Mixers ECE141 PDF

Summary

This document covers principles of communication systems, focusing on mixers. It details RF mixers, their operation, different types, and performance characteristics like conversion loss and isolation.

Full Transcript

Mixers

Principles of Communications Systems
ECE141

Paul Emmanuel Empas, ECE, MSEE
RF Mixers

Mixer is a nonlinear circuit that combines two signals in such a way
as to produce the sum and difference of the two input frequencies
at the output.
 Linear Summing vs RF Mixing

Linear Summing

Input Frequencies Output Frequencies

RF Mixing

Input Frequencies Output Frequencies
RF Mixers

In general, a nonlinear device produces a signal at its output that
can be represented by a power series, for example,
𝑣𝑜 = 𝐴𝑣𝑖 + 𝐵𝑣𝑖2 + 𝐶𝑣𝑖3 + ⋯
With a single input frequency, the output will contain all harmonics
as well as the fundamental.
When the input contains two different frequencies, we get cross
products that represent sum and difference frequencies. If two
frequencies are 𝑓1 and 𝑓2 , we get 𝑚𝑓1 ± 𝑛𝑓2 where m and n are
integers. The most important outputs are the 𝑓1 + 𝑓2 and 𝑓1 − 𝑓2
frequencies.
Mixer Performance
Parameters
1. Conversion Loss
2. Isolation
3. 1-dB Compression Point
4. Intermodulation Distortion
Conversion Loss

In passive mixers, conversion loss is defined as the difference in
signal level between the amplitude of one the input signals (usually
the non-LO signal) and the amplitude of the desired output signal
(either the 𝑓1 + 𝑓2 or the 𝑓1 − 𝑓2 signal).
Conversion loss is expressed as a positive number in decibels.
Typical values of conversion loss can range from approximately 4.5
to 9 dB, depending on the mixer.
Isolation

Isolation is a measurement of the amount of power that leaks from
one port to another. Isolation is defined as the difference in signal
level between the amplitude of an input signal and the amplitude of
the leaked power from that input signal to another port.
1-dB Compression Point
When a mixer’s conversion loss
increases by 1 dB, the 1-dB
compression point has been
reached.
The 1-dB compression point of a
mixer is defined as the amplitude
of the input signal required to
increase the conversion loss by 1
dB. A mixer’s 1-dB compression
point determines the upper limit
of its dynamic range.
Intermodulation Distortion

This happens in a multi-carrier
signal environment. These two
signals interact with each other
and with the LO signal, which
creates distortion. In a receiver,
two-tone third-order IMD is a
serious problem because it can
generate third-order distortion
products that fall within the mixer
bandwidth.
Balanced Mixers

A balanced mixer is one in
which the input frequencies
do not appear at the output.
Ideally, the only frequencies
produced are the sum and Input Frequencies
difference, 𝑓1 + 𝑓2 and 𝑓1 − 𝑓2 ,
of the input frequencies.

Output Frequencies
END