On IP2 impact to nonlinear distortion of RF amplifiers

Abstract: The second-order distortion, often using second-order intercept point (IP2) as an indicator, has been considered easy to be filtered in narrowband radio frequency (RF) communications because it is located far away from the passband of transmitted signals. However, with rapidly increased applications in wideband RF communications, the secondorder intermodulation (IM) might become important, partially evidenced by the increased appearances of IP2 in the amplifier datasheets in recent years. In this article, a po… Show more

“…where P 0 = a 2 1 N 0 B∕2 is the power of the linear output. An interesting observation can be made from Equatiom (20), the frequency spread of the fourth-order IM around second harmonic 2 f c is twice as wide as that of the second-order IM at 2 f c [9]. This is because the Fourier transform of the fourth power to the autocorrelation F {R 4 s (𝜏)} in Equation ( 15) can be further decomposed as a four-time convolution of…”

“…We derived a power spectrum model of the second-order IM distortion in our previous work [9]. Inspired by the recent attention regarding higher even-order IM distortions, we are now focusing on fourth-order IM distortion and its impact to the passband and adjacent bands.…”

“…where ỹ4 (t ) Δ = a 4 s4 (t )∕2. Denoting the power spectrum of ỹ4 (t ) as P ỹ4 ( f ), the power spectrum P y 4 ( f ) of y 4 (t ) can be expressed as [9,11],…”

Fourth‐order nonlinear distortion to the power spectrum of RF amplifiers

“…where P 0 = a 2 1 N 0 B∕2 is the power of the linear output. An interesting observation can be made from Equatiom (20), the frequency spread of the fourth-order IM around second harmonic 2 f c is twice as wide as that of the second-order IM at 2 f c [9]. This is because the Fourier transform of the fourth power to the autocorrelation F {R 4 s (𝜏)} in Equation ( 15) can be further decomposed as a four-time convolution of…”

“…We derived a power spectrum model of the second-order IM distortion in our previous work [9]. Inspired by the recent attention regarding higher even-order IM distortions, we are now focusing on fourth-order IM distortion and its impact to the passband and adjacent bands.…”

“…where ỹ4 (t ) Δ = a 4 s4 (t )∕2. Denoting the power spectrum of ỹ4 (t ) as P ỹ4 ( f ), the power spectrum P y 4 ( f ) of y 4 (t ) can be expressed as [9,11],…”

Fourth‐order nonlinear distortion to the power spectrum of RF amplifiers