Interface Manual
18 Pages
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2-549-389-11 (1)
LCD Monitor Interface Manual for Programmers
LMD-2140MD © 2004 Sony Corporation
Table of Contents Communication Format ... 3 Command Block Format ... 4 Communication Protocol ... 4 Connections ... 5 Features of the Command Protocol ... 5 Command Table ... 6 Command Description ... 7 Input Config (21H) ... 7 Input Select (22H) ... 7 Control Data (23H) ... 7 Display Data (24H) ... 8 USER MEMORY (25H) ... 9 MEMORY NAME (26H) ... 9 PIC DELAY MIN (27H) ... 10 Selected Offset (28H) ... 10 On Switch Function (29H) ... 11 Off Switch Function (2AH) ... 11 Select Display (2BH) ... 11 Select Menu (2CH) ... 11 Scan Aspect (2DH) ... 12 Select Config Data (2FH) ... 12 White Balance Data (40H) ... 12 White Balance Data Copy (42H) ... 13 User Memory Data (43H) ... 13 Status Sense (60H) ... 15 White Balance Sense (61H) ... 15 User Memory Sense (65H) ... 15 Status Remote (6EH) ... 15 Status Reply (70H) ... 15 White Balance Reply (71H) ... 16 User Memory Reply (75H) ... 16 Status Remote Reply (7EH) ... 17 ACK Reply (04H) ... 17 NAK Reply (05H) ... 17
2
Table of Contents
Communication Format Asynchronous, bit serial signal • Based on RS-232C • Data signaling rate: 38400 bit/sec • Start bit: 1 bit • Data bit: 8 bits • Parity: Even • Stop bit: 1 bit 1(Mark) BIT START 0(LSB) BIT
BIT 1
BIT 2
BIT 3
BIT 4
BIT 5
BIT 6
BIT PARITY STOP 7(MSB) BIT BIT 0(Space)
Communication Format
3
Command Block Format Data communication between the remote controller and the monitor is performed in accordance with the following format. STX
Byte Destination Source Command Checksum Count Address Address Block
1 byte 1 byte 1 byte
1 byte
n bytes
1 byte
• STX: start of text code value equals 02H. • Byte Count This indicates the number of data bytes (maximum 255 bytes) which have been inserted between this byte and the Checksum byte. Values 00H, 01H, 02H are illegal values. • Destination address: One byte address value which defines who the message is for. Value 01H should be specified. • Source address: One byte address value which defines where the message came from. This is who to reply to with the message. Value from 41H to 7FH should be specified. • Command Block This designates a particular command. Refer to “Command Description” (on page 7) for the details. • Checksum This value is set so that the bottom eight bits of the sum of all bytes from the byte count to the checksum inclusive are zero.
4
Command Block Format / Communication Protocol
Communication Protocol The remote controller should take the initiative in communication between the remote controller and the monitors. The monitor will carry out one of the following actions when receiving the message. • When the received message is an undefined message, a communication error occurs or the automatic adjustment of APA or AUTO CHROMA/PHASE is working, a NAK (05H) is issued. • When the received command is a question, the specific replay and data are issued. • When the received command is anything else, an ACK is issued. The next message can be received as soon as a NAK is issued from the monitor to the remote controller. Notes
• If there are not enough or too many data bytes of data values then a NAK is issued and no values are specified. • Bits which are not specified here are undefined bits and their values are always ignored.
Connections Pin assignment for the RS-232C connector is as follows. 5
This protocol provides the following features when individual monitors are controlled. • Switch functions can be changed. • The ability to remotely make settings and adjustments normally made with the monitor’s menu.
1
9
Features of the Command Protocol
6
Pin number
Signal
1
NC
2
RX
3
TX
4
NC
5
GND
6
NC
7
RTS
8
CTS
9
NC
Connections / Features of the Command Protocol
5
Command Table Using this protocol, the following commands can be executed by the monitors. All values in the following table are hexadecimal. Command from Remote Controller Specific Command
Name
Data Bytes
Specific Command
Name
Data Bytes
21
Input Config
2
04
ACK
0
22
Input Select
1
04
ACK
0
23
Control Data
×
04
ACK
0
24
Display Data
×
04
ACK
0
25
USER MEMORY
1
04
ACK
0
26
MEMORY NAME
×
04
ACK
0
27
PIC DELAY MIN
1
04
ACK
0
28
Selected Offset
1
04
ACK
0
29
On Switch Function
1
04
ACK
0
2A
Off Switch Function
1
04
ACK
0
2B
Select Display
1
04
ACK
0
2C
Select Menu
1
04
ACK
0
2D
Scan Aspect
1
04
ACK
0
2F
Select Config Data
2
04
ACK
0
40
White Balance Data
×
04
ACK
0
42
White Balance Data Copy
1
04
ACK
0
43
User Memory Data
×
04
ACK
0
60
Status Sense
1
70
Status Reply
×
61
White Balance Sense
1
71
White Balance Reply
7
65
User Memory Sense
1
75
User Memory Reply
×
6E
Status Remote
0
7E
Status Remote Reply
1
× : varies depending on the number of data items.
6
Return from Monitor
Command Table
Command Description Input Config (21H) Used to control the current video signal being displayed on the monitor. The switches effectively being controlled are Input Connector, Sync, System, Preset White Balance. The command has two sections. 1. Information being changed
2 Preset white balance information LOW3 = 111 LOW2 = 001 LOW = 011 HIGH = 000 USER = 010 The values are applied to the current monitor state.
Input Select (22H) Used to control ON/OFF of each input connector. The values are specified as follows:
2. Values to be applied 7
1. Information being changed The values are specified as follows:
6
5
4
1 7
6
5
4
3
1
2
1
0
2
1 Input connector information 2 Preset white balance information When a 1 is set in the bit position, the information for the bit is applied. When a 0 is set, the information for the bit is ignored. When a 1 is set in the 1 and 2 bit positions, the both information are applied. 2. Values to be applied The values are specified as follows:
7 1
6
5
4
3
2
1
0
2
1 Input connector COMPOSITE = 0000 Y/C = 0010 RGB = 0100 COMPONENT = 0101 DVI = 1000 HD15 = 1001 OPTION A-1 = 0110 OPTION A-2 = 0111 OPTION B-1 = 1010 OPTION B-2 = 1011 The values which are specified here are applied to the current monitor state if the input setting is set to ON. If the input setting is set to OFF, the values are ignored.
3
2
1
0
2
1 Input connector COMPOSITE = 0000 Y/C = 0010 RGB = 0100 COMPONENT = 0101 DVI = 1000 HD15 = 1001 OPTION A-1 = 0110 OPTION A-2 = 0111 OPTION B-1 = 1010 OPTION B-2 = 1011 2 Input connector offset OFF = 01 ON = 10 ALL RESET = 11 The values are applied to the current monitor state. If the input setting is set to OFF, the values are advanced. If only one input setting is set to ON, the value is ignored and an ACK is issued.
Control Data (23H) Defines the keys on the front panel and data in the USER CONTROL menu. The command has two sections. 1. The element of CONTROL data being sent 2. CONTROL data value 1. The element of CONTROL data being sent The Element of CONTROL data being sent is the first byte of data contained within the command block of the message. Several items of CONTROL data can be specified in one message stream. The values of data being sent are indicated by a 1 being set in the appropriate bit position.
Command Description
7
Otherwise a 0 in the bit position indicates no data to be changed. If the value is 0, no values are changed and a NAK is issued. The values are specified as follows:
Display Data (24H) Defines SIZE H, SHIFT H, SHIFT V and DOT PHASE data in the USER CONFIG menu. The command has two sections. 1. The element of USER CONFIG data being sent
7
6
5
4
3
2
1
0
1 2 3 4 5
1 CONTRAST 2 APERTURE 3 BRIGHTNESS 4 PHASE 5 CHROMA 2. CONTROL data value Each value is one byte of data. PHASE is specified -50 to +50 and others are 0 to 100 (7 bit data, MSB always 0). The data is defined from the lower bit item to the higher one. For example, if the PHASE and CONTRAST data are defined, the PHASE data is specified in the first byte and the CONTRAST data is specified in the next byte. The values are specified as follows:
7
6
5
4
3
2
1
0
1 2
1 Mark data +=0 –=1 2 Numerical value data The values of the CONTROL data which is defined by this command are applied to the current monitor state.
8
Command Description
2. USER CONFIG data value 1. The element of USER CONFIG data being sent The element of USER CONFIG data being sent is the first byte of data contained within the command block of the message. Several items of USER CONFIG data can be specified in one message stream. If a 1 is indicated in the bit position, the data is changed and a 0 is indicated, no data is changed. If the byte value is 0, no values are changed and a NAK is issued. If 1 is specified as the RESET value, all items are specified to the default setting. The values are specified as follows:
7
6
1
1 RESET 2 DOT PHASE 3 SIZE H 4 SHIFT H 5 SHIFT V
5
4
3
2 3
2
1
0
4 5
2. USER CONFIG data value Each value is one byte of data (7 bit data, MSB is the mark data). The data are defined from the subordinate bit element to the superordinate bit element in the data bytes. For example, if the data to be adjusted is SIZE H and SHIFT H then the first byte of data bytes is SHIFT H and the last byte is SIZE H.
6
5
4
3
2
Controls LOAD/SAVE of each data set in the USER MEMORY menu. The values are specified as follows:
7
Adjustment Item Max. Min. DOT PHASE 0 31 SIZE H -100 100 SHIFT H -30 30 SHIFT V -30 30 The values are specified as follows:
7
USER MEMORY (25H)
6
5
1
4
3
2
1
0
2
1 Control data LOAD = 01 SAVE = 10 1
0
1 2
1 Mark data +=0 –=1 2 Numerical value data This is not the data to increase or decrease the setting. Specify the adjustment value.
2 User Memory Number Specifies the number 0 to 20 If a number other than 20 is specified, a NAK is issued. When 0 is specified, the data is applied as follows: If LOAD (01) is specified in 1, the default setting is applied. If SAVE (10) is specified in 2, a NAK is issued.
MEMORY NAME (26H) Defines the name (ASCII) of each user memory in the USER MEMORY menu. The command has two sections. 1. USER MEMORY NUMBER to change the name 2. MEMORY NAME setting data 1. USER MEMORY NUMBER to change the name Defines the user memory number to change the name. The values are specified as follows:
7
6
5
4
3
2
1
0
1
1 USER MEMORY NUMBER Specifies the number 01 to 20. If a number other than 0 to 20 is specified, a NAK is issued.
Command Description
9
2. MEMORY NAME setting data 1. Specifies the length of the name Specifies 1 to 18 charactors. 2. Specifies the name data (ASCII code) Usable characters are as follows (42 characters): ASCII
0x20
0x2C
0x2D
0x2E
0x2F
0x30
0x31
0x32
0x33
0x34
0x35
Character
Space
,
−
.
/
0
1
2
3
4
5
ASCII
0x36
0x37
0x38
0x39
0x41
0x42
0x43
0x44
0x45
0x46
0x47
Character
6
7
8
9
A
B
C
D
E
F
G
ASCII
0x48
0x49
0x4A
0x4B
0x4C
0x4D
0x4E
0x4F
0x50
0x51
0x52
Q
R
Character
H
I
J
K
L
M
N
O
P
ASCII
0x53
0x54
0x55
0x56
0x57
0x58
0x59
0x5A
0x5F
Character
S
T
U
V
W
X
Y
Z
_
If data other than the data listed above is specified, the message is ignored and a NAK is issued.
PIC DELAY MIN (27H)
Selected Offset (28H)
Controls the MODE select or ON/OFF of PIC DELAY MIN. The values are specified as follows:
Defines which type of offset is to be applied to COMPONENT and NTSC signals when these types of signals are selected for displaying. The values are specified as follows:
7
6
5
4
3
2
1
0 7
1
6
5
4
3
1 PIC DELAY MIN offset ON = 01 2 Mode select MODE0 = 00 MODE1 = 01 MODE2 = 10 The values are applied to the current monitor state.
Command Description
1
0
2 1
10
2
2
1 COMPONENT signal offset SMPTE = 01 BETA 0 = 10 BETA 7.5 = 11 2 NTSC signal offset NTSC 0 = 01 NTSC 7.5 = 10 The values are applied to the current monitor state.
On Switch Function (29H)
Select Display (2BH)
This command is used to set the offset value of the remote setting, APA, POWER SAVING, KEY INHIBIT and the tally lamp in the menu to ON. The values are specified as follows:
Defines the offset values of LANGUAGE and FORMAT DISP in the menu. The values are specified as follows:
7 7
6
5
4
3
2
1
6
5
4
3
2
1 1
Off Switch Function (2AH) This command is used to set the offset value of the remote setting, POWER SAVING, KEY INHIBIT and tally lamp in the menu to OFF. The values are specified as follows:
6
5 1
0
2
2
1 2 Action taken 11 000 REMOTE applied 11 001 APA applied 11 010 POWER SAVING applied 11 100 KEY INHIBIT applied 11 101 Tally Lamp applied The RMT (remote) ON, RMT OFF and RMT & LCL (local) commands work in "11000" definition.
7
1
0
4
3
2
1
0
2
1 2 Action taken 11 000 REMOTE removed 11 010 POWER SAVING removed 11 100 KEY INHIBIT removed 11 101 Tally Lamp removed The RMT (remote) ON, RMT OFF and RMT & LCL (local) commands work in "11000" definition.
1 LANGUAGE English = 001 German = 010 French = 011 Italian = 100 Spanish = 101 Japanese = 110 Chinese = 111 2 FORMAT DISP Auto = 01 ON = 10 OFF = 11
Select Menu (2CH) Defines the offset value of CHROMA in the menu. The values are specified as follows:
7
6
1
5
4
3
2
1
0
2
1 GAMMA offset GAMMA 1 = 001 GAMMA 2 = 010 GAMMA 3 = 011 GAMMA 4 = 100 GAMMA 5 = 101 2 CHROMA offset OFF = 01 ON = 10 AUTO ADJUST= 11 The values are applied to the current monitor state. If a correct signal is not input or the adjustment is in failure, an error message is issued.
Command Description
11
SYNC data is applied when the COMPONENT or RGB signal is input. COMPUTER DETECT data is applied when the DVI or HD15 signal is input. If the correct value is specified, an ACK is issued.
Scan Aspect (2DH) Defines SCAN and ASPECT in the menu. The values are specified as follows:
7
6
5
4
3
2
1
0
This command is used to save the values for USER of the white balance data into the NVM of the monitor from the remote controller. The preset white balance data are not changed by this command. The command has two components:
2
1
White Balance Data (40H)
1 SCAN NORMAL = 000 OVER = 001 UNDER = 010 ZOOM = 100 NATIVE = 101
1. The elements of white balance data being sent 2. The white balance values to be saved
2 ASPECT 4:3 = 00 16:9 = 01 The values are applied to the current monitor state.
Select Config Data (2FH) Defines SYNC and COMPUTER DETECT in the menu. Define one byte each. The values are specified as follows:
1. The elements of white balance data being sent The elements of white balance data being sent is the first byte of data contained within the command block of the message. Several items of white balance data can be specified in one message stream. If a 1 is indicated in the bit position, the data is changed and a 0 is indicated, no data is changed. The values are specified as follows:
7 7
6
5
4
3
2
1
6
5
4
3
2
1
0
0 1 2 3
4 5 6
1
1 Bias B 2 Bias G 3 Bias R 4 Gain B 5 Gain G 6 Gain R
1 SYNC The sync signal is the internal one = 01 The sync signal is the external one = 10
7
6
2
5
4
3
2
1
0
3
2 COMPUTER DETECT (DVI) 0001 = PRESET1 0010 = PRESET2 0011 = PRESET3 0100 = PRESET4 3 COMPUTER DETECT (HD15) 0001 = PRESET1 0010 = PRESET2 0011 = PRESET3 0100 = PRESET4 The values are applied to the current monitor state.
12
Command Description
2. The white balance values to be saved Each value requires one byte of data (specified from 0 to 255). The data are defined from the subordinate bit element to the superordinate bit element. For example, if the Bias B and Gain R data are defined, the Gain R data is specified in the first byte and the Bias B data is specified in the next byte.
White Balance Data Copy (42H) This command is used to copy the values for USER of the white balance data from the color temperature data and save them into the NVM of the monitor. The values are applied to the current monitor state. The color temperature values of the source data are specified at the first byte. The values are specified as follows:
7
6
5
4
3
2
1
0
1
Bits which are not specified here are undefined bits. 1 Preset white balance LOW3 = 111 LOW2 = 001 LOW = 011 HIGH = 000
The memory data 01 to 20 are stored in the NVM of the monitor by using the remote controller. The user memory data cannot be loaded by this command. This command consists of the following data. A number of the byte is changed according to the setting of the user memory name. First data byte: Specifies the User Memory Number in one data byte. The values are specified as follows:
6
5
4
1
4th data byte: Specifies the APERTURE (15k) in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7). 5th data byte: Specifies the BRIGHTNESS in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7). 6th data byte: Specifies the PHASE in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7). 7th data byte: Specifies the CHROMA in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7).
User Memory Data (43H)
7
The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7).
3
2
1
0
2
1 User Memory Control SAVE = 10 2 User Memory Number Specifies the number 01 to 20 Second data byte: Specifies the CONTRAST in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7). Third data byte: Specifies the APERTURE (except 15k) in one data byte.
8th data byte: Specifies the ASPECT in one data byte. Specifies for each input signal. If bit 1 is specified, the aspect is set to 16:9 and bit 0 is specified, the aspect is set to 4:3. The values are specified as follows:
7
6
5
4
3
1 2 3 4 5
2
1
0
6 7 8
1 OPTION B-2 2 OPTION B-1 3 OPTION A-2 4 OPTION A-1 5 COMPONENT 6 RGB 7 Y/C 8 COMPOSITE 9th data byte: Specifies the White Balance (R gain) in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H))” (on page 12). 10th data byte: Specifies the White Balance (G gain) in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H))” (on page 12).
Command Description
13
11th data byte: Specifies the White Balance (B gain) in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H))” (on page 12).
The values are specified as follows:
12th data byte: Specifies the White Balance (R bias) in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H))” (on page 12).
1
13th data byte: Specifies the White Balance (G bias) in one data byte. For details on the specified values, see “2. The white balance values to be saved” of “White Balance Data (40H))” (on page 12). 14th data byte: Specifies the White Balance (B bias) in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H))” (on page 12). 15th data byte: Specifies the Color Temp (VIDEO) and Color Temp (DVI) in one data byte. The values are specified as follows:
7
6
5
4
3
1
2
1
0
2 Color Temp (DVI) The data (three bits) specified in 1 and 2 is the same as that specified in “2-2 Preset white balance information” of “Input Config (21H)” (on page 7). 16th data byte: Specifies the Color Temp (HD15) in one data byte. The values are specified as follows:
6
5
4
3
2
1
0
1
1 Color Temp (HD15) The data (three bits) specified in 1 is the same as that specified in “2-2 Preset white balance information” of “Input Config (21H)” (on page 7). 17th data byte: Specifies the Gamma and Scan Mode in one data byte.
14
Command Description
6
5
4
3
2
1
0
2
The bit other than the above ones is undefined bit. 1 Gamma offset Gamma 1 = 001 Gamma 2 = 010 Gamma 3 = 011 Gamma 4 = 100 Gamma 5 = 101 2 Scan Mode offset NORMAL = 000 OVER = 001 UNDER = 010 ZOOM = 100 NATIVE = 101 If the value other than the above ones is specified, a NAK is issued. 18th data byte: Specifies the PC DELAY MIN in one data byte. The byte order is the same as that specified in “PIC DELAY MIN (27H) (on page 10). 19th data byte: Specifies the source data to copy the values for USER of the white balance data. The byte order is the same as that specified in “White Balance Data Copy (42H)” (on page 13).
2
1 Color Temp (VIDEO)
7
7
20th data byte: Specifies the User Memory Name Length in one data byte. The byte order is the same as that specified in “2-1 Specifies the length of the name” of MEMORY NAME (26H) (on page 9). 21th data byte: Specifies the User Memory Name (maximum 38 data bytes). The byte order is the same as that specified in “2-2 Specifies the name data” of “MEMORY NAME (26H)” (on page 9).
Status Sense (60H) This command is used to sense the status of the monitor’s current operation. The remote controller can specify which item of data should be in the replay. The items being asked for are detailed in one data byte. The values are specified as follows:
7
6
5
4
3
2
1
1
0 2
The bit to request the reply must be set “1”. 1 Selected offset 2 Current Input Configuration If there is no reply, a NAK is issued. The monitor will reply with the Status Reply (70H) message.
2 User Memory Number Specifies the number 01 to 20. If there is no reply, a NAK is issued. The monitor will reply with the User Memory Reply (75H).
Status Remote (6EH) This command is used to obtain the current status of the monitor’s remote control ability. The monitor will reply with the Status Remote Reply (7EH).
Status Reply (70H) This message is used to reply to the status request command. The [0x70] command data is specified as the first data byte of this command. The reply consists of two portions. 1 Element of reply data
White Balance Sense (61H)
2 Replay data
This command is used to send the values for USER of the white balance data stored in the NVM of the monitor to the remote controller. The preset white balance data are not changed by this command. The values are specified as follows:
1. Element of reply data The values are specified as follows:
7
6
5
4
3
2
1
0
7
6
5
4
3
2
1
1
0 2
The bit for the reply data must be set “1”. Bits required for the white balance data
The bit to request the white balance data must be set “1”. If there is no reply, a NAK is issued. White Balance Reply (71H) is sent to the remote controller by this command.
User Memory Sense (65H) This command is used to send the values for User Memory data stored in the NVM of the monitor to the remote controller. The User Memory data is not loaded by this command The values are specified as follows:
7 1
6
5
4
3
2
1
1 Selected offset 2 Input Configuration data 2. Reply data The Reply data consists of several bytes. The Reply data starts at the LSB of the specified data byte. Each section of the data reply requires the following details. Input Configuration: Two bytes. The byte order is the same as that specified in “2. Values to be applied” of “Input Config (21H)” (on page 7). Selected offset: One byte of data. The byte order is the same as that specified in “Selected Offset (28H)” (on page 10).
0
2
1 User Memory control Data send for User Memory = 11
Command Description
15
White Balance Reply (71H) This command is sent when the white balance data is sent to the remote controller. The [0x71] command data is specified as the first data byte of the COMMAND data. The [0x04] command data is sent as the second data byte in one data byte. One byte data of the following adjustment values (from 0 to 255) is sent as the third data byte. R gain G gain B gain R bias G bias B bias
User Memory Reply (75H) This command is used to send the values for the User Memory data stored in the NVM of the monitor to the remote controller. First data byte: The [0x75] command data is specified. Second data byte: Sends the User Memory Number data in one data byte. The byte order is the same as that specified in “User Memory Sense (65H)” (on page 15). Third data byte: Sends the CONTRAST data in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7). 4th data byte: Sends the APERTURE (except 15k) data in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7). 5th data byte: Sends the APERTURE (15k) data in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7). 6th data byte: Sends the BRIGHTNESS data in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7). 7th data byte: Sends the PHASE data in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7).
16
Command Description
8th data byte: Sends the CHROMA data in one data byte. The byte order is the same as that specified in “2. CONTROL data value” of “Control Data (23H)” (on page 7). 9th data byte: Sends the ASPECT data in one data byte. The byte order is the same as that of the 8th data byte of “User Memory Data (43H)” (on page 13). 10th data byte: Sends the White Balance (R gain) data in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H)” (on page 12). 11th data byte: Sends the White Balance (G gain) data in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H)” (on page 12). 12th data byte: Sends the White Balance (B gain) data in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H)” (on page 12). 13th data byte: Sends the White Balance (R bias) data in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H)” (on page 12). 14th data byte: Sends the White Balance (G bias) data in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H)” (on page 12). 15th data byte: Sends the White Balance (B bias) data in one data byte. The byte order is the same as that specified in “2. The white balance values to be saved” of “White Balance Data (40H)” (on page 12). 16th data byte: Sends the Color Temp (VIDEO) and Color Temp (DVI) data in one data byte. The byte order is the same as that of the 15th data byte of “User Memory Data (43H)” (on page 13). 17th data byte: Sends the Color Temp (HD15) data in one data byte. The byte order is the same as that of the 16th data byte of “User Memory Data (43H)” (on page 13). 18th data byte: Sends the Gamma and Scan Mode data in one data byte. The byte order is the same as that of the 17th data byte of “User Memory Data (43H)” (on page 13).
19th data byte: Sends the PIC DELAY MIN data in one data byte. The byte order is the same as that specified in “PIC MIN DELAY (27H)” (on page 10). 20th data byte: Sends the source data to copy the values for USER of the white balance data in one data byte. The byte order is the same as that specified in “White Balance Data Copy (42H)” (on page 13). 21th data byte: Sends the User Memory Length data in one data byte. The byte order is the same as that specified in “2-1. Specifies the length of the name” of “MEMORY NAME (26H)” (on page 9). 22th data byte: Sends the User Memory Name data in one data byte (maximum 38 data bytes). The byte order is the same as that specified in “2-2. Specifies the name data” of “MEMORY NAME (26H)” (on page 9).
Status Remote Reply (7EH) This reply informs the remote controller of the current remote status of the monitor. The monitor always reply to questions in REMOTE, LOCAL and REMOTE & LOCAL mode. The [0x7E] command data is specified as the first data byte of this command. The status of the remote control is sent as the second data byte in one data byte. The values are specified as follows:
7
6
5 1
4
3
2
1
ACK Reply (04H) This shows that the command to the monitor was correctly received and executed.
NAK Reply (05H) This command is sent when an error has occurred after reception of the command. The [0x05] command data is specified as the first data byte of the COMMAND data. An error which is found by the serial communication report is sent in one data byte as the second byte data. The errors are as follows: Error Code
Error Type
Explanation
0x04
Checksum
The received command data is not recognized as the data is different from the checksum.
0x01
Command error
The received message is an undefined message. A communication error occurs. The automatic adjustment of APA or AUTO CHROMA/ PHASE is working. The automatic adjustment failed.
0 2
1 Control applied REMOTE = 01 LOCAL = 10 2 Type of remote control ready to apply This value should always be 10.
Command Description
17
Sony Corporation
18
Command Description