Note: It is recommended that SmartCal be used instead of the following Power Calibration procedures. The procedures in this topic are for those who cannot change their existing test program/procedure with their installed-base VNAs.
Source and Receiver Power Calibrations work together to provide very accurate power levels from the source, and very accurate power measurements from the VNA receivers.
Guided Power Cal can be performed during an S-parameter Guided Calibration. Learn more.
Receiver Leveling can be used to provide 'real-time' source power cal. Learn more.
Source Power Calibration Overview
Perform Source Power Calibration when you need accurate power levels at some point in the measurement path between the VNA test ports. For example, you need to characterize the gain of an amplifier across a frequency range at a specified input power. You would perform a source power cal at the input of the amplifier to ensure the exact power level into the amplifier across the frequency range.
Using a Source Power Cal, you can expect the power at the point of calibration to be within the range of the uncertainty of the power meter and sensor that is used.
Source Power Calibration...
Is independent of measurement type. It corrects the VNA source regardless of which receivers are being used in a measurement. Therefore, it can be used with both ratio or non-ratio measurements.
Applies ONLY to those measurements on the selected channel that use the test port that was specified as the Source for the calibration. For example, if you specify Channel 1 and Port 1 as the source to be calibrated, only those measurements on channel 1 that use port 1 as the source will be corrected.
Can be used in conjunction with other measurement calibrations, such as a full 2-port calibration. For highest accuracy, perform the measurement calibration AFTER the source calibration.
Can be used with Power Sweep type. Source Power Cal will correct the power at all power levels across the power sweep.
Can be used with Port Power Uncoupled.
Forces sweep mode to Stepped on measurements with source power correction turned ON.
An external source can be calibrated using Source Power Cal.
See Important First-time USB connection note.
Click to see the detailed procedure
Specify the measurement settings (frequency range, IFBW and so forth).
Start Source Power Calibration.
Note: When using an Keysight 848X power sensor (sensors that do NOT have built-in calibration factors), enter the Cal Factors using the Power Sensor Settings dialog, because the VNA instructs the power meter to NOT use the Cal Factor tables internal to the power meter.
Connect a power meter sensor to the point at which you want a known power level. This may be at the input or output of your device, or some other point between the test ports.
The VNA source is stepped through the specified frequency range, and power is measured with the power meter. At each data point, the source power is adjusted until the measured power is within your specified accuracy level.
When complete, the power meter is preset. The source power calibration can be saved as part of the instrument state.
The power meter is removed and the measurement path reconnected.
The calibration is automatically applied to the channel. All measurements on that channel using that source port benefit from the source power cal.
Perform an S-parameter calibration AFTER a Source Power Cal. The S-parameter cal is performed using the corrected stimulus power levels for the relevant ports.
Verify the source power calibration using the following procedure.
Connect the power meter as it was during the source power calibration.
Set the VNA to Point Trigger mode.
Trigger the VNA across the trace. Read about the behavior of the sweep indicator.
At each data point, the power meter should read the corrected power level within the specified tolerance.
Supported Power Meters and Sensors
See Keysight's Power Meters and Sensors Webpage.
U848x Series USB Thermocouple Power Sensors
These include the following models: U8481A, U8485A, U8487A, U8488A, U8489A
External Calibration (connecting the sensor to the 1 mW ref port) is NOT supported.
U202x X-Series USB Peak and Average Power Sensors.
The VNA does NOT support peak mode in these sensors, but measures average power.
U2000 Series USB Power Sensors.
U204x X-Series USB and LAN Power Sensors.
U205xXA/U206xXA Series USB Power Sensors.
USB Notes:
From a standard power cal (this topic), only one USB power sensor can be used to cover the entire frequency span. To use multiple power sensors, perform a Guided Power Cal. Learn how.
To select a USB power sensor for a standard power cal:
Connect the sensor directly to one of the VNA USB ports.
From the Source Power Cal dialog, click Power Meter Config.
On the Power Meter Settings dialog, select USB.
See Important First-time USB connection note.
See note about Zeroing USB Power Sensors.
See also: Power Meters as Receivers (PMAR)
LAN Notes:
LAN power sensors can only be controlled via LAN.
Typical LAN ports found on a PC or Keysight instrument are used for data transfer and communication only and will not power up a U2049XA LAN Power Sensor.
LAN power sensors must connect to a PoE port (Power over Ethernet), which will supply DC power required to power up the sensor and to transfer data.
To select a LAN power sensor for a standard power cal:
Connect the sensor to a PoE/LAN connection.
From the Source Power Cal dialog, click Power Meter Config.
On the Power Meter Settings dialog, select LAN and enter the host name of the power sensor.
P Series power meters (N1911A and N1912A) and all supported sensors.
EPM Series power meters (N1913A and N1914A) and all supported sensors.
EPM-P Series power meters (E4416A and E4417A) and all supported sensors.
E Series power meters (E4418 and E4419) and all supported sensors.
Power Meter Notes:
N1911A, 12A, 13A, and 14A power meters have a device-side USB connector and are controlled by the VNA exactly like a USB sensor. See USB Power Sensors (above). Although these meters may also have a front-panel USB port, USB power sensors must be connected directly to one of the VNA USB ports.
Source Power Calibration operates slowly with the Keysight E930x and E932x power sensors.
Some Keysight power meters have a mode that emulates the command set of the 437B or 438A power meter. The VNA does NOT support this emulation mode.
The 82357A USB/GPIB Interface can be used to control power meters.
Create a Custom Power Meter Driver for use with other power meters.
Rohde and Schwarz NRP-Z power sensors (limited support). Learn how to install the drivers.
VDI PM5 power meter (limited support). Learn how to install the driver and set up the power meter.
How to perform Source Power CalibrationNote: Guided Power Cal can be performed during an S-parameter Guided Calibration. Learn more.
This image does NOT apply to USB power sensors, which are connected directly to a VNA USB port. See Important First-time USB connection note. |
Using Hardkey/SoftTab/Softkey |
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Note: When using an Keysight 848X power sensor (sensors that do NOT have built-in calibration factors), enter the Cal Factors using the Power Sensor Settings dialog, because the VNA instructs the power meter to NOT use the Cal Factor tables internal to the power meter.
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To turn Source Power Correction OFF:
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If the original stimulus settings are changed, Interpolation or EXTRAPOLATION is applied and SrcPwrCal* is displayed in the status bar. This is different from measurement calibration interpolation. For example, if the frequency span is increased, the VNA will extrapolate new correction values rather than turn correction off. This is to protect your test device from being overpowered by the source. If the original settings are restored, then source power calibration returns to full correction.
Note: Be sure that the frequency range of your power sensor covers the frequency range of your measurement. This does NOT occur automatically. PowerCal Power The calculated power (in dBm) at the calibration point. This value is the specified VNA source power plus the Power Offset value. Power Offset Allows you to specify a gain or loss (in dB) to account for components you connect between the source and the reference plane of your measurement. These components will remain during a measurement. For example, specify 10 dB to account for a 10 dB amplifier in the path to your DUT. Following the calibration, the VNA power readouts are adjusted to this value. To account for components that will be removed when the calibration is complete, use the Loss Compensation table. Channel and Port SelectionChannel Specifies the channel on which to perform the calibration. This setting defaults to the active channel. Source Port Specifies the source port to be corrected. This setting defaults to the source port for the active measurement. Note: External sources can be calibrated using this dialog. Learn more. AccuracyAt each data point, power is measured using the specified Power Meter Settling Tolerance, then adjusted until the reading is within this Accuracy Tolerance or the Max Number of Readings has been met. The last power reading is plotted on the screen against the Tolerance limit lines. Tolerance Sets the maximum desired deviation from the specified Cal Power level in 0.005 dB increments from 0 to 5 dB. Max Number of Readings Sets the maximum number of readings to take at each data point for iterating the source power. Enter a value between 1 and 1000. Calibration StatusAllows you to turn Source Power Cal ON | OFF and view Cal data for each port, regardless of the active measurement. This feature allows the Internal Second Source to be calibrated and turned ON | OFF, even when being used as an incidental source in a measurement, such as an LO. Calibration ON Check to turn Source Power Calibration ON for the specified source port. The displayed text indicates when interpolation is applied for the calibration. ButtonsOptions Invokes the Source Power Cal Options dialog. Label to the left of the button displays the current 'Options' setting. Power Meter Config Invokes the Power Meter Settings dialog box Take Cal Sweep Begins source power calibration measurement. OK Applies calibration. This button is disabled until the Take Cal Sweep has been pressed. Cancel If a sweep is in progress, cancels the sweep. Press again to close the dialog.
Attention please: the power meter is operating in 200 r/s mode. During a measurement, some Keysight power meters may display this message on the screen: It means that the meter is operating in 200 readings/sec which is the fastest speed setting for this meter. This is normal operation. Pass / Fail LimitsLimit lines are drawn on the Source Power Cal measurement graticule area. These lines are at the Cal Power +/- the current setting of Accuracy Tolerance. A FAIL during the Source Power Cal sweep means that the VNA was unable to measure power to within the Accuracy Tolerance. Tight tolerances are more difficult to achieve at lower Cal Power levels. When a FAIL indication appears, increase the Max Number of Readings. If this does not cause a PASS condition, then decrease the Accuracy Tolerance value. See Also
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Provides options for measurement of the source power. Note: At low power levels (less than -30 dBm) most power meters are not as accurate as a VNA receiver. Calibration Reference Choose power meter/VNA receiver to use to measure power.
Note: Because the following two settings use VNA receivers to make power measurements, they do NOT work correctly when a Frequency Offset value is being used.
Note: Do NOT use this setting if there is a component before the power sensor that exhibits non-linear behavior, such as a power amplifier in compression. Use a power meter and Calibrate the source at multiple power levels.
VNA receiver - For highest accuracy, first calibrate the receiver by performing a source power cal using a power meter, then a receiver cal. That receiver can then be used to quickly calibrate other VNA source ports, or used on another channel with different stimulus settings. This would be useful, for example, if the power level of the measurement was below the sensitivity of the power sensor. Calibrate the VNA receiver using a source power cal that is within the sensitivity of the sensor. Then, use the calibrated receiver to perform a second source power cal at the reduced power level.
PMAR Device - The power meter/sensor must first be configured. Learn how to Configure a PMAR device.
Calibrate the source at multiple power levels This feature can also be used with standard VNA measurements when a component is used in the source path such as a booster amp which does NOT have linear gain or loss over frequency. If this is not true for your setup but want to improve your source power accuracy, consider using the Receiver Leveling feature. When checked, source power is measured using the specified 'Cal Reference' device (power meter/sensor or VNA receiver) and iterated on a sweep-to-sweep basis to construct a 2-dimensional power table: Power IN, Power OUT, over all frequencies.
Calibrate the analyzer reference receiver Check to calibrate the appropriate reference receiver to the power level that is measured at the calibration plane. Do this to make very accurate measurements using the calibrated reference receiver. This cal is done in addition to the standard source power cal using the any of the methods listed above. At the end of the source power cal measurement sweep, you can optionally save the reference receiver cal to a Cal Set to be recalled at a later time. The Cal is saved when the OK button is clicked to close the Source Power Cal dialog. |
This dialog appears when you click Power Levels on the Source Power Cal Options dialog. Specify the power levels at which the Source Power will be calibrated. These values should be set to a few dB more or less than the measurement power levels. Max Power - The highest power level at which to calibrate. This value should be a few dB higher than the highest power level of your measurement. Note: Setting the Max Power will override power settings entered manually in a Power Table (InputPower). Therefore, when using a power table, set the Max Power value to the same value shown in the Power Table (InputPower). Min Power - The lowest power level at which to calibrate. This value should be a few dB lower than the lowest power level of your measurement. Power Step - Calibrate at every incremental power level, between the Max and Min Power settings. |
This dialog appears when you click the Power Meter Config button on many dialog boxes. Communication
Note: The VDI PM5 driver software must be installed to use VDI power sensors. Refer to Install VDI PM5 Driver. Sensors Invokes the power sensor settings dialog box. SettlingThese Settling settings do not apply when a VNA receiver is the power measurement device. Each power meter reading is "settled" when either:
The readings that were taken are averaged together to become the "settled" reading. The settled reading is then compared to the Accuracy Tolerance requirements (tolerance and max readings) specified on the Source Power Cal dialog box. Tolerance When consecutive power meter readings are within this value of each other, then the reading is considered settled. Max Number of Readings Sets the maximum number of readings the power meter will take to achieve settling. Sensor Loss CompensationUse Loss Table Select this checkbox to apply loss data to Source Power calibration correction (such as for an adapter on the power sensor). Edit Table Invokes the Power Loss Compensation dialog box. |
To Add a Row to the table, click on a row in the table and press the down arrow on either the VNA front panel or keyboard. To Edit a value, double-click in the cell to be edited. Compensates for losses that occur when using an adapter or coupler to connect the power sensor to the measurement port. These components will be removed when the calibration is complete. To account for components that will remain during the measurement, use the Power Offset setting. The Frequency / Loss pairs define the amount of loss for the entire frequency range. For example, using the entries in the above dialog image:
Frequency Enter a frequency in Hz. Loss Enter a loss as a POSITIVE value in dB. To compensate for gain, use NEGATIVE values. Delete Table Segment Deletes row indicated in the field. Delete All Deletes all data in the table. The Power Loss Compensation table survives VNA Preset and Power OFF. To NOT use Loss compensation, clear the Use Loss table checkbox on the Power Meter Settings dialog. |
This dialog appears when you click the Sensors button on the Power Meter Settings dialog. Note: Be sure that the frequency range of your power sensor covers the frequency range of your measurement. This does NOT occur automatically. Sensor A (B) Displays one of the following messages depending on type of sensor.
Load Cal Factors Click to load cal factors from a *.csv file that you create from the cal factors that appear on the sensor. The first line of the file MUST have the reference Cal Factor (typically 100), followed by Freq / Cal Factor pairs as show in the following image: Save Cal Factors Click to save the cal factor table to a *csv file. Use this sensor only Check this box to use this sensor over the entire frequency span of the measurement, even if two sensors are connected to power meter. Clear this box to allow entry of minimum and maximum frequencies for the sensor. Only ONE of the two sensors can have this box checked. You will be prompted to connect the appropriate sensor during the power calibration. Minimum Frequency Specifies the minimum frequency range for the sensor when using dual sensors. Maximum Frequency Specifies the maximum frequency range for the sensor when using dual sensors. Zero and Calibrate the Power SensorFor highest accuracy, Zero AND Calibrate the power sensor before measuring data. Follow prompts that may appear. Zero - If the following settings are 'greyed', Internal or External zeroing is selected automatically based on the power meter/sensor model. Otherwise, select the appropriate type of zeroing to perform, then press Zero.
Calibrate - Available when the selected sensor has calibration capability. Calibration involves measuring an internal 1 mW source.
Press Calibrate, then follow the prompts. |
Copy a Source Power Calibration to other Channels
A macro application is now available that copies a Source Power Calibration to other channels. Once downloaded and installed on a VNA, the macro is automatically configured up. To learn more, click Help on the application main dialog.
Saving a Source Power Calibration
Because Source Power Cal calibrates source hardware, the calibration data is saved as part of the Instrument State, in either a .sta file or a .cst file. This correction is applied to all measurements on the channel that uses the calibrated source. See Save Instrument State.
Reducing Time to Complete a Source Power Calibration
The time required to perform a Source Power Calibration depends on source power, number of points, and number of readings taken. You can reduce this measurement time with the following methods:
Reduce number of points before calibration. You can reduce the number of points before the measurement, then return the number of points to its original value after calibration is complete and correction is ON. The analyzer will perform a linear interpolation, although with some loss in accuracy.
Use an Keysight E-Series sensor. You can obtain 40+ readings per second over GPIB with this type of sensor on the VNA.
Increase power to the sensor. Lower power may have longer settling time with some sensors.
Note: Source and Receiver Power Calibrations are NOT available in M937xA PXI.
Note: A Guided Power Cal can be performed during an S-parameter Guided Calibration. Learn more.
Receiver power calibration mathematically removes frequency response errors in the specified VNA receiver, and adjusts readings to the same, or a value offset from, the source power calibration level. It is the same as doing a Response Cal or Data / Memory, (Normalization) but with the data shifted to the Cal Power value.
Use Receiver Power Calibration to make very accurate absolute power (amplitude) measurements.
Is ONLY allowed when making absolute power (unratioed) measurements.
Is most accurate when a source power calibration was performed first.
Applies to all unratioed measurements in the active channel using that receiver.
Can be saved in a Cal Set and later reapplied to a like measurement.
Like other calibration types, if the original stimulus settings are narrowed, interpolation is applied and C* Rcvr Pwr is displayed in the status bar. If the original stimulus settings are made wider, the VNA will turn Receiver Power Correction OFF.
If the original settings are restored, then receiver power calibration returns to full correction.
How to perform a Receiver Power Calibration
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Using Hardkey/SoftTab/Softkey |
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Select Calibration Type for Unratioed Measurement dialog box help |
Cal Type Selection Select Receiver Power Receiver Power Configuration Cal Power Specifies the power level to be displayed on the measurement when complete. (Source Port Power + Power Offset). Source Port Power Test port Power set for the measurement. Learn how to change Test Port Power Power Offset Allows you to specify a gain or loss (in dB) to account for components you connect between the source and the reference plane of your measurement AFTER a source power cal has been performed. Following the calibration, the VNA power readouts are adjusted to the Cal Power value. Next Click to continue the Calibration Wizard. Notes:
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Saving a Receiver Power Calibration
Beginning with VNA Revision 5.0, Receiver Power Cal is saved to a Cal Register and optionally to a User Cal Set. It can be applied to measurements in the same way as other Cal Types. Previously, Receiver Power Cal data was saved as part of an Instrument State and was only applied to the measurement on which it was performed.
Learn more about Saving VNA files types.