BenQ RP6504 LAN Protocol Software
Introduction
This document describes the hardware interface spec and software protocols of RS232 interface communication between Commercial Display and PC or other control unit with RS232 protocol. This set protocol allows users to assign the ID in the command to control the specific ID monitor. The set protocol contains two sections of command: Set-Function and Get-Function In this document, “PC” represents all the control units that can send or receive the RS232 protocol command.
RS232 pin assignment
- Communication setting
- Baud rate select: 9600bps (fixed)/ Data bits: 8 bits (fixed)
- Parity: None (fixed)/ Stop Bits: 1(fixed)
Command message reference
PC sends to Monitor command packet followed by “CR”. Every time the PC sends a control command to the Monitor, the Monitor shall respond as follows:
- If the message is received correctly, it will send “+” (02Bh) followed by “CR” (00Dh).
- If the message is received incorrectly, it will send “-” (02Dh) followed by “CR” (00Dh).
Connections and communication settings
Choose one of the connections and set it up properly before RS232 control.
RS232 serial port connection
RS232 via LAN
Find the Wired LAN IP address of the connected display from the OSD menu and make sure the display and the computer are within the same network.
IP Protocol Port: 4660
Protocol Command Description
Item | Description |
Length | Total Bytes of Message excluding “CR” |
TV ID | Identification for each of TV
TV ID is “01” for LAN control & RS232 control |
Command Type | Identify command type, “s” (0x73h): Set Command
“g” (0x67h): Get-Command “r” (0x72h): Reply Command “+” (0x2Bh): Valid command Reply “-” (0x2Dh): Invalid command Reply |
Command | Function command code: One byte ASCII code |
Value [1~3] | Three bytes ASCII that defines the value |
CR | 0x0D |
Set-function listing
The PC can control the LCD Monitor for specific actions. The Set-Function command allows you to control the LCD monitor behaviour in a remote sit through the RS232 port. The set-function packet format consists of 11 bytes.
Set-function description
Item | Description |
Length | Total Bytes of Message excluding “CR” |
TV ID | Identification for each of TV
TV ID is “01” for LAN control & RS232 control |
Command Type | Identify command type, “s”
(0x73h): Set Command |
Command | Function command code: One byte ASCII code |
Value [1~3] | Three bytes ASCII that defines the value |
CR | 0x0D |
Set-function format
Send: (Command Type=”s”)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Byte count | 1 Byte | 2 Byte | 1 Byte | 1 Byte | 1 Byte | 1 Byte | 1 Byte | 1 Byte |
Bytes order | 1 | 2~3 | 4 | 5 | 6 | 7 | 8 | 9 |
Reply: (Command Type=”+” or “-“)
Name | Length | ID | Command type | CR |
Byte count | 1 Byte | 2 Byte | 1 Byte | 1 Byte |
Bytes order | 1 | 2~3 | 4 | 5 |
Example 1: Set Brightness as 76 and this command is valid. Send (Hex Format)
Reply (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x73 | 0x24 | 0x30 | 0x37 | 0x36 | 0x0D |
Example 2: Set Brightness as 176 and this command is NOT valid.
Send (Hex Format)
Name | Length | ID | Command type | CR |
Hex | 0x34 | 0x30 0x31 | 0x2B | 0x0D |
Reply (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x73 | 0x24 | 0x31 | 0x37 | 0x36 | 0x0D |
Name | Length | ID | Command type | CR |
Hex | 0x34 | 0x30 0x31 | 0x2D | 0x0D |
Example 3: Set Balance as 50 this command is valid.
Send (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x73 | 0x39 | 0x30 | 0x35 | 0x30 | 0x0D |
Reply (Hex Format)
Name | Length | ID | Command type | CR |
Hex | 0x34 | 0x30 0x31 | 0x2D | 0x0D |
Example 4: Set Balance as 115 this command is not valid.
Send (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x73 | 0x39 | 0x31 | 0x31 | 0x35 | 0x0D |
Reply (Hex Format)
Name | Length | ID | Command type | CR |
Hex | 0x34 | 0x30 0x31 | 0x2D | 0x0D |
Set-function table
Set Function | Len | ID | Cmd Type | Cmd Code
(Hex) |
RS232 (ASCII Bytes) | LAN (ASCII Bytes) |
Power | 8 | 1 | s | 21 | 000 :Monitor Off (Blacklight off
+mute) |
|
001 : On | 001 :Monitor On (Blacklight on +
last status) |
|||||
002 : Standby (or android off) | 002 : Standby (android off) | |||||
003 : Reboot | 003 : Reboot | |||||
Video Source | 8 | 1 | s | 22 | 000 : VGA | 000 : VGA |
001 : HDMI1 | 001 : HDMI1 | |||||
002: HDMI2 | 002: HDMI2 | |||||
021 : HDMI3 | 021 : HDMI3 | |||||
022: HDMI | 022: HDMI | |||||
007: Display Port | 007: Display Port | |||||
051 : Type-C1 | 051 : Type-C1 | |||||
052 : Type-C | 052 : Type-C | |||||
101 : Android | 101 : android | |||||
102 : OPS | 102 : OPS | |||||
108 : Wi-Fi Source | 108 : Wi-Fi Source | |||||
Contrast | 8 | 1 | s | 23 | 000 ~ 100 | 000 ~ 100 |
Brightness | 8 | 1 | s | 24 | 000 ~ 100 | 000 ~ 100 |
Picture reset | 8 | 1 | s | 26 | 000 : | 000 : |
Language | 8 | 1 | s | 32 | 000: English | 000: English |
001: Français | 001: Français | |||||
002: Español | 002: Español | |||||
003: 繁中 | 003: 繁中 | |||||
004: 简中 | 004: 简中 | |||||
005: Português | 005: Português | |||||
006: German | 006: German | |||||
007: Dutch | 007: Dutch | |||||
008: Polish | 008: Polish | |||||
009: Russia | 009: Russia | |||||
010:Czech | 010:Czech | |||||
011:Danish | 011:Danish | |||||
012:Swedish | 012:Swedish | |||||
013:Italian | 013:Italian |
014:Romanian | 014:Romanian | |||||
015:Norwegian | 015:Norwegian | |||||
016:Finnish | 016:Finnish | |||||
017:Greek | 017:Greek | |||||
018:Turkish | 018:Turkish | |||||
019:Arabic | 019:Arabic | |||||
020:Japanse | 020:Japanse | |||||
021: Thailand | 021: Thailand | |||||
022: Korean | 022: Korean | |||||
023 : Hungarian | 023 : Hungarian | |||||
024 : Persian | 024 : Persian | |||||
025 : Vietnamese | 025 : Vietnamese | |||||
026 : Indonesia | 026 : Indonesia | |||||
027 : Hebrew | 027 : Hebrew | |||||
Sound Mode | 8 | 1 | s | 33 | 000 : Cinema | 000 : Cinema |
001 : Standard | 001 : Standard | |||||
002: Sports | 002: Sports | |||||
003 : News | 003 : News | |||||
Volume | 8 | 1 | s | 35 | 000 ~ 100 | 000 ~ 100 |
Mute | 8 | 1 | s | 36 | 000: Off | 000: Off |
001: On | 001: On | |||||
Balance | 8 | 1 | s | 39 | 000~100 | 000~100 |
Sound reset | 8 | 1 | s | 3B | 000 | 000 |
Reomte comtrol command | 8 | 1 | s | 40 | 000 : Vol + | 000 : Vol + |
001 : Vol – | 001 : Vol – | |||||
010 : Remote up | 010 : Remote up | |||||
011 : Remote down | 011 : Remote down | |||||
012 : Remote left | 012 : Remote left | |||||
013 : Remote right | 013 : Remote right | |||||
014 : Remote OK | 014 : Remote OK | |||||
020 : Remote Menu Key | 020 : Remote Menu Key | |||||
022 : Remote Exit | 022 : Remote Exit | |||||
031 : Blank | 031 : Blank | |||||
032 : Freeze | 032 : Freeze | |||||
IR Control | 8 | 1 | s | 42 | 000: Disable | 000: Disable |
001: Enable | 001: Enable | |||||
Button&IR
Control |
8 | 1 | s | 43 | 000: Disable | 000: Disable |
001: Enable | 001: Enable | |||||
Button
Control |
8 | 1 | s | 45 | 000: Disable | 000: Disable |
001: Enable | 001: Enable |
Screen Reset | 8 | 1 | s | 7F | 000 | 000 |
All Reset | 8 | 1 | s | 7E | 000 | 000 |
Picture Mode | 1 | s | 81 | 000: Standard | 000: Standard | |
001: Bright | 001: Bright | |||||
002 : Soft | 002 : Soft | |||||
003 : ECO | 003 : ECO | |||||
005: Custom 1 | 005: Custom 1 | |||||
006: Custom 2 | 006: Custom 2 | |||||
007: Custom 3 | 007: Custom 3 | |||||
Saturation | 8 | 1 | s | 82 | 000 ~ 100 | 000 ~ 100 |
Backlight | 8 | 1 | s | 84 | 000 ~ 100 | 000 ~ 100 |
DCR | 8 | 1 | s | 85 | 000: Off | 000: Off |
001: On | 001: On | |||||
Color Temp | 8 | 1 | s | 86 | 000 : Cool | 000 : Cool |
001 : Normal | 001 : Normal | |||||
002 : Warm | 002 : Warm | |||||
Ambient Light
Sensor |
8 | 1 | s | 95 | 000: Off | 000: Off |
001: On | 001: On | |||||
RTC Year | 8 | 1 | s | 98 | 000 ~ 099 | 000 ~ 099 |
RTC Month | 8 | 1 | s | 99 | 001 ~ 012 | 001 ~ 012 |
RTC Day | 8 | 1 | s | 9A | 001 ~ 031 | 001 ~ 031 |
RTC Hour | 8 | 1 | s | 9B | 000 ~ 023 | 000 ~ 023 |
RTC Minute | 8 | 1 | s | 9C | 000 ~ 059 | 000 ~ 059 |
Power Save | 8 | 1 | s | A9 | 000: Off | 000: Off |
001: Low | 001: Low | |||||
002: High | 002: High | |||||
Switch on Staus | 8 | 1 | s | AB | 000 : Power Off | 000 : Power Off |
001 : Force On | 001 : Force On | |||||
002 : Last Status | 002 : Last Status |
On/Off Timer | 14 | 1 | s | E0 | Byte1~Byte9
(1) Byte1: Decide which Timer is selected, and its enable/disable setting. Byte1[3:0]=0x1~0x07. There are totally 7 Timers, this value is used to decide which Timer is selected. Byte1[7]: Reserved, should be 0. Byte1[6]: The Timer is enable or not. Byte1[6]=1 means enable. Byte1[5]: The On Timer is enable or not. Byte1[5]=1 means enable. Byte1[4]: The Off Timer is enable or not. Byte1[4]=1 means enable. (2) Byte2: The Day of the On/Off Timer. bit0 for Sunday, bit1 for Monday, bit2 for Tuesday, bit3 for Wednesday, bit4 for Thursday, bit5 for Friday, bit6 for Saturday, bit7 for Everday. (3) Byte3: The Hour of the On Timer. Byte3=0x00~0x17. (4) Byte4: The Minute of the On Timer. Byte4=0x00~0x3B. (5) Byte5: The Hour of the Off Timer. Byte5=0x00~0x17. (6) Byte6: The Minute of the Off Timer. Byte6=0x00~0x3B. (7) Byte7: Select the Video Source. 0x00=VGA, 0x01=HDMI, 0x02=HDMI1, 0x15=HDMI2, 0x33=Type-C 0x65=Android, 0x66=OPS, 0xFF=Default (Other values are reserved. (8) Byte8~9 are reserved, and should be 0x00. |
Byte1~Byte9
(1) Byte1: Decide which Timer is selected, and its enable/disable setting. Byte1[3:0]=0x1~0x07. There are totally 7 Timers, this value is used to decide which Timer is selected. Byte1[7]: Reserved, should be 0. Byte1[6]: The Timer is enable or not. Byte1[6]=1 means enable. Byte1[5]: The On Timer is enable or not. Byte1[5]=1 means enable. Byte1[4]: The Off Timer is enable or not. Byte1[4]=1 means enable. (2) Byte2: The Day of the On/Off Timer. bit0 for Sunday, bit1 for Monday, bit2 for Tuesday, bit3 for Wednesday, bit4 for Thursday, bit5 for Friday, bit6 for Saturday, bit7 for Everday. (3) Byte3: The Hour of the On Timer. Byte3=0x00~0x17. (4) Byte4: The Minute of the On Timer. Byte4=0x00~0x3B. (5) Byte5: The Hour of the Off Timer. Byte5=0x00~0x17. (6) Byte6: The Minute of the Off Timer. Byte6=0x00~0x3B. (7) Byte7: Select the Video Source. 0x00=VGA, 0x01=HDMI, 0x02=HDMI1, 0x15=HDMI2, 0x33=Type-C 0x65=Android, 0x66=OPS, 0xFF=Default Other values are reserved. (8) Byte8~9 are reserved, and should be 0x00. |
WOL | 8 | 1 | s | F0 | 000: Off | 000: Off |
001: On | 001: On | |||||
Image Noise
Reduction |
8 | 1 | s | F1 | 000: Off | 000: Off |
001: On | 001: On |
EDID | 8 | 1 | s | F2 | 000 : EDID 1.4 | 000 : EDID 1.4 |
001 : EDID 2.0 | 001 : EDID 2.0 | |||||
Air Ionizer | 8 | 1 | s | F5 | 000: Off | 000: Off |
001: On | 001: On | |||||
Sleep mode | 8 | 1 | s | F6 | 000 ~ 240 | 000 ~ 240 |
Get-function listing
The PC can interrogate the LCD Monitor for specific information. The Get-Function packet format consists of 5 bytes which are similar to the Set-Function packet structure. Note that the “Value” byte is always = 00.
Item | Description |
Length | Total Bytes of messages excluding “CR” |
TV ID | Identification for each of TV
TV ID is “01” for LAN control & RS232 control |
Command Type | Identify command type, “g” (0x67h): Get Command |
Command | Function command code: One byte ASCII code |
Value [1~3] | Three bytes ASCII that defines the value
NOTE: To get backlight senor, thermal sensor, and ambient sensor, you need four bytes ASCII that defines the value and the length is 9. |
CR | 0x0D |
Get-function description
Get-function format
Send: (Command Type=”g”)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Byte count | 1 Byte | 2 Byte | 1 Byte | 1 Byte | 1 Byte | 1 Byte | 1 Byte | 1 Byte |
Bytes order | 1 | 2~3 | 4 | 5 | 6 | 7 | 8 | 9 |
Reply: (Command Type=”r” or “-“)
If the Command is valid, Command Type =”r”
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Byte count | 1 Byte | 2 Byte | 1 Byte | 1 Byte | 1 Byte | 1 Byte | 1 Byte | 1 Byte |
Bytes order | 1 | 2~3 | 4 | 5 | 6 | 7 | 8 | 9 |
If the Command is Not valid, Command Type=”-”
Name | Length | ID | Command type | CR |
Byte count | 1 Byte | 2 Byte | 1 Byte | 1 Byte |
Bytes order | 1 | 2~3 | 4 | 5 |
Example 1: Get Brightness and this command is valid.
The Brightness value is 67.
Send (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x67 | 0x62 | 0x30 | 0x30 | 0x30 | 0x0D |
Reply (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x72 | 0x62 | 0x30 | 0x36 | 0x37 | 0x0D |
Example 3: Get Balance from and this command is valid.
The Balance value is 32.
Send (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x67 | 0X39 | 0x30 | 0x30 | 0x30 | 0x0D |
Reply (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x72 | 0x39 | 0x30 | 0x33 | 0x32 | 0x0D |
Example 4: Get Balance, but the Balance command ID is an error and it is NOT in the command table.
Send (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x67 | 0XD7 | 0x30 | 0x30 | 0x30 | 0x0D |
Reply (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | CR |
Hex | 0x38 | 0x30 0x31 | 0x67 | 0XD7 | 0x30 | 0x30 | 0x30 | 0x0D |
Example 5: Get Operation time from the system and this command is valid.
The System Operation time value is 1786 (ASCII code).
Send (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | Value4 | Value5 | CR |
Hex | 0x38 | 0x30 0x31 | 0x67 | 0X76 | 0x30 | 0x30 | 0x30 | 0x30 | 0x30 | 0x0D |
Reply (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | Value4 | Value5 | CR |
Hex | 0x38 | 0x30 0x31 | 0x72 | 0x76 | 0x30 | 0x31 | 0x37 | 0x38 | 0x36 | 0x0D |
Example 6: Get CO2 Value from System and this command is valid.
The lux value is 786 (ASCII code).
Send (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | Value4 | Value5 | CR |
Hex | 0x38 | 0x30 0x31 | 0x72 | 0x76 | 0x30 | 0x31 | 0x37 | 0x38 | 0x36 | 0x0D |
Reply (Hex Format)
Name | Length | ID | Command type | Command | Value1 | Value2 | Value3 | Value4 | Value5 | CR |
Hex | 0x38 | 0x30 0x31 | 0x72 | 0xAB | 0x30 | 0x30 | 0x37 | 0x38 | 0x36 | 0x0D |
PC Get-function command to IFP
Get Function | Le n | I D | Cmd Typ e | Cmd Code (Hex
) |
RS232 | LAN |
Model Info | 20 | 1 | g | 20 | (1) Input value: Byte1 – Byte2 – Byte3…Byte15 Byte2~Byte11=0x00
Byte1=0x01: Get Customer Name Byte1=0x02: Get Customer Model Name Byte1=0x04: Get Scaler Firmware Version Byte1=0x05: Get LAN Firmware Version Byte1=0x06: Get Serial Number
(2) Return value: Byte1 – Byte2 – Byte3…Byte15 The Byte1 value at the return value should be the same as the value of Byte1 at input value. Byte2~Byte15 should be ASCII format. Ex: If Customer=Generic, Byte1=0x01, Byte2=’G’, Byte3=’e’,…Byte8=’c’, Byte9~Byte11=0x00. Ex: If the Scaler Firmware Version=1.02, Byte1=0x03, Byte2=’1′, Byte3=’.’, Byte4=’0′, Byte5=’2′, Byte6~Byte11=0x00. |
(1) Input value: Byte1 – Byte2 – Byte3…Byte15 Byte2~Byte11=0x00
Byte1=0x01: Get Customer Name Byte1=0x02: Get Customer Model Name Byte1=0x04: Get Scaler Firmware Version Byte1=0x05: Get LAN Firmware Version Byte1=0x06: Get Serial Number
(2) Return value: Byte1 – Byte2 – Byte3…Byte15 The Byte1 value at the return value should be the same as the value of Byte1 at input value. Byte2~Byte15 should be ASCII format. Ex: If Customer=Generic, Byte1=0x01, Byte2=’G’, Byte3=’e’,…Byte8=’c’, Byte9~Byte11=0x00. Ex: If the Scaler Firmware Version=1.02, Byte1=0x03, Byte2=’1′, Byte3=’.’, Byte4=’0′, Byte5=’2′, Byte6~Byte11=0x00. |
Signal Status | 8 | 1 | g | 22 | 000: Signal unstable | 000: Signal unstable |
001: Signal stable (Active Sync
exists) |
001: Signal stable (Active Sync
exists) |
|||||
Treble | 8 | 1 | g | 37 | 000~100 | 000~100 |
Bass | 8 | 1 | g | 38 | 000~100 | 000~100 |
Balance | 8 | 1 | g | 39 | 000~100 | 000~100 |
Contrast | 8 | 1 | g | 61 | 000 ~ 100 | 000 ~ 100 |
Brightness | 8 | 1 | g | 62 | 000 ~ 100 | 000 ~ 100 |
Sound Mode | 8 | 1 | g | 65 | 000 : Cinema | 000 : Cinema |
001 : Standard | 001 : Standard | |||||
002: Sports | 002: Sports | |||||
003 : News | 003 : News | |||||
Volume | 8 | 1 | g | 66 | 000 ~ 100 | 000 ~ 100 |
Mute | 8 | 1 | g | 67 | 000: Off | 000: Off |
001: On | 001: On | |||||
IR Control | 8 | 1 | g | 68 | 000: Disable | 000: Disable |
001: Enable | 001: Enable | |||||
Button&IR
Control |
8 | 1 | g | 69 | 000: Disable | 000: Disable |
001: Enable | 001: Enable | |||||
Video Source | 8 | 1 | g | 6A | 000 : VGA | 000 : VGA |
001 : HDMI1 | 001 : HDMI1 | |||||
002: HDMI2 | 002: HDMI2 | |||||
021 : HDMI3 | 021 : HDMI3 | |||||
022: HDMI(front) | 022: HDMI | |||||
007 : Display Port | 007 : Display Port | |||||
051 : Type-C1 | 051 : Type-C1 | |||||
052 : Type-C | 052 : Type-C | |||||
101 : Android | 101 : android | |||||
102 : OPS | 102 : OPS | |||||
Power | 8 | 1 | g | 6C | X | 000 :Monitor Off (Blacklight off
+mute) |
001 : On | 001 :Monitor On (Blacklight on +
last status) |
|||||
002 : Standby (or android off) | X | |||||
Button
Control |
8 | 1 | g | 73 | 000: Disable | 000: Disable |
001: Enable | 001: Enable | |||||
Operation
Time |
10 | 1 | g | 76 | 00000 ~ 99999 | 00000 ~ 99999 |
Aspect
Ratio |
8 | 1 | g | 77 | 000 : 16:9 | 000 : 16:9 |
002 : PTP | 002 : PTP | |||||
Language | 8 | 1 | g | 78 | 000: English | 000: English |
001: Français | 001: Français | |||||
002: Español | 002: Español | |||||
003: 繁中 | 003: 繁中 | |||||
004: 简中 | 004: 简中 | |||||
005: Português | 005: Português | |||||
006: German | 006: German |
007: Dutch | 007: Dutch | |||||
008: Polish | 008: Polish | |||||
009: Russia | 009: Russia | |||||
010:Czech | 010:Czech | |||||
011:Danish | 011:Danish | |||||
012:Swedish | 012:Swedish | |||||
013:Italian | 013:Italian | |||||
014:Romanian | 014:Romanian | |||||
015:Norwegian | 015:Norwegian | |||||
016:Finnish | 016:Finnish | |||||
017:Greek | 017:Greek | |||||
018:Turkish | 018:Turkish | |||||
019:Arabic | 019:Arabic | |||||
020:Japanse | 020:Japanse | |||||
021: Thailand | 021: Thailand | |||||
022: Korean | 022: Korean | |||||
023 : Hungarian | 023 : Hungarian | |||||
024 : Persian | 024 : Persian | |||||
025 : Vietnamese | 025 : Vietnamese | |||||
026 : Indonesia | 026 : Indonesia | |||||
027 : Hebrew | 027 : Hebrew | |||||
Picture Mode | 8 | 1 | g | B1 | 000: Standard | 000: Standard |
001: Bright | 001: Bright | |||||
002 : Soft | 002 : Soft | |||||
003 : ECO | 003 : ECO | |||||
005: Custom1 | 005: Custom1 | |||||
006: Custom2 | 006: Custom2 | |||||
007: Custom3 | 007: Custom3 | |||||
Saturation | 8 | 1 | g | B2 | 000 ~ 100 | 000 ~ 100 |
Backlight | 8 | 1 | g | B4 | 000 ~ 100 | 000 ~ 100 |
DCR | 8 | 1 | g | B5 | 000: Off | 000: Off |
001: On | 001: On | |||||
Color Temp | 8 | 1 | g | B6 | 000 : Cool | 000 : Cool |
001 : Normal | 001 : Normal | |||||
002 : Warm | 002 : Warm | |||||
Ambient Light
Sensor |
8 | 1 | g | C5 | 000: Off | 000: Off |
001: On | 001: On | |||||
RTC Year | 8 | 1 | g | C8 | 000 ~ 099 | 000 ~ 099 |
RTC Month | 8 | 1 | g | C9 | 001 ~ 012 | 001 ~ 012 |
RTC Day | 8 | 1 | g | CA | 001 ~ 031 | 001 ~ 031 |
RTC Hour | 8 | 1 | g | CB | 000 ~ 023 | 000 ~ 023 |
RTC
Minute |
8 | 1 | g | CC | 000 ~ 059 | 000 ~ 059 |
Power Save | 8 | 1 | g | D9 | 000: Off | 000 : Off |
001: Low | 001 : Low | |||||
002: High | 002 : High | |||||
Switch on Staus | 8 | 1 | g | DA | 000 : Power Off | 000 : Power Off |
001 : Force On | 001 : Force On | |||||
002 : Last Status | 002 : Last Status | |||||
On/Off Timer | 14 | 1 | g | E0 | Input value: Byte1 – Byte2 –
Byte3…Byte9 (1) Byte1[3:0]: The Number of the On/Off Timer. There are totally 7 On/Off Timers, and this byte is used to selected which timer is going to be accessed. (2) Byte1[7:4] is reserved, should be 0. (3) Byte2~9 are reserverd, should be 0x00.
Return value: Byte1 – Byte2 – Byte3…Byte9 (1) Byte1[3:0]: Should retuen the same value as Byte1 at Input value. Byte1[7]: Reserved, should be 0. Byte1[6]: The Timer is enable or not. Byte1[6]=1 means enable. Byte1[5]: The On Timer is enable or not. Byte1[5]=1 means enable. Byte1[4]: The Off Timer is enable or not. Byte1[4]=1 means enable. (2) Byte2: The Day of the On/Off Timer. bit0 for Sunday, bit1 for Monday, bit2 for Tuesday, bit3 for Wednesday, bit4 for Thursday, bit5 for Friday, bit6 for Saturday, bit7 for Everday. |
Input value: Byte1 – Byte2 –
Byte3…Byte9 (1) Byte1[3:0]: The Number of the On/Off Timer. There are totally 7 On/Off Timers, and this byte is used to selected which timer is going to be accessed. (2) Byte1[7:4] is reserved, should be 0. (3) Byte2~9 are reserverd, should be 0x00.
Return value: Byte1 – Byte2 – Byte3…Byte9 (1) Byte1[3:0]: Should retuen the same value as Byte1 at Input value. Byte1[7]: Reserved, should be 0. Byte1[6]: The Timer is enable or not. Byte1[6]=1 means enable. Byte1[5]: The On Timer is enable or not. Byte1[5]=1 means enable. Byte1[4]: The Off Timer is enable or not. Byte1[4]=1 means enable. (2) Byte2: The Day of the On/Off Timer. bit0 for Sunday, bit1 for Monday, bit2 for Tuesday, bit3 for Wednesday, bit4 for Thursday, bit5 for Friday, bit6 for Saturday, bit7 for Everday. |
(3) Byte3: The Hour of the On Timer. Byte3=0x00~0x17.
(4) Byte4: The Minute of the On Timer. Byte4=0x00~0x3B. (5) Byte5: The Hour of the Off Timer. Byte5=0x00~0x17. (6) Byte6: The Minute of the Off Timer. Byte6=0x00~0x3B. (7) Byte7: Select the Video Source. 0x00=VGA, 0x01=HDMI, 0x02=HDMI1, 0x15=HDMI2, 0x33=Type-C 0x65=Android, 0x66=OPS, 0xFF=Default Other values are reserved. 0xFF=Default. Other values are reserved. (8) Byte8~9 are reserved, and should be 0x00. |
(3) Byte3: The Hour of the On Timer. Byte3=0x00~0x17.
(4) Byte4: The Minute of the On Timer. Byte4=0x00~0x3B. (5) Byte5: The Hour of the Off Timer. Byte5=0x00~0x17. (6) Byte6: The Minute of the Off Timer. Byte6=0x00~0x3B. (7) Byte7: Select the Video Source. 0x00=VGA, 0x01=HDMI, 0x02=HDMI1, 0x15=HDMI2, 0x33=Type-C 0x65=Android, 0x66=OPS, 0xFF=Default Other values are reserved. 0x0A=Network, 0x0B=USB Display 0xFF=Default. Other values are reserved. (8) Byte8~9 are reserved, and should be 0x00. |
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Network Setting | 14 | g | E1 | Input Value: Byte1 – Byte2 –
Byte3…Byte9 (1) Byte1=0x00: IP Setup Mode Byte1=0x01: IP Address Byte1=0x02: Get Subnet Mask Byte1=0x03: Default Gateway Byte1=0x04: Primary DNS Byte1=0x05: Secondary DNS Byte1=0x06: MAC Address (2) Byte2~9 are reserved, should be 0x00.
Return value: Byte1 – Byte2 – |
Input Value: Byte1 – Byte2 –
Byte3…Byte9 (1) Byte1=0x00: IP Setup Mode Byte1=0x01: IP Address Byte1=0x02: Get Subnet Mask Byte1=0x03: Default Gateway Byte1=0x04: Primary DNS Byte1=0x05: Secondary DNS Byte1=0x06: current accessing network card MAC Address Byte1=0x07: Ethernet (RJ45) MAC Addess |
Byte3…Byte9
The Byte1 at the return value should be the same as the value of Byte1 at Input value. Byte2~Byte15 should be hex value format (1) If Byte1=0x00(IP Setup Mode) at Input value, the return value should be Byte1=0x00 Byte2=0x00: Manual 0x01: DHCP Byte3~9 are reserved, should be 0x00. (2) If Byte1=0x01(IP Address) at Input value, the return value should be Ex: IP address=169.254.81.38 Byte1=0x01 (same as Byte1 at Input value) Byte2=0xA9 (=169), Byte3=0xFE (=254), Byte4=0x51(=81), Byte5=0x26 (=38) Byte6~9 are reserved, should be 0x00. (3) If Byte1=0x02~0x05 at Input value, refer to (2) (4) If Byte1=0x06(MAC Address) at Input value, the return value should be Ex: MAC address=00:22:64:7E:2C:82 Byte1=0x06 (same as Byte1 at Input value) Byte2=0x00, Byte3=0x22, Byte4=0x64, Byte5=0x7E, Byte6=0x2C, Byte7=0x82 Byte8~9 are reserved, should be 0x00. |
(2) Byte2~9 are reserved, should be 0x00.
Return value: Byte1 – Byte2 – Byte3…Byte9 The Byte1 at the return value should be the same as the value of Byte1 at Input value. Byte2~Byte15 should be hex value format (1) If Byte1=0x00(IP Setup Mode) at Input value, the return value should be Byte1=0x00 Byte2=0x00: Manual 0x01: DHCP Byte3~9 are reserved, should be 0x00. (2) If Byte1=0x01(IP Address) at Input value, the return value should be Ex: IP address=169.254.81.38 Byte1=0x01 (same as Byte1 at Input value) Byte2=0xA9 (=169), Byte3=0xFE (=254), Byte4=0x51(=81), Byte5=0x26 (=38) Byte6~9 are reserved, should be 0x00. (3) If Byte1=0x02~0x05 at Input value, refer to (2) (4) If Byte1=0x06(MAC Address) at Input value, the return value should be Ex: MAC address=00:22:64:7E:2C:82 Byte1=0x06 (same as Byte1 at Input value) Byte2=0x00, Byte3=0x22, Byte4=0x64, Byte5=0x7E, Byte6=0x2C, Byte7=0x82 |
Byte8~9 are reserved, should be 0x00. | ||||||
WOL | 8 | g | F0 | 000: Off | 000: Off | |
001: On | 001: On | |||||
EDID | 8 | g | F2 | 000 : EDID 1.4 | 000 : EDID 1.4 | |
001 : EDID 2.0 | 001 : EDID 2.0 | |||||
Air Ionizer | 8 | g | F5 | 000: Off | 000: Off | |
001: On | 001: On | |||||
Sleep
mode |
8 | g | F6 | 000 ~ 240 | 000 ~ 240 |
Documents / Resources
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BenQ RP6504 LAN Protocol Software [pdf] User Guide RP6504, RP7504, RP8604, RP6504 LAN Protocol Software, LAN Protocol Software, Protocol Software, Software |