Start using NanoVNA - jumbo77/NanoVNA GitHub Wiki

What you need to work The following are required at a minimum.

NanoVNA body SMA LOAD 50Ω SMA SHORT SMA OPEN SMA Female to Female Through Connector SMA Male to Male cable x 2 NanoVNA basics VNA (Vector Network Analyzer) measures the frequency characteristics of reflected power and passing power of a high frequency network (RF Network).

NanoVNA measures the following elements:

Input voltage I / Q signal Reflected voltage I / Q signal Pass voltage I / Q signal From here we calculate:

Reflection coefficients S11 Transmission coefficient S21 The following items that can be calculated from these can be displayed.

Reflection loss Passing loss Complex impedance resistance reactance SWR Such.

NanoVNA oscillation frequency NanoVNA measures the reflection coefficient and transmission coefficient for 101 points in the frequency band to be measured.

The local frequency of NanoVNA is 50kHz to 300MHz. For higher frequencies, use harmonic mode. The fundamental wave is not attenuated even in harmonic mode. The usage modes for each frequency are as follows.

Up to 300 MHz: fundamental wave 300MHz to 900MHz: 3rd harmonic 900MHz to 1500MHz: 5th harmonic Note that there is always a fundamental wave input, especially when checking the amplifier gain.

In either case, the input is converted to an intermediate frequency of 5kHz. The signal is converted from analog to digital at 48kHz sampling. Digital data is signal processed by the MCU.

To do first Before you can use it, you must first calibrate it. First, calibrate as follows.

Make sure START is 50kHz Make sure STOP is 900MHz Calibrate according to the calibration method input method NanoVNA has the following inputs.

Touch panel long tap Lever switch L / L long press R / R long press Push / Push long Power slide switch This page was translated from cho45’s NanoVNA User Guide.