Spurs

The first category includes spurs that are independent of the input signal and occurring at frequencies less than 2.7 GHz. All spurs fitting this criteria are less than or equal to -80 dBm in amplitude.

Spurs due to intermodulation distortion (IMD) are dependent on the drive and change as the drive level changes. The following equations predict how the IMD products will change with output power:

IMD_TOI = 2(OIP₃ - P_out)

IMD_SOI = OIP₂ - P_out

Third-order intermodulation distortion (IMD_TOI) is the difference in dB or dBc between P_out and the distortion signals.

The second category of spurs are dependent on the input signal and occur at frequencies less than 2.7 GHz, but not within ±10 MHz of the desired output signal. All spurs in this category are less than -80 dBc in amplitude, with the exception of one spur at approximately -60 dBc. You can determine the output frequency for this spur by using the following equation:

f _spur = 3225 - f_out - f_in

where

f _spur, f_out, and f_in are in MHz.

The third category of spurs includes those within ±10 MHz of the carrier frequency. These spurs are the result of signals modulating one of the local oscillator (LO) signals. These spurs are below -50 dBc for frequencies less than 1 kHz and below -60 dBc for frequencies from 1 kHz to 2 kHz. Beyond 2 kHz, spurious levels are below -70 dBc.

The final category of spurs are greater than 2.7 GHz. An LO spur occurs at 2.88 GHz and at multiples of 2.88 GHz; these spurs are less than -80 dBm in amplitude. As part of the architecture of the PXI-5610 upconverter module, a broad tuning LO tunes over the range of 3.2 GHz to 5.9 GHz. The frequency of this LO is always approximately 3.2 GHz greater than the output signal.

When the LOCAL OSC OUT 0 connector on the PXI-5610 front panel is disabled, the LO leakage at the RF OUTPUT connector is typically less than -80 dBm for output frequencies greater than 100 MHz. For output frequencies less than 100 MHz, the LO leakage at the RF OUTPUT connector is dependent on the filters in the output section and can be as great as -35 dBm.

When the LOCAL OSC OUT 0 connector on the PXI-5610 front panel is enabled, LO leakage is approximately -45 dBm for output frequencies greater than 100 MHz. For frequencies less than 100 MHz, LO leakage is dependent on the filters in the output section and on the output power setting. However, even with the PXIe-5672 output power set to the minimum level, the LO leakage at the RF OUTPUT front panel connector (with the LOCAL OSC OUT 0 connector enabled) could be as great as -40 dBm.

This topic does not address harmonic-related spurs.