134 Chapter 7
Controlling the OBR Remotely
power of two, so the actual value of the Scan Range will
be set to the valid value closest to scanRange.
Response:
None.
Notes: If the center wavelength and scan range settings for a
measurement fall outside the most recent calibration, the
wavelength settings will be coerced to fit within the most
recent calibration.
Examples: CONF:RANG 5.0 sets the Scan Range to the valid range
closest to 5.0 nm.
CONFigure:RANGe?
Usage:
CONF:RANG?
Description: Queries the OBR for the current Scan Range in nanometers.
Response: Returns the current Scan Range in nanometers, in the form
“20.0.”
Examples: “CONF:RANG?” returns the Scan Range in nanometers.
CONFigure:INTegrationWidth
Usage: CONF:INTW {integrationWidth}
Description: Sets the OBR Integration Width in the units set by
CONF:XUNI (page 139).
[In optional Sensing mode (page 48), the CONF:INTW
command sets the Sensing Range, also in the units set by
CONF:XUNI. Alternatively,
you may use the CONF:SRAN
command (see below) to set the Sensing Range.]
Response:
None.
Notes: The
Integration
Width (or Sensing Range), along with the
Integration (or Sensing) start (CONF:INTS) or center
(CONF:INTC) set commands, defines the area that will be
used for data capture and retrieval commands such as
FETC:MEAS. All frequency domain values are based on
this Integration Width (or Sensing Range) and start or
center. Setting the Integration Width (or Sensing Range)
to 0 indicates that the entire measurement area should be
used for such commands.
Setting the Integration Width (or Sensing Range) will
cause the Integration (or Sensing) center to be adjusted to
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