Remote Spectrum Monitoring System Help : Programming with SCPI : Notational Examples
 
Notational Examples
Table: Creating Valid Commands provides examples of valid command Syntax
Creating Valid Commands
Command Specification
Valid Forms
[:SENSe]:FREQuency:STARt <freq>
The following all produce the same result:
:SENSe:FREQuency:STARt 1 MHZ
:SENS:FREQ:STAR 1 MHZ
:sense:frequency:start 1000000
:FREQ:STAR 1000 KHZ
:CALCulate:MARKer{1|2|3|4|5|6}:X <x-parameter>
The first 2 commands set the location of marker 1. The third command sets the location of marker 2.
:CALC:MARK:X 1 GHZ
:CALC:MARK1:X 1 GHZ
:CALC:MARK2:X 2 GHZ
:UNIT:POWer DBM|DBV|DBMV|DBUV|V|W
The following commands are identical:
:UNIT:POWer DBM
:unit:pow dbm
:INITiate:CONTinuous OFF|ON|0|1
The following commands are identical:
:INITiate:CONTinuous OFF
:init:cont 0
Command statements read from left to right and from top to bottom. In the command statement above, the :FREQuency keyword immediately follows the :SENSe keyword with no separating space. A space (sp) is used between the command string and its argument.
Note that the first keyword in the command string does not require a leading colon; however, it is good practice to always use a leading colon for all keywords. Note also that the :SENSe keyword is optional. This is a SCPI convention for all voltage or signal source type instruments that allows shorter command statements to be used.
The following is an example of a multiple command statement that uses two separate commands in a single statement:
:FREQuency:STARt 10E6;:FREQuency:STOP 20E9
Note 
A semicolon is used to join the commands and a leading colon used immediately after the semicolon to start the second command.
Command Terminators
The <new line> character (ASCII 10) in the last data byte of a command string is used as a command terminator. Use of a command terminator will reset the command path to the root of the tree.