Terminology » RF Basics » Nonlinearity Basics and Types

Nonlinearity Basics and Types

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nonlinearity

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mixer

This page covers nonlinearity basics and mentions types of nonlinearity: power nonlinearity, frequency nonlinearity, and phase nonlinearity.

What is Nonlinearity?

Nonlinearity basics

Fig.1 Nonlinearity basics

If a system is nonlinear, it will generate frequencies outside of the intended frequency band, thus causing interference to other nearby signals used by users. For a memory-less, nonlinear system, the output and input will follow an exponential curve, rather than following a linear straight-line relationship.

The relationship can be represented as:

$Y(t) = A_1 x(t) + A_2 x^2(t) + A_3 x^3(t)$

Nonlinearity Types

Power Nonlinearity

This is caused by amplitude distortion in the device. It’s typically measured by the 1dB gain compression point.

Frequency Nonlinearity

This arises due to frequency/phase-related distortion. It’s measured using two-tone tests, specifically using the TOI (Third Order Intercept Point).

Phase Nonlinearity

This is caused by amplitude distortion due to phase variation. It’s measured by AM-to-PM conversion.

For example:

An RF Mixer device is nonlinear in the frequency domain but not in the power domain.
An RF amplifier is nonlinear in the power domain but not in the frequency domain.

RF AM to PM Conversion Calculator

Calculate RF AM to PM conversion using our online calculator. Understand the impact of AM to PM conversion on RF amplifier non-linearity.

am pm conversion

amplifier

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