byte EXPPN 1 byte “1” to “999” Program number 1 to 3 bytes 1 byte Fig. 4-17-1 Data: None...
Page 375: Expbn [08H]: Program Data Setting/Execution
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.18 EXPBN [08H]: Program data setting/execution Function: This command sends and executes the data in one program. It does not write the data on the memory card. Sequence: Type 4 Command: 1 byte EXPBN 1 byte 1 byte...
Page 376: Expdn [09H]: Program Data Execution 2 (Registered Program Designation)
4.19 EXPDN [09H]: Program data execution 2 (Registered program designation) Function: This command designates the number of the direct display, and executes it. Sequence: Type 2 Command: 1 byte EXPDN 1 byte “1” to “999” Program number 1 to 3 bytes 1 byte Fig.
Page 377: Expon [0Eh]: Pattern Data Output On Setting
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.20 EXPON [0EH]: Pattern data output ON setting Function: This command sets the designated patterns and signals to ON. Sequence: Type 4 Command: 1 byte EXPON 1 byte 1 byte Fig. 4-20-1 Data: Same as Fig.
Page 378: Expoff [0Fh]: Pattern Data Output Off Setting
4.21 EXPOFF [0FH]: Pattern data output OFF setting Function: This command sets the designated pattern and signal to OFF. Sequence: Type 4 Command: 1 byte EXPOFF 1 byte 1 byte Fig. 4-21-1 Data: Same as Fig. 4-13-2.
Page 379: Disphv [28H]: Display Dot Count Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.22 DISPHV [28H]: Display dot count readout Function: This command reads the number of display dots on the graphic plane. Sequence: Type 3 Command: 1 byte DISPHV 1 byte 1 byte Fig. 4-22-1 Data: 1 byte TRDT...
Page 380: Indc [29H]: Program No Incrementing/Decrementing
4.23 INDC [29H]: Program no incrementing/decrementing Function: This command increments or decrements the direct display number. Sequence: Type 2 Command: 1 byte INDC 1 byte '63H' = ＋ [+]/[-] 1 byte '64H' = － 1 byte Fig. 4-23-1 Data: None...
Page 381: Exbn [0Ch]: Current Program Execution
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.24 EXBN [0CH]: Current program execution Function: This command executes the contents of the current program (in the buffer RAM). Sequence: Type 2 Command: 1 byte EXBN 1 byte 1 byte Fig. 4-24-1 Data: None...
Page 382: Exsgon [0Bh]: Output Signal On/Off
4.25 EXSGON [0BH]: Output signal ON/OFF Function: This command turns ON or OFF each of the R, G, B, RHT, GHT and BHT signals. The parameter designates the key codes to be ON . A signal of the key code which is not designated is set to OFF. Sequence: Type 2 Command: 1 byte...
Page 383: Exsync [51H]: Separate Sync On/Off
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.26 EXSYNC [51H]: Separate sync ON/OFF Function: This command turns ON or OFF of the separate sync of HS, VS and CS . Sequence: Type 2 Command: 1 byte EXSYNC 1 byte “0” = OFF, “1” = ON 1 byte “0”...
Page 384: Sgroup [52H]: Group Data Registration
4.27 SGROUP [52H]: Group data registration Function: This command registers the data of the designated group number. Group number from 1 to 9 can be set. If you designate a number of 10 and up, use the [SGROUP3] command. Sequence: Type 2 Command: 1 byte SGROUP...
Page 385: Lgroup [53H]: Group Data Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.28 LGROUP [53H]: Group data readout Function: This command reads the data of the designated group number. Group number from 1 to 9 can be set. If you designate a number of 10 and up, use the [SGROUP3] command.
Page 386: Spt3 [A2H]: Pattern Data Registration (Type 3)
4.29 SPT3 [A2H]: Pattern data registration (Type 3) Function: This command registers the pattern data of the designated program number. It selects the pattern block to be set in a parameter and sends the corresponding data. If the program number is 0, it writes the data into the buffer RAM.
Page 387 Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS Data: Graphic color data 1 byte TRDT 1 byte “000” to “255” 3 bytes “000” to “255” 3 bytes “000” to “255” 3 bytes Fixed at “0” * This function cannot be used. Graphic color (TTL) 1 byte Fixed at “0”...
Page 388 Circle data 1 byte TRDT 1 byte “0” to “6” Circle format 1 byte Fixed at “0” * This function cannot be used. Aspect ratio H 3 bytes Fixed at “0” * This function cannot be used. Aspect ratio V 3 bytes 1 byte Fig.
Page 389 Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS (10) Color bar data 1 byte TRDT 1 byte “0” = %, “1” = dot MODE 1 byte “00” to “16” Valid number 2 bytes % = “0000” to “1000” (0.0 to 100.0%) H width 4 bytes dot = “0001”...
Page 390 (12) Cursor data 1 byte TRDT 1 byte “0” = 5×5, “1” = Full cross, “2” = Vertical line Shape 1 byte “000” to “007” Flicker 3 bytes “0” = None, “1” = Type 1, “2” = Type 2 Coordinate display 1 byte “000”...
Page 391: Lpt3 [A1H]: Pattern Data Readout (Type 3)
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.30 LPT3 [A1H]: Pattern data readout (Type 3) Function: This command reads the pattern data of the designated program number. It selects the pattern block to be set in a parameter and receives the corresponding data.
Page 392: Sot3 [A7H]: All Output Condition Data Registration (Type 3)
4.31 SOT3 [A7H]: All output condition data registration (Type 3) Function: This command registers all the analog and digital output condition data of the designated program number. When the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte...
Page 393 Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS “0” = Nega, “1” = Posi CLOCK 1 byte “0” = Nega, “1” = Posi DISP 1 byte “0” = NRZ, “1” = RZ RZ/NRZ 1 byte “0” = OFF, “1” = ON OSW0 1 byte “0”...
Page 394: Lot3 [A6H]: All Output Condition Data Readout (Type 3)
4.32 LOT3 [A6H]: All output condition data readout (Type 3) Function: This command reads all the analog and digital output condition data of the designated program number. Sequence: Type 3 Command: 1 byte LOT3 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig.
Page 395: Spd3 [A4H]: Program Data Registration (Type 3)
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.33 SPD3 [A4H]: Program data registration (Type 3) Function: This command registers all the data of the designated program number. If the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte...
Page 396: Lpd3 [A3H]: Program Data Readout (Type 3)
4.34 LPD3 [A3H]: Program data readout (Type 3) Function: This command reads all the data of the designated program number. Sequence: Type 3 Command: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig. 4-34-1 Data: Same as Fig.
Page 397: Expbn3 [A5H]: Program Data Setting/Execution (Type 3)
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.35 EXPBN3 [A5H]: Program data setting/execution (Type 3) Function: This command sets the data of one program in the buffer RAM, and executes it. IT DOES NOT WRITE THE DATA ON THE PC CARD. Sequence: Type 4 Command: 1 byte...
Page 398: Pnames3 [A8H]: Program Name Registration (Type 3)
4.36 PNAMES3 [A8H]: Program name registration (Type Function: This command registers the name of the designated program number. Sequence: Type 2 Command: 1 byte PNAMES3 1 byte “000” to “849” Program number 3 bytes “0” = Center, “1” = Top left, “2” = Bottom left, Display position 1 byte “3”...
Page 399: Pnamer3 [A9H]: Program Name Readout (Type 3)
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.37 PNAMER3 [A9H]: Program name readout (Type 3) Function: This command reads the name of the designated program designated. Sequence: Type 3 Command: 1 byte PNAMER3 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig.
Page 400: Sgroup3 [Aah]: Group Number Registration (Type 3)
4.38 SGROUP3 [AAH]: Group number registration (Type Function: This command registers the data of the designated group number. Sequence: Type 2 Command: 1 byte SGROUP3 1 byte “01” to “99” Group No. 2 bytes “0” = Off, “1” = On GSW0 start status 1 byte “0”...
Page 401: Lgroup3 [Abh]: Group Number Readout (Type 3)
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.39 LGROUP3 [ABH]: Group number readout (Type 3) Function: This command reads the data of the designated group number. Sequence: Type 3 Command: 1 byte LGROUP3 1 byte “01” to “99” Group No. 2 bytes 1 byte Fig.
Page 402: Gnames3 [Ach]: Group Name Registration (Type 3)
4.40 GNAMES3 [ACH]: Group name registration (Type 3) Function: This command registers the name of the designated group number. Sequence: Type 2 Command: 1 byte GNAMES3 1 byte “01” to “99” Group No. 2 bytes Group name 1 to 20 bytes ASCII code 1 byte Fig.
Page 403: Gnamer3 [Adh]: Group Name Readout (Type 3)
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.41 GNAMER3 [ADH]: Group name readout (Type 3) Function: This command reads the name of the designated group number. Sequence: Type 3 Command: 1 byte GNAMER3 1 byte “01” to “99” Group No. 2 bytes 1 byte Fig.
Page 404: Scfg3 [7Fh]: Config Data Registration (Type 3)
4.42 SCFG3 [7FH]: Config data registration (Type 3) Function: This command registers the configuration data. Sequence: Type 2 Command: 1 byte SCFG3 1 byte “0” = Memory card Program data device 1 byte “0” = Single-action switching, “1” = Overwriting Pattern display mode 1 byte “00”...
Page 405: Lcfg3 [7Eh]: Config Data Readout (Type 3)
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.43 LCFG3 [7EH]: Config data readout (Type 3) Function: This command reads the configuration data. Sequence: Type 3 Command: 1 byte LCFG3 1 byte 1 byte Fig. 4-43-1 Data: 1 byte TRDT 1 byte “0”...
Page 406: Spbprd [92H]: Color Difference Coefficient Data Registration
4.44 SPbPrD [92H]: Color difference coefficient data registration Function: This command registers the color difference coefficient data. Note) This command is not supported by the VG-880 generator. Sequence: Type 4 Command: 1 byte SPbPrD 1 byte “0” to “3” Color difference table 1 byte 1 byte Fig.
Page 407: Lpbprd [91H]: Color Difference Coefficient Data Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.45 LPbPrD [91H]: Color difference coefficient data readout Function: This command reads the color difference coefficient data. Sequence: Type 3 Command: 1 byte LPbPrD 1 byte “0” to “3” Color difference table 1 byte 1 byte Fig.
Page 408: Pbprdnames3 [93H]: Color Difference Coefficient Data Name Registration (Type 3)
4.46 PbPrDNAMES3 [93H]: Color difference coefficient data name registration (Type 3) Function: This command registers the name of the designated color difference coefficient data . Note) this command is not supported by the VG-880 generator. Sequence: Type 2 Command: 1 byte GNAMES3 1 byte “0”...
Page 409: Pbprdnamer3 [94H]: Color Difference Coefficient Data Name Readout (Type 3)
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.47 PbPrDNAMER3 [94H]: Color difference coefficient data name readout (Type 3) Function: This command reads the name of the designated color difference coefficient data. Sequence: Type 3 Command: 1 byte GNAMER3 1 byte “0”...
Page 410: Cross_Ctrl [2Eh]: Cursor Pattern Control
4.48 CROSS_CTRL [2EH]: Cursor pattern control Function: This command changes the setting for the cursor pattern. It is valid only when a cursor pattern has been output in advance. Send the data that corresponds to the designated command code. Sequence: Type 4 Command: 1 byte CROSS_CTRL...
Page 411 Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS Cursor shape 1 byte TRDT 1 byte “0” = Full-screen cross cursor Cursor shape 1 byte “1” = Vertical line “2” = 5×5 cross cursor “3” = Full-screen cross cursor RGB “4” = Vertical line RGB “5”...
Page 412: Sdc [61H]: D Connector Output Condition Registration
4.49 SDC [61H]: D connector output condition registration unction: This command registers the D connector output conditions of the designated program number. If the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte 1 byte “0”...
Page 413: Ldc [60H]: D Connector Output Condition Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.50 LDC [60H]: D connector output condition readout Function: This command reads the D connector output conditions of the designated program number. Sequence: Type 3 Command: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte...
Page 414: Swp [63H]: Window Pattern Coordinate Registration
4.51 SWP [63H]: Window pattern coordinate registration Function: This command sends the center coordinates of Window pattern. This becomes valid when “Format E” is selected in window pattern editing The command is sent to the designated program number. If the program number is 0, it writes the data into the buffer RAM.
Page 415: Lwp [62H]: Window Pattern Coordinate Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.52 LWP [62H]: Window pattern coordinate readout Function: This command receives the enter coordinates of Window pattern from the designated program number. This becomes valid when “Format E” is selected in window pattern editing. Sequence: Type 3 Command: 1 byte...
Page 416: Som [65H]: Video Output On/Off Registration
4.53 SOM [65H]: Video output ON/OFF registration Function: This command registers the video output ON/OFF statuses of the designated program number. If the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte 1 byte “0”...
Page 417: Lom [64H]: Video Output On/Off Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.54 LOM [64H]: Video output ON/OFF readout Function: This command reads the video output ON/OFF statuses of the designated program number. Sequence: Type 3 Command: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig.
Page 418: Sad [67H]: Audio Output Condition Registration
4.55 SAD [67H]: Audio output condition registration Function: This command registers the audio output setting data of the designated program number. If the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte 1 byte “0”...
Page 419: Lad [66H]: Audio Output Condition Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.56 LAD [66H]: Audio output condition readout Function: This command reads the audio output setting data of the designated program number. Sequence: Type 3 Command: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig.
Page 420: Sipadr [F1H]: Ip Address Registration
4.57 SIPADR [F1H]: IP address registration Function: This command registers the IP address setting data. Sequence: Type 2 Command: 1 byte SIPADR 1 byte IP address 8 bytes ASCII code (Hex) Port number 4 bytes ASCII code (Hex) 1 byte Fig.
Page 421: Lipadr [F0H]: Ip Address Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.58 LIPADR [F0H]: IP address readout Function: This command reads IP address setting data. Sequence: Type 3 Command: 1 byte LIPADR 1 byte 1 byte Fig. 4-58-1 Data: 1 byte TRDT 1 byte IP address 8 bytes ASCII code (Hex)
Page 422: Spds [69H]: Pulldown Scroll Setting Data Registration
4.59 SPDS [69H]: Pulldown scroll setting data registration Function: This command sends the pulldown scroll setting data of the designated program number. If the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Command: 1 byte SPDS 1 byte...
Page 423: Lpds [68H]: Pulldown Scroll Setting Data Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.60 LPDS [68H]: Pulldown scroll setting data readout Function: This command reads the pulldown scroll setting data of the designated program number. Sequence: Type 3 Parameters: 1 byte LPDS 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte...
Page 424: Ssc [6Bh]: S Connector Output Condition Registration
4.61 SSC [6BH]: S connector output condition registration Function: This command registers the S connector output conditions of the designated program number. If the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Parameters: 1 byte 1 byte “0”...
Page 425: Lsc [6Ah]: S Connector Output Condition Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.62 LSC [6AH]: S connector output condition readout Function: This command reads the S connector output conditions of the designated program number. Sequence: Type 3 Parameters: 1 byte 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte...
Page 426: Sdvim [6Dh]: Dvi Output Mode Registration
4.63 SDVIM [6DH]: DVI output mode registration Function: This command registers the DVI mode of the designated program number. If the program number is 0, it writes the data into the buffer RAM. Sequence: Type 4 Parameters: 1 byte SDVIM 1 byte “0”...
Page 427: Ldvim [6Ch]: Dvi Output Mode Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.64 LDVIM [6CH]: DVI output mode readout Function: This command reads the DVI mode of the designated program number. Sequence: Type 3 Parameters: 1 byte LDVIM 1 byte “0” to “999” Program number 1 to 3 bytes 1 byte Fig.
Page 428: Sgadr [F3H]: Gateway Ip Address Registration
4.65 SGADR [F3H]: Gateway IP address registration Function: This command sends the IP address of the gateway. (In the VG-848 series, even its setting is registered, it will not function.) Sequence: Type 2 Parameters: 1 byte SGADR 1 byte IP address 8 bytes ASCII code (Hex) Example: 192.168.0.10 →...
Page 429: Lgadr [F2H]: Gateway Ip Address Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.66 LGADR [F2H]: Gateway IP address readout Function: This command reads the IP address of the gateway. (In the VG-848 series, even its setting is registered, it will not function.) Sequence: Type 3 Parameters: 1 byte LGADR...
Page 430: Shdcpen [81H]: Program Hdcp Enable/Disable Setting
4.67 SHDCPEN [81H]: Program HDCP enable/disable setting Function: This command sets enable or disable for HDCP of the designated program number . Sequence: Type 2 Command: 1 byte SHDCPEN 1 byte “0” to “849” Program number 2 bytes “0” = Enable, “1” = Disable Enable/Disable 1 byte 1 byte...
Page 431: Lhdcpen [80H]: Program Hdcp Enable/Disable Readout
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.68 LHDCPEN [80H]: Program HDCP enable/disable readout Function: This command reads enable or disable for HDCP of the designated program number. Sequence: Type 3 Command: 1 byte LHDCPEN 1 byte “0” to “849” Program number 2 bytes 1 byte...
Page 432: Loptb [74H]: Optional Board Data Acquisition
4.69 LOPTB [74H]: Optional board data acquisition Function: This command gets the optional board data of the designated program number. Sequence: Type 3 Parameters: 1 byte LOPTB 1 byte “0” to “849” Program number 1 to 3 bytes 1 byte Fig.
Page 433: Soptb [75H]: Optional Board Data Setting
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.70 SOPTB [75H]: Optional board data setting Function: This command sets the optional board data of the designated program number. Sequence: Type 4 Parameters: 1 byte SHDCPEN 1 byte “0” to “849” Program number 1 to 3 bytes 1 byte Fig.
Page 434: Loptb2 [79H]: Optional Board Data 2 Acquisition
4.71 LOPTB2 [79H]: Optional board data 2 acquisition Function: This command gets the optional board data 2 of the designated program number . Sequence: Type 3 Parameters: 1 byte LOPTB2 1 byte “0” to “849” Program number 1 to 3 bytes 1 byte Fig.
Page 435: Soptb2 [7Ah]: Optional Board Data 2 Setting
Chapter 4 INDIVIDUAL FORMATS FOR CONTROL COMMANDS 4.72 SOPTB2 [7AH]: Optional board data 2 setting Function: This command sets the optional board data 2 of the designated program number . Sequence: Type 4 Parameters: 1 byte SHDCPEN 1 byte “0” to “849” Program number 1 to 3 bytes 1 byte...
Page 437: Gcirc [18H]: Circle Drawing / Ccirc [12H]: Circle Clearing
INDIVIDUAL DRAWING COMMAND FORMATS Execute the drawing commands after having set the sync signals. With the VG-848 series generator, do not execute drawing commands in combination with pattern drawing using the main unit. If they are executed together, the patterns may not be drawn on the screen correctly.
Page 438: Ccirc [12H]: Circle Clearing
5.1.2 CCIRC [12H]: Circle clearing Function: This command clears the circle on the graphic plane (1-bit plane). The center coordinates and radius of the circle are set by the parameters. Sequence: Type 2 Parameters: 1 byte CCIRC 1 byte Sign code + “0” to “4095” e.g. 100 “0100” Center X coordinate 2 to 5 bytes Sign code: “0”...
Page 439: Chapter 5 Individual Drawing Command Formats
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS GCIRCPA [D4H]: Filled-in circle drawing / CCIRCPA [D5H]: Filled-in circle clearing 5.2.1 GCIRCPA [D4H]: Filled-in circle drawing Function: This command draws a filled-in circle on the graphic plane (1-bit plane). The center coordinates and radius of the circle are set by the parameters. Sequence: Type 2 Command: 1 byte...
Page 440: Ccircpa [D5H]: Filled-In Circle Clearing
5.2.2 CCIRCPA [D5H]: Filled-in circle clearing Function: This command clears the filled-in circle on the graphic plane (1-bit plane). The center coordinates and radius of the circle are set by the parameters. Sequence: Type 2 Parameter: 1 byte CCIRCPA 1 byte Sign code + “0”...
Page 441: Gline [19H]: Straight Line Drawing / Cline [13H]: Straight Line Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS GLINE [19H]: Straight line drawing / CLINE [13H]: Straight line clearing 5.3.1 GLINE [19H]: Straight line drawing Function: This command draws a straight line on the graphic plane (1-bit plane). The start and end point coordinates are set by the parameters. Sequence: Type 2 Command: 1 byte...
Page 442: Cline [13H]: Straight Line Clearing
5.3.2 CLINE [13H]: Straight line clearing Function: This command clears the straight line on the graphic plane (1-bit plane). The start and end point coordinates are set by the parameters. Sequence: Type 2 Parameters: 1 byte CLINE 1 byte Sign code + “0” to “4095” e.g. 100 “0100” Start point coordinate X 2 to 5 bytes Sign code: “0”...
Page 443: Gpset [1Bh]: Dot Drawing / Cpset [14H]: Dot Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS GPSET [1BH]: Dot drawing / CPSET [14H]: Dot clearing 5.4.1 GPSET [1BH]: Dot drawing Function: This command draws one dot on the graphic plane (1-bit plane). Coordinates are set by the parameters. Sequence: Type 2 Command: 1 byte GPSET, CPSET...
Page 444: Cpset [14H]: Dot Clearing
5.4.2 CPSET [14H]: Dot clearing Function: This command clears the one dot on the graphic plane (1-bit plane). Coordinates are set by the parameters. Sequence: Type 2 Parameters: 1 byte CPSET 1 byte “0” to “4095” X coordinate 1 to 4 bytes “, “...
Page 445: Aclr [23H]: Drawing Planes All Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS ACLR [23H]: Drawing planes all clearing Function: This command clears the graphic and color planes. Sequence: Type 2 Command: 1 byte ACLR 1 byte 1 byte Fig. 5-5-1...
Page 446: Coclr [24H]: Color Clearing
COCLR [24H]: Color clearing Function: This command clears the graphic and color planes. It operates in the same way as the ACLR [23H] command. Sequence: Type 2 Command: 1 byte COCLR 1 byte 1 byte Fig. 5-6-1...
Page 447: Gclr [25H]: Graphic Plane Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS GCLR [25H]: Graphic plane clearing Function: This command clears the graphic and color planes. It operates in the same way as the ACLR [23H] command. Sequence: Type 2 Command: 1 byte GCLR 1 byte 1 byte Fig.
Page 448: Gchar [27H]: Character Drawing
GCHAR [27H]: Character drawing Function: This command writes the points designated on the graphic plane as a character. The font size and display coordinates are set by the parameters. Sequence: Type 6 Command: 1 byte GCHAR 1 byte “0” = 5×7 Font size 1 byte “1”...
Page 449: Gsqre [D0H]: Square Drawing / Csqre [D1H]: Square Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS GSQRE [D0H]: Square drawing / CSQRE [D1H]: Square clearing 5.9.1 GSQRE [D0H] Square drawing Function: This command draws a square on the graphic plane. The start and end point coordinates are set by the parameters. Sequence: Type 2 Command: 1 byte...
Page 450: Csqre [D1H] Square Clearing
5.9.2 CSQRE [D1H] Square clearing Function: This command clears the square on the graphic plane (1-bit plane). The start and end point coordinates are set by the parameters. Sequence: Type 2 Parameters: 1 byte CSQRE 1 byte “0” to “4095” Top left coordinate X 1 to 4 bytes “, “...
Page 451: Gsqpa [31H]: Filled-In Square Drawing / Csqpa [32H]: Filled-In Square Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.10 GSQPA [31H]: Filled-in square drawing / CSQPA [32H]: Filled-in square clearing 5.10.1 GSQPA [31H]: Filled-in square drawing Function: This command draws a filled-in square on the graphic plane (1-bit plane). The start and end point coordinates are set by the parameters. Sequence: Type 2 Command: 1 byte...
Page 452: Csqpa [32H]: Filled-In Square Clearing
5.10.2 CSQPA [32H]: Filled-in square clearing Function: This command clears the filled-in square on the graphic plane (1-bit plane). The start and end point coordinates are set by the parameters. Sequence: Type 2 Parameters: 1 byte CSQPA 1 byte “0” to “4095” Top left coordinate X 1 to 4 bytes “, “...
Page 453: Windw [3Ch]: Window Drawing / Cwind [2Ah]: Window Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.11 WINDW [3CH]: Window drawing / CWIND [2AH]: Window clearing 5.11.1 WINDW [3CH]: Window drawing Function: This command draws a window. The start and end point coordinates are set by the parameters. Sequence: Type 2 Command: 1 byte WINDW, CWIND...
Page 454: Cwind [2Ah]: Window Clearing
5.11.2 CWIND [2AH]: Window clearing Function: This command clears the window. The start and end point coordinates are set by the parameters. Sequence: Type 2 Parameters: 1 byte CWIND 1 byte “0” to “4095” Top left coordinate X 1 to 4 bytes “, “...
Page 455: Windcl [3Dh]: Window Color Setting
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.12 WINDCL [3DH]: Window color setting Function: This command sets the window colors. The R, G and B colors are set by the parameters. Sequence: Type 4 Command: 1 byte WINDCL 1 byte 1 byte Fig.
Page 456: Grphcl [3Bh]: Graphic Color Setting
5.13 GRPHCL [3BH]: Graphic color setting Function: This command sets the graphic colors. The R, G and B colors are set by the parameters. Sequence: Type 4 Command: 1 byte GRPHCL 1 byte 1 byte Fig. 5-13-1 Data: 1 byte TRDT 1 byte “000”...
Page 457: Gtripa [D2H]: Filled-In Triangle Drawing / Ctripa [D3H]: Filled-In Triangle Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.14 GTRIPA [D2H]: Filled-in triangle drawing / CTRIPA [D3H]: Filled-in triangle clearing 5.14.1 GTRIPA [D2H]: Filled-in triangle drawing Function: This command draws a filled-in triangle on the graphic plane (1-bit plane). The coordinates of the three apex points are set by the parameters. Sequence: Type 2 Command: 1 byte...
Page 458: Ctripa [D3H]: Filled-In Triangle Clearing
5.14.2 CTRIPA [D3H]: Filled-in triangle clearing Function: This command clears the filled-in triangle on the graphic plane (1-bit plane). The coordinates of the three apex points are set by the parameters. Sequence: Type 2 Parameters: 1 byte CTRIPA 1 byte Sign code + “0”...
Page 459: Gelps [D6H]: Ellipse Drawing / Celps [D7H]: Ellipse Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.15 GELPS [D6H]: Ellipse drawing / CELPS [D7H]: Ellipse clearing 5.15.1 GELPS [D6H]: Ellipse drawing Function: This command draws an ellipse on the graphic plane (1-bit plane). The center coordinates and radii of the ellipse are set by the parameters. Sequence: Type 2 Command: 1 byte...
Page 460: Celps [D7H]: Ellipse Clearing
5.15.2 CELPS [D7H]: Ellipse clearing Function: This command clears the ellipse on the graphic plane. The center coordinates and radii of the ellipse are set by the parameters. Sequence: Type 2 Parameters: 1 byte GELPS 1 byte Sign code + “0” to “4095” e.g. 100 “0100” Center coordinate X 2 to 5 bytes Sign code: “0”...
Page 461: Gelpspa [D8H]: Filled-In Ellipse Drawing / Celpspa [D9H]: Filled-In Ellipse Clearing
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.16 GELPSPA [D8H]: Filled-in ellipse drawing / CELPSPA [D9H]: Filled-in ellipse clearing 5.16.1 GELPSPA [D8H]: Filled-in ellipse drawing Function: This command draws a filled-in ellipse on the graphic plane (1-bit plane). The center coordinates and radii of the ellipse are designated by the parameters.
Page 462: Celpspa [D9H]: Filled-In Ellipse Clearing
5.16.2 CELPSPA [D9H]: Filled-in ellipse clearing Function: This command clears the filled-in ellipse on the graphic plane (1-bit plane). The center coordinates and radii of the ellipse are designated by the parameters. Sequence: Type 2 Parameters: 1 byte CELPSPA 1 byte Sign code + “0”...
Page 463 Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.17 G8CIRC [E0H]: Circle drawing (color designation) G8CIRCPA [E6H]: Filled-in circle drawing (color designation) 5.17.1 G8CIRC [E0H]: Circle drawing (color designation) Function : This command draws circles on the color bar plane (8-bit plane). The center coordinates and radius and color of the circle are designated by the parameters.
Page 464: G8Circpa [E6H]: Filled-In Circle Drawing (Color Designation)
5.17.2 G8CIRCPA [E6H]: Filled-in circle drawing (color designation) Function : This command draws filled-in circles on the color bar plane (8-bit plane). The center coordinates and radius and color of the circle are designated by the parameters. Sequence : Type 2 Parameter : 1 byte G8CIRCPA...
Page 465: G8Line [E1H]: Straight Line Drawing (Color Designation)
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.18 G8LINE [E1H]: Straight line drawing (color designation) Function : This command draws straight lines on the color bar plane (8-bit plane). The start and end point coordinates and the color are designated as the parameters. Sequence : Type 2 Parameter : 1 byte...
Page 466: G8Pset [E2H]: Dot Drawing (Color Designation)
5.19 G8PSET [E2H]: Dot drawing (color designation) Function : This command draws dots on the color bar plane (8-bit plane). The coordinates and color are designated by the parameters. Sequence : Type 2 Parameter : 1 byte G8PSET 1 byte 1 to 4 bytes “0”...
Page 467: G8Sqre [E4H]: Square Drawing (Color Designation) G8Sqpa [E3H]: Filled-In Square Drawing (Color Designation)
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.20 G8SQRE [E4H]: Square drawing (color designation) G8SQPA [E3H]: Filled-in square drawing (color designation) 5.20.1 G8SQRE [E4H]: Square drawing (color designation) Function : This command draws squares on the color bar plane (8-bit plane). The start and end point coordinates and the color are designated by the parameters.
Page 468: G8Sqpa [E3H]: Filled-In Square Drawing (Color Designation)
5.20.2 G8SQPA [E3H]: Filled-in square drawing (color designation) Function : This command draws filled-in squares on the color bar plane (8-bit plane). The start and end point coordinates and the color are designated as the parameters. Sequence : Type 2 Parameter : 1 byte G8SQPA...
Page 469: G8Tripa [E5H]: Filled-In Triangle Drawing (Color Designation)
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.21 G8TRIPA [E5H]: Filled-in triangle drawing (color designation) Function : This command draws filled-in triangles on the color bar plane (8-bit plane). The coordinates of the three points and the color are designated by the parameters. Sequence : Type 2 Parameter : 1 byte...
Page 470: G8Elps [E7H]: Ellipsis Drawing (Color Designation) G8Elpspa [E8H]: Filled-In Ellipsis Drawing (Color Designation)
5.22 G8ELPS [E7H]: Ellipsis drawing (color designation) G8ELPSPA [E8H]: Filled-in ellipsis drawing (color designation) 5.22.1 G8ELPS [E7H]: Ellipsis drawing (color designation) Function : This command draws ellipses on the color bar plane (8-bit plane). The center coordinates, radii and color of the ellipse are designated by the parameters. Sequence : Type 2 Parameter : 1 byte...
Page 471: G8Elpspa [E8H]: Filled-In Ellipsis Drawing (Color Designation)
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.22.2 G8ELPSPA [E8H]: Filled-in ellipsis drawing (color designation) Function : This command draws filled-in ellipses on the color bar plane (8-bit plane). The center coordinates, radii and color of the ellipse are designated by the parameters. Sequence : Type 2 Parameter : 1 byte...
Page 472: G8Color [Eah]: Color Mode Setting
5.23 G8COLOR [EAH]: Color mode setting Function : This command sets the display colors on the color bar plane (8-bit plane). The color mode is designated by the parameters. Sequence : Type 2 Parameter : 1 byte G8COLOR 1 byte “0”...
Page 473: G8Color2 [Ech]: Palette Setting
Chapter 5 INDIVIDUAL DRAWING COMMAND FORMATS 5.24 G8COLOR2 [ECH]: Palette setting Function : This command sets the display colors on the color bar plane (8-bit plane). The palette number and R, G and B colors are designated by the parameters. Sequence : Type 2 Parameter : 1 byte...
Page 475: Chapter 6 Examples Of Usage
EXAMPLES OF USAGE Executing the internal timing data Example: If internal timing data No.1001 is to be executed, then: Tim/Pat No. 1001 6.1.1 Flow of commands used ENQ [05H] EXPDN4 [24H 20H] Execution Program data command execution command 6.1.2 Command settings Program data execution: Command [24H 20H] Parameters: Setting item...
Page 476: Setting And Executing The H And V Timing Data
Setting and executing the H and V timing data The command settings used from setting the H and V timing data to executing the data are listed below. Example: If the H and V timing data shown below are to be set in program No.0001 and executed, then: H Timing V Timing...
Page 477: Flow Of Commands Used
Chapter 6 EXAMPLES OF USAGE 6.2.1 Flow of commands used ENQ [05H] SHT4 [20H 20H] H timing data setting command Setting command SVT4 [20H 22H] V timing data setting command EXPDN4 [24H 20H] Execution Program data command execution command...
Page 478: Settings Established Using H Timing Setting Command
6.2.2 Settings established using H timing setting command H timing data registration: Command [20H 20H] Setting item Setting value Binary ASCII 0×02 VG4CMD 0×FD SHT4 0×20 0×20 “1” Program number 0×31 “, “ Delimiter 0×2C μ/dot = dot “1” 0×31 “, “...
Page 479: Settings Established Using V Timing Setting Command
Chapter 6 EXAMPLES OF USAGE 6.2.3 Settings established using V timing setting command V timing data registration: Command [20H 22H] Setting item Setting value Binary ASCII 0×02 VG4CMD 0×FD SVT4 0×20 0×22 “1” Program number 0×31 “, “ Delimiter 0×2C “0”...
Page 480: Settings Established Using Program Data Execution Command
“, “ Delimiter 0×2C “0” VD-START2 = 0 0×30 “, “ Delimiter 0×2C “0” VD-WIDTH2 = 0 0×30 “, “ Delimiter 0×2C “0” TV Mode = Other 0×30 “, “ Delimiter 0×2C “0” Category1 = Disable 0×30 “0” Category2 = Disable 0×30 “0”...
Page 481: Setting And Executing The Pattern Data
Chapter 6 EXAMPLES OF USAGE Setting and executing the pattern data Example: executing the color bar data in the below data: Color bar Type Custom Mode Valid number H width 6.3% V width 6.3% Direction H/V Horizontal Color specification 1 White Color specification 2 Yellow...
Page 482: Flow Of Commands Used
6.3.1 Flow of commands used When the pattern data is to be registered on the CF card, and executed (if the data is to be set in program No.1) ENQ [05H] SPTS4 [20H 2AH] Pattern select data setting command Setting command SPT4 [20H 2CH] Pattern data setting...
Page 483: Settings Established Using Pattern Select Data Setting Command
Chapter 6 EXAMPLES OF USAGE 6.3.2 Settings established using pattern select data setting command Pattern select data registration: Command [20H 2AH] Setting item Setting value Binary ASCII 0×02 VGCMD4 0×FD SPTS4 0×20 “*” 0×2A “1” Program number 0×31 “, “ Delimiter 0×2C “0”...
Page 484: Settings Established Using Pattern Data Setting Command
6.3.3 Settings established using pattern data setting command Pattern data registration: Command [20H 2CH] Parameters: Setting item Setting value Binary ASCII 0×02 VG4CMD 0×FD SPT4 0×20 “, “ 0×2C “1” Program number 0×31 “, “ Delimiter 0×2C “1” Pattern block No. 0×31 “0”...
Page 485: Settings Established Using Program Data Execution Command
Chapter 6 EXAMPLES OF USAGE “1” Level 14 = 100% 0×31 “0” 0×30 “0” 0×30 “0” 0×30 “, “ Delimiter 0×2C “1” Level 15 = 100% 0×31 “0” 0×30 “0” 0×30 “0” 0×30 0×03 Note) ACK or the error status is received from the VG generator here. ACK is received if the data has been transferred successfully.
Page 486: Settings Established Using Pattern Data Output On/Off Setting Command
6.3.6 Settings established using pattern data output ON/OFF setting command Pattern data output ON/OFF setting: Command [20H 30H] Setting item Setting value Binary ASCII 0×02 VGCMD4 0×FD EXPONOFF4 0×20 “0” 0×30 “0” Mode 0×30 “, “ Delimiter 0×2C “0” Pattern select code = R 0×30 “, “...
Page 487: Setting And Executing The Drawing Pattern Data
Chapter 6 EXAMPLES OF USAGE Setting and executing the drawing pattern data Example: If a pattern such as the one shown below is to be drawn, then: *1: It is assumed that the timing data in question has been set ahead of time and that internal timing data No.1616 has been set.
Page 488: Flow Of Commands Used
6.4.1 Flow of commands used ENQ [05H] EXPONOFF4 [24H 30H] Pattern data ON/OFF command WINCLR4 [28H 63H] Window clearing command CHACOL4 [28H 2CH] Character plane color setting command WINCOL4 [28H 62H] Window color setting command CHASQRE4 [28H 23H] Square drawing command CHATRIPA4 [28H 2AH] Filled-in triangle drawing command CHACIRC4 [28H 25H] Circle drawing command [top left] CHACIRC4 [28H 25H] Circle drawing command [top right]...
Page 489: Settings Established Using Pattern Data Output On/Off Setting Command
Chapter 6 EXAMPLES OF USAGE 6.4.2 Settings established using pattern data output ON/OFF setting command Pattern data output ON/OFF setting: Command [20H 30H] Setting item Setting value Binary ASCII 0×02 VGCMD4 0×FD EXPONOFF4 0×20 “0” 0×30 “0” Mode 0×30 “, “ Delimiter 0×2C “0”...
Page 490: Settings Established Using Window Pattern Clearing Command
6.4.3 Settings established using window pattern clearing command Pattern data output ON/OFF setting: Command [28H 63H] Setting item Setting value Binary ASCII 0×02 VGCMD4 0×FD “(“ WINCLR4 0×28 “c” 0×63 0×03 Note) ACK or the error status is received from the VG generator here. ACK is received if the data has been transferred successfully.
Page 491: Settings Established Using Window Color Setting Command
Chapter 6 EXAMPLES OF USAGE 6.4.5 Settings established using window color setting command Window color setting: Command [28H 62H] Setting item Setting value Binary ASCII 0×02 VG4CMD 0×FD “(“ WINCOL4 0×28 “b” 0×62 “0” 0×30 “, “ Delimiter 0×2C “0” 0×30 “, “...
Page 492: Settings Established Using Filled-In Triangle Drawing Command
6.4.7 Settings established using filled-in triangle drawing command Filled-in triangle drawing: Command [28H 2AH] Parameters: Setting item Setting value Binary ASCII 0×02 VG4CMD 0×FD “(“ CHATRIPA4 0×28 “*” 0×2A “0” Coordinate X1 0×30 “5” 0×35 “1” 0×31 “2” 0×32 “, “ Delimiter 0×2C “0”...
Page 493: Settings Established Using Circle Drawing Command
Chapter 6 EXAMPLES OF USAGE 6.4.8 Settings established using circle drawing command Circle drawing: Command [28H 25H] Circle at top left Setting item Setting value Binary ASCII 0×02 VG4CMD 0×FD “(“ CHACIRC4 0×28 “%” 0×25 “0” Center X coordinate 0×30 “2”...
Page 494 Circle at bottom left Setting item Setting value Binary ASCII 0×02 VG4CMD 0×FD “(“ CHACIRC4 0×28 “%” 0×25 “0” Center X coordinate 0×30 “2” 0×32 “5” 0×35 “6” 0×36 “, “ Delimiter 0×2C “0” Center Y coordinate 0×30 “5” 0×35 “7”...
Page 495: Settings Established Using Window Drawing Command
Chapter 6 EXAMPLES OF USAGE 6.4.9 Settings established using window drawing command Window drawing command To edit the Window, settings is done by line memory for Window It is configured by Horizontal line memory and Vertical line memory as below. Window will be drawn as a “product (and)”...
Page 496 Window drawing: Command [28H 61H] Window at top left Setting item Setting value Binary ASCII 0×02 VG4CMD 0×FD “(“ WINDOW4 0×28 “a” 0×61 “2” Top left coordinate X 0×32 “5” 0×35 “6” 0×36 “, “ Delimiter 0×2C “1” Top left coordinate Y 0×31 “9”...
Page 497 Chapter 6 EXAMPLES OF USAGE Window at bottom right Setting item Setting value Binary ASCII 0×02 VG4CMD 0×FD “(“ WINDOW4 0×28 “a” 0×61 “6” Top left coordinate X 0×36 “1” 0×31 “8” 0×38 “, “ Delimiter 0×2C “4” Top left coordinate Y 0×34 “2”...
Page 498 If both setting 1. and 2. are set, 4 window will be drawn as below. Horizontal line memory ：Area which is set by drawing command ：Area which is drawn by line memory setting...
Page 499 TERMINAL COMMAND Instruction Manual NOTICE An incorrectly collated manual or a manual with missing pages will be ● replaced. All copyrights pertaining to this product are the property of ASTRODESIGN. ● This manual may not be copied in whole or in part without written ●...

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