Dukane Imagepro 8104wb, 8105b, 8106b Operating Guide
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11 Command Control via the Network When the projector connects network, the projector can be controlled with RS- 232C commands from the computer with web browser. For details of RS-232C commands, refer to RS-232C Communication / Network command table (&17). Command Control via the Network LAN LAN LAN cable (CAT-5 or greater) NOTE • If data is transferred via wireless and wired LAN at the same time, the projector may not be able to process the data correctly. Connection 1. Turn off the projector and the computer. 2. If you use wired LAN, connect the projector's LAN port to the computer's LAN port with a LAN cable. Use the cable that fulfi lls the specifi cation shown in fi gure. If you use wireless LAN, insert the USB wireless adapter into the projector's USB TYPE A port. 3. Turn the computer on, and after the computer has started up turn the projector on.
12 Communicaion Port The following two ports are assigned for the command control.TCP #23 TCP #9715 Configure the following items form a web browser when command control is used. Port Settings Network Control Port1 (Port: 23) Port open Click the [Enable] check box to open [Network Control Port1 (Port: 23)] to use TCP #23. Default setting is “Enable”. Authentication Click the [Enable] check box for the [Authentication] setting when authentication is required. Default setting is “Disable”. Network Control Port2 (Port: 9715) Port open Click the [Enable] check box to open [Network Control Port2 (Port: 9715)] to use TCP #9715. Default setting is “Enable”. Authentication Click the [Enable] check box for the [Authentication] setting when authentication is required. Default setting is “Enable”. Command Control via the Network (continued) When the authentication setting is enabled, the following settings are required. Security Settings Network Control Authentication Password Enter the desired authentication password. This setting will be the same for [Network Control Port1 (Port: 23)] and [Network Control Port2 (Port: 9715)]. Default setting is blank. Re-enter Authentication Password
13 Command Control via the Network (continued) Command control settings [TCP #23] 1. Command format Same as RS-232C communication, refer to RS-232C Communicaton command format. 2. Response code / Error code ("h" shows hexadecimal) Four of the response / error code used for TCP#23 are the same as RS-232C Communication (1)~(4). One authentication error reply (5) is added. (1) ACK reply : 06h Refer to RS-232C communication ( &10). (2) NAK reply : 15h Refer to RS-232C communication ( &10). (3) Error reply : 1Ch + 0000h Refer to RS-232C communication ( &10). (4) Data reply : 1Dh + xxxxh Refer to RS-232C communication ( &10). (5) Authentication error reply : 1Fh + 0400h When authentication error occurred, the projector returns the error code. [TCP #9715] 1. Command format The commands some datum are added to the head and the end of the ones of TCP#9715 are used. Header Data length RS-232C command Check sum Connection ID 0×02 0×0D 13 bytes 1 byte 1 byte [Header] 02, Fixed [Data Length] RS-232C commands byte length (0×0D, Fixed) [RS-232C commands] Refer to RS-232C Communication command format ( &9 ) . [Check Sum] This is the value to make zero on the addition of the lower 8 bits from the header to the checksum. [Connection ID] Random value from 0 to 255 (This value is attached to the reply data). NOTE • Operation cannot be guaranteed when the projector receives an undefined command or data. • Provide an interval of at least 40ms between the response code and any other code. • Commands are not accepted during warm-up.
14 2. Response code / Error code ("h" shows hexadecimal) The connection ID is attached for the TCP#23's response / error codes are used. The connection ID is same as the sending command format. (1) ACK reply : 06h + ××h (××h : connection ID) (2) NAK reply : 15h + ××h (3) Error reply : 1Ch + 0000h + ××h (4) Data reply : 1Dh + xxxxh + ××h (5) Authentication error reply : 1Fh + 0400h + ××h (6) Projector busy reply: 1Fh + ××××h + ××h When the projector is too busy to receives the command, the projector returns the error code. In such a case, check the sending code and send the same command again. Automatic Connection Break T h e T C P c o n n e c t i o n w i l l b e a u t o m a t i c a l l y d i s c o n n e c t e d a f t e r t h e r e i s n o communication for 30 seconds after being established. Authentication The projector does not accept commands without authentication success when authentication is enabled. The projector uses a challenge response type authentication with an MD5 (Message Digest 5) algorithm. When the projector is using a LAN, a random 8 bytes will be returned if authentication is enabled. Bind this received 8 bytes and the authentication password and digest this data with the MD5 algorithm and add this in front of the commands to send. Following is a sample if the authentication password is set to “password” and the random 8 bytes are “a572f60c”. 1) Select the projector. 2) Receive the random 8 bytes “a572f60c” from the projector. 3) B i n d t h e r a n d o m 8 b y t e s “ a 5 7 2 f 6 0 c ” a n d t h e a u t h e n t i c a t i o n p a s s w o r d “password” and it becomes “a572f60cpassword”. 4) Digest this bind “a572f60cpassword” with MD5 algorithm. It will be “e3d97429adffa11bce1f7275813d4bde”. 5) Add this “e3d97429adffa11bce1f7275813d4bde” in front of the commands and send the data. Send “e3d97429adffa11bce1f7275813d4bde”+command. 6) When the sending data is correct, the command will be performed and the reply data will be returned. Otherwise, an authentication error will be returned. NOTE • As for the transmission of the second or subsequent commands, the authentication data can be omitted when the same connection. Command Control via the Network (continued)
15 This projector is equipped with NETWORK BRIDGE function. When the projector connects to the computer by LAN communicaton, an external device that is connected with this projector by RS-232C communication can be controlled from the computer as a network terminal. For details, see the 6. Network Bridge Function - Network Guide. Network Bridge Communication Network Bridge Communication CONTROLRS-232C LAN LAN Connection 1. If you use wired LAN, connect the computer's LAN port and the projector's LAN port with a LAN cable. Use the cable that fulfi lls the specifi cation shown in fi gure. If you use wireless LAN, insert the USB wireless adapter into the projector's USB TYPE A port. 2. Connect the projector's CONTROL port and the RS-232C port of the devices that you want to control with a RS-232C cable. 3. Turn the computer on, and after the computer has started up turn the projector on. 4. Set the COMMUNICATION TYPE to NETWORK BRIDGE. (&OPTION menu - SERVICE - COMMUNICATION in the User's Manual - Operating Guide) NOTE • If data is transferred via wireless and wired LAN at the same time, the projector may not be able to process the data correctly.
16 Communication settings For communication setting, use the OPTION - SERVICE - COMMUNICATION menu. ( &OPTION menu - SERVICE - COMMUNICATION in the User's Manual - Operating Guide ) Item Condition BAUD RATE 4800bps / 9600bps / 19200bps / 38400bps Data length 8 bit (fixed) PARITY NONE/ODD/EVEN Start bit 1 bit (fixed) Stop bit 1 bit (fixed) Transmission method HALF-DUPLEX/FULL-DUPLEX NOTE • For connecting the projector to your devices, please read the manual for each devices, and connect them correctly with suitable cables. • Turn off (the power of ) both the projector and other devices and unplug , beore connecting them. • For details of Transmission method, refer to 6.4 Transmission method - Network Guide . Network Bridge Communication (continued)
17 RS-232C Communication / Network command table Names Operation TypeHeaderCommand DataCRC Action Type Setting code Power SetTurn off BE EF0306 00 2A D3 01 0000 60 00 00 Turn on BE EF0306 00 BA D2 01 0000 60 01 00 Get BE EF 0306 00 19 D3 02 0000 60 00 00 [Example return] 00 00 01 00 02 00 [Off] [On] [Cool down] Input SourceSetCOMPUTER IN1 BE EF 0306 00 FE D2 01 00 00 20 00 00 COMPUTER IN2 BE EF 0306 00 3E D0 01 00 00 20 04 00 HDMI BE EF 0306 00 0E D2 01 00 00 20 03 00 S-VIDEO BE EF 0306 00 9E D3 01 00 00 20 02 00 VIDEO BE EF 0306 00 6E D3 01 00 00 20 01 00 USB TYPE A BE EF 0306 00 5E D1 01 00 00 20 06 00 LAN BE EF 0306 00 CE D5 01 00 00 20 0B 00 USB TYPE B BE EF 0306 00 FE D7 01 00 00 20 0C 00 Get BE EF0306 00 CD D2 02 00 00 20 00 00 Error StatusGetBE EF 0306 00 D9 D8 02 0020 60 00 00 [Example return] 00 00 01 00 02 00 03 00 [Normal] [Cover error] [Fan error] [Lamp error] 04 00 05 00 07 00 08 00 \ 0C 00 [Temp error] [Air flow error] [Cold error] [Filter error] [Lens Door error] MAGNIFY Get BE EF0306 00 7C D2 02 00 07 30 00 00 Increment BE EF 0306 00 1A D2 04 00 07 30 00 00 Decrement BE EF 0306 00 CB D3 05 00 07 30 00 00 FREEZESetNORMAL BE EF 0306 00 83 D2 01 00 02 30 00 00 FREEZE BE EF0306 00 13 D3 01 00 02 30 01 00 Get BE EF0306 00 B0 D2 02 00 02 30 00 00 PICTURE MODE Set NORMAL BE EF 0306 00 23 F6 01 00BA 30 00 00 CINEMA BE EF 0306 00 B3 F7 01 00BA 30 01 00 DYNAMIC BE EF 0306 00 E3 F4 01 00 BA 3004 00 BOARD(BLACK) BE EF 0306 00 E3 EF 01 00 BA 3020 00 BOARD(GREEN) BE EF 0306 00 73 EE 01 00 BA 3021 00 WHITEBOARD BE EF 0306 00 83 EE 01 00 BA 3022 00 DAYTIME BE EF 0306 00 E3 C7 01 00 BA 3040 00 PHOTO BE EF0306 00 73 F5 01 00 BA 3005 00 Get BE EF 0306 00 10 F6 02 00BA 30 00 00 [Example return] 00 00 01 00 04 00 10 00 05 00 [Normal] [Cinema] [Dynamic] [Custom] [PHOTO] 20 00 21 00 22 00 40 00 [BOARD(BLACK)] [BOARD(GREEN)] [WHITEBOARD] [DAY TIME] BRIGHTNESS GetBE EF0306 00 89 D2 02 00 03 20 00 00 Increment BE EF 0306 00 EF D2 04 00 03 20 00 00 Decrement BE EF 0306 00 3E D3 05 00 03 20 00 00 BRIGHTNESS ResetExecute BE EF0306 00 58 D3 06 00 00 70 00 00 CONTRAST GetBE EF0306 00 FD D3 02 00 04 20 00 00 Increment BE EF 0306 00 9B D3 04 00 04 20 00 00 Decrement BE EF 0306 00 4A D2 05 00 04 20 00 00 RS-232C Communication / Network command table (continued on next page)
RS-232C Communication / Network command table (continued) 18(continued on next page) Names Operation TypeHeaderCommand DataCRC Action Type Setting code CONTRAST ResetExecute BE EF0306 00 A4 D2 06 00 01 70 00 00 GAMMASet1 DEFAULT BE EF 0306 00 07 E9 01 00 A1 30 20 00 1 CUSTOM BE EF 0306 00 07 FD 01 00 A1 30 10 00 2 DEFAULT BE EF 0306 00 97 E8 01 00 A1 30 21 00 2 CUSTOM BE EF 0306 00 97 FC 01 00 A1 30 11 00 3 DEFAULT BE EF 0306 00 67 E8 01 00 A1 30 22 00 3 CUSTOM BE EF 0306 00 67 FC 01 00 A1 30 12 00 4 DEFAULT BE EF 0306 00 F7 E9 01 00 A1 30 23 00 4 CUSTOM BE EF 0306 00 F7 FD 01 00 A1 30 13 00 5 DEFAULT BE EF 0306 00 C7 EB 01 00 A1 30 24 00 5 CUSTOM BE EF 0306 00 C7 FF 01 00 A1 30 14 00 6 DEFAULT BE EF 0306 00 57 EA 01 00 A1 30 25 00 6 CUSTOM BE EF 0306 00 57 FE 01 00 A1 30 15 00 7 DEFAULT BE EF 0306 00 A7 EA 01 00 A1 30 26 00 7 CUSTOM BE EF 0306 00 A7 FE 01 00 A1 30 16 00 Get BE EF0306 00 F4 F0 02 00 A1 30 00 00 User Gamma PatternSet Off BE EF0306 00 FB FA 01 00 80 30 00 00 9 steps gray scale BE EF0306 00 6B FB 01 00 80 30 01 00 15 steps gray scale BE EF0306 00 9B FB 01 00 80 30 02 00 Ramp BE EF0306 00 0B FA 01 00 80 30 03 00 Get BE EF0306 00 C8 FA 02 00 80 30 00 00 User Gamma Point 1Get BE EF0306 00 08 FE 02 00 90 30 00 00 Increment BE EF 0306 00 6E FE 04 00 90 30 00 00 Decrement BE EF 0306 00 BF FF 05 00 90 30 00 00 User Gamma Point 1 ResetExecute BE EF0306 00 58 C2 06 0050 70 00 00 User Gamma Point 2Get BE EF0306 00 F4 FF 02 00 91 30 00 00 Increment BE EF 0306 00 92 FF 04 00 91 30 00 00 Decrement BE EF 0306 00 43 FE 05 00 91 30 00 00 User Gamma Point 2 ResetExecute BE EF0306 00 A4 C3 06 0051 70 00 00 User Gamma Point 3Get BE EF0306 00 B0 FF 02 00 92 30 00 00 Increment BE EF 0306 00 D6 FF 04 00 92 30 00 00 Decrement BE EF 0306 00 07 FE 05 00 92 30 00 00 User Gamma Point 3 ResetExecute BE EF0306 00 E0 C3 06 0052 70 00 00 User Gamma Point 4Get BE EF0306 00 4C FE 02 00 93 30 00 00 Increment BE EF 0306 00 2A FE 04 00 93 30 00 00 Decrement BE EF 0306 00 FB FF 05 00 93 30 00 00 User Gamma Point 4 ResetExecute BE EF0306 00 1C C2 06 0053 70 00 00 User Gamma Point 5Get BE EF0306 00 38 FF 02 00 94 30 00 00 Increment BE EF 0306 00 5E FF 04 00 94 30 00 00 Decrement BE EF 0306 00 8F FE 05 00 94 30 00 00 User Gamma Point 5 ResetExecute BE EF0306 00 68 C3 06 00 54 70 00 00 User Gamma Point 6Get BE EF0306 00 C4 FE 02 00 95 30 00 00 Increment BE EF 0306 00 A2 FE 04 00 95 30 00 00 Decrement BE EF 0306 00 73 FF 05 00 95 30 00 00
RS-232C Communication / Network command table (continued) 19(continued on next page) Names Operation TypeHeaderCommand DataCRC Action Type Setting code User Gamma Point 6 ResetExecute BE EF0306 00 94 C2 06 0055 70 00 00 User Gamma Point 7Get BE EF0306 00 80 FE 02 00 96 3000 00 Increment BE EF 0306 00 E6 FE 04 0096 30 00 00 Decrement BE EF 0306 00 37 FF 05 00 96 3000 00 User Gamma Point 7 ResetExecute BE EF0306 00 D0 C2 06 00 56 70 00 00 User Gamma Point 8Get BE EF0306 00 7C FF 02 00 97 30 00 00 Increment BE EF 0306 00 1A FF 04 00 97 30 00 00 Decrement BE EF 0306 00 CB FE 05 00 97 30 00 00 User Gamma Point 8 ResetExecute BE EF0306 00 2C C3 06 0057 70 00 00 COLOR TEMPSet 1 HIGH BE EF 0306 00 0B F5 01 00B0 30 03 00 1 CUSTOM BE EF 0306 00 CB F8 01 00B0 30 13 00 2 MID BE EF 0306 00 9B F4 01 00B0 30 02 00 2 CUSTOM BE EF 0306 00 5B F9 01 00B0 30 12 00 3 LOW BE EF 0306 00 6B F4 01 00B0 30 01 00 3 CUSTOM BE EF 0306 00 AB F9 01 00B0 30 11 00 4 Hi-BRIGHT-1 BE EF 0306 00 3B F2 01 00B0 30 08 00 4 CUSTOM BE EF 0306 00 FB FF 01 00B0 30 18 00 5 Hi-BRIGHT-2 BE EF 0306 00 AB F3 01 00B0 30 09 00 5 CUSTOM BE EF 0306 00 6B FE 01 00B0 30 19 00 6 Hi-BRIGHT-3 BE EF 0306 00 5B F3 01 00B0 30 0A 00 6 CUSTOM BE EF 0306 00 9B FE 01 00B0 30 1A 00 7 Hi-BRIGHT-4 BE EF 0306 00 CB F2 01 00B0 30 0B 00 7 CUSTOM BE EF 0306 00 0B FF 01 00B0 30 1B 00 Get BE EF0306 00 C8 F5 02 00 B0 3000 00 COLOR TEMP GAIN RGet BE EF0306 00 34 F4 02 00 B1 3000 00 Increment BE EF 0306 00 52 F4 04 00 B1 3000 00 Decrement BE EF 0306 00 83 F5 05 00 B1 3000 00 COLOR TEMP GAIN R ResetExecute BE EF0306 00 10 C6 06 00 46 70 00 00 COLOR TEMP GAIN GGet BE EF0306 00 70 F4 02 00 B2 3000 00 Increment BE EF 0306 00 16 F4 04 00B2 30 00 00 Decrement BE EF 0306 00 C7 F5 05 00 B2 3000 00 COLOR TEMP GAIN G ResetExecute BE EF0306 00 EC C7 06 0047 70 00 00 COLOR TEMP GAIN BGet BE EF0306 00 8C F5 02 00 B3 3000 00 Increment BE EF 0306 00 EA F5 04 00 B3 3000 00 Decrement BE EF 0306 00 3B F4 05 00B3 30 00 00 COLOR TEMP GAIN B ResetExecute BE EF0306 00 F8 C4 06 0048 70 00 00 COLOR TEMP OFFSET RGet BE EF0306 00 04 F5 02 00 B5 3000 00 Increment BE EF 0306 00 62 F5 04 00B5 30 00 00 Decrement BE EF 0306 00 B3 F4 05 00B5 30 00 00 COLOR TEMP OFFSET R ResetExecute BE EF0306 00 40 C5 06 004A 70 00 00 COLOR TEMP OFFSET GGet BE EF0306 00 40 F5 02 00 B6 3000 00 Increment BE EF 0306 00 26 F5 04 00B6 30 00 00 Decrement BE EF 0306 00 F7 F4 05 00 B6 3000 00
RS-232C Communication / Network command table (continued) 20(continued on next page) Names Operation TypeHeaderCommand DataCRC Action Type Setting code COLOR TEMP OFFSET G ResetExecute BE EF0306 00 BC C4 06 00 4B 70 00 00 COLOR TEMP OFFSET BGet BE EF0306 00 BC F4 02 00B7 30 00 00 Increment BE EF 0306 00 DA F4 04 00B7 30 00 00 Decrement BE EF 0306 00 0B F5 05 00B7 30 00 00 COLOR TEMP OFFSET B ResetExecute BE EF0306 00 C8 C5 06 004C 70 00 00 COLOR Get BE EF0306 00 B5 72 02 00 02 22 00 00 Increment BE EF 0306 00 D3 72 04 00 02 22 00 00 Decrement BE EF 0306 00 02 73 05 00 02 22 00 00 COLOR ResetExecute BE EF0306 00 80 D0 06 00 0A 70 00 00 TINT GetBE EF0306 00 49 73 02 00 03 22 00 00 Increment BE EF 0306 00 2F 73 04 00 03 22 00 00 Decrement BE EF 0306 00 FE 72 05 00 03 22 00 00 TINT ResetExecute BE EF0306 00 7C D1 06 00 0B 70 00 00 SHARPNESS GetBE EF0306 00 F1 72 02 00 01 22 00 00 Increment BE EF 0306 00 97 72 04 00 01 22 00 00 Decrement BE EF 0306 00 46 73 05 00 01 22 00 00 SHARPNESS ResetExecute BE EF0306 00 C4 D0 06 00 09 70 00 00 ACTIVE IRIS SetOFF BE EF0306 00 0B 22 01 00 04 33 00 00 THEATER BE EF0306 00 CB 2F 01 00 04 33 10 00 PRESENTATION BE EF 0306 00 5B 2E 01 00 04 33 11 00 Get BE EF0306 00 38 22 02 00 04 33 00 00 MY MEMORY LoadSet 1 BE EF0306 00 0E D7 01 00 14 20 00 00 2 BE EF0306 00 9E D6 01 00 14 20 01 00 3 BE EF0306 00 6E D6 01 00 14 20 02 00 4 BE EF0306 00 FE D7 01 00 14 20 03 00 MY MEMORY SaveSet 1 BE EF0306 00 F2 D6 01 00 15 20 00 00 2 BE EF0306 00 62 D7 01 00 15 20 01 00 3 BE EF0306 00 92 D7 01 00 15 20 02 00 4 BE EF0306 00 02 D6 01 00 15 20 03 00 ASPECTSet4:3 BE EF 0306 00 9E D0 01 00 08 20 00 00 16:9 BE EF 0306 00 0E D1 01 00 08 20 01 00 NATIVE BE EF0306 00 5E D7 01 00 08 20 08 00 14:9 BE EF 0306 00 CE D6 01 00 08 20 09 00 16:10 BE EF 0306 00 3E D6 01 00 08 20 0A 00 NORMAL BE EF 0306 00 5E DD 01 00 08 20 10 00 Get BE EF0306 00 AD D0 02 00 08 20 00 00 OVER SCAN GetBE EF0306 00 91 70 02 00 09 22 00 00 Increment BE EF 0306 00 F7 70 04 00 09 22 00 00 Decrement BE EF 0306 00 26 71 05 00 09 22 00 00 OVER SCAN ResetExecute BE EF0306 00 EC D9 06 00 27 70 00 00 V POSITION GetBE EF0306 00 0D 83 02 00 00 21 00 00 Increment BE EF 0306 00 6B 83 04 00 00 21 00 00 Decrement BE EF 0306 00 BA 82 05 00 00 21 00 00