IDK MSD-7201UHD , MSD-7202UHD , MSD-7203UHD , MSD-7204UHD,MSD-7201UHDTB , MSD-7202UHDTB , MSD-7203UHDTB , MSD-7204UHDTB, MSD-7203UHD, MSD-7201UHD, MSD-7201UHDTB, MSD-7202UHDTB Command Reference Manual
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Digital Multi Switcher
MSD-72 Series
MSD-7201UHD / MSD-7202UHD / MSD-7203UHD / MSD-7204UHD
MSD-7201UHDTB / MSD-7202UHDTB / MSD-7203UHDTB / MSD-7204UHDTB
<Command Reference Guide>
Ver.1.1.2
Thank you for choosing our product.
To ensure the best performance of this product, please read this Command Guide and Users Guide fully
and carefully before using your product and keep this manual beside the product.
IDK Corporation
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MSD-72 series Command Guide
Trademarks
● The terms HDMI and HDMI High-Definition Multimedia Interface, and the HDMI Logo are trademarks or
registered trademarks of HDMI Licensing Administrator, Inc. in the United States and other countries.
● PJLink is a trademark in JAPAN, the United States, and other countries/regions.
● All other company and product names mentioned in this manual are either registered trademarks or
trademarks of their respective owners. In this manual, the “®” or “™” marks may not be specified.
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MSD-72 series Command Guide
Before reading this manual
● All rights reserved.
● Some of the contents in this command guide such as appearance diagrams, menu operations,
communication commands, and so on may differ from your MSD depending on the version.
● This command guide is subject to change without notice. You can download the latest version from IDK’s
website at: http: //www.idkav.com
The reference manual for the MSD-72 consists of the following two volumes:
■ Users guide:
Provides explanations and procedures for operations, installation, connections among devices, I/O
adjustment and settings.
■ Command guide (this document): Please download this guide from the website above.
Provides explanations and procedures for external control using RS-232C communication and LAN
communications.
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MSD-72 series Command Guide
Table of Contents
1 About this Guide ................................................................................................................................... 5
2 Specification and Setup of communication ............................................................................................ 6
2.1 RS-232C communication ................................................................................................................. 6
2.1.1 RS-232C connector specification .............................................................................................. 6
2.1.2 RS-232C communication specification...................................................................................... 7
2.1.3 Setting up RS-232C communication ......................................................................................... 8
2.2 LAN communication ........................................................................................................................ 9
2.2.1 LAN connector specification ..................................................................................................... 9
2.2.2 LAN communication specification ............................................................................................. 9
2.2.3 Setting up LAN communication................................................................................................10
2.2.4 The number of TCP-IP connections .........................................................................................12
3 Command ...........................................................................................................................................13
3.1 Command outline ...........................................................................................................................13
3.2 Command list .................................................................................................................................14
3.3 Detailed descriptions ......................................................................................................................19
3.3.1 Error status .............................................................................................................................19
3.3.2 Power status ...........................................................................................................................20
3.3.3 Input channels .........................................................................................................................20
3.3.4 Position, size, and masking .....................................................................................................22
3.3.5 Image quality...........................................................................................................................34
3.3.6 Input settings...........................................................................................................................39
3.3.7 Input timing .............................................................................................................................43
3.3.8 Output settings ........................................................................................................................51
3.3.9 Audio ......................................................................................................................................59
3.3.10 EDID .......................................................................................................................................67
3.3.11 RS-232C communication .........................................................................................................74
3.3.12 LAN communication ................................................................................................................75
3.3.13 Control commands ..................................................................................................................79
3.3.14 Preset memory ................................ ................................................................ ........................93
3.3.15 Bitmap ....................................................................................................................................99
3.3.16 Other settings ........................................................................................................................106
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MSD-72 series Command Guide
1 About this Guide
This guide contains information of communication commands that control the MSD via RS-232C or LAN
communication.
You can perform the following operations using communication commands.
・Switching channels.
・Setting I/O, audio, and EDID.
・Setting sending of external control command.
・Setting preset memory.
・Setting and displaying bitmaps
and others
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MSD-72 series Command Guide
Model
The number
of connectors
Connector type
MSD-7201UHD
2
D-sub9 pin (Male)
MSD-7202UHD
MSD-7203UHD
MSD-7204UHD
MSD-7201UHDTB
2
3-pin terminal block
MSD-7202UHDTB
MSD-7203UHDTB
MSD-7204UHDTB
D-sub 9-pin・male
1 5
RS-232C connector
6 9
RxD
TxD
N.C.
DTR
DSR
N.C.
GND
RTS
CTS
Pin #
1
3
2
4
6
5
7
9
8
Signal
(Receiving data)
(Sending data)
(Ground)
(Sending request)
(Receiving request)
(Not used)
(Not used)
(Not used)
(Not used)
2 Specification and Setup of communication
2.1 RS-232C communication
2.1.1 RS-232C connector specification
The MSD-72 series products include connectors for D-sub9 pin or 3-pin terminal block. Use the appropriate
cable.
[Table 2.1] D-sub9 pin and 3-pin terminal block
■ Connectors for D-sub9 pin:
Use a cross cable to connect the MSD to a PC.
6
[Figure 2.1] D-sub9 pin assignment
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MSD-72 series Command Guide
Tx
Rx
GND
RS-232C Tx
RS-232C Rx
GND
Up to 7 mm (0.28 inch approx.)
Standard
RS-232C
Baud rate [bps]
4800 / 9600 / 19200 / 38400 [bps]
Data bit length [bit]
7 / 8
Parity check
NONE, EVEN, ODD
Stop bit [bit]
1 / 2
X parameter
Invalid
Flow control
None
Delimiter
CR LF (Carriage return and line feed, 0D and 0A in hex)
Communication method
Full duplex
■ 3-pin Terminal block RS-232C ports
Fix RS-232C cable to the attached 3-pin terminal block, and then connect it to the MSD.
AWG28 to AWG16 conductor gauge is recommended. The recommended wire strip length is 7 mm/0.28 inch.
If it is connected to a D-sub9 pin, cut RTS, CTS, DTR, and DSR (unused) as needed.
[Figure 2.2] Connecting RS-232C cable to 3-pin terminal block connector
2.1.2 RS-232C communication specification
[Table 2.2] RS-232C specification
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MSD-72 series Command Guide
Step (2)
Step (1)
RS-232C cable
Step (4)
Communication
command
Step (3)
Laptop
(Controller)
Laptop
Projector
RS-232C cable
RS-232C cable
Power amplifier
Controlling the MSD using
Communication commands
Controlling the MSD using
Communication commands
Outputting control commands
to external device
2.1.3 Setting up RS-232C communication
(1) Connect the MSD and the control device via an RS-232C cable.
(2) Set the RS-232C communication as follows:
・RS-232C communication: baud rate, data bit length, parity check, and stop bit
・Operation mode of RS-232C communication: “RECEIVER”
【Reference: User’s Guide】
(3) For the control device, set the same values in the same way as RS-232C communication (baud rate, data
bit length, parity check, and stop bit) in step (2) above.
(4) Send a communication command from the control device to the MSD in order to check the control status of
the MSD.
[Figure 2.3] Setting RS-232C communication
Operation example of RS-232C communication
[Figure 2.4] RS-232C communication
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MSD-72 series Command Guide
81
LAN connector
8-pin RJ-45 connector
(Rear panel)
Lights in green while link is established.
Blinks in green while data is being sent/received.
Lights in orange if the send/receive rate is 100 Mbps.
Goes off if it is 10 Mbps.
RX+: Received Data+
N.C: Not connected
TX+: Transmitted Data+
Pin #
1
3
2
4
6
5
7
Signal Name
TX-: Transmitted Data-
N.C: Not connected
RX-: Received Data-
N.C: Not connected
N.C: Not connected
MDI
TX+: Transmitted Data+
N.C: Not connected
RX+: Received Data+
RX-: Received Data-
N.C: Not connected
TX-: Transmitted Data-
N.C: Not connected
N.C: Not connected
MDI-X
8
Physical layer
10BASE-T (IEEE802.3i)/100Base-TX (IEEE802.3u)
Network layer
ARP, IP, ICMP
Transport layer
TCP
Port used for command control: 23, 1100, 6000 to 6999
Port used for WEB browser control (HTTP): 80, 5000 to 5999
Application layer
HTTP, TELNET
2.2 LAN communication
2.2.1 LAN connector specification
It supports Auto MDI/MDI-X, which distinguishes/switches straight and cross cables automatically.
Pin assignments of LAN connector:
[Figure 2.5] LAN connector
2.2.2 LAN communication specification
[Table 2.3] Specification of LAN communication
Note: Up to 8 connections can be used simultaneously.
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MSD-72 series Command Guide
Step(3)
Laptop
Step(2)
Step(1)
LAN cable
Step(4)
Communication
commands
(Controller)
2.2.3 Setting up LAN communication
(1) Connect the MSD and the control device via a LAN cable.
(2) Set up LAN communication as follows:
・Set IP address and subnet mask
・Operation mode of LAN communication: “RECEIVER”
・TCP pot number: 23, 1100, 6000 to 6999
【Reference: User’s Guide】
(3) Establish the connection from the control device to the IP address and TCP port that are set to the
MSD in step (2) above.
(4) Send a communication command from the control device to the MSD in order to check the control
status of the MSD.
[Figure 2.6] Setting RS-232C communication
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Operation example of LAN communication
Laptop
Projector
LAN cable LAN cable
Power amplifier
Controlling the MSD using
Communication commands
Outputting control commands
to external device
Outputting control commands
to external device
Controlling the MSD using
Communication commands
Switching hub
LAN cable
MSD-72 series Command Guide
[Figure 2.7] LAN communication
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MSD-72 series Command Guide
Your PC software
MSD
TCP-IP connection
→
(Occupied by 1 port)
Send command (@xxx)
→
←
Send back command
(@xxx)
TCP-IP close
→
(Release 1 port)
2.2.4 The number of TCP-IP connections
The MSD series can connect up to eight connections (eight ports) simultaneously. If the MSD is controlled
from nine or more PCs, they may not be connected to the MSD normally, since the number of connections
that can be used is limited.
If you use nine connections or more, execute TCP-IP connection/close every time the communication
command is sent or received from the software of user’s side. By doing so, MSD’s ports are occupied or
released so that nine or more connections can be connected logically.
[Table 2.4] Increasing connections
Note: If any command is not sent from the PC side to the MSD for 30 seconds, the MSD disconnects the
connection to avoid the limitation problem on the number of connections. As a result, connection needs to be
established again from the PC side after the current connection of the PC is disconnected.
(Since the number of ports in the MDS is eight, ports are occupied permanently if the PC is turned off while
connections are valid. To prevent this, the MSD disconnects connections if no communication command is
sent from the PC side.)
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MSD-72 series Command Guide
3 Command
3.1 Command outline
A command consists of “@” (“40” in hexadecimal), 3 one-byte alphabetical characters (upper and lower
cases), and parameters (one-byte numbers*). For some commands, several parameters can be specified or
no parameter is required. Processing is executed by sending a delimiter at the end of the command.
Example: @SPM,2
“,”( a comma, “2C” in hexadecimal) is indicated between a command and parameter and between two
parameters.
: delimiter CR LF (return+line feed, “0D” and “0A” in hex)
■ If there is an error:
An error command is returned if an undefined command or wrong parameter is included.
Example: @SOT,1
@ERR,1
■ Using as HELP:
If only delimiter is sent, command list as the help command is returned.
Example:
--------------- HELP (1/13) ---------------
(CHANNEL SELECT Command)
@SSW / @GSW : Set/Get Input Channel
@SSV / @GSV : Set/Get Video Input Channel
@SSA / @GSA : Set/Get Audio Input Channel
--------------- HELP (2/13) ---------------
(OUTPUT TIMING Command)
@SOT / @GOT / @GTD : Set/Get Output Timing
@SUM / @GUM : Set/Get Monitor Aspect
@SAP / @GAP : Set/Get Aspect
@SAR / @GAR : Set/Get Aspect Restore Mode
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MSD-72 series Command Guide
Command
Description
@ERR
Error status
Command
Description
@GPS / @SPS
Standby button
Command
Description
@GSW / @SSW
Switching video and audio channel simultaneously
@GSV / @SSV
Switching video channel
@GSA / @SSA
Switching audio channel
Command
Description
@GOT / @SOT
Output resolution
@GTD
Actual output resolution
@GUM / @SUM
Aspect ratio of sink device
@GAP / @SAP
Aspect ratio
@GAR / @SAR
Aspect ratio restoration
@GOV / @SOV
Overscan
@GNP / @SNP
Input position
@GNS / @SNS
Input size
@GNM / @SNM
Input masking
@IAS
Input automatic sizing
@GOP / @SOP
Output position
@GOS / @SOS
Output size
@GOM / @SOM
Output masking
@OAS
Output automatic sizing
@GBC / @SBC
Background color
@GTP / @STP
Test pattern
3.2 Command list
■ ERROR STATUS
■ POWER STATUS (Power switch setting)
■ CHANNEL SELECT (Input channel setting)
■ OUTPUT TIMING (Position, size, and masking)
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Command
Description
@GFL / @SFL
Sharpness
@GBR / @SBR
Input brightness
@GCO / @SCO
Input contrast
@GHU / @SHU
Hue
@GST / @SST
Saturation
@GSU / @SSU
Black level
@IDC
Input default color
@GOB / @SOB
Output brightness
@GOC / @SOC
Output contrast
@GGM / @SGM
Output gamma
@ODC
Output default color
Command
Description
@GDT / @SDT
No-signal-input monitoring
@GHE / @SHE
HDCP input enabled/disabled
@GAI / @SAI
Analog input type
@GID / @SID
Automatic detection of input video interruption
@GIN / @SIN
Signal selection of DVI input connector
@GFX / @SFX
Fixing settings for input signal
Command
Description
@AIS / @AIT
Automatic measurement
@GHT / @SHT
The total number of horizontal dots
@GHS / @SHS
Horizontal start position
@GHD / @SHD
Horizontal display period
@GVS / @SVS
Vertical start position
@GVD / @SVD
Vertical display period
@GIS / @SIS
Automatic measurement of start position
@GSM / @SSM
Automatic measurement when unregistered signal is input
@RTT
Loading device data
@STT
Registering device data
@GTK / @STK
Tracking
■ IMAGE EFFECT (Image quality)
■ INPUT SETTING
MSD-72 series Command Guide
■ INPUT TIMING
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MSD-72 series Command Guide
Command
Description
@GDM / @SDM
Output mode
@GUY / @SUY
Synchronous signal output when no video signal is input
@GBO / @SBO
Output video when no video signal is not input
@GFF / @SFF
Video switching effect
@GFT / @SFT
Video switching
@GWC / @SWC
Wipe color
@GEN / @SEN
HDCP output
@GHR / @SHR
The number of HDCP retries
@GDC / @SDC
Deep Color
@GCE / @SCE
CEC
@HAU
HDCP re-encryption
@GAU / @SAU
Priority of input channel automatic switching
@GOF / @SOF
Priority of input channel automatic switching (ON to OFF)
@GMT / @SMT
Masking time after automatic switching of input channel
@GAD / @SAD
Channel switching mode for input channel automatic switching
Command
Description
@GSL / @SSL
Audio output level
@SOL
Relative value of audio output level
@GOL
Limit status of audio output level
@GAM / @SAM
Audio output mute
@GAS / @SAS
Selecting audio input
@GSD
Selecting actual audio input
@GSO / @SSO
Audio input level
@SIL
Relative value of audio input level
@GIL
Limit status of audio input level
@GLO / @SLO
Output lip sync
@GLY / @SLY
Input lip sync
@GSF / @SSF
Sampling frequency
@GFD
Actual sampling frequency
@GDO / @SDO
Audio output connector
@GMD / @SMD
Multi channel audio output
@GAT / @SAT
Test tone
■ OUTPUT SETTING
■ AUDIO
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Command
Description
@GED / @SED
EDID
@GVF / @SVF
Input resolution for PC
@GHF / @SHF
Input resolution for AV devices
@GDI / @SDI
Deep Color input
@GAF / @SAF
Audio format
@GSP / @SSP
The number of speakers
@RME
Copying EDID
Command
Description
@GCT / @SCT
RS-232C communication
@GCF / @SCF
RS-232C communication mode
Command
Description
@GIP / @SIP
IP address
@GSB / @SSB
Subnet mask
@GGW / @SGW
Gateway address
@GLF / @SLF
LAN communication mode
@GLP / @SLP
TCP port number
@GMC
MAC address
Command
Description
@EXC
Executing control commands
@GDS / @SDS
Power button of sink device
@GEC / @SEC
Control command (Communication command)
@GEC / @SEC
Control command (Displaying received data)
@GEC / @SEC
Control command (contact closure)
@GEC / @SEC
Control command (CEC)
@GRC / @SRC
Response
@GCC / @SCC
Control command link
@GTG / @STG
Toggle operation
@GUP / @SUP
Plane to be executed when powered ON
@GIT / @SIT
Ineffective time during control command execution
@DEC
Initializing registered command and
@GTL / @STL
Lighting condition of execution button
@GTF / @STF
Blinking time of sink device power switch
■ EDID
■ COM PORT (RS-232C communication)
■ LAN (LAN communication)
MSD-72 series Command Guide
■ PRESET COMMAND (Control command communication setting)
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MSD-72 series Command Guide
Command
Description
@RCM
Loading crosspoint memory
@SCM / @SEM
Saving channels to crosspoint memory
@GCM / @ECM
Editing crosspoint memory
@RCV
Loading crosspoint memory (setting video channel)
@SCV / @SEV
Saving crosspoint memory (Setting video channel)
@GCV / @ECV
Editing crosspoint memory (Setting video channel)
@RCA
Loading audio channel setting from crosspoint memory
@SCA / @SEA
Saving crosspoint memory (Setting audio channel)
@GCA / @ECA
Editing crosspoint memory (Setting audio channel)
@RPM
Loading all settings
@SPM
Saving all settings
@SCP
Copying output setting
@GMU / @SMU
Startup settings
Command
Description
@GBM / @SBM
Outputting bitmap image
@GBB / @SBB
Background color
@GBT / @SBT
Aspect ratio
@GZP / @SZP
Display position
@GBA / @SBA
Assigning input channel
@GPB / @SPB
Startup bitmap
@GBD / @SBD
Dividing bitmap memory
@GBV
Bitmap memory status
@GFZ / @SFZ
Freeze
@CAP
Capturing input image
Command
Description
@GLS / @SLS
Operation lock
@GLM / @SLM
Setting operation to be locked
@GBZ / @SBZ
Buzzer
@GSS
I/O status
@GES
Monitor’s EDID
@GIV
Version
■ PRESET MEMORY
■ BITMAP
■ OTHERS
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MSD-72 series Command Guide
@ERR
Error status
Description
Response in case the command is not executed.
Response
@ERR, error
Parameter
error: Error status
1 = Erroneous parameter format or value
2 = Undefined command or wrong format
3 = Currently cannot be used.
4 = Not used.
5 = The command could not be executed, because the control command was not
registered.
6 = The command could not be processed since another command was being
executed.
7 = Automatic measurement of input timing failed.
8 = Loading EDID from the sink device failed.
9 = Not used.
10 = The control command was stopped according to the stop condition.
11 = The control command was stopped since the number of retries exceeded the
set value of “RETRY”.
12 = The control command of PJLink was stopped since the password did not
match.
13 = The image could not be captured since the image size to be captured
exceeded the reserved memory size.
14 = Capturing input image failed.
Getting example
Command @IOS
Response @ERR,2
@IOS is sent.
Command format error.
Remarks
-
3.3 Detailed descriptions
In this section, commands for MSD-7204UHD/MSD-7204UHDTB (4 outputs) are shown. For other models,
use each appropriate commands based on the number of outputs.
3.3.1 Error status
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MSD-72 series Command Guide
@GPS / @SPS
Standby button
Getting
Command
@GPS
Response
@GPS, onoff
Setting
Command
@SPS, onoff
Response
@SPS, onoff
Parameter
onoff: Standby button
0 = OFF (Standby), 1 = ON (Power on)
Getting
example
Command
Response
@GPS
@GPS,1
Description
Getting the standby button status.
It is powered on.
Setting
example
Command
Response
@SPS,1
@SPS,1
Description
Setting the standby button to ON (powered on).
Remarks
-
@GSW / @SSW
Switching video and audio channel simultaneously
Getting
Command
@GSW
Response
@GSW, video_1, audio_1, video_2, audio_2, video_3, audio_3, video_4,
audio_4
Setting
Command
@SSW, input_1, output_1 (, input_2, output_2・・・)
Response
@SSW, input_1, output_1 (, input_2, output_2・・・)
Parameter
video_1-4 : Video input channel
audio_1-4 : Audio input channel
input_1-4 : Video and audio input channel
0 = OFF [Default], 1 = IN1 to 9 = IN9
output_1-4: Video and audio output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GSW
@GSW,2,2,2,2,0,0,0,0
Description
Getting the video and audio input channels that are assigned to output channels.
OUT1 and OUT2: IN2, OUT3 and OUT4: OFF
Setting
example
Command
Response
@SSW,1,1
@SSW,1,1
Description
Setting IN1 video and audio to be output to OUT1.
Remarks
-
3.3.2 Power status
3.3.3 Input channels
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MSD-72 series Command Guide
@GSV / @SSV
Switching video channel
Getting
Command
@GSV
Response
@GSV, input_1, input_2, input_3, input_4
Setting
Command
@SSV, input_1, output_1 (, input_2, output_2・・・)
Response
@SSV, input_1, output_1 (, input_2, output_2・・・)
Parameter
input_1-4: Video input channel
0 = OFF [Default], 1 = IN1 to 9 = IN9
output_1-4: Video output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GSV
@GSV,1,1,1,1
Description
Getting the video I/O channel statuses.
OUT1, OUT2, OUT3, and OUT4: IN1
Setting
example
Command
Response
@SSV,1,1
@SSV,1,1
Description
Setting IN1 video to be output to OUT1.
Remarks
-
@GSA / @SSA
Switching audio channel
Getting
Command
@GSA
Response
@GSA, input_1, input_2, input_3, input_4
Setting
Command
@SSA, input_1, output_1 (, input_2, output_2・・・)
Response
@SSA, input_1, output_1 (, input_2, output_2・・・)
Parameter
input_1-4: Audio input channel
0 = OFF [Default], 1 = IN1 to 9 = IN9
output_1-4: Audio output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GSA
@GSA,1,1,1,1
Description
Getting the audio I/O channel status.
OUT1, OUT2, OUT3, and OUT4: IN1
Setting
example
Command
Response
@SSA,1,1
@SSA,1,1
Description
Setting IN1 audio to be output to OUT1.
Remarks
-
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MSD-72 series Command Guide
@GOT / @SOT
Output resolution
Getting
Command
@GOT
Response
@GOT, resolution_1, resolution_2, resolution_3, resolution_4
Setting
Command
@SOT, ch_1, resolution_1 (, ch_2, resolution_2・・・)
Response
@SOT, ch_1, resolution_1 (, ch_2, resolution_2・・・)
Parameter
resolution_1-4: Setting value of output resolution
0 = AUTO [Default], 1 = VGA@60 (640x480),
2 = SVGA@60 (800x600), 3 = XGA@60 (1024x768),
4 = WXGA@60 (1280x768), 5 = WXGA@60 (1280x800),
6 = Quad-VGA@60 (1280x960), 7 = SXGA@60 (1280x1024),
8 = WXGA@60 (1360x768), 9 = WXGA@60 (1366x768),
10 = SXGA+@60 (1400x1050), 11 = WXGA+@60 (1440x900),
12 = WXGA++@60 (1600x900), 13 = UXGA@60 (1600x1200),
14 = WSXGA+@60 (1680x1050), 15 = VESAHD@60
(1920x1080),
16 = WUXGA@60 (1920x1200), 17 = QWXGA@60 (2048x1152),
18 =WQHD@60 (2560x1440), 19 = WQXGA@60 (2560x1600),
20 = 480i@59.94 (720x480), 21 = 480p@59.94 (720x480),
22 = 576i@50 (720x576), 23 = 576p@50 (720x576),
24 = 720p@50 (1280x720), 25 = 720p@59.94 (1280x720),
26 = 720p@60 (1280x720), 27 = 1080i@50 (1920x1080),
28 = 1080i@59.94 (1920x1080), 29 = 1080i@60 (1920x1080),
30 = 1080p@50 (1920x1080), 31 = 1080p@59.94
(1920x1080),
32 = 1080p@60 (1920x1080), 40 = 2160p@24 (3840x2160),
41 = 2160p@25 (3840x2160), 42 = 2160p@30 (3840x2160),
43 = 2160p@50 (3840x2160), 44 = 2160p@60 (3840x2160),
45 = 2160p@24 (4096x2160), 46 = 2160p@25 (4096x2160),
47 = 2160p@30 (4096x2160), 48 = 2160p@50 (4096x2160),
49 = 2160p@60 (4096x2160)
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GOT
@GOT,7,7,31,31
Description
Getting the set output resolution.
OUT1 and OUT2: SXGA, OUT3 and OUT4: 1080p 59.94 Hz
Setting
example
Command
Response
@SOT,1,11
@SOT,1,11
Description
Setting output resolution of OUT1 to WXGA+ 60 Hz.
Remarks
-
3.3.4 Position, size, and masking
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@GTD
Actual output resolution
Getting
Command
@GTD
Response
@GTD, resolution_1, resolution_2, resolution_3, resolution_4
Parameter
resolution_1-4: Actual output resolution
1 = VGA@60 (640x480), 2 = SVGA@60 (800x600),
3 = XGA@60 (1024x768), 4 = WXGA@60 (1280x768),
5 = WXGA@60 (1280x800), 6 = Quad-VGA@60
(1280x960),
7 = SXGA@60 (1280x1024), 8 = WXGA@60 (1360x768),
9 = WXGA@60 (1366x768), 10 = SXGA+@60 (1400x1050),
11 = WXGA+@60 (1440x900), 12 = WXGA++@60 (1600x900),
13 = UXGA@60 (1600x1200), 14 = WSXGA+@60
(1680x1050),
15 = VESAHD@60 (1920x1080), 16 = WUXGA@60 (1920x1200),
17 = QWXGA@60 (2048x1152), 18 = WQHD@60 (2560x1440),
19 = WQXGA@60 (2560x1600), 20 = 480i@59.94 (720x480),
21 = 480p@59.94 (720x480), 22 = 576i@50 (720x576),
23 = 576p@50 (720x576), 24 = 720p@50 (1280x720),
25 = 720p@59.94 (1280x720), 26 = 720p@60 (1280x720),
27 = 1080i@50 (1920x1080), 28 = 1080i@59.94 (1920x1080),
29 = 1080i@60 (1920x1080), 30 = 1080p@50 (1920x1080),
31 = 1080p@59.94 (1920x1080), 32 = 1080p@60 (1920x1080),
40 = 2160p@24 (3840x2160), 41 = 2160p@25 (3840x2160),
42 = 2160p@30 (3840x2160), 43 = 2160p@50 (3840x2160),
44 = 2160p@60 (3840x2160), 45 = 2160p@24 (4096x2160),
46 = 2160p@25 (4096x2160), 47 = 2160p@30 (4096x2160),
48 = 2160p@50 (4096x2160), 49 = 2160p@60 (4096x2160)
Getting
example
Command
Response
@GTD
@GTD,31,31,26,26
Description
Getting the actual output resolution.
OUT1 and OUT2: 1080p 59.94 Hz, OUT3 and OUT4: 720p 60 Hz
Remarks
If “@GOT / @SOT” is set to “AUTO”, the actual output resolution is returned. If
“@GOT / @SOT” is set to the value other than “AUTO”, the set output resolution
is returned.
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@GUM / @SUM
Aspect ratio of sink device
Getting
Command
@GUM
Response
@GUM, aspect_1, aspect_2, aspect_3, aspect_4
Setting
Command
@SUM, ch_1, aspect_1 (, ch_2, aspect_2・・・)
Response
@SUM, ch_1, aspect_1 (, ch_2, aspect_2・・・)
Parameter
aspect_1-4: Aspect ratio of sink device
0 = RESOLUTION [Default], 1 = 4: 3, 2 = 5: 4,
3 = 5: 3, 4 = 16: 9, 5 = 16: 10,
6 = 256: 135
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GUM
@GUM,4,4,5,5
Description
Getting the set aspect ratio of the sink device.
OUT1 and OUT2: 16: 9, OUT3 and OUT4: 16: 10
Setting
example
Command
Response
@SUM,1,4
@SUM,1,4
Description
Setting OUT1 to 16: 9.
Remarks
-
@GAP / @SAP
Aspect ratio
Getting
Command
@GAP
Response
@GAP, aspect_1, aspect_2, aspect_3, aspect_4, aspect_5, aspect_6,
aspect_7, aspect_8, aspect_9
Setting
Command
@SAP, ch_1, aspect_1 (, ch_2, aspect_2・・・)
Response
@SAP, ch_1, aspect_1 (, ch_2, aspect_2・・・)
Parameter
aspect_1-9: Aspect ratio of input signal
0 = AUTO-1 [Default], 1 = AUTO-2,
2 = 4: 3, 3 = 16: 9, 4 = 14: 9,
5 = 16: 9 LETTER BOX, 6 = 14: 9 LETTER BOX, 7 = 4: 3 SIDE PANEL,
8 = 14: 9 SIDE PANEL, 9 = FULL, 10 = THROUGH
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GAP
@GAP,0,0,2,0,0,0,0,0,0
Description
Getting the set aspect ratio.
IN3: 4: 3 other inputs: AUTO-1
Setting
example
Command
Response
@SAP,7,2
@SAP,7,2
Description
Setting IN7 to 4: 3.
Remarks
-
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@GAR / @SAR
Aspect ratio restoration
Getting
Command
@GAR
Response
@GAR, mode_1, mode_2, mode_3, mode_4, mode_5, mode_6, mode_7,
mode_8, mode_9
Setting
Command
@SAR, ch_1, mode_1 (, ch_2, mode_2・・・)
Response
@SAR, ch_1, mode_1 (, ch_2, mode_2・・・)
Parameter
mode_1-9: Aspect ratio restoration
0 = Letter box/Side panel [Default],
1 = Side cut/Top bottom cut
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GAR
@GAR,0,0,1,0,0,0,0,0,0
Description
Getting the set aspect ratio restoration processing.
IN3: Side cut/Top bottom cut Other inputs: Letter box/Side panel
Setting
example
Command
Response
@SAR,5,1
@SAR,5,1
Description
Setting IN5 to Side cut/Top bottom cut.
Remarks
-
@GOV / @SOV
Overscan
Getting
Command
@GOV
Response
@GOV, overscan_1, overscan_2, overscan_3, overscan_4, overscan_5,
overscan_6, overscan_7, overscan_8, overscan_9
Setting
Command
@SOV, ch_1, overscan_1 (, ch_2, overscan_2・・・)
Response
@SOV, ch_1, overscan_1 (, ch_2, overscan_2・・・)
Parameter
overscan_1-9: Overscan
100 to 115
[Default] NTSC / PAL / SDTV: 105,
HDTV or PC: 100
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GOV
@GOV,100,100,105,100,100,100,100,100,100
Description
Getting the set overscan.
IN3: 105%, Other input channels: 100%
Setting
example
Command
Response
@SOV,7,105
@SOV,7,105
Description
Setting IN7 to 105%.
Remarks
-
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@GNP / @SNP
Input position
Getting
Command
@GNP
Response
@GNP, h_position_1, v_position_1, h_position_2, v_position_2・・・,
h_position_9, v_position_9
Setting
Command
@SNP, ch_1, h_position_1, v_position_1 (, ch_2, h_position_2,
v_position_2・・・)
Response
@SNP, ch_1, h_position_1, v_position_1 (, ch_2, h_position_2,
v_position_2・・・)
Parameter
h_position_1-9: Horizontal input position
-Horizontal input size to +Horizontal output resolution [Default] 0
v_position_1-9: Vertical input position
-Vertical input size to +Vertical output resolution [Default] 0
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GNP
@GNP,-50,20,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0
Description
Getting the set input position.
IN1: horizontal input display is -50, vertical input display +20
Other inputs: horizontal and vertical input position are 0.
Setting
example
Command
Response
@SNP,1,-50,20
@SNP,1,-50,20
Description
Setting IN1 horizontal and vertical input positions are to -50 and +20,
respectively.
Remarks
If resolutions differ depending on output, the OUT1 output resolution will be the
standard.
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@GNS / @SNS
Input size
Getting
Command
@GNS
Response
@GNS, h_size_1, v_size_1, h_size_2, v_size_2・・・, h_size_9, v_size_9
Setting
Command
@SNS, ch_1, h_size_1, v_size_1 (, ch_2, h_size_2, v_size_2・・・)
Response
@SNS, ch_1, h_size_1, v_size_1 (, ch_2, h_size_2, v_size_2・・・)
Parameter
h_size_1-9: Horizontal input size
Horizontal output resolution÷4 to Horizontal output resolution×4
[Default]: Horizontal output resolution
v_size_1-9: Vertical display size
[Default]: Vertical output resolution
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GNS
@GNS,1925,1084,1920,1080,1920,1080,1920,1080,1920,1080,1920,1080,
1920,1080,1920,1080,1920,1080
Description
Getting the set input size.
Horizontal and vertical display sizes of IN1 are 1925 and 1084, respectively,
other inputs: 1920 and 1080, respectively.
Setting
example
Command
Response
@SNS,1,1925,1084
@SNS,1,1925,1084
Description
Setting IN1 horizontal and vertical input size are 1925 and 1084, respectively.
Remarks
If resolutions differ depending on outputs, the resolution of OUT1 will be the
standard.
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@GNM / @SNM
Input masking
Getting
Command
@GNM, ch
Response
@GNM, ch, left, right, top, bottom
Setting
Command
@SNM, ch, left, right, top, bottom
Response
@SNM, ch, left, right, top, bottom
Parameter
ch: Input channel
1 = IN1 to 9 = IN9
left: Left side masking
Horizontal input position to right side masking
[Default]: 0
right: Right side masking
Left side masking to horizontal input position +horizontal input size
[Default]: Horizontal input size
top: Top side masking
Vertical input position to bottom side masking
[Default]: 0
bottom: Bottom side masking
Top side masking to vertical input position +vertical input size
[Default]: Vertical input size
Getting
example
Command
Response
@GNM,1
@GNM,1,0,1920,0,1080
Description
Getting the set IN1 input masking.
Left: 0, right: 1920, top:0, bottom: 1080
Setting
example
Command
Response
@SNM,1,0,1920,0,1080
@SNM,1,0,1920,0,1080
Description
Setting IN1 input masking to 0 for left, 1920 for right, 0 for top, 1080 for bottom.
Completed normally.
Remarks
-
@IAS
Input automatic sizing
Setting
Command
@IAS, ch_1 (, ch_2・・・)
Response
@IAS, ch_1 (, ch_2・・・)
Parameter
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Setting
example
Command
Response
@IAS,1
@IAS,1
Description
Initializing the following settings in order to display images input from IN1 on the
full screen:
@GAP / @SAP Aspect ratio
@GOV / @SOV Overscan
@GNP / @SNP Input position
@GNS / @SNS Input size
@GNM / @SNM Input masking
Remarks
-
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@GOP / @SOP
Output position
Getting
Command
@GOP
Response
@GOP, h_position_1, v_position_1, h_position_2, v_position_2, h_position_3,
v_position_3, h_position_4, v_position_4
Setting
Command
@SOP, ch_1, h_position_1, v_position_1 (, ch_2, h_position_2,
v_position_2・・・)
Response
@SOP, ch_1, h_position_1, v_position_1 (, ch_2, h_position_2,
v_position_2・・・)
Parameter
h_position_1-4: Horizontal output position
-Horizontal input size to +Horizontal output resolution [Default]: 0
v_position_1-4: Vertical output position
-Vertical input size to +Vertical output resolution [Default]: 0
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GOP
@GOP,5,20,5,20,0,0,0,0
Description
Getting the set output position.
OUT1 horizontal and vertical positions are +5 and +20, respectively.
OUT2 vertical and horizontal positions: 0
Setting
example
Command
Response
@SOP,1,5,20
@SOP,1,5,20
Description
Setting OUT1 horizontal and vertical positions to +5 and +20, respectively.
Remarks
-
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@GOS / @SOS
Output size
Getting
Command
@GOS
Response
@GOS, h_size_1, v_size_1, h_size_2, v_size_2, h_size_3, v_size_3, h_size_4,
v_size_4
Setting
Command
@SOS, ch_1, h_size_1, v_size_1 (, ch_2, h_size_2, v_size_2・・・)
Response
@SOS, ch_1, h_size_1, v_size_1 (, ch_2, h_size_2, v_size_2・・・)
Parameter
h_size_1-4: Horizontal output size
Horizontal output resolution÷4 to Horizontal output resolution×4
[Default]: Horizontal output resolution
v_size_1-4: Vertical output size
Vertical output resolution÷4 to Vertical output resolution×4
[Default]: Vertical output resolution
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GOS
@GOS,1920,1035,1920,1035,1920,1080,1920,1080
Description
Getting the set output size.
OUT1 horizontal and vertical output sizes are 1920 and 1035, respectively.
OUT2 horizontal and vertical output sizes are 1920 and 1080, respectively.
Setting
example
Command
Response
@SOS,1,1920,1080
@SOS,1,1920,1080
Description
Setting OUT1 horizontal and vertical output sizes to 1920 and 1080,
respectively.
Remarks
-
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@GOM / @SOM
Output masking
Getting
Command
@GOM, ch
Response
@GOM, ch, left, right, top, bottom
Setting
Command
@SOM, ch, left, right, top, bottom
Response
@SOM, ch, left, right, top, bottom
Parameter
ch: Output channel
1 = OUT1 to 4 = OUT4
left: Left side masking
Horizontal output position (0 or larger) to right side masking [Default]: 0
right: Right side masking
Left side masking to horizontal output position +horizontal output size
(horizontal output resolution or smaller) [Default]: Horizontal output
resolution
top: Top side masking
Vertical output position (0 or larger) to bottom side masking [Default]: 0
bottom: Bottom side masking
Bottom side masking to vertical output position +vertical output size (vertical
output resolution or smaller) [Default]: Vertical output resolution
Getting
example
Command
Response
@GOM,1
@GOM,1,0,1920,0,1080
Description
Getting the set OUT1 output masking.
Left: 0, right: 1920, top: 0, bottom: 1080
Setting
example
Command
Response
@SOM,1,0,1920,0,1080
@SOM,1,0,1920,0,1080
Description
Setting OUT1 output masking to 0 for left, 1920 for right, 0 for top, and 1080 for
bottom.
Remarks
-
@OAS
Output automatic sizing
Setting
Command
@OAS, ch_1 (, ch_2・・・)
Response
@OAS, ch_1 (, ch_2・・・)
Parameter
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Setting
example
Command
Response
@OAS,1
@OAS,1
Description
Initializing the following settings in order to display OUT1 output images on the
full screen:
@GOP / @SOP Output position
@GOS / @SOS Output size
@GOM / @SOM Output masking
Remarks
-
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MSD-72 series Command Guide
@GBC / @SBC
Background color
Getting
Command
@GBC, ch
Response
@GBC, ch, red, green, blue
Setting
Command
@SBC, ch_1, red_1, green_1, blue_1 (, ch_2, red_2, green_2, blue_2・・・)
Response
@SBC, ch_1, red_1, green_1, blue_1 (, ch_2, red_2, green_2, blue_2・・・)
Parameter
ch: Output channel
1 = OUT1 to 4 = OUT4
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
red / red_1-4 : Background color (Red)
green / green_1-4 : Background color (Green)
blue / blue_1-4 : Background color (Blue)
0 to 255 [Default] 0 (Black)
Getting
example
Command
Response
@GBC,1
@GBC,1,128,128,128
Description
Getting the set OUT1 background color.
RGB: 128 (Gray).
Setting
example
Command
Response
@SBC,1,128,128,128
@SBC,1,128,128,128
Description
Setting OUT1 background color to 128 (Gray) for all RGB.
Remarks
-
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@GTP / @STP
Test pattern
Getting
Command
@GTP
Response
@GTP, pattern_1, scroll_1, pattern_2, scroll_2, pattern_3, scroll_3, pattern_4,
scroll_4
Setting
Command
@STP, ch_1, pattern_1, scroll_1 (, ch_2, pattern_2, scroll_2・・・)
Response
@STP, ch_1, pattern_1, scroll_1 (, ch_2, pattern_2, scroll_2・・・)
Parameter
pattern_1-4: Test pattern
0 = OFF [Default], 1 = VERTICAL COLOR BAR,
2 = HORIZONTAL COLOR BAR, 3 = VERTICAL GRAY SCALE,
4 = HORIZONTAL GRAY SCALE, 5 = VERTICAL LAMP,
6 = HORIZONTAL LAMP, 7 = 100% WHITE RASTER,
8 = 50% WHITE RASTER, 9 = 100% RED RASTER,
10 = 100% GREEN RASTER, 11 = 100% BLUE RASTER,
12 = CROSS HATCH, 13 = OUTPUT FRAME,
14 = VERTICAL STRIPE, 15 = HORIZONTAL STRIPE,
16 = VERTICAL ZEBRA, 17 = HORIZONTAL ZEBRA
Test pattern numbers 1 to 6, 16 and 17 can be scrolled.
scroll_1-4: Scrolling
0 = OFF [Default],
1 = 3 pixels/1 frame to 10 = 30 pixels/1 frame
The number of pixels to be scrolled per frame = the set value × 3
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GTP
@GTP,3,1,3,1,0,0,0,0
Description
Getting the set test pattern.
OUT1 and OUT2: VERTICAL GRAY SCALE at 3 pixels/frame scrolling
OUT3 and OUT4: test pattern is not output.
Setting
example
Command
Response
@STP,1,1,0
@STP,1,1,0
Description
Setting OUT1 to VERTICAL COLOR BAR without scrolling.
Remarks
-
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@GFL / @SFL
Sharpness
Getting
Command
@GFL
Response
@GFL, sharp_1, sharp_2, sharp_3, sharp_4, sharp_5, sharp_6, sharp_7,
sharp_8, sharp_9
Setting
Command
@SFL, ch_1, sharp_1 (, ch_2, sharp_2・・・)
Response
@SFL, ch_1, sharp_1 (, ch_2, sharp_2・・・)
Parameter
sharp_1-9: Input sharpness
-5 to +15 [Default] 0
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GFL
@GFL,5,0,0,0,0,0,0,0,0
Description
Getting sharpness setting.
IN1: +5, other input channels: 0.
Setting
example
Command
Response
@SFL,1,5
@SFL,1,5
Description
Setting the IN1 sharpness to +5.
Remarks
-
@GBR / @SBR
Input brightness
Getting
Command
@GBR
Response
@GBR, bright_1, bright_2, bright_3, bright_4, bright_5, bright_6, bright_7,
bright_8, bright_9
Setting
Command
@SBR, ch_1, bright_1 (, ch_2, bright_2・・・)
Response
@SBR, ch_1, bright_1 (, ch_2, bright_2・・・)
Parameter
bright_1-9: Input brightness
80 to 120 [Default] 100
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GBR
@GBR,110,100,100,100,100,100,100,100,100
Description
Getting brightness setting.
IN1: 110%, other input channels: 100%
Setting
example
Command
Response
@SBR,3,110
@SBR,3,110
Description
Setting the IN3 brightness to 110%
Remarks
-
3.3.5 Image quality
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@GCO / @SCO
Input contrast
Getting
Command
@GCO, ch
Response
@GCO, ch, red, green, blue
Setting
Command
@SCO, ch_1, red_1, green_1, blue_1 (, ch_2, red_2, green_2, blue_2・・・)
Response
@SCO, ch_1, red_1, green_1, blue_1 (, ch_2, red_2, green_2, blue_2・・・)
Parameter
ch: Input channel
1 = IN1 to 9 = IN9
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
red / red_1-9 : Input contrast (Red)
green / green_1-9 : Input contrast (Green)
blue / blue_1-9 : Input contrast (Blue)
0 to 200 [Default] 100
Getting
example
Command
Response
@GCO,3
@GCO,3,105,100,95
Description
Getting IN3 contrast setting.
Red: 105%, green: 100%, blue: 95%
Setting
example
Command
Response
@SCO,3,105,100,95
@SCO,3,105,100,95
Description
Setting IN3 contrast to 105% for red, 100% for green, 95% for blue.
Remarks
-
@GHU / @SHU
Hue
Getting
Command
@GHU
Response
@GHU, hue _1, hue _2, hue _3, hue _4, hue _5, hue _6, hue _7, hue _8, hue _9
Setting
Command
@SHU, ch_1, hue_1 (, ch_2, hue_2・・・)
Response
@SHU, ch_1, hue_1 (, ch_2, hue_2・・・)
Parameter
hue_1-9: Input hue
0 to 359 [Default] 0
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GHU
@GHU,60,0,0,0,0,0,0,0,0
Description
Getting the set HUEs.
IN1: 60°, other inputs: 0°
Setting
example
Command
Response
@SHU,1,60
@SHU,1,60
Description
Setting IN1 HUE to 60°.
Remarks
HUE can be set up to 359°. If an input signal dot clock exceeds 170 MHz, the
MSD operates with the HUE of 0°..
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@GST / @SST
Saturation
Getting
Command
@GST
Response
@GST, saturation_1, saturation_2, saturation_3, saturation_4, saturation_5,
saturation_6, saturation_7, saturation_8, saturation_9
Setting
Command
@SST, ch_1, saturation_1 (, ch_2, saturation_2・・・)
Response
@SST, ch_1, saturation_1 (, ch_2, saturation_2・・・)
Parameter
saturation_1-9: Input saturation
0 to 200 [Default] 100
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GST
@GST,100,100,100,100,105,100,100,100,100
Description
Getting the set saturations.
IN5: 105%, other inputs: 100%
Setting
example
Command
Response
@SST,5,105
@SST,5,105
Description
Setting IN5 saturation to 105%.
Remarks
Saturation can be set up to 200%. If an input signal dot clock exceeds 170 MHz,
the MSD operates with the saturation of 100%.
@GSU / @SSU
Black level
Getting
Command
@GSU
Response
@GSU, setup_1, setup_2, setup_3, setup_4, setup_5, setup_6, setup_7,
setup_8, setup_9
Setting
Command
@SSU, ch_1, setup_1 (, ch_2, setup_2・・・)
Response
@SSU, ch_1, setup_1 (, ch_2, setup_2・・・)
Parameter
setup_1-9: Input black level
-20 = -20 × 0.5 (-10.0%) to +20 = +20 × 0.5 (+10.0%)
[Default] ±0 = ±0.0%
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GSU
@GSU,0,0,0,0,15,0,0,0,0
Description
Getting the input black level.
IN5: +7.5%, other inputs: 0%.
Setting
example
Command
Response
@SSU,5,15
@SSU,5,15
Description
Setting the IN5 black level to +7.5%.
Remarks
-
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MSD-72 series Command Guide
@IDC
Input default color
Setting
Command
@IDC, ch_1 (, ch_2・・・)
Response
@IDC, ch_1 (, ch_2・・・)
Parameter
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Setting
example
Command
Response
@IDC,1
@IDC,1
Description
Initialize the following settings of IN1:
@GFL / @SFL Sharpness
@GBR / @SBR Input brightness
@GCO / @SCO Input contrast
@GHU / @SHU Hue
@GST / @SST Saturation
@GSU / @SSU Black level
Remarks
-
@GOB / @SOB
Output brightness
Getting
Command
@GOB
Response
@GOB, bright_1, bright_2, bright_3, bright_4
Setting
Command
@SOB, ch_1, bright_1 (, ch_2, bright_2・・・)
Response
@SOB, ch_1, bright_1 (, ch_2, bright_2・・・)
Parameter
bright_1-4: Output brightness
80 to 120 [Default] 100
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GOB
@GOB,110,110,100,100
Description
Getting the output brightness.
OUT1 and OUT2: 110%, OUT3 and OUT4: 100%
Setting
example
Command
Response
@SOB,1,110
@SOB,1,110
Description
Setting the OUT1 brightness to 110%.
Remarks
-
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MSD-72 series Command Guide
@GOC / @SOC
Output contrast
Getting
Command
@GOC, ch
Response
@GOC, ch, red, green, blue
Setting
Command
@SOC, ch_1, red_1, green_1, blue_1 (, ch_2, red_2, green_2, blue_2・・・)
Response
@SOC, ch_1, red_1, green_1, blue_1 (, ch_2, red_2, green_2, blue_2・・・)
Parameter
ch: Output channel
1 = OUT1 to 4 = OUT4
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
red / red_1-4 : Output contrast (Red)
green / green_1-4 : Output contrast (Green)
blue / blue_1-4 : Output contrast (Blue)
0 to 200 [Default] 100
Getting
example
Command
Response
@GOC,1
@GOC,1,105,100,95
Description
Getting the OUT1 contrast setting.
Red: 105%, green: 100%, blue: 95%
Setting
example
Command
Response
@SOC,1,105,100,95
@SOC,1,105,100,95
Description
Setting the OUT1 contrast to 105% for red, 100% for green, 95% for blue.
Remarks
-
@GGM / @SGM
Output gamma
Getting
Command
@GGM
Response
@GGM, out_1, out_2, out_3, out_4
Setting
Command
@SGM, ch_1, gamma_1 (, ch_2, gammma_2・・・)
Response
@SGM, ch_1, gamma_1 (, ch_2, gammma_2・・・)
Parameter
out_1-4 / gamma_1-4: Output gamma
1 = 0.1 to 30 = 3.0 [Default] 10 = 1.0
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GGM
@GGM,22,10,10,10
Description
Getting the set output gamma.
OUT1: 2.2, other outputs: 1.0
Setting
example
Command
Response
@SGM,1,22
@SGM,1,22
Description
Setting the OUT1 output gamma to 2.2.
Remarks
-
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@ODC
Output default color
Setting
Command
@ODC, ch_1 (, ch_2・・・)
Response
@ODC, ch_1 (, ch_2・・・)
Parameter
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Setting
example
Command
Response
@ODC,1
@ODC,1
Description
Initializing OUT1 image quality settings.
@GOB / @SOB Output brightness
@GOC / @SOC Output contrast
Remarks
-
@GDT / @SDT
No-signal-input monitoring
Getting
Command
@GDT
Response
@GDT, time_1, time_2, time_3, time_4, time_5, time_6, time_7, time_8, time_9
Setting
Command
@SDT, ch_1, time_1 (, ch_2, time_2・・・)
Response
@SDT, ch_1, time_1 (, ch_2, time_2・・・)
Parameter
time_1-9: No-signal-input monitoring
0 = OFF, 2000 = 2 sec to 15000 = 15 sec [Default] 10000 = 10 sec
Set the value by 100 ms. If you set a value other than 0 for the lower 2 digits,
these values will be rounded down.
(For example, if you set it to 2955, the monitoring time is set to 2900 ms.)
ch_1-9: Input channel
0 = All digital inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GDT
@GDT,6000,10000,10000,4000,4000,4000,4000,4000,4000
Description
Getting the set monitoring time of input video signal.
IN1: 6000 ms. (6 sec.), IN2 and IN3: 10000 ms. (10 sec.), IN4 and IN9: 4000
ms. (4 sec.)
Setting
example
Command
Response
@SDT,3,6000
@SDT,3,6000
Description
Setting the monitoring time of IN3 to 6000 ms. (6 sec.).
Remarks
These commands are only for digital input.
IN8 and IN9 are available only if “1” (Digital signal). is selected for “@GIN /
@SIN”. If “0” (Analog signal) is selected, “-1” is returned.
3.3.6 Input settings
MSD-72 series Command Guide
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MSD-72 series Command Guide
@GHE / @SHE
HDCP input enabled/disabled
Getting
Command
@GHE
Response
@GHE, hdcp_1, hdcp_2, hdcp_3, hdcp_4, hdcp_5, hdcp_6, hdcp_7, hdcp_8,
hdcp_9
Setting
Command
@SHE, ch_1, hdcp_1 (, ch_2, hdcp_2・・・)
Response
@SHE, ch_1, hdcp_1 (, ch_2, hdcp_2・・・)
Parameter
hdcp_1-9: HDCP input enabled/disabled
0 = DISABLE, 1 = HDCP 1.4, 2 = HDCP 2.2
[Default] HDCP 2.2 [IN1 to IN3], HDCP 1.4 [IN4 to IN9]
ch_1-9: Input channel
0 = All digital inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GHE
@GHE,1,1,0,1,1,1,1,1,1
Description
Getting HDCP input enabled/disabled.
IN3: disables HDCP input, other input channels: enables HDCP 1.4 input
Setting
example
Command
Response
@SHE,1,0
@SHE,1,0
Description
Setting IN1 HDCP input to be disabled.
Remarks
These commands are only for digital input.
IN8 and IN9 are available only if “1” (Digital signal). is selected for “@GIN /
@SIN”. If “0” (Analog signal) is selected, “-1” is returned.
@GAI / @SAI
Analog input type
Getting
Command
@GAI
Response
@GAI, type_1, type_2
Setting
Command
@SAI, ch_1, type_1 (, ch_2, type_2)
Response
@SAI, ch_1, type_1 (, ch_2, type_2)
Parameter
type_1-2: Signal type
0 = AUTO [Default], 1 = RGB, 2 = YPbPr,
3 = VIDEO AUTO, 4 = VIDEO, 5 = Y/C
ch_1-2: Input channel
0 = All analog inputs, 8 = IN8, 9 = IN9
Getting
example
Command
Response
@GAI
@GAI,0,2
Description
Getting signal type of analog input.
IN8: AUTO, IN9: YPbPr
Setting
example
Command
Response
@SAI,0,2
@SAI,0,2
Description
Setting the signal type of IN8 and IN9 to YPbPr.
Remarks
These commands are only for analog input.
IN8 and IN9 are available only if “0” (Analog signal) is selected for “@GIN /
@SIN”. If “1” (Digital signal) is selected, “-1” is returned.
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MSD-72 series Command Guide
@GID / @SID
Automatic detection of input video interruption
Getting
Command
@GID
Response
@GID, detect_1, detect_2, detect_3, detect_4, detect_5, detect_6, detect_7,
detect_8, detect_9
Setting
Command
@SID, ch_1, detect_1 (, ch_2, detect_2・・・)
Response
@SID, ch_1, detect_1 (, ch_2, detect_2・・・)
Parameter
detect_1-9: Automatic detection
0 = OFF, 1 = ON [Default]
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GID
@GID,1,1,1,1,1,0,1,1,1
Description
Getting the setting of automatic detection of input video interruption.
IN6: If input video signal is interrupted, the video output is not turned off instantly.
Other inputs: OFF
Setting
example
Command
Response
@SID,2,0
@SID,2,0
Description
Setting IN2 automatic detection to OFF (“0”).
If input video signal is interrupted, not to turn off the video output instantly.
Remarks
-
@GIN / @SIN
Signal selection of DVI input connector
Getting
Command
@GIN
Response
@GIN, signal_1, signal_2
Setting
Command
@SIN, ch_1, signal_1 (, ch_2, signal_2)
Response
@SIN, ch_1, signal_1 (, ch_2, signal_2)
Parameter
signal_1-2: Signal selection of DVI input connectors (IN8, IN9)
0 = Analog signal, 1 = Digital signal [Default]
ch_1-2: Input channel
0 =All analog inputs, 8 = IN8, 9 = IN9
Getting
example
Command
Response
@GIN
@GIN, 0, 0
Description
Getting the set DVI input signal.
IN8 and IN9: Analog input signal
Setting
example
Command
Response
@SIN, 8, 1
@SIN, 8, 1
Description
Setting IN8 to digital input signal.
Remarks
-
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MSD-72 series Command Guide
@GFX / @SFX
Fixing settings for input signal
Getting
Command
@GFX ch
Response
@GFX, ch, mode (, aspect, analog, audio)
Setting
Command
@SFX, ch, mode (, aspect, analog, audio)
Response
@SFX, ch, mode (, aspect, analog, audio)
Parameter
ch: Input channel
1 = IN1 to 9 = IN9
mode: Setting mode
0 = SELECTED, 1 = ALL FIXED
Available only if the “mode” is selected to “0” (SELECTED)
aspect : Aspect ratio
0 = OFF[Default], 1 = ON(FIXED)
analog : Signal type of analog input (For digital input, select “0”)
0 = OFF, 1 = ON(FIXED) [Default]
audio : Audio input level (For analog input, select “0”)
0 = OFF, 1 = ON(FIXED) [Default]
Getting
example
Command
Response
@GFX, 1
@GFX, 1, 0, 1, 0, 0
Description
Getting setting fixation of each input signal
(For analog inputs)
IN1 aspect ratio: current setting, signal type of analog input: setting of each
input signal
Audio input level is disabled.
Setting
example
Command
Response
@SFX,2,1
@SFX,2,1
Description
IN2: Fixing settings for each input to the current settings.
Remarks
When digital input channel is acquired, “0” is returned for the Parameter of analog
signal type. (“0” is an invalid value.)
When analog input channel is acquired, “0” is returned for the Parameter of audio
input level. (“0” is an invalid value.)
Input channels IN8 and IN9: digital input/analog input selectable.
【See: @GIN / @SIN Signal selection of DVI input connector】
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3.3.7 Input timing
@AIS / @AIT
Automatic measurement
Setting
Description
Starting automatic measurement of start position and display period
Command
@AIS, ch
Response
@AIS, ch
Setting
Description
Starting automatic measurement with a desired aspect ratio
Command
@AIT, ch (, mode)
Response
@AIT, ch (, mode)
Parameter
ch: Input channel
8 = IN8, 9 = IN9
mode: Measurement mode
-1 = NEXT ASPECT, 0 = 4: 3, 1 = 5: 4, 2 = 5: 3, 3 = 16: 9, 4 = 16: 10
If you select “NEXT ASPECT”, the next aspect ratio will be selected in order
every time the automatic measurement is executed. If you do not set any mode
parameter, “NEXT ASPECT” mode will be applied.
Setting
example
Command
Response
@AIS,8
@AIS,8
Description
Starting the automatic measurement of IN8 start position and display period
Setting
example
Command
Response
@AIT,8,0
@AIT,8,0
Description
Starting the automatic measurement of IN8 input timing setting at the aspect
ratio of ”4: 3”.
Setting
example
Command
Response
@AIS,8
@ERR,7
Description
If the automatic measurement fails, an error is returned.
Remarks
These commands are valid only if analog RGB/analog YPbPr signal is input.
MSD-72 series Command Guide
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MSD-72 series Command Guide
@GHT / @SHT
The total number of horizontal dots
Getting
Command
@GHT
Response
@GHT, h_total_1, h_total_2, h_total_3, h_total_4, h_total_5, h_total_6,
h_total_7, h_total_8, h_total_9
Setting
Command
@SHT, ch, h_total
Response
@SHT, ch, h_total
Parameter
h_total_1-9 / h_total: The total number of horizontal dots
400 to 4125 (sampling block should be 13 MHz to 162 MHz)
[Default]: depends on input signal
ch: Input channel
0 =All analog inputs, 8 = IN8, 9 = IN9
Getting
example
Command
Response
@GHT
@GHT,2200,2200,0,2640,1344,1792,0,0,0
Description
Getting the total number of horizontal dots.
“0” is returned to channels without input signal.
Setting
example
Command
Response
@SHT,8,1344
@SHT,8,1344
Description
Setting the total number of IN8 horizontal dots to “1344”.
Setting
example
Command
Response
@SHT,8,1344
@ERR,3
Description
If analog RGB signal or analog YPbPr signal is not input, an error is returned.
Remarks
Getting command acquires all channels’ statuses.
Setting commands are valid only if analog RGB/analog YPbPr signal is input.
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MSD-72 series Command Guide
@GHS / @SHS
Horizontal start position
Getting
Command
@GHS
Response
@GHS, h_start_1, h_start_2, h_start_3, h_start_4, h_start_5, h_start_6,
h_start_7, h_start_8, h_start_9
Setting
Command
@SHS, ch, h_start
Response
@SHS, ch, h_start
Parameter
h_start_1-9 / h_start: Horizontal start position
64 to 2900 (should be [the total number of horizontal dots – horizontal display
period] or less)
[Default]: depends on input signal
ch: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GHS
@GHS,192,192,496,0,296,0,378,0,0
Description
Getting the horizontal start position.
“0” is returned to channels without input signal.
Setting
example
Command
Response
@SHS,5,296
@SHS,5,296
Description
Setting IN5 horizontal start position to “296”.
Setting
example
Command
Response
@SHS,6,296
@ERR,3
Description
If no signal is input, an error is returned.
Remarks
Setting command is valid only for video signal except for 4K video signal.
If 4K video signal is input, only Getting commands are available.
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MSD-72 series Command Guide
@GHD / @SHD
Horizontal display period
Getting
Command
@GHD
Response
@GHD, h_disp_1, h_disp_2, h_disp_3, h_disp_4, h_disp_5, h_disp_6,
h_disp_7, h_disp_8, h_disp_9
Setting
Command
@SHD, ch, h_disp
Response
@SHD, ch, h_disp
Parameter
h_disp_1-9 / h_disp: Horizontal display period
64 to 2900 (should be [the total number of horizontal dots – 64] or less)
[Default]: depends on input signal
ch: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GHD
@GHD,1920,1920,0,1920,1024,1360,0,0,0
Description
Getting horizontal display period
“0” is returned to channels without input signal.
Setting
example
Command
Response
@SHD,5,1024
@SHD,5,1024
Description
Setting IN5 horizontal display period to “1024”.
Setting
example
Command
Response
@SHD,6,1024
@ERR,3
Description
If no signal is not input, an error is returned.
Remarks
Setting commands: valid only for video signal except for 4K video signal.
If 4K video signal is input, only getting commands are valid.
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MSD-72 series Command Guide
@GVS / @SVS
Vertical start position
Getting
Command
@GVS
Response
@GVS, v_start_1, v_start_2, v_start_3, v_start_4, v_start_5, v_start_6,
v_start_7, v_start_8, v_start_9
Setting
Command
@SVS, ch, v_start
Response
@SVS, ch, v_start
Parameter
v_start_1-9 / v_start: Vertical start position
10 to 2048 (should be [the total number of vertical lines – vertical display
period] or less)
[Default]: depends on input signal
ch: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GVS
@GVS,40,0,40,40,35,0,24,0,0
Description
Getting the vertical start position
“0” is returned to channels without input signal.
Setting
example
Command
Response
@SVS,5,35
@SVS,5,35
Description
Setting IN5 vertical start position to “35”.
Setting
example
Command
Response
@SVS,6,35
@ERR,3
Description
If no signal is input, an error is returned.
Remarks
Setting commands: valid only for video signal except for 4K video signal.
If 4K video signal is input, only getting commands are valid.
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MSD-72 series Command Guide
@GVD / @SVD
Vertical display period
Getting
Command
@GVD
Response
@GVD, v_disp_1, v_disp_2, v_disp_3, v_disp_4, v_disp_5, v_disp_6, v_disp_7,
v_disp_8, v_disp_9
Setting
Command
@SVD, ch, v_disp
Response
@SVD, ch, v_disp
Parameter
v_disp_1-9 / v_disp: Vertical display period
10 to 2048 (should be [the total number of vertical lines – 10] or less)
[Default]: depends on input signal
ch: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GVD
@GVD,0,1080,1080,900,768,0,900,0,0
Description
Getting vertical display period.
“0” is returned to channels without input signal.
Setting
example
Command
Response
@SVD,5,768
@SVD,5,768
Description
Setting IN5 vertical display period to “768”.
Setting
example
Command
Response
@SVD,5,768
@ERR,3
Description
If signal is not input, an error is returned.
Remarks
Setting commands: valid only for video signal except for 4K video signal.
If 4K video signal is input, only getting commands are valid.
@GIS / @SIS
Automatic measurement of start position
Getting
Command
@GIS
Response
@GIS, mode_1, mode_2
Setting
Command
@SIS, ch, mode
Response
@SIS, ch, mode
Parameter
mode_1-2 / mode: Automatic measurement
0 = All inputs from this input channel are not measured automatically.
1 = Current input signal is not measured automatically.
2 = Current input signal is measured automatically. [Default]
ch: Input channel
0 =All analog inputs, 8 = IN8, 9 = IN9
Getting
example
Command
Response
@GIS
@GIS,0,2
Description
Getting the setting of Automatic measurement of the start position.
IN8: not measured automatically, IN9: measured automatically.
Setting
example
Command
Response
@SIS,8,1
@SIS,8,1
Description
Setting signal that is currently input from IN8 to “1” (Current input signal is not
measured automatically).
Remarks
These commands are only for analog input.
IN8 and IN9 are available only if “0” (Analog signal). is selected for “@GIN /
@SIN”. If “1” (Digital signal) is selected, “-1” is returned.
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MSD-72 series Command Guide
@GSM / @SSM
Automatic measurement when unregistered signal is input
Getting
Command
@GSM
Response
@GSM, mode
Setting
Command
@SSM, mode
Response
@SSM, mode
Parameter
mode: Automatic measurement
0 = Not execute, 1 = Execute [Default]
Getting
example
Command
Response
@GSM
@GSM,1
Description
Getting the set automatic measurement mode when unregistered signal is input.
Setting
example
Command
Response
@SSM,1
@SSM,1
Description
Setting the automatic measurement to be executed when unregistered signal is
input.
Remarks
-
@RTT
Loading device data
Setting
Command
@RTT, ch (, table)
Response
@RTT, ch (, table)
Parameter
ch: Input channel
1 = IN1 to 9 = IN9
table: Device table
1 to 99 (Registered device data),
100 to 100+n (Preset device data. ”n” varies depending on input signal, but
0 for most cases.)
Only for analog input, specify the device table.
Setting
example
Command
Response
@RTT,1
@RTT,1
Description
Reconfiguring IN1 input timing setting to the value detected automatically.
Setting
example
Command
Response
@RTT,6,2
@RTT,6,2
Description
Setting IN6 input timings to the values saved in the device table 2.
Remarks
This command is valid only if signal is input.
For analog input, this command is valid only if the device data of input signal is
registered.
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MSD-72 series Command Guide
@STT
Registering device data
Setting
Command
@STT, ch, table (, name)
Response
@STT, ch, table (, name)
Parameter
ch: Input channel
8 = IN8, 9 = IN9
table: Device table
1 to 99
name: Device table name
Up to 14 characters from 20 to 7D of ASCII code.
You can skip “Device table name”. If you skip it, only input timing setting is
saved. However, if no device table name is currently saved, the resolution is
saved automatically as the device table name.
Setting
example
Command
Response
@STT,8,2
@STT,8,2
Description
Saving IN8 input timing setting in device table 2 without editing the device table
name.
Setting
example
Command
Response
@STT,8,2,XGA 60Hz
@STT,8,2,XGA 60Hz
Description
Saving the current IN8 input timing setting in device table 2 with the name of
“XGA 60Hz”.
Remarks
This command is valid only if analog RGB / YPbPr signal is input.
@GTK / @STK
Tracking
Getting
Command
@GTK
Response
@GTK, track_1, track_2
Setting
Command
@STK, ch_1, track_1 (, ch_2 , track_2)
Response
@STK, ch_1, track_1 (, ch_2 , track_2)
Parameter
track_1-2: Tracking
0 to 63 [Default] 0
ch_1-2: Input channel
0 = All analog inputs, 8 = IN8, 9 = IN9
Getting
example
Command
Response
@GTK
@GTK,4,0
Description
Getting the set tracking.
If no analog RGB / YPbPr signal is input, “0” is returned.
Setting
example
Command
Response
@STK,8,4
@STK,8,4
Description
Setting IN8 tracking to “4”.
Remarks
This command is valid only if analog RGB / YPbPr signal is input. If “1” (Digital
signal) is selected for “@GIN / @SIN”, “-1” is returned.
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3.3.8 Output settings
@GDM / @SDM
Output mode
Getting
Command
@GDM
Response
@GDM, mode_1, mode_2, mode_3, mode_4
Setting
Command
@SDM, ch_1, mode_1 (, ch_2, mode_2・・・)
Response
@SDM, ch_1, mode_1 (, ch_2, mode_2・・・)
Parameter
mode_1-4: Output mode
0 = DVI MODE,
1 = HDMI RGB MODE,
2 = HDMI YCbCr4: 2: 2 MODE,
3 = HDMI YCbCr4: 4: 4 MODE [Default],
4 = HDMI YCbYr4: 2: 0 MODE
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GDM
@GDM,3,0,3,3
Description
Getting the set output mode.
OUT2: DVI MODE, other output channels: HDMI YCbCr4: 4: 4 MODE
Setting
example
Command
Response
@SDM,1,3
@SDM,1,3
Description
Setting the OUT1 output mode to “HDMI YCbCr4: 4: 4 MODE”
Remarks
-
@GUY / @SUY
Synchronous signal output when no video signal is input
Getting
Command
@GUY
Response
@GUY, sync_1, sync_2, sync_3, sync_4
Setting
Command
@SUY, ch_1, sync_1 (, ch_2, sync_2・・・)
Response
@SUY, ch_1, sync_1 (, ch_2, sync_2・・・)
Parameter
sync_1-4: Synchronous signal output
0 = Not output, 1 = Output [Default]
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GUY
@GUY,1,0,0,0
Description
Getting synchronous signal output when no video signal is input.
OUT1: synchronous signal is output.
Other output channels: synchronous signal is not output.
Setting
example
Command
Response
@SUY,1,1
@SUY,1,1
Description
Setting OUT1 to “1” (synchronous signal is output even if video signal is not
input).
Remarks
-
MSD-72 series Command Guide
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@GBO / @SBO
Output video when no video signal is not input
Getting
Command
@GBO
Response
@GBO, video_1, video_2, video_3, video_4
Setting
Command
@SBO, ch_1, video_1 (, ch_2, video_2・・・)
Response
@SBO, ch_1, video_1 (, ch_2, video_2・・・)
Parameter
video_1-4: Output video when no video signal is not input
0 = Black, 1 = Blue [Default], 2 = Background color
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GBO
@GBO,1,0,0,0
Description
Getting the output video when no video signal is input.
OUT1: blue screen, other output channels: black screen
Setting
example
Command
Response
@SBO,1,1
@SBO,1,1
Description
Setting OUT1 to output blue when no video signal is input.
Remarks
-
@GFF / @SFF
Video switching effect
Getting
Command
@GFF
Response
@GFF, switching_1, switching_2, switching_3, switching_4
Setting
Command
@SFF, ch_1, switching_1 (, ch_2, switching_2・・・)
Response
@SFF, ch_1, switching_1 (, ch_2, switching_2・・・)
Parameter
switching_1-4: Video switching effect
0 = CUT, 1 = FADE OUT/IN,
2 = FREEZE + FADE OUT/IN [Default],
3 = LEFT→RIGHT WIPE, 4 = RIGHT→LEFT WIPE,
5 = TOP→BOTTOM WIPE, 6 = BOTTOM→TOP WIPE
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GFF
@GFF,0,0,1,1
Description
Getting input channel switching effect.
OUT1 and OUT2: CUT, OUT3 and 4: FADE OUT/IN
Setting
example
Command
Response
@SFF,1,1
@SFF,1,1
Description
Setting OUT1 switching effect to FADE OUT/IN.
Remarks
-
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@GFT / @SFT
Video switching speed
Getting
Command
@GFT
Response
@GFT, time_1, time_2, time_3, time_4
Setting
Command
@SFT, ch_1, time_1 (, ch_2, time_2・・・)
Response
@SFT, ch_1, time_1 (, ch_2, time_2・・・)
Parameter
time_1-4: Switching speed
100 = 0.1 sec. to 2000 = 2 sec.
[Default] 350 = 0.35 sec.
Set the value by 10 ms. If you set a value other than 0 for the lower 1 digits,
these values will be rounded down. (For example, if you set it to 395, the speed
is set to 390 ms.)
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GFT
@GFT,400,400,350,350
Description
Getting the set switching speed of video input channel.
OUT1 and 2: 400 ms., OUT3 and 4: 350 ms.
Setting
example
Command
Response
@SFT,1,400
@SFT,1,400
Description
Setting OUT1 switching time to 400 ms.
Remarks
-
@GWC / @SWC
Wipe color
Getting
Command
@GWC, ch
Response
@GWC, ch, red, green, blue
Setting
Command
@SWC, ch_1, red_1, green_1, blue_1 (, ch_2, red_2, green_2, blue_2・・・)
Response
@SWC, ch_1, red_1, green_1, blue_1 (, ch_2, red_2, green_2, blue_2・・・)
Parameter
ch: Output channel
1 = OUT1 to 4 = OUT4
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
red / red_1-4 : Wipe color (Red)
green / green_1-4 : Wipe color (Green)
blue / blue_1-4 : Wipe color (Blue)
0 to 255 [Default] 0 (Black)
Getting
example
Command
Response
@GWC,1
@GWC,1,255,255,255
Description
Getting the set wipe color of OUT1.
RGB: 255 (white)
Setting
example
Command
Response
@SWC,1,255,255,255
@SWC,1,255,255,255
Description
Setting the wipe colors (RGB) of OUT1 to “255” (white).
Remarks
-
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@GEN / @SEN
HDCP output
Getting
Command
@GEN
Response
@GEN, hdcp_1, hdcp_2, hdcp_3, hdcp_4
Setting
Command
@SEN, ch_1, hdcp_1 (, ch_2, hdcp_2・・・)
Response
@SEN, ch_1, hdcp_1 (, ch_2, hdcp_2・・・)
Parameter
hdcp_1-4: HDCP output
0 = HDCP is encrypted only if input signal is with HDCP.
1 = HDCP 2.2 is preferentially encrypted. [Default]
2 = HDCP 1.4 is encrypted.
3 = HDCP is not encrypted.
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GEN
@GEN,1,1,1,0
Description
Getting the set HDCP output.
OUT4: HDCP is encrypted only if input signal is with HDCP.
Other output channels: HDCP 2.2 is preferentially encrypted.
Setting
example
Command
Response
@SEN,1,1
@SEN,1,1
Description
Setting OUT1 to HDCP 2.2.
Remarks
-
@GHR / @SHR
The number of HDCP retries
Getting
Command
@GHR
Response
@GHR, retry_1, retry_2, retry_3, retry_4
Setting
Command
@SHR, ch_1, retry_1 (, ch_2, retry_2・・・)
Response
@SHR, ch_1, retry_1 (, ch_2, retry_2・・・)
Parameter
retry_1-4: The number of retires
-1 = Retry until succeed [Default],
0 = Not retry,
1 to 100 = Retry for the desired number of retries
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GHR
@GHR,-1,-1,-1,10
Description
Getting the set number of HDCP retires.
OUT4: Retry for up to 10 times
Other output channels: continue to retry until succeed.
Setting
example
Command
Response
@SHR,4,10
@SHR,4,10
Description
Setting OUT4 to retry for up to 10 times.
Remarks
-
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@GDC / @SDC
Deep Color
Getting
Command
@GDC
Response
@GDC, color_1, color_2, color_3, color_4
Setting
Command
@SDC, ch_1, color_1 (, ch_2, color_2・・・)
Response
@SDC, ch_1, color_1 (, ch_2, color_2・・・)
Parameter
color_1-4: Color depth
0 = 24-BIT COLOR [Default], 1 = 30-BIT COLOR
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GDC
@GDC,1,1,0,1
Description
Getting the set color depth.
OUT3: 24-BIT COLOR
Other output channels: 30-BIT COLOR
Setting
example
Command
Response
@SDC,1,0
@SDC,1,0
Description
Setting OUT1 deep color to 24-BIT COLOR.
Remarks
-
@GCE / @SCE
CEC connection
Getting
Command
@GCE
Response
@GCE, connect_1, connect_2, connect_3, connect_4
Setting
Command
@SCE, ch_1, connect_1 (, ch_2, connect_2・・・)
Response
@SCE, ch_1, connect_1 (, ch_2, connect_2・・・)
Parameter
connect_1-4: CEC connection
0 = Not connected [Default], 1 = Selected video input channel,
2 = Input channel1, 3 = Input channel2,
4 = Input channel3, 5 = Input channel4,
6 = Input channel5, 7 = Input channel6,
8 = Input channel7
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GCE
@GCE,4,0,0,0
Description
Getting the set CEC connection.
OUT1: connecting to input channel3
Other outputs: not connected.
Setting
example
Command
Response
@SCE,1,4
@SCE,1,4
Description
Setting OUT1 CEC connection to Input channel3.
Remarks
-
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@HAU
HDCP re-encryption
Setting
Command
@HAU, ch_1 (, ch_2・・・)
Response
@HAU, ch_1 (, ch_2・・・)
Parameter
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Setting
example
Command
Response
@HAU,1
@HAU,1
Description
Setting OUT1 to re-encrypt HDCP.
Remarks
-
@GAU / @SAU
Priority of input channel automatic switching (OFF to ON)
Getting
Command
@GAU, out
Response
@GAU, out, in1_priority, in2_priority, in3_priority, in4_priority, in5_priority,
in6_priority, in7_priority, in8_priority, in9_priority
Setting
Command
@SAU, out_1, in1_priority, in2_priority・・・, in9_priority (, out_2, in1_priority・・・)
Response
@SAU, out_1, in1_priority, in2_priority・・・, in9_priority (, out_2, in1_priority・・・)
Parameter
out, out_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
in1_priority-in9_priority: Priority
0 = OFF, 1 = Priority (high) to 9 = priority (low)
Getting
example
Command
Response
@GAU,1
@GAU,1,1,2,3,4,5,6,7,8,9
Description
Getting the set priority of OUT1’s automatic switching.
IN1>IN2>・・・>IN9
Setting
example
Command
Response
@SAU,1,9,8,7,6,5,4,3,2,1
@SAU,1,9,8,7,6,5,4,3,2,1
Description
Setting the priority of OUT1’s automatic switching to IN9>IN8>・・・>IN1.
Remarks
-
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@GOF / @SOF
Priority of input channel automatic switching (ON to OFF)
Getting
Command
@GOF, out
Response
@GOF, out, in1_priority, in2_priority, in3_priority, in4_priority, in5_priority,
in6_priority, in7_priority, in8_priority, in9_priority
Setting
Command
@SOF, out_1, in1_priority, in2_priority・・・, in9_priority (, out_2, in1_priority・・・)
Response
@SOF, out_1, in1_priority, in2_priority・・・, in9_priority (, out_2, in1_priority・・・)
Parameter
out, out_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
in1_priority-in9_priority: Priority
0 = OFF, 1 = Priority (high) to 9 = priority (low)
Getting
example
Command
Response
@GOF,1
@GOF,1,1,2,3,4,5,6,7,8,9
Description
Getting the set priority of OUT1’s automatic switching.
IN1>IN2>・・・>IN9
Setting
example
Command
Response
@SOF,1,9,8,7,6,5,4,3,2,1
@SOF,1,9,8,7,6,5,4,3,2,1
Description
Setting the priority of OUT1’s automatic switching to IN9>IN8>・・・>IN1.
Remarks
-
@GMT / @SMT
Masking time after automatic switching of input channel
Getting
Command
@GMT
Response
@GMT, time_1, time_2, time_3, time_4
Setting
Command
@SMT, ch_1, time_1 (, ch_2, time_2・・・)
Response
@SMT, ch_1, time_1 (, ch_2, time_2・・・)
Parameter
time_1-4: Masking time
0 = 0 to 999999 = 999.999 sec. [Default] 0
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GMT
@GMT,2000,2000,10000,10000
Description
Getting the set masking time after automatic switching of input channel.
Automatic switching is not performed until the following time passes:
OUT1 and OUT2: 2000 ms. (2 sec.), OUT3 and OUT4: 10000 ms. (10 sec.)
Setting
example
Command
Response
@SMT,1,2000,2,2000,3,10000,4,10000
@SMT,1,2000,2,2000,3,10000,4,10000
Description
Setting the masking time to 2000 ms. (2 sec.) for OUT1 and OUT2, 10000 ms.
(10 sec.) for OUT3 and OUT4.
Remarks
-
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@GAD / @SAD
Channel switching mode for input channel automatic switching
Getting
Command
@GAD
Response
@GAD, mode_1, mode_2, mode_3, mode_4
Setting
Command
@SAD, ch_1, mode_1 (, ch_2, mode_2・・・)
Response
@SAD, ch_1, mode_1 (, ch_2, mode_2・・・)
Parameter
mode_1-4: Channel switching mode
0 = VIDEO, 1 = AUDIO, 2 = V&A [Default]
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GAD
@GAD,2,2,1,1
Description
Getting the set channel switching mode to:
OUT1 and OUT2: V&A, OUT3 and OUT4: AUDIO
Setting
example
Command
Response
@SAD,1,2,2,2,3,0,4,0
@SAD,1,2,2,2,3,0,4,0
Description
Setting the channel switching mode to:
OUT1 and OUT2: V&A, OUT3 and OUT4: VIDEO
Remarks
-
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3.3.9 Audio
@GSL / @SSL
Audio output level
Getting
Command
@GSL
Response
@GSL, level_1, level_2, level_3, level_4
Setting
Command
@SSL, ch_1, level_1 (, ch_2, level_2・・・)
Response
@SSL, ch_1, level_1 (, ch_2, level_2・・・)
Parameter
level_1-4: Audio output level
-60 to 10 [Default] 0
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GSL
@GSL,-4,-4,0,0
Description
Getting the set audio output level.
OUT1 and OUT2: -4 dB, OUT3 and OUT4: ±0 dB
Setting
example
Command
Response
@SSL,1,-4
@SSL,1,-4
Description
Setting OUT1 audio output level to -4 dB.
Remarks
If you change the output level while muted, it will be unmuted.
@SOL
Relative value of audio output level
Setting
Command
@SOL, ch_1, updown_1 (, ch_2, updown_2・・・)
Response
@SOL, ch_1, updown_1 (, ch_2, updown_2・・・)
Parameter
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
updown_1-4: Relative value setting
-70 to 70
The specified value is added to the current audio output level. If the total value
exceeds the limit value (-60 to +10), the limit value will be applied.
Setting
example
Command
Response
@SOL,1,-1
@SOL,1,-1
Description
Lower 1 dB of audio output level of OUT1.
Remarks
If you change the output level while muted, it will be unmuted.
MSD-72 series Command Guide
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@GOL
Limit status of audio output level
Getting
Command
@GOL
Response
@GOL, out_1, out_2, out_3, out_4
Parameter
out_1-4: Limit status of audio output level
-1 = minimum settable value (-60 dB), 0 = not limit status,
1 = maximum settable value (+10 dB)
Getting
example
Command
Response
@GOL
@GOL,1,1,0,0
Description
Getting limit status of audio output level.
OUT1 and OUT2: maximum settable value
OUT3 and OUT4: not reach the limit value
Remarks
-
@GAM / @SAM
Audio output mute
Getting
Command
@GAM
Response
@GAM, mute_1, mute_2, mute_3, mute_4
Setting
Command
@SAM, ch_1, mute_1 (, ch_2, mute_2・・・)
Response
@SAM, ch_1, mute_1 (, ch_2, mute_2・・・)
Parameter
mute_1-4: Audio output mute
0 = Mute OFF [Default], 1 = Mute ON
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GAM
@GAM,1,1,0,0
Description
Getting the set value of audio output mute.
OUT1 and OUT2: mute ON, OUT3 and OUT4: mute OFF
Setting
example
Command
Response
@SAM,1,1
@SAM,1,1
Description
Muting OUT1 audio output.
Remarks
-
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@GAS / @SAS
Selecting audio input
Getting
Command
@GAS
Response
@GAS, select_1, select_2 , select_3, select_4, select_5, select_6, select_7,
select_8, select_9
Setting
Command
@SAS, ch_1, select_1 (, ch_2, select_2・・・)
Response
@SAS, ch_1, select_1 (, ch_2, select_2・・・)
Parameter
select_1-9: Audio input selection
0 = Automatic [Default], 1 = Analog audio, 2 = Digital audio
ch_1-9: Input channel
0 = All digital inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GAS
@GAS,1,0,0,0,0,0,0,0,0
Description
Getting the set audio input selection.
IN1: analog audio is used.
Other input channels: automatic
Setting
example
Command
Response
@SAS,3,1
@SAS,3,1
Description
Setting IN3 audio input to analog audio.
Remarks
These commands are only for digital input.
IN8 and IN9 are available only when “1” (Digital signal). is selected for “@GIN /
@SIN”. If “0” (Analog signal) is selected, “-1” is returned.
@GSD
Selecting actual audio input
Getting
Command
@GSD
Response
@GSD, in_1, in_2, in_3, in_4, in_5, in_6, in_7, in_8, in_9
Parameter
in_1-9: Actual audio input selection
1 = Analog audio [Default], 2 = Digital audio
-1 = Analog audio (Analog video input setting)
Getting
example
Command
Response
@GSD
@GSD,1,2,2,2,2,2,2,2,2
Description
Getting the actual audio input selection.
IN1: analog audio, other input channels: digital audio
Remarks
This command is only for digital input.
IN8 and IN9 are available only when “1” (Digital signal). is selected for “@GIN /
@SIN”. If “0” (Analog signal) is selected, “-1” is returned.
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@GSO / @SSO
Audio input level
Getting
Command
@GSO
Response
@GSO, level_1, level_2, level_3, level_4, level_5, level_6, level_7, level_8,
level_9
Setting
Command
@SSO, ch_1, level_1 (, ch_2, level_2・・・)
Response
@SSO, ch_1, level_1 (, ch_2, level_2・・・)
Parameter
level_1-9: Audio input level
-60 to 0 [Default] 0
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GSO
@GSO,0,0,0,0,-4,0,0,0,0
Description
Getting audio input level.
IN5: -4 dB, other input channels: ±0 dB.
Setting
example
Command
Response
@SSO,5,-8
@SSO,5,-8
Description
Setting IN5 audio input level to -8 dB.
Remarks
-
@SIL
Relative value of audio input level
Setting
Command
@SIL, ch_1, updown_1 (, ch_2, updown_2・・・)
Response
@SIL, ch_1, updown_1 (, ch_2, updown_2・・・)
Parameter
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
updown_1-9: Setting relative value
-60 to 60
The specified value is added to the current audio input level. If the total value
exceeds the limit value (-60 to +0), the limit value will be applied.
Setting
example
Command
Response
@SIL,1,-1
@SIL,1,-1
Description
Lowering IN1 audio input level (1 dB).
Remarks
-
@GIL
Limit status of audio input level
Getting
Command
@GIL
Response
@GIL, in_1, in_2, in_3, in_4, in_5, in_6, in_7, in_8, in_9
Parameter
in_1-9: Limit status
-1 = minimum settable value (-60 dB), 0 = not limit status,
1 = maximum settable value (+0 dB)
Getting
example
Command
Response
@GIL
@GIL,1,0,0,0,0,0,0,0,0
Description
Getting the set limit status of audio input level.
IN1: maximum settable value
Other input channels: not limit value
Remarks
-
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@GLO / @SLO
Output lip sync
Getting
Command
@GLO
Response
@GLO, frame_1, frame_2, frame_3, frame_4
Setting
Command
@SLO, ch_1, frame_1 (, ch_2, frame_2・・・)
Response
@SLO, ch_1, frame_1 (, ch_2, frame_2・・・)
Parameter
frame_1-4: Output lip sync
0 to 8 [Default] 0
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GLO
@GLO,0,0,2,2
Description
Getting the set lip sync of the output side.
OUT1 and OUT2: 0 frame, OUT3 and OUT4: 2 frames
Setting
example
Command
Response
@SLO,1,2
@SLO,1,2
Description
Setting the OUT1 lip sync to 2 frames.
Remarks
-
@GLY / @SLY
Input lip sync
Getting
Command
@GLY
Response
@GLY, frame_1, frame_2, frame_3, frame_4, frame_5, frame_6, frame_7,
frame_8, frame_9
Setting
Command
@SLY, ch_1, frame_1 (, ch_2, frame_2・・・)
Response
@SLY, ch_1, frame_1 (, ch_2, frame_2・・・)
Parameter
frame_1-9: Input lip sync
0 to 8 [Default] 0
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GLY
@GLY,0,0,0,2,0,0,0,0,0
Description
Getting the set lip sync of input side.
IN4: 2 frames, other input channels: 0 frame
Setting
example
Command
Response
@SLY,4,2
@SLY,4,2
Description
Setting the IN4 lip sync to 2 frames.
Remarks
-
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@GSF / @SSF
Sampling frequency
Getting
Command
@GSF
Response
@GSF, frequency_1, frequency_2, frequency_3, frequency_4
Setting
Command
@SSF, ch_1, frequency_1 (, ch_2, frequency_2・・・)
Response
@SSF, ch_1, frequency_1 (, ch_2, frequency_2・・・)
Parameter
frequency_1-4: Sampling frequency
0 = AUTO [Default], 1 = 32 kHz, 2 = 44.1 kHz,
3 = 48 kHz, 4 = 88.2 kHz, 5 = 96 kHz,
6 = 192 kHz
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GSF
@GSF,0,0,2,2
Description
Getting sampling frequency settings.
OUT1 and OUT2: AUTO, OUT3 and OUT4: 32 kHz
Setting
example
Command
Response
@SSF,1,3
@SSF,1,3
Description
Setting OUT1 sampling frequency to 48 kHz.
Remarks
-
@GFD
Actual sampling frequency
Getting
Command
@GFD
Response
@GFD, frequency_1, frequency_2, frequency_3, frequency_4
Parameter
frequency_1-4: Sampling frequency
1 = 32 kHz, 2 = 44.1 kHz, 3 = 48 kHz,
4 = 88.2 kHz, 5 = 96 kHz, 6 = 192 kHz
Getting
example
Command
Response
@GFD
@GFD,5,5,3,3
Description
Getting the actual sampling frequency.
OUT1 and OUT2: 96 kHz, OUT3 and OUT4: 48 kHz
Remarks
“@GSF / @SSF” is set to “AUTO”, the sampling frequency that is output actually
is returned. If it is set to value other than “AUTO”, the set sampling frequency is
returned.
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@GDO / @SDO
Audio output connector
Getting
Command
@GDO
Response
@GDO, out_1, out_2, out_3, out_4
Setting
Command
@SDO, ch_1, out_1, (, ch_2, out_2・・・)
Response
@SDO, ch_1, out_1, (, ch_2, out_2・・・)
Parameter
out_1-4: Audio output connector
0 = Only to analog audio output connectors,
1 = Only to HDMI output connectors,
2 = To analog audio output connectors and HDMI output
connectors [Default]
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GDO
@GDO,0,0,1,1
Description
Getting the audio output connectors’ settings.
OUT1 and OUT2: only to analog audio output connectors,
OUT3 and OUT4: only to HDMI output connector
Setting
example
Command
Response
@SDO,1,0
@SDO,1,0
Description
Setting OUT1 to output to only analog audio output connectors
Remarks
-
@GMD / @SMD
Multi channel audio output
Getting
Command
@GMD
Response
@GMD, out_1, out_2, out_3, out_4
Setting
Command
@SMD, ch_1, out_1 (, ch_2, out_2・・・)
Response
@SMD, ch_1, out_1 (, ch_2, out_2・・・)
Parameter
out_1-4: Multi channel audio output
0 = CH1 / CH2 STEREO, 1 = CH3 / CH4 STEREO,
2 = CH5 / CH6 STEREO, 3 = CH7 / CH8 STEREO,
4 = CH1 / CH2 MONO, 5 = CH3 / CH4 MONO,
6 = CH5 / CH6 MONO, 7 = CH7 / CH8 MONO,
8 = DOWN MIX [Default]
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GMD
@GMD,4,4,8,8
Description
Getting the multi channel audio output’s setting.
OUT1 and OUT2: outputs monaural audio of CH1 / CH2.
OUT3 and OUT4: outputs downmixed audio.
Setting
example
Command
Response
@SMD,1,8
@SMD,1,8
Description
Setting OUT1 to output down mixed audio.
Remarks
-
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@GAT / @SAT
Test tone
Getting
Command
@GAT
Response
@GAT, tone_1, speaker_1, tone_2, speaker_2, tone_3, speaker_3, tone_4,
speaker_4
Setting
Command
@SAT, ch_1, tone_1, speaker_1 (, ch_2, tone_2, speaker_2・・・)
Response
@SAT, ch_1, tone_1, speaker_1 (, ch_2, tone_2, speaker_2・・・)
Parameter
tone_1-4: Test tone
0 = OFF [Default], 1 = 1 kHz, 2 = 400 Hz
speaker_1-4: Speaker
0 = ALL [Default], 1 = FRONT L/R,
2 = REAR L/R, 3 = REAR L/R CENTER,
4 = FRONT LEFT, 5 = FRONT RIGHT,
6 = LOW FREQUENCY EFFECT, 7 = FRONT CENTER,
8 = REAR LEFT, 9 = REAR RIGHT,
10 = REAR LEFT CENTER, 11 = REAR RIGHT CENTER
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GAT
@GAT,2,1,2,1,0,0,0,0
Description
Getting the set test tone output
OUT1 and OUT2: outputs test tone (400 Hz) to FRONT L/R.
OUT3 and OUT4: not output test tone.
Setting
example
Command
Response
@SAT,1,1,0
@SAT,1,1,0
Description
Setting OUT1 to output test tone (1k Hz) to all speakers.
Remarks
-
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3.3.10 EDID
@GED / @SED
EDID
Getting
Command
@GED
Response
@GED, edid_1, edid_2, edid_3, edid_4, edid_5, edid_6, edid_7, edid_8, edid_9
Setting
Command
@SED, ch_1, edid_1 (, ch_2, edid_2・・・)
Response
@SED, ch_1, edid_1 (, ch_2, edid_2・・・)
Parameter
edid_1-9: EDID
0 = Built-in EDID [Default],
1 = OUT1 MONITOR,
2 = OUT2 MONITOR,
3 = OUT3 MONITOR,
4 = OUT4 MONITOR,
101 to 108 = COPY DATA 1 to COPY DATA 8
ch_1-9: Input channel
0 = All digital inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GED
@GED,0,0,0,3,0,0,0,0,0
Description
Getting the set EDID.
IN4: EDID of the sink device that is connected to OUT3.
Other inputs: built-in EDID
Setting
example
Command
Response
@SED,2,3
@SED,2,3
Description
Setting IN2: EDID that is read from the sink device connected to OUT3.
Remarks
These commands are only for digital input.
IN8 and IN9: If “0” (Analog signal) is selected for “@GIN / @SIN”, “-1” is acquired
and the setting cannot be valid. In order to use a copied data, read EDID data
from the sink device in “@RME” in advance.
MSD-72 series Command Guide
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@GVF / @SVF
Input resolution for PC
Getting
Command
@GVF
Response
@GVF, resolution_1, resolution_2, resolution_3, resolution_4, resolution_5,
resolution_6, resolution_7, resolution_8, resolution_9
Setting
Command
@SVF, ch_1, resolution_1 (, ch_2, resolution_2・・・)
Response
@SVF, ch_1, resolution_1 (, ch_2, resolution_2・・・)
Parameter
resolution_1-9: Input resolution for PC
0 = SVGA(800x600), 1 = XGA(1024x768),
2 = 720p(1280x720), 3 = WXGA(1280x768),
4 = WXGA(1280x800), 5 = QuadVGA(1280x960),
6 = SXGA(1280x1024), 7 = WXGA(1360x768),
8 = WXGA(1366x768), 9 = SXGA+(1400x1050),
10 = WXGA+(1440x900), 11 = WXGA++(1600x900),
12 = UXGA(1600x1200), 13 = WSXGA+(1680x1050),
14 = 1080i(1920x1080), 15 = 1080p(1920x1080),
16 = WUXGA(1920x1200), 17 = QWXGA(2048x1152)
18 = WQHD(2048x1152), 19 = WQXGA(2560x1600),
40 = 2160p@30(3840x2160), 41 = 2160@60(3840x2160)
[Default] IN1 to IN3: 2160p@60(3840x2160)
IN4 to IN9: 1080p(1920x1080)
ch_1-9: Input channel
0 = All inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GVF
@GVF,6,6,9,6,6,6,6,6,6
Description
Getting the set input resolution for PC.
IN3: SXGA+(1400x1050), other input channels: SXGA (1280x1024).
Setting
example
Command
Response
@SVF,0,12
@SVF,0,12
Description
Setting EDID of all input channels to UXGA (1600x1200).
Remarks
-
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@GHF / @SHF
Input resolution for AV devices
Getting
Command
@GHF
Response
@GHF, resolution_1, resolution_2, resolution_3, resolution_4, resolution_5,
resolution_6, resolution_7, resolution_8, resolution_9
Setting
Command
@SHF, ch_1, resolution_1 (, ch_2, resolution_2・・・)
Response
@SHF, ch_1, resolution_1 (, ch_2, resolution_2・・・)
Parameter
resolution_1-9: Input resolution for AV devices
0 = UNUSED, 1 = 480p,
2 = 720p, 3 = 1080i,
4 = 1080p, 5 = AUTO [Default],
6 = 2160@30, 7 = 2160@60 4: 2: 0,
8 = 2160p@60 4: 4: 4, 9 = 4096x2160@30,
10 = 4096x2160@60 4: 2: 0, 11 = 4096x2160@60 4: 4: 4
ch_1-9: Input channel
0 = All digital inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GHF
@GHF,5,5,5,4,5,5,5,5,5
Description
Getting the set input resolution for AV devices.
IN4: 1080p, other inputs: AUTO
Setting
example
Command
Response
@SHF,0,4
@SHF,0,4
Description
Setting EDIDs of all input channels to 1080p.
Remarks
These commands are only for digital input.
IN8 and IN9 are available only when “1” (Digital signal). is selected for “@GIN /
@SIN”. If “0” (Analog signal) is selected, “-1” is returned.
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@GDI / @SDI
Deep Color input
Getting
Command
@GDI
Response
@GDI, color_1, color_2, color_3, color_4, color_5, color_6, color_7, color_8,
color_9
Setting
Command
@SDI, ch_1, color_1 (, ch_2, color_2・・・)
Response
@SDI, ch_1, color_1 (, ch_2, color_2・・・)
Parameter
color_1-9: Color depth
0 = 24-BIT COLOR [Default], 1 = 30-BIT COLOR
ch_1-9: Input channel
0 = All digital inputs, 1 = IN1 to 9 = IN9
Getting
example
Command
Response
@GDI
@GDI,1,1,1,0,1,1,1,1,1
Description
Getting the set color depth.
IN4: 24-BIT COLOR
Other input channels: 30-BIT COLOR
Setting
example
Command
Response
@SDI,4,0
@SDI,4,0
Description
Setting the set IN4 color depth to 24-BIT COLOR.
Remarks
These commands are only for digital input.
IN8 and IN9 are available only when “1” (Digital signal). is selected for “@GIN /
@SIN”. If “0” (Analog signal) is selected, “-1” is returned.
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@GAF / @SAF
Audio format
Getting
Command
@GAF, ch
Response
@GAF, ch, format_1, frequency_1 (, format_2, frequency_2・・・)
Setting
Command
@SAF, ch, format_1, frequency_1 (, format_2, frequency_2・・・)
Response
@SAF, ch, format_1, frequency_1 (, format_2, frequency_2・・・)
Parameter
ch: Input channel
0 = All digital inputs (for setting only), 1 = IN1 to 9 = IN9
format_1-9: Audio format
0 = PCM, 1 = Dolby Digital, 2 = AAC,
3 = Dolby Digital+, 4 = DTS, 5 = DTS-HD,
6 = Dolby TrueHD
[Default]: only PCM can be output
frequency_1-9: Maximum sampling frequency
0 = Not output, 1 = 32 kHz, 2 = 44.1 kHz, 3 = 48 kHz,
4 = 88.2 kHz, 5 = 96 kHz, 6 = 176.4 kHz, 7 = 192 kHz
[Default] DTS-HD: 192 kHz, Dolby TrueHD: 96 kHz,
other formats: 48 kHz
Maximum settable sampling frequency depends on the audio format.
Audio format
Maximum sampling frequency (kHz)
PCM
32 / 44.1 / 48 / 88.2 / 96 / 176.4 / 192
Dolby Digital
Output disabled / 32 / 44.1 / 48
AAC
Output disabled / 32 / 44.1 / 48 / 88.2 / 96
Dolby Digital+
Output disabled / 32 / 44.1 / 48
DTS
Output disabled / 32 / 44.1 / 48 / 96
DTS-HD
Output disabled / 44.1 / 48 / 88.2 / 96 / 176.4 / 192
Dolby TrueHD
Output disabled / 44.1 / 48 / 88.2 / 96 / 176.4 / 192
Getting commands: the set audio formats and maximum sampling frequency is
returned.
Setting commands: send the desired audio formats and the maximum sampling
frequencies. Other audio formats is set to “0” (Output disabled) for the maximum
sampling frequency. You do not need to specify “0” parameter normally.
PCM is always enabled, you can skip this menu unless you need to change the
sampling frequency.
Getting
example
Command
Response
@GAF,1
@GAF,1,0,7
Description
Getting the set audio formats for IN1.
Up to 192 kHz of PCM.
Setting
example
Command
Response
@SAF,2,4,3
@SAF,2,4,3
Description
Enabling IN2 to output PCM and DTS 32, 44.1, and 48 kHz (PCM’s sampling
frequency is not changed).
Remarks
These commands are only for digital input.
IN8 and IN9 are available only when “1” (Digital signal). is selected for “@GIN /
@SIN”. If “0” (Analog signal) is selected, “-1” is returned.
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@GSP / @SSP
The number of speakers
Getting
Command
@GSP, ch
Response
@GSP, ch, number, speaker_1 (, speaker_2・・・)
Setting
Command
@SSP, ch, number (, speaker_1, speaker_2・・・)
Response
@SSP, ch, number (, speaker_1, speaker_2・・・)
Parameter
ch: Input channel
0 = All digital inputs (for setting only), 1 = IN1 to 9 = IN9
number: The number of speakers
1 to 8 [Default] 2
speaker_1-8: Speaker configuration
0 = Front Left / Right [Default], 1 = Low Frequency Effect,
2 = Front Center, 3 = Rear Left / Right,
4 = Rear Center, 5 = Front Left / Right Center,
6 = Rear Left / Right Center, 7 = Front Left / Right Wide,
8 = Front Left / Right High, 9 = Top Center,
10 = Front Center High
Getting commands:: the number of speakers and which speakers will be used is
returned.
Setting commands:: if you do not specify the speaker configuration, the following
configuration will be applied depending on the set number of speakers.
number
speaker
0 1 2 3 4 5 6 7 8 9 10
1
OFF
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
2
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
3
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
4
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
5
ON
ON
OFF
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
6
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
OFF
7
ON
ON
ON
ON
ON
OFF
OFF
OFF
OFF
OFF
OFF
8
ON
ON
ON
ON
OFF
OFF
ON
OFF
OFF
OFF
OFF
For speaker configurations: the number and total number of speakers (speaker_1-8)
do not match, the number is set automatically based on the setting of speaker_1-8.
In case the number exceeds the settable range, an error is returned.
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@GSP / @SSP
The number of speakers (cont’d)
Getting
example
Command
Response
@GSP,1
@GSP,1,6,0,1,2,3
Description
Getting the IN1 speaker configuration.
Six speakers (Front Left / Right, Low Frequency Effect, Front Center, Rear Left /
Right) are used.
Setting
example
Command
Response
@SSP,2,8
@SSP,2,8
Description
Setting IN2 speaker configuration to Front Left / Right, Low Frequency Effect,
Front Center, Rear Left / Right, Rear Left / Right Center (eight speakers).
Completed normally.
Setting
example
Command
Response
@SSP,3,8,0,3,5,6,7
@ERR,1
Description
Setting IN3 speaker configuration to Front Left / Right, Rear Left / Right, Front
Left / Right Center, Rear Left / Right Center, Front Left / Right Wide.
The number of speakers is 10 which exceeds the settable value, and it causes
the error.
Remarks
These commands are only for digital input.
IN8 and IN9 are available only when “1” (Digital signal). is selected for “@GIN /
@SIN”. If “0” (Analog signal) is selected, “-1” is returned.
@RME
Copying EDID
Setting
Command
@RME, out, number, name
Response
@RME, out, number, name
Parameter
out: Connector to be loaded
1 = OUT1 to 4 = OUT4
number: Destination COPY DATA number
1 to 8
name: COPY DATA name
Up to 10 characters using 20 to 7D from ASCII codes.
You can skip this setting. In this case, only EDID settings are saved without
changing currently saved name.
Setting
example
Command
Response
@RME,1,1
@RME,1,1
Description
Loading EDID data of the sink device connected to OUT1 and saving it in COPY
DATA 1.
Setting
example
Command
Response
@RME,3,4,800x600
@RME,3,4,800x600
Description
Loading EDID data of the sink device connected to OUT3, naming it “800x600”
and saving it in COPY DATA 4.
Remarks
@GED / @SED EDID
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@GCT / @SCT
RS-232C communication
Getting
Command
@GCT
Response
@GCT, setting_1, setting_2
Setting
Command
@SCT, port, setting
Response
@SCT, port, setting
Parameter
setting: Communication setting
setting_1: Communication setting of RS-232C CH1
setting_2: Communication setting of RS-232C CH2
・Baud rate (4800, 9600, 19200, 38400 [bps] [Default] 9600)
・Data length (8, 7 [bit] [Default] 8)
・Parity check (NONE, EVEN, ODD [Default]: NONE)
・Stop bit (1, 2 [bit] [Default] 1)
For setting values, see the table below.
port: RS-232C channel
0 = All channels, 1 = RS-232C CH1,
2 = RS-232C CH2
Getting
example
Command
Response
@GCT
@GCT,24,24
Description
Getting communication settings of RS-232Cs.
All baud rates = 19200 [bps], data bit length = 8 [bit], parity check = None, stop
bit = 1 [bit]
Setting
example
Command
Response
@SCT,1,24
@SCT,1,24
Description
Setting RS-232C CH1 as follows: baud rate =19200 [bps], data bit length = 8
[bit], parity check = NONE, stop bit = 1 [bit].
Remarks
If IP address or RS-232C communication setting is changed, the communication
may be disabled. Change the environmental settings based on the MSD
settings.
Value
Communication
Value
Communication
Value
Communication
Value
Communication
0
4800
8
NONE
1 12
9600 8 NONE
1 24
19200
8
NONE
1 36
38400
8
NONE
1
1
4800 8 NONE
2 13
9600 8 NONE
2 25
19200
8
NONE
2 37
38400
8
NONE 2 2
4800 8 ODD
1 14
9600 8 ODD
1 26
19200
8
ODD
1 38
38400
8
ODD
1
3
4800 8 ODD
2 15
9600 8 ODD
2 27
19200
8
ODD
2 39
38400
8
ODD 2 4
4800 8 EVEN
1 16
9600 8 EVEN
1 28
19200
8
EVEN
1 40
38400
8
EVEN
1
5
4800 8 EVEN
2 17
9600 8 EVEN
2 29
19200
8
EVEN
2 41
38400
8
EVEN 2 6
4800 7 NONE
1 18
9600 7 NONE
1 30
19200
7
NONE
1 42
38400
7
NONE
1
7
4800 7 NONE
2 19
9600 7 NONE
2 31
19200
7
NONE
2 43
38400
7
NONE
2
8
4800 7 ODD
1 20
9600 7 ODD
1 32
19200
7
ODD
1 44
38400
7
ODD 1 9
4800 7 ODD
2 21
9600 7 ODD
2 33
19200
7
ODD
2 45
38400
7
ODD
2
10
4800 7 EVEN
1 22
9600 7 EVEN
1 34
19200
7
EVEN
1 46
38400
7
EVEN 1 11
4800 7 EVEN
2 23
9600 7 EVEN
2 35
19200
7
EVEN
2 47
38400
7
EVEN
2
3.3.11 RS-232C communication
[Table 3.1] Parameter of RS-232C communication settings
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@GCF / @SCF
RS-232C communication mode
Getting
Command
@GCF
Response
@GCF, mode_1, mode_2
Setting
Command
@SCF, port, mode
Response
@SCF, port, mode
Parameter
mode: Operation mode
mode_1: RS-232C CH1 operation mode
mode_2: RS-232C CH2 operation mode
0 = RECEIVER mode [Default], 1 = TRANSMITTER mode
port: RS-232C channel
0 = All channels, 1 = RS-232C CH1,
2 = RS-232C CH2
Getting
example
Command
Response
@GCF
@GCF,1,1
Description
Getting the set operation modes of RS-232Cs.
TRANSMITTER mode
Setting
example
Command
Response
@SCF,1,1
@SCF,1,1
Description
Setting RS-232C CH1 to TRANSMITTER mode.
Remarks
These commands are only for RS-232C.
If IP address or RS-232C communication setting is changed, the communication
may be disabled. Change the environmental settings based on the MSD
settings.
@GIP / @SIP
IP address
Getting
Command
@GIP
Response
@GIP, unit_1, unit_2, unit_3, unit_4
Setting
Command
@SIP, unit_1, unit_2, unit_3, unit_4
Response
@SIP, unit_1, unit_2, unit_3, unit_4
Parameter
unit_1: Upper bit of the IP address to unit_4: lower bit of the IP address
0 to 255 = 8 bit (Decimal notation) [Default] 192.168.1.199
Getting
example
Command
Response
@GIP
@GIP,192,168,3,2
Description
Getting the IP address of the MSD.
IP address:192.168.3.2
Setting
example
Command
Response
@SIP,192,168,3,2
@SIP,192,168,3,2
Description
Setting IP address to 192.168.3.2.
Remarks
If IP address or RS-232C communication setting is changed, the communication
may be disabled. Change the environmental settings based on the MSD
settings.
3.3.12 LAN communication
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@GSB / @SSB
Subnet mask
Getting
Command
@GSB
Response
@GSB, unit_1, unit_2, unit_3, unit_4
Setting
Command
@SSB, unit_1, unit_2, unit_3, unit_4
Response
@SSB, unit_1, unit_2, unit_3, unit_4
Parameter
unit_1: Upper bit of the subnet mask to unit_4: lower bit of the subnet mask
0 to 255 = 8 bit (Decimal notation) [Default] 255.255.255.0
Getting
example
Command
Response
@GSB
@GSB,255,255,192,0
Description
Getting the set subnet mask of the MSD.
Subnet mask: 255.255.192.0 ( = 18 bit)
Setting
example
Command
Response
@SSB,255,255,192,0
@SSB,255,255,192,0
Description
Setting subnet mask to 255.255.192.0 (=18 bit).
Remarks
If IP address or RS-232C communication setting is changed, the communication
may be disabled. Change the environmental settings based on the MSD
settings.
@GGW / @SGW
Gateway address
Getting
Command
@GGW
Response
@GGW, unit_1, unit_2, unit_3, unit_4
Setting
Command
@SGW, unit_1, unit_2, unit_3, unit_4
Response
@SGW, unit_1, unit_2, unit_3, unit_4
Parameter
unit_1: Upper bit of the gateway address to unit_4: lower bit of the gateway
address
0 to 255 = 8 bit (Decimal notation) [Default] 192.168.1.200
Getting
example
Command
Response
@GGW
@GGW,192,168,1,254
Description
Getting the set gateway address.
Gateway address: 192.168.1.254
Setting
example
Command
Response
@SGW,192,168,1,254
@SGW,192,168,1,254
Description
Setting gateway address to 192.168.1.254
Remarks
If IP address or RS-232C communication setting is changed, the communication
may be disabled. Change the environmental settings based on the MSD
settings.
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@GLF / @SLF
LAN communication mode
Getting
Command
@GLF, connection
Response
@GLF, connection, mode (, ip_1, ip_2, ip_3, ip_4, pjlink, tcp, password)
Setting
Command
@SLF, connection, mode (, ip_1, ip_2, ip_3, ip_4, pjlink, tcp, password)
Response
@SLF, connection, mode (, ip_1, ip_2, ip_3, ip_4, pjlink, tcp, password)
Parameter
connection: Connection number
1 = connection 1 to 8 = connection 8
mode: Operation mode
0 = RECEIVER mode [Default], 1 = TRANSMITTER mode
ip_1: Upper bit of the destination IP address to ip_4: lower bit of the destination
IP address
0 to 255 = 8 bit (Decimal notation) [Default] 192.168.1.198
Available only if the mode is TRANSMITTER.
pjlink: PJLink protocol connection
0 = PJLink not used [Default], 1 = PJLink used
Available only if the mode is TRANSMITTER.
tcp: Destination port number
1 to 65535 [Default] 1100
Available only if the mode is TRANSMITTER and “pjlink” is set to ”0” (PJLink not
used).
If “pjlink” is set to ”1” (PJLink used), “tcp” is “4352” fixed.
password: Password of PJLink protocol
Up to 32 characters of the following ASCII codes: 20, 30 to 39, 41 to 5A, 61
to 7A (alphanumeric characters). [Default] All: 20 (space)
Replied/Set only if the mode is “1” (TRANSMITTER) and pjlink is “0” (PJLink
not used).
Getting commands: replied only if the password is set.
Setting commands: you can skip this password setting if you disable password
authentication for PJLink protocol connection.
Available only if the mode is TRANSMITTER and “pjlink” is set to ”0” (PJLink not
used).
Getting commands: returned only if the password is set.
Setting commands: you can skip this password setting if you do not use
password authentication for PJLink protocol connection.
Getting
example
Command
Response
@GLF,3
@GLF,3,1,192,168,1,2,1,PROJECTOR1
Description
Getting mode settings of connection 3.
Mode = TRANSMITTER mode, destination IP address = 192.168.1.2,
PJLink = to be used, password = “PROJECTOR1”
Setting
example
Command
Response
@SLF,3,1,192,168,1,2,1
@SLF,3,1,192,168,1,2,1
Description
Setting connection 3 as follows:
Mode = TRANSMITTER mode, destination IP address = 192.168.1.2,
PJLink = to be used, password = disabling password authentication.
Remarks
If IP address or RS-232C communication setting is changed, the communication
may be disabled. Change the environmental settings based on the MSD
settings.
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@GLP / @SLP
TCP port number
Getting
Command
@GLP
Response
@GLP, port_1, port_2, port_3, port_4, port_5, port_6, port_7, port_8
Setting
Command
@SLP, connection_1, port_1 (, connection_2, port_2・・・)
Response
@SLP, connection_1, port_1 (, connection_2, port_2・・・)
Parameter
connection_1-8: Connection number
0 = All connections, 1 = Connection1 to 8 = Connection8
port_1-8: TCP port number
23, 80, 1100, 5000 to 5999, 6000 to 6999
[Default]
Connection 1 to 3 = 1100, Connection 4 to 6 = 23,
Connection 7 to 8 = 80
Getting
example
Command
Response
@GLP
@GLP,1100,1100,1100,23,23,23,80,80
Description
Getting the set TCP port number.
Connection 1 to 3:1100, connection 4 to 6: 23, connection 7 and 8: 80
Setting
example
Command
Response
@SLP,8,6000
@SLP,8,6000
Description
Setting port number of connection 8 to “6000”.
Remarks
If IP address or RS-232C communication setting is changed, the communication
may be disabled. Change the environmental settings based on the MSD settings.
@GMC
MAC address
Getting
Command
@GMC
Response
@GMC, unit_1, unit_2, unit_3, unit_4, unit_5, unit_6
Parameter
unit_1: Upper bit of the MAC address to unit_6: lower bit of the MAC address
00 to FF = 8 bit (in hexadecimal)
Getting
example
Command
Response
@GMC
@GMC,00,08,E5,5F,00,00
Description
Getting the set MAC address.
MAC address: 00-08-E5-5F-00-00
Remarks
-
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3.3.13 Control commands
@EXC
Executing control commands
Setting
Command
@EXC, command_1 (, command_2・・・)
Response
@EXC, command_1 (, command_2・・・)
Parameter
command_1-5: Control command
1 = COMMAND 1 to 32 = COMMAND 32
Setting
example
Command
Response
@EXC,1,2,3
@EXC,1,2,3
Description
Executing COMMAND 1→2→3 in order.
Setting
example
Command
Response
@EXC,6
@EXC,6,RECV: POWER OFF
Description
Executing COMMAND 6.
If a command to display received data is executed, the received result is returned.
In this example, “POWER OFF” is received from the target device.
Remarks
Since the result is returned after control command execution is complete, it
sometimes may take a time for response.
@GDS / @SDS
Power button of sink device
Getting
Command
@GDS
Response
@GDS, onoff_1, onoff_2, onoff_3, onoff_4
Setting
Command
@SDS, ch_1, onoff_1 (, ch_2, onoff_2・・・)
Response
@SDS, ch_1, onoff_1 (, ch_2, onoff_2・・・)
Parameter
onoff_1-4: Power button of sink device
0 = OFF, 1 = ON
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GDS
@GDS,1,1,1,1
Description
Getting the power button status of sink device.
OUT1, OUT2, OUT3, and OUT4: powered ON
Setting
example
Command
Response
@SDS,1,1
@SDS,1,1
Description
Setting the power button of the sink device that is connected OUT1 to ON.
Remarks
Since the result is returned after control command execution is complete, it
sometimes may take a time for response.
MSD-72 series Command Guide
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@GEC / @SEC
Control command (Communication command)
Getting
Command
@GEC, no
Response
@GEC, no, delay, port, memo, length, command, timeout, retry, interval,
retryover, display (, recv_1, recv_2・・・)
Setting
Command
@SEC, no, delay, port, memo, length, command, timeout, retry, interval,
retryover, display (, recv_1, recv_2・・・)
Response
@SEC, no, delay, port, memo, length, command, timeout, retry, interval,
retryover, display (, recv_1, recv_2・・・)
Parameter
no: Control command number
1 to 32
delay: Delay time
0 = 0 to 999999 = 999.999 seconds
port: Output port
1 to 2047
bit 7 6 5 4 3 2 1 0
port
LAN 6 LAN
5
LAN
4
LAN
3
LAN 2 LAN
1
RS-232C
CH2
RS-232C
CH1
bit
15
14
13
12
11
10 9 8
port
-
- - -
-
LOOP
BACK
LAN
8
LAN
7
“1” is for the bit of the output port to send a command (Since bit 11-15 are not
used, they are always “0”). For example, if you want to send a command from
RS-232C CH1, specify “1”(0000000000000001 in binary). If sending a
command from LAN 2, specify “8” (0000000000001000 in binary).
memo: Memo
Up to 14 characters of 20 to 7D except 2C (,).
length: Data size of send command (the number of bytes)
0 to 30
command: Send command data
Specify length × 2 digits with 0 to 9, A to F, a to f: (4 bit per digit in
hexadecimal).
timeout: Time-out time
0 = 0 to 99999 = 99.999 seconds
retry: The number of retries
0 to 99
interval: Retry interval
0 = 0 to 99999 = 99.999 seconds
retryover:
0 = Stop processing, 1 = Continue processing
display: Displaying received data
0 = communication command control
recv_1-32: Checking response command check
1 to 32
Getting commands: each response command number is separated from each
other by a comma.
Setting commands: the response command number is separated from each
other (up to 32 commands) by a comma. For setting commands that are not
specified, “Not check” is set.
Register response commands in “@GRC / @SRC”.
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@GEC / @SEC
Control command (Communication command) (cont’d)
Getting
example
Command
Response
@GEC,1
@GEC,1,10,1,POWER,7,5057204F4E0D0A,1000,2,500,0,0,1,2
Description
Getting settings registered in control command 1.
・Delay: 10 ms.
・Output port: RS-232C CH1
・Memo: POWER
・Data size: 7 bytes
・Command data
: PW ON CR LF (ASCII codes)
・Timeout: 1000 ms.
・Retry: 2 times
・Retry interval: 500 ms.
・Retry over: Stop
・Received data: Not displayed
・Response command: Check 1 and 2
Setting
example
Command
Response
@SEC,2,0,1024,IN1 SELECT,10,405353572C312C310D0A,0,0,0,1,0
@SEC,2,0,1024,IN1 SELECT,10,405353572C312C310D0A,0,0,0,1,0
Description
Setting control command 2 as follows:
・Delay: 0 ms.
・Output port: LOOP BACK
・Memo: IN1 SELECT
・Data size: 10 bytes
・Command data: @SSW,1,1 CR LF (ASCII codes)
・Timeout: 0 ms.
・Retry: 0 time
・Interval: 0 ms.
・Retry over: Execute
・Received data: Not displayed
・Response command: Not checked
Remarks
-
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@GEC / @SEC
Control command (Displaying received data)
Gettin
g
Command
@GEC, no
Response
@GEC, no, delay, port, memo, length, command, timeout, retry, interval, retryover,
display, delimiter
Settin
g
Command
@SEC, no, delay, port, memo, length, command, timeout, retry, interval, retryover,
display, delimiter
Response
@SEC, no, delay, port, memo, length, command, timeout, retry, interval, retryover,
display, delimiter
Parameter
no: Control command number
1 to 32
delay: Delay time
0 = 0 to 999999 = 999.999 seconds
port: Output port
1 to 2047
bit 7 6 5 4 3 2 1 0
port
LAN 6 LAN
5
LAN
4
LAN
3
LAN 2 LAN
1
RS-232C
CH2
RS-232C
CH1 bit
15
14
13
12
11
10 9 8
port
- - - - -
LOOP
BACK
LAN
8
LAN
7
“1” is for the bit of the output port to send a command (Since bit 11-15 are not used,
they are always “0”). For example, if you want to send a command to RS-232C,
specify “1”(0000000000000001 in binary). If sending a command to LAN 2, specify
“8” (0000000000001000 in binary).
memo: Memo
Up to 14 characters of 20 to 7D except 2C (,) from ASCII codes.
length: Command data size (the number of bites)
0 to 30
command: Command data
Specify length × 2 digits with 0 to 9, A to F, a to f = 4 bit per digit (in hexadecimal)
timeout:
0 = 0 to 99999 = 99.999 seconds
retry: The number of retires
0 to 99
interval: Retry interval
0 = 0 to 99999 = 99.999 seconds
retryover:
0 = Stop processing, 1 = Continue processing
display: Displaying received data
1 = in ASCII codes, 2 = in hexadecimals
delimiter:
2 digits of 0 to 9, A to F, a to f = 4 bit per digit (in hexadecimal) for monitoring
delimiter
100 = Not monitor
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@GEC / @SEC
Control command (Displaying received data) (cont’d)
Getting
example
Command
Response
@GEC,3
@GEC,3,0,8,POWER STATUS,9,47455420504F570D0A,2000,2,200,0,1,0D
Description
Getting settings of control command 3.
・Delay time: 0 ms.
・Output port: LAN2
・Memo: POWER STATUS
・Data size: 9 bytes
・Command data: GET POW CR LF (ASCII codes)
・Timeout: 2000 ms.
・Retry: 2 times
・Retry interval: 200 ms.
・Retryover: Stop
・Received data: Displayed in ASCII codes
・Delimiter: 0D in hex (CR =ASCII codes)
Setting
example
Command
Response
@SEC,3,0,8,POWER STATUS,9,47455420504F570D0A,2000,2,200,0,1,0D
@SEC,3,0,8,POWER STATUS,9,47455420504F570D0A,2000,2,200,0,1,0D
Description
Setting control command 3 as follows:
・Delay time: 0 ms.
・Output port: LAN2
・Memo: POWER STATUS
・Data size: 9 bytes
・Command data: GET POW CR LF (ASCII codes)
・Timeout: 2000 ms.
・Retry: 2 times
・Retry interval: 200 ms.
・Retryover: Stop
・Received data: Displayed in ASCII codes
・Delimiter: 0D in hex (CR =ASCII codes)
Remarks
-
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@GEC / @SEC
Control command (contact closure)
Getting
Command
@GEC, no
Response
@GEC, no, delay, port, memo, ccno_1, cc_1, pulse_1 (, ccno_2, cc_2,
pulse_2・・・)
Setting
Command
@SEC, no, delay, port, memo, ccno_1, cc_1, pulse_1 (, ccno_2, cc_2,
pulse_2・・・)
Response
@SEC, no, delay, port, memo, ccno_1, cc_1, pulse_1 (, ccno_2, cc_2,
pulse_2・・・)
Parameter
no: Control command number
1 to 32
delay: Delay time
0 = 0 to 999999 = 999.999 seconds
port: Contact closure control
2048 = For contact closure control
memo
Up to 14 characters of 20 to 7D except 2C (,) from ASCII codes.
ccno_1-9: Contact closure number
ccno 1 2 3 4 5 6 7 8
9
Contact
closure
CONTACT CLOSURE
1
CONTACT CLOSURE
2
CONTACT CLOSURE
3
CH1
CH2
CH3
CH1
CH2
CH3
CH1
CH2
CH3
cc_1-9: Contact closure control
0 = OFF, 1 = ON, 2 = Toggle, 3 = Not control
pulse_1-9: pulse width
0 = Hold, 100 = 100 ms to 9990 = 9990 ms (by 10 ms)
Pulse width after the completion of contact closure.
Getting commands: only contact closure numbers to be controlled are replied.
Setting commands: specify only contact closure numbers to be controlled. For
contact closure numbers that do not specify parameter, “Not check” is set.
Getting
example
Command
Response
@GEC,7
@GEC,7,20,2048,SCREEN UP,1,1,100
Description
Getting settings of control command 7.
・Delay time: 20ms
・Memo: SCREEN UP
・Contact closure1’s CH1: ON for 100 ms
・Other outputs: not controlled.
Setting
example
Command
Response
@SEC,6,50,2048,PROJECTOR ON,1,0,200,2,1,0
@SEC,6,50,2048,PROJECTOR ON,1,0,200,2,1,0
Description
Setting Control command number 6 as follows:
・Delay time: 50 ms
・Memo: PROJECTOR ON
・Contact closure1’s CH1: ON for 200 ms
・Contact closure1’s CH2: ON
・Other contact closures: not controlled.
Remarks
-
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@GEC / @SEC
Control command (CEC)
Getting
Command
@GEC, no
Response
@GEC, no, delay, port, memo, error, ch_1, cec_1 (, ch_2, cec_2・・・)
Setting
Command
@SEC, no, delay, port, memo, error, ch_1, cec_1 (, ch_2, cec_2・・・)
Response
@SEC, no, delay, port, memo, error, ch_1, cec_1 (, ch_2, cec_2・・・)
Parameter
no: Control command number
1 to 32
delay: Delay time
0 = 0 to 999999 = 999.999 seconds
port: CEC
4096 = For CEC control
memo
Up to 14 characters of 20 to 7D except 2C (,) from ASCII codes
error: Processing if no response from sink device
0 = Stop processing, 1 = Continue processing
ch_1-4: Output channel
1 = OUT1 to 4 = OUT4
cec_1-4: Control command
0 = Not controlled, 1 = POWER OFF, 2 = POWER ON
Getting commands: the control output connector and control command are
separated from each other by a comma.
Setting commands: specify output connector to be controlled and control
commands. For outputs that do not specify parameter, “Not check” is set.
Getting
example
Command
Response
@GEC,7
@GEC,7,0,4096,DISPLAY1 ON,0,1,2
Description
Getting settings of control command 7.
・Delay time: 0ms
・Memo: DISPLAY1 ON
・Error: Stop
・OUT1 sink device: Turning on
・Other outputs: not controlled.
Setting
example
Command
Response
@SEC,7,0,4096,DISPLAY1 ON,0,1,2
@SEC,7,0,4096,DISPLAY1 ON,0,1,2
Description
Setting control command 7 as follows:
・Delay time: 0 ms.
・Memo: DISPLAY1 ON
・Error: Stop
・OUT1 sink device: Power ON
・Other outputs: not controlled.
Remarks
-
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@GRC / @SRC
Response command
Getting
Command
@GRC, no
Response
@GRC, no, process, length, command, mask, memo
Setting
Command
@SRC, no, process, length, command, mask, memo
Response
@SRC, no, process, length, command, mask, memo
Parameter
no: Response command number
1 to 32
process:
0 = Stop, 1 = Continue, 2 = Resending command
length: Response command data size (bytes)
0 to 30
command: Response command data
length × 2 digits with 0 to 9, A to F, a to f = 4 bit per digit (in hexadecimal)
mask: Mask data
length × 2 digits with 0 to 9, A to F, a to f = 4 bit per digit (in hexadecimal)
memo
Up to 14 characters of 20 to 7D except 2C (,) from ASCII codes.
Getting
example
Command
Response
@GRC,2
@GRC,2,0,1,40,40,NG
Description
Getting settings of response command 2:
・Processing: Stop
・Data size: 1 byte
・Command data: 40 (in hex)
・Mask data: 40 (checking the second bit from the top)
・Memo: NG (no good)
Setting
example
Command
Response
@SRC,1,1,9,52454356204F4B0D0A,FFFFFFFFFFFFFFFFFF,OK
@SRC,1,1,9,52454356204F4B0D0A,FFFFFFFFFFFFFFFFFF,OK
Description
Setting response command 1 as follows:
・Processing: Continue
・Data size: 9 bytes
・Command data: RECV OK CR LF (ASCII)
・Mask data: ALL: FF (checking all bits)
・Memo: OK
Remarks
-
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@GCC / @SCC
Control command link
Getting
Command
@GCC, event
Response
@GCC, event, c_1 (, c_2, c_3・・・)
Setting
Command
@SCC, event, c_1 (, c_2, c_3・・・)
Response
@SCC, event, c_1 (, c_2, c_3・・・)
Parameter
event: Control command execution condition
For settable values, see the table below.
c_1-10: Desired command
0 = Not link [Default], 1 to 32 = Control commands1 to 32
Control commands that are registered in one of the following commands can be
linked:
@GEC / @SEC Control command (Communication command),
@GEC / @SEC Control command (Displaying received data),
@GEC / @SEC Control command (contact closure),
@GEC / @SEC Control command (CEC)
Getting
example
Command
Response
@GCC,19
@GCC,19,5,2,1
Description
Getting control commands that will be executed when the MSD is powered on.
Executing in order of control commands 5, 2, and 1.
Setting
example
Command
Response
@SCC,19,5,2,1
@SCC,19,5,2,1
Description
Executing in order of control command 5, 2, and 1 when the MSD is powered on.
Remarks
-
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event Execution condition
event Execution condition
event
Execution condition
1
COMMAND A-PLANE A
29
VIDEO: OUT1-IN1
69
VIDEO: OUT3-IN1
2
COMMAND A-PLANE B
30
VIDEO: OUT1-IN2
70
VIDEO: OUT3-IN2
3
COMMAND B-PLANE A
31
VIDEO: OUT1-IN3
71
VIDEO: OUT3-IN3
4
COMMAND B-PLANE B
32
VIDEO: OUT1-IN4
72
VIDEO: OUT3-IN4
5
COMMAND C-PLANE A
33
VIDEO: OUT1-IN5
73
VIDEO: OUT3-IN5
6
COMMAND C-PLANE B
34
VIDEO: OUT1-IN6
74
VIDEO: OUT3-IN6
7
COMMAND D-PLANE A
35
VIDEO: OUT1-IN7
75
VIDEO: OUT3-IN7
8
COMMAND D-PLANE B
36
VIDEO: OUT1-IN8
76
VIDEO: OUT3-IN8
9
COMMAND E-PLANE A
37
VIDEO: OUT1-IN9
77
VIDEO: OUT3-IN9
10
COMMAND E-PLANE B
38
VIDEO: OUT1-OFF
78
VIDEO: OUT3-OFF
11
COMMAND F-PLANE A
39
AUDIO: OUT1-IN1
79
AUDIO: OUT3-IN1
12
COMMAND F-PLANE B
40
AUDIO: OUT1-IN2
80
AUDIO: OUT3-IN2
13
COMMAND G-PLANE A
41
AUDIO: OUT1-IN3
81
AUDIO: OUT3-IN3
14
COMMAND G-PLANE B
42
AUDIO: OUT1-IN4
82
AUDIO: OUT3-IN4
15
COMMAND H-PLANE A
43
AUDIO: OUT1-IN5
83
AUDIO: OUT3-IN5
16
COMMAND H-PLANE B
44
AUDIO: OUT1-IN6
84
AUDIO: OUT3-IN6
17
COMMAND I-PLANE A
45
AUDIO: OUT1-IN7
85
AUDIO: OUT3-IN7
18
COMMAND I-PLANE B
46
AUDIO: OUT1-IN8
86
AUDIO: OUT3-IN8
19
POWER ON
47
AUDIO: OUT1-IN9
87
AUDIO: OUT3-IN9
20
POWER OFF
48
AUDIO: OUT1-OFF
88
AUDIO: OUT3-OFF
21
DISPLAY1 POWER ON
49
VIDEO: OUT2-IN1
89
VIDEO: OUT4-IN1
22
DISPLAY1 POWER OFF
50
VIDEO: OUT2-IN2
90
VIDEO: OUT4-IN2
23
DISPLAY2 POWER ON
51
VIDEO: OUT2-IN3
91
VIDEO: OUT4-IN3
24
DISPLAY2 POWER OFF
52
VIDEO: OUT2-IN4
92
VIDEO: OUT4-IN4
25
DISPLAY3 POWER ON
53
VIDEO: OUT2-IN5
93
VIDEO: OUT4-IN5
26
DISPLAY3 POWER OFF
54
VIDEO: OUT2-IN6
94
VIDEO: OUT4-IN6
27
DISPLAY4 POWER ON
55
VIDEO: OUT2-IN7
95
VIDEO: OUT4-IN7
28
DISPLAY4 POWER OFF
56
VIDEO: OUT2-IN8
96
VIDEO: OUT4-IN8
57
VIDEO: OUT2-IN9
97
VIDEO: OUT4-IN9
58
VIDEO: OUT2-OFF
98
VIDEO: OUT4-OFF
59
AUDIO: OUT2-IN1
99
AUDIO: OUT4-IN1
60
AUDIO: OUT2-IN2
100
AUDIO: OUT4-IN2
61
AUDIO: OUT2-IN3
101
AUDIO: OUT4-IN3
62
AUDIO: OUT2-IN4
102
AUDIO: OUT4-IN4
63
AUDIO: OUT2-IN5
103
AUDIO: OUT4-IN5
64
AUDIO: OUT2-IN6
104
AUDIO: OUT4-IN6
65
AUDIO: OUT2-IN7
105
AUDIO: OUT4-IN7
66
AUDIO: OUT2-IN8
106
AUDIO: OUT4-IN8
67
AUDIO: OUT2-IN9
107
AUDIO: OUT4-IN9
68
AUDIO: OUT2-OFF
108
AUDIO: OUT4-OFF
[Table 3.2] Parameter of control command execution condition
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@GTG / @STG
Toggle operation
Getting
Command
@GTG, event_1 (, event_2・・・)
Response
@GTG, event_1, toggle_1 (, event_2, toggle_2・・・)
Setting
Command
@STG, event_1, toggle_1 (, event_2, toggle_2・・・)
Response
@STG, event_1, toggle_1 (, event_2, toggle_2・・・)
Parameter
event_1-9: Command execution condition
0 = All control commands, 1 = COMMAND A to 9 = COMMAND I
toggle_1-9: Toggle operation
0 = Disabled [Default], 1 = Enabled
Getting
example
Command
Response
@GTG,1
@GTG,1,1
Description
Getting the toggle operation of COMMAND A.
COMMAND A: Toggle operation enabled.
Setting
example
Command
Response
@STG,1,1
@STG,1,1
Description
Enabling COMMANDA’s toggle operation COMMAND A.
Remarks
-
@GUP / @SUP
Plane to be executed when powered ON
Getting
Command
@GUP, event_1 (, event_2・・・)
Response
@GUP, event_1, plane_1 (, event_2, plane_2・・・)
Setting
Command
@SUP, event_1, plane_1 (, event_2, plane_2・・・)
Response
@SUP, event_1, plane_1 (, event_2, plane_2・・・)
Parameter
event_1-9: Command execution condition
0 = All control commands, 1 = COMMAND A to 9 = COMMAND I
plane_1-9: Plane to be executed when powered ON
0 = AUTO [Default], 1 = PLANE A, 2 = PLANE B
Getting
example
Command
Response
@GUP,1
@GUP,1,1
Description
Getting the plane to be executed for COMMAND A.
COMMAND A executes PLANE A.
Setting
example
Command
Response
@SUP,1,1
@SUP,1,1
Description
Setting COMMAND A to execute PLANE A.
Remarks
-
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@GIT / @SIT
Ineffective time during control command execution
Getting
Command
@GIT
Response
@GIT, time
Setting
Command
@SIT, time
Response
@SIT, time
Parameter
time: Invalid time
0 = 0 to 999999 = 999.999 seconds [Default] 0
Getting
example
Command
Response
@GIT
@GIT,2000
Description
Getting ineffective time of control command execution.
Disabling operation during control command execution or 2000 ms. (2 seconds)
after control command starts.
Setting
example
Command
Response
@SIT,2000
@SIT,2000
Description
Setting ineffective time during control command execution to 2000 ms. (2
seconds).
Remarks
-
@DEC
Initializing registered command and link
Setting
Command
@DEC, no_1 (, no_2, no_3・・・)
Response
@DEC, no_1 (, no_2, no_3・・・)
Parameter
no_1-32: Commands or links you want to initialize
1 to 32: Control commands1 to 32
101 to 132: Response commands1 to 32 (“1xx”: xx is the response command
number)
201 to 308: Control command links1 to 108 (“2xx”: xx is the control command
execution condition)
【See: @GRC / @SRC Response】
【See: @GCC / @SCC Control command link】
Setting
example
Command
Response
@DEC,201
@DEC,201
Description
Deleting the link between COMMAND A and PLANE A.
Remarks
-
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@GTL / @STL
Lighting condition of execution button
Getting
Command
@GTL, switch_1 (, switch_2・・・)
Response
@GTL, switch_1, led_1 (, switch_2, led_2・・・)
Setting
Command
@STL, switch_1, led_1 (, switch_2, led_2・・・)
Response
@STL, switch_1, led_1 (, switch_2, led_2・・・)
Parameter
switch_1-9: Command execution button
0 = All command execution buttons,
1 = COMMAND A button to 9 = COMMAND I button
led_1-9: Lighting condition
If a control command(s) having only one PLANE, PLANE A or PLANE B is
linked to a control command execution button:
0 = Lights when a control command is registered. [Default]
1 = Lights while a control command is being executed.
If a control command(s) having two PLANEs, PLANE A and PLANE B is
linked to a control command execution button:
0 = A control command(s) that is linked to a button is executed by
pressing the desired button when the control command execution
button lights/blinks.
Lights: Control command registered to PLANE A.
Blinks: Control command registered to PLANE B.
1 = The control command that is linked to a button is executed by
pressing a desired button when the control command execution
button lights/goes out.
Lights: Control command registered to PLANE A
Goes out: Control command registered to PLANE B
Getting
example
Command
Response
@GTL,5
@GTL,5,0
Description
Getting the lighting condition of the COMMAND E button.
The COMMAND E button lights if a control command is registered.
(If one PLANE is linked)
Setting
example
Command
Response
@STL,5,1
@STL,5,1
Description
Setting the COMMAND E button to light while a command is being executed.
(If one PLANE is linked)
Remarks
-
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@GTF / @STF
Blinking time of sink device power switch
Getting
Command
@GTF, switch_1 (, switch_2・・・)
Response
@GTF, switch_1, flash_1 (, switch_2, flash_2・・・)
Setting
Command
@STF, switch_1, flash_1 (, switch_2, flash_2・・・)
Response
@STF, switch_1, flash_1 (, switch_2, flash_2・・・)
Parameter
switch_1-13: Switch type
0 = All switches, 1 = COMMAND A to 9 = COMMAND I
10 = DISPLAY1 POWER to 13 = DISPLAY4 POWER
flash_1-13: Blinking time
-1 = Blinks during control command execution,
0 = Not blink,
1 to 1000 = Blinks for 1 second to 1000 seconds
[Default] COMMAND A to COMMAND I = 0,
DISPLAY1 POWER to DISPLAY4 POWER = -1
Getting
example
Command
Response
@GTF,1
@GTF,1,-1
Description
Getting blinking time of COMMAND A.
The switch will be blinked while control command is being executed.
Setting
example
Command
Response
@STF,1,5
@STF,1,5
Description
Setting COMMAND A to blink 5 seconds after control command execution starts.
Remarks
-
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3.3.14 Preset memory
@RCM
Loading crosspoint memory
Setting
Command
@RCM, memory
Response
@RCM, memory
Parameter
memory: Crosspoint memory
1 to 9
Setting
example
Command
Response
@RCM,1
@RCM,1
Description
Loading video and audio channels of crosspoint memory 1.
Remarks
-
@SCM / @SEM
Saving channels to crosspoint memory
Setting
Description
Overwriting all
Command
@SCM, memory (, name)
Response
@SCM, memory (, name)
Setting
Description
Overwriting partly
Command
@SEM, memory (, name)
Response
@SEM, memory (, name)
Parameter
memory: Crosspoint memory
1 to 9
name: Memory name
Up to 10 characters using 20 to 7D from ASCII codes.
If you do not specify memory name, only crosspoint settings are saved
without changing the current memory name.
Setting
example
Command
Response
@SCM,2
@SCM,2
Description
Saving the current video and audio channels to crosspoint memory 2 without
changing the memory name.
Setting
example
Command
Response
@SEM,2,PATTERN2
@SEM,2,PATTERN2
Description
Saving the current video and audio channels to crosspoint memory 2 with the
name of “PATTERN2”. Output settings that are set to Not Controlled are not
saved.
Remarks
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MSD-72 series Command Guide
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@GCM / @ECM
Editing crosspoint memory
Getting
Command
@GCM, memory
Response
@GCM, memory, v_1, a_1, v_2, a_2, v_3, a_3, v_4, a_4, name
Setting
Command
@ECM, memory, v_1, a_1, v_2, a_2, v_3, a_3, v_4, a_4
Response
@ECM, memory, v_1, a_1, v_2, a_2, v_3, a_3, v_4, a_4
Parameter
memory: Crosspoint memory
1 to 9
v_1-4: Video channel
a_1-4: Audio channel
-1 = Not controlled [Default], 0 = OFF, 1 = IN1 to 9 = IN9
name: Memory name
Up to 10 characters using 20 to 7D from ASCII codes. [Default] 20 (space)
Getting
example
Command
Response
@GCM,2
@GCM,2,3,3,1,1,PATTERN2
Description
Getting the video and audio channels of crosspoint memory 2.
OUT1: IN3, OUT2: IN1 are saved with the name of “PATTERN2”.
Setting
example
Command
Response
@ECM,2,1,1,-1,-1
@ECM,2,1,1,-1,-1
Description
Setting the crosspoint memory 2 to:
OUT1: IN1, OUT2: Not controlled
Remarks
Nothing is saved in the memory by factory default, the state is “-1” (Not
controlled). If you save only video (@SCV) or audio (@SCA) at the first saving of
crosspoint settings, “-1” (Not controlled) is returned to unsaved audio and video.
@RCV
Loading crosspoint memory (setting video channel)
Setting
Command
@RCV, memory
Response
@RCV, memory
Parameter
memory: Crosspoint memory
1 to 9
Getting
example
Command
Response
@RCV,1
@RCV,1
Description
Loading video channel of crosspoint memory 1.
Remarks
-
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@SCV / @SEV
Saving crosspoint memory (Setting video channel)
Setting
Description
Overwriting all
Command
@SCV, memory (, name)
Response
@SCV, memory (, name)
Setting
Description
Overwriting partly
Command
@SEV, memory (, name)
Response
@SEV, memory (, name)
Parameter
memory: Crosspoint memory
1 to 9
name: Memory name
Up to 10 characters using 20 to 7D from ASCII codes.
If you do not specify memory name, only settings of crosspoint are saved
without changing the memory name.
Setting
example
Command
Response
@SCV,2
@SCV,2
Description
Saving the current video channel in crosspoint memory 2 without changing
memory name.
Setting
example
Command
Response
@SEV,2,PATTERN2
@SEV,2,PATTERN2
Description
Saving the current video channel in crosspoint memory 2 with the name of
“PATTERN2”. Output settings that are set to Not Controlled are not saved.
Remarks
-
@GCV / @ECV
Editing crosspoint memory (Setting video channel)
Getting
Command
@GCV, memory
Response
@GCV, memory, v_1, v_2, v_3, v_4, name
Setting
Command
@ECV, memory, v_1, v_2, v_3, v_4
Response
@ECV, memory, v_1, v_2, v_3, v_4
Parameter
memory: Crosspoint memory
1 to 9
v_1-4: Video channel
-1 = Not controlled [Default], 0 = OFF, 1 = IN1 to 9 = IN9
name: Memory name
Up to 10 characters using 20 to 7D from ASCII codes. [Default] 20 (space)
Getting
example
Command
Response
@GCV,2
@GCV,2,3,1,1,1,PATTERN2
Description
Getting video channel of crosspoint memory 2.
OUT1: IN3, Other 2: IN1 are saved with the name of “PATTERN2”.
Setting
example
Command
Response
@ECV,2,1,1,-1,-1
@ECV,2,1,1,-1,-1
Description
When crosspoint memory 2 is loaded, OUT1 and OUT2 are set to IN1 and OUT3
and OUT4 are set to Not controlled.
Remarks
Nothing is saved in the memory by factory default, the state is “-1” (Not
controlled). If you save only audio (@SCA) at the first saving of crosspoint
settings, “-1” (Not controlled) is returned to unsaved audio and video.
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@RCA
Loading audio channel setting from crosspoint memory
Setting
Command
@RCA, memory
Response
@RCA, memory
Parameter
memory: Crosspoint memory
1 to 9
Setting
example
Command
Response
@RCA,1
@RCA,1
Description
Loading audio channel of crosspoint memory 1.
Remarks
-
@SCA / @SEA
Saving crosspoint memory (Setting audio channel)
Setting
Description
Overwriting all
Command
@SCA, memory, name
Response
@SCA, memory, name
Setting
Description
Overwriting partly
Command
@SEA, memory (, name)
Response
@SEA, memory (, name)
Parameter
memory: Crosspoint memory
1 to 9
name: Memory name
Up to 10 characters using 20 to 7D from ASCII codes.
If you do not specify memory name, only crosspoint settings are saved
without changing the memory name.
Setting
example
Command
Response
@SCA,2
@SCA,2
Description
Saving the current audio channel in crosspoint memory 2 without changing
memory name.
Setting
example
Command
Response
@SEA,2,PATTERN2
@SEA,2,PATTERN2
Description
Saving the current video channel in crosspoint memory 2 with the name of
“PATTERN2”. Output settings that are set to Not Controlled are not saved.
Remarks
-
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@GCA / @ECA
Editing crosspoint memory (Setting audio channel)
Getting
Command
@GCA, memory
Response
@GCA, memory, a_1, a_2, a_3, a_4, name
Setting
Command
@ECA, memory, a_1, a_2, a_3, a_4
Response
@ECA, memory, a_1, a_2, a_3, a_4
Parameter
memory: Crosspoint memory
1 to 9
a_1-4: Audio channel
-1 = Not controlled [Default], 0 = OFF, 1 = IN1 to 9 = IN9
name: Memory name
Up to 10 characters using 20 to 7D from ASCII codes. [Default] 20 (space)
Getting
example
Command
Response
@GCA,2
@GCA,2,3,3,1,1,PATTERN2
Description
Getting audio channel of crosspoint memory 2.
OUT1 and OUT2: IN3, OUT3 and OUT4: IN1 are saved with the name of
“PATTERN2”
Setting
example
Command
Response
@ECA,2,1,2,3,4
@ECA,2,1,2,3,4
Description
When crosspoint memory 2 is loaded, outputs are set as follows:
OUT1: IN1, OUT2: IN2, OUT3: IN3, OUT4: IN4
Remarks
Nothing is saved in the memory by factory default, the state is “-1” (Not
controlled). If you save only video (@SCV) at the first saving of crosspoint
settings, “-1” (Not controlled) is returned to unsaved audio and video.
@RPM
Loading all settings
Setting
Command
@RPM, preset
Response
@RPM, preset
Parameter
preset: Preset memory
1 to 8
Setting
example
Command
Response
@RPM,3
@RPM,3
Description
Loading preset memory 3.
Remarks
Once preset memory is loaded, all settings of video and audio I/O except for
some environmental settings will be updated.
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@SPM
Saving all settings
Setting
Command
@SPM, preset (, name)
Response
@SPM, preset (, name)
Parameter
preset: Preset memory
1 to 8
name: Memory name
Up to 10 characters using 20 to 7D from ASCII codes.
If you do not specify memory name, only crosspoint settings are saved
without changing the memory name.
Setting
example
Command
Response
@SPM,2
@SPM,2
Description
Saving the current settings in preset memory 2 without changing the memory
name.
Setting
example
Command
Response
@SPM,2,MEMORY2
@SPM,2,MEMORY2
Description
Saving the current settings in preset memory 2 with the name of “MEMORY2”.
Remarks
-
@SCP
Copying output setting
Setting
Command
@SCP, out_ori, out_des
Response
@SCP, out_ori, out_des
Parameter
out_ori: Source output channel
1 = OUT1 to 4 = OUT4
out_des: Destination output channel
1 = OUT1 to 4 = OUT4
Setting
example
Command
Response
@SCP,2,1
@SCP,2,1
Description
Copying OUT2’s setting to OUT1.
Remarks
Once output setting is copied, all settings related to output are copied.
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@GMU / @SMU
Startup settings
Getting
Command
@GMU
Response
@GMU, state
Setting
Command
@SMU, state
Response
@SMU, state
Parameter
state: Startup settings
1 to 9 = Crosspoint memory1 to 9, 10 = Channel OFF,
11 = Last channel [Default], 12 to 19 = Preset memory1 to 8
Getting
example
Command
Response
@GMU
@GMU,3
Description
Getting settings for startup.
Channel settings of crosspoint memory 3
Setting
example
Command
Response
@SMU,3
@SMU,3
Description
Setting startup channel settings to crosspoint memory 3.
Remarks
-
@GBM / @SBM
Outputting bitmap image
Getting
Command
@GBM
Response
@GBM, out_1, out_2, out_3, out_4
Setting
Command
@SBM, ch_1, out_1 (, ch_2, out_2・・・)
Response
@SBM, ch_1, out_1 (, ch_2, out_2・・・)
Parameter
out_1-4: Outputting bitmap image
0 = OFF [Default], 1 = Bitmap 1 ON,
2 = Bitmap 2 ON, 3 = Bitmap 3 ON,
4 = Bitmap 4 ON
Only registered numbers can be specified.
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
Getting
example
Command
Response
@GBM
@GBM,1,0,0,0
Description
Getting the output image.
OUT1: bitmap 1, OUT2 to OUT4: not output a bitmap image.
Setting
example
Command
Response
@SBM,1,1
@SBM,1,1
Description
Outputting bitmap 1 image to OUT 1.
Remarks
-
3.3.15 Bitmap
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@GBB / @SBB
Background color
Getting
Command
@GBB, ch
Response
@GBB, ch, red_1, green_1, blue_1, red_2, green_2, blue_2, red_3, green_3,
blue_3, red_4, green_4, blue_4
Setting
Command
@SBB, ch_1, bitmap_1, red_1, green_1, blue_1 (, ch_2, bitmap_2, red_2,
green_2, blue_2・・・)
Response
@SBB, ch_1, bitmap_1, red_1, green_1, blue_1 (, ch_2, bitmap_2, red_2,
green_2, blue_2・・・)
Parameter
ch: Output channel
1 = OUT1 to 4 = OUT4
ch_1-4: Output channel
0 = All outputs, 1 = OUT1 to 4 = OUT4
red_1-4 : Background color (Red)
green_1-4 : Background color (Green)
blue_1-4 : Background color (Blue)
0 to 255 [Default] 255 (White)
Getting commands: registered bitmap settings is returned in order.
bitmap_1-4: Bitmap number
0 = all bitmaps, 1 = bitmap 1, 2 = bitmap 2,
3 = bitmap 3, 4 = bitmap 4
Only registered numbers can be specified.
Getting
example
Command
Response
@GBB,2
@GBB,2,255,0,0,255,0,0,255,0,0,255,0,0
Description
Getting background color of OUT2.
R: 255, G and B: 0 (Red)
Setting
example
Command
Response
@SBB,1,1,255,255,255
@SBB,1,1,255,255,255
Description
Setting background color for when Bitmap 1 is output to OUT1 to 255 for RGB
(white).
Remarks
-
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