Get custom defined video
resolution.
If a requested custom
resolution is not defined,
yet is in the device, it
returns ERRSP003 (out of
range).
Only indexes 100-104 are
valid for custom defined
resolution.
In Get command when
sending:
index 0 - device replies
with detailed info of native
resolution.
index 255 - device replies
with detailed info of current
resolution.
COMMAND
#DEF-RES? table_id, io_mode, in_index<CR>
FEEDBACK
~nn@DEF-RES table_id, width, height, htotal, vtotal, hsyncw,
hsyncbackporch, vsyncw, vsyncbackporch, frrate,
interlaced<CR><LF>
table_id – Index in resolution table
If a requested custom resolution is
not defined, yet is in the device, it
returns ERRSP003 (out of range)
Only indexes 100-104 are valid for
custom defined resolution
In Get command when sending:
index 0 - device replies with
detailed info of native resolution
index 255 - device replies with
detailed info of current resolution
custom – Resolution parameters - by
name (self-explanatory), numeric value
interlaced – Interlaced/progressive
according to On/Off (“ON”- I, “OFF” - P)
io_mode – Input/Output
0 – Input
1 – Output
in_index – Number that indicates the
specific input: 1 to 4
Get custom defined video
resolution:
#DEF-RES? 255,0,1<CR>
COMMAND
#DISPLAY?out_index<CR>
FEEDBACK
~nn@DISPLAYout_index, status<CR><LF>
out_index – Number that indicates
the specific output: 1 or 2
status – HPD status according to
signal validation
0 – Signal or sink is not valid
1 – Signal or sink is valid
2 – Sink and EDID is valid
Get the output HPD status of
Output 1:
#DISPLAY?1<CR>
Set Ethernet port protocol.
If the port number you
enter is already in use, an
error is returned.
The port number must be
within the following range:
0-(2^16-1).
COMMAND
#ETH-PORT port_type, port_id<CR>
FEEDBACK
~nn@ETH-PORT port_type, port_id<CR><LF>
port_type – TCP/UDP
port_id – TCP/UDP port number
(0 – 65535)
Set the Ethernet port protocol
for TCP to port 12457:
#ETH-PORT 0,12457<CR>
Get Ethernet port protocol.
COMMAND
#ETH-PORT? port_type<CR>
FEEDBACK
~nn@ETH-PORT port_type, port_id<CR><LF>
port_type – TCP/UDP
0 – TCP
1 – UDP
port_id – TCP / UDP port number (0
– 65535)
Get the Ethernet port protocol
for UDP:
#ETH-PORT? 1<CR>
Reset device to factory
default configuration.
This command deletes
all user data from the
device. The deletion can
take some time.
Your device may require
powering off and powering
on for the changes to take
effect.
COMMAND
#FACTORY<CR>
FEEDBACK
~nn@FACTORYok<CR><LF>
Reset the device to factory
default configuration:
#FACTORY<CR>
Get EDID support on
certain input/output.
For old devices that do
not support this command,
~nn@ERR 002<CR><LF>
is received.
COMMAND
#GEDIDio_mode, in_index<CR>
FEEDBACK
~nn@GEDIDio_mode, in_index, size<CR><LF>
io_mode – Input/Output
0 – Input
1 – Output
2 – Default EDID
3 – Custom EDID
in_index – Number that indicates the
specific input: 1 to 4
size – Size of data to be sent from
device, 0 means no EDID support
Get EDID support information
for input 1:
#GEDID 1<CR>
Set HDCP mode.
Set HDCP working
mode on the device input:
HDCP supported -
HDCP_ON [default].
HDCP not supported -
HDCP OFF.
HDCP support changes
following detected sink -
MIRROR OUTPUT.
When you define 3 as the
mode, the HDCP status is
defined according to the
connected output in the
following priority: OUT 1,
OUT 2. If the connected
display on OUT 2 supports
HDCP, but OUT 1 does
not, then HDCP is defined
as not supported. If OUT 1
is not connected, then
HDCP is defined by OUT
2.
COMMAND
#HDCP-MOD in_index, mode<CR>
FEEDBACK
~nn@HDCP-MOD in_index, mode<CR><LF>
in_index – Number that indicates the
specific input: 1 to 4
mode – HDCP mode:
0 – HDCP Off
3 – HDCP defined according to the
connected output
Set the input HDCP-MODE of
IN 1 to Off:
#HDCP-MOD 1,0<CR>
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