2-Tone Nonlinear Simulations > Spectrum, Gain, TOI and 5thOI Points vs. 2 Param. (w/PAE)

Description

This setup simulates the spectrum, output power, power gain, and intermodulation distortion of a device or amplifier all versus two arbitrary swept parameters. It includes two current probes and named voltage nodes for calculating power-added efficiency. A sample power amplifier is provided. You must replace this amplifier with your own device or amplifier, and modify the biases, as needed.

Needed to Use Schematic

A device or an amplifier using nonlinear model(s)

Main Schematic Settings

The arbitrary swept parameters and their ranges of values, the center frequency of the two input tones, the frequency spacing between them, the maximum order of the intermodulation terms to be computed, available source power from both tones, and the bias settings. The source and load impedances at the fundamental and harmonic frequencies can also be set.

Data Display Outputs

All versus the swept parameters (Param1 and Param2):

• Broadband output spectrum and spectrum centered on the two fundamental output tones (at one pair of swept parameter values selected by moving two markers)
• Tables of data versus swept parameter 2, with swept parameter 1 fixed (selected by moving a marker):
  • Output power (both tones)
  • Input and output third-order intercept and fifth-order intercept points, calculated using the low side intermodulation and high side intermodulation distortion terms
  • Power-added efficiency (Output power (both tones) minus power available from the source (both tones))/(DC power consumption), in a plot and a listing column
  • Transducer power gain (power (both tones) delivered to the load minus power available from the source (both tones)), in a plot and a listing column
  • Supply current
  • DC power consumption
  • Thermal power dissipation in the device or amplifier (DC power consumption + power delivered to the device at all frequencies minus power delivered to the load at all frequencies)
• Contour plots of output power (both tones) and power-added efficiency
• Maximum output power and power-added efficiency
• Contour plots of third- and fifth-order intermodulation distortion
• Minimum 3rd- and 5th-order intermodulation distortion levels, in dBc

Schematic Name

HB2TonePAE_2swp

Data Display Name

HB2TonePAE_2swp.dds

Notes

1. When simulating a device, setting the source and load impedances at the fundamental and harmonic frequencies might be useful. However, when simulating an amplifier that already has source and load impedance matching networks, just leaving all these impedances at 50 ohms might be suitable.
2. Only bias supplies on the highest level schematic will be included in the PAE calculation. For example, if you replace the sample amplifier with one with the bias supplies included in the subcircuit, those supplies will not be included in the PAE calculation. On the highest level schematic, you can delete one of the two supplies and/or replace the voltage sources with current sources, and the PAE calculation will still be valid. You can modify the components in the bias network, realizing that the DC power consumption is computed as (the DC voltage at the Vs_high node) * (the DC current in the Is_high current probe) + (the DC voltage at the Vs_low node) * (the DC current in the Is_low current probe).