Specifications

Phase-offset sweeps change the phase-

offset value as if it were added in the

ﬁxture, enabling input-matching circuit

validation.

In-ﬁxture phase-offset sweeps reveal the optimal phase offset to achieve the highest

ampliﬁer gain, which is essential to the design of the input matching circuit.

Power or Gain

Phase Offset

(degrees from perfect differential)

+10 -10

Actual S

dd21

Peaked at -5 degree phase offset

Ideal Sdd21:

peaked at 0 degree phase offset

Differential

input power

-5 0

Various stimulus and sweep settings are available in the Balanced DUT

Topology dialog, which allow you to set the right setup for your devices

characterization.

Tips from the experts

• Input-only true-mode drive assumes a perfect match between the DUT output and

the VNA’s test ports, which is a good assumption when the DUT’s reverse isolation

is high. When the reverse isolation is low, adding attenuators on the output port

improves the system match and reduces mismatch errors.

• When comparing the test results between single-ended and true-mode drive

conditions with the same effective delivered differential power, the individual port

powers with true-differential drive must be set 6 dB lower than the port powers

used with single-ended drive.

Single-ended drive

0 dBm port power = -3 dBm differential power + -3 dBm common-mode power

True differential drive

-3 dBm port power = -6 dBm port 1 single-ended power + -6 dBm port 3 single-ended power