Manual
Manual-22
To write a stored parameter value:
Send: SPL,n1,n2
Where: n1 is the stored parameter index.
n2 is the value to be stored.
Example: SPL,1,0 sets Auto Level parameter to 0, disabling the
Auto Level function.
Response: "OK"
Encoder Input Commands
ILD
Read/Write LED Enable byte
Reads or writes the LED Enable byte. e format of the LED Enable byte is as fol-
lows: bit 0 set enables LED indication of the main level, bit 1 set enables the LED
indication of the second level (only applicable when Auto Second Level is enabled and
the encoder is pushed in). is LED Enable is volatile, meaning upon power-up of the
device the LED Enable byte is always set to 3 enabling both main and second level
LED indication.
To read the LED Enable byte:
Send: ILD
Response: n1,"OK"
Where: n1 is the LED Enable byte. e range is [0, 3].
Example: 1,"OK" means that the main level LED indication
is enabled and the second level LED indication is
disabled.
To write the LED Enable byte:
Send: ILD,n1
Where: n1 is the LED Enable byte. e range is [0, 3].
Example: ILD,0 disables both main and second level LED
indication.
Response: "OK"
ILK
Read/Write Software Input Lock
Reads or writes the input encoder software lock byte. e format of the lock byte is
as follows: bit 0 set locks the main level (no action when encoder is turned), bit 1 set
locks the second level (no action when the encoder is pushed in and turned), bit 2 set
locks the enter state (no enter command state change when the encoder is pushed and
released without turning). is lock byte is volatile, meaning upon power up of the
device the software lock byte is always cleared to zero.
To read the Software Input Lock byte:
Send: ILK
Response: n1,"OK"
Where: n1 is the Software Input Lock byte. e lock byte
range is [0, 7].
Example: 3,"OK" means that both the main level and second
level are locked.