PicoVNA106 — MATLAB Instrument Driver
A MATLAB class for controlling the PicoVNA 106 vector network analyzer over a TCP/IP connection. Provides methods for triggering sweeps, acquiring S-parameters in polar form, querying frequency axes, and packaging results into an SPARAMS object.
Requirements
- MATLAB with the Instrument Control Toolbox
- The PicoVNA software must be running on the host machine with its SCPI server active on
localhost:5025 - The companion
SPARAMSclass (required byreadToSparamsObject, available at https://github.com/njchorda/MATLAB-Touchstone-Reader)
Installation
- Clone or download this repository.
- Add the folder to your MATLAB path:
addpath('/path/to/PicoVNA106'); - Ensure the PicoVNA application is open and its SCPI server is enabled before instantiating the class.
Quick Start
% Connect to the VNA
vna = PicoVNA106();
% Trigger a single sweep and wait for completion
vna.sweep();
% Read all four S-parameters as complex polar data
[S11, S12, S21, S22] = vna.getSParams();
% Get the corresponding frequency axis in Hz
f = vna.getFreqAxis();
% Or read everything into a single SPARAMS object
S = vna.readToSparamsObject();
% Clean up
vna.deInit();
API Reference
Constructor
obj = PicoVNA106()
Opens a TCP connection to localhost:5025 with a default timeout of 10 seconds. The PicoVNA 5 software must already be running.
Sweep Control
vna.sweep()
Triggers a single sweep (INIT) and waits for the instrument to acknowledge completion.
vna.setContinuousSweep()
Puts the instrument into continuous sweep mode (INIT:CONT:ALL).
S-Parameter Acquisition
[S11, S12, S21, S22] = vna.getSParams()
Reads all four S-parameters from the instrument buffer as complex polar vectors. Each value is returned as a column vector of complex doubles. Does not trigger a new sweep — call sweep() first if fresh data is needed.
S = vna.readToSparamsObject()
Combines getSParams() and getFreqAxis() into a single SPARAMS object. Sets the reference impedance to 50 Ω and the port count to 2. The S-parameter and frequency vectors are column-oriented.
Frequency Axis
f = vna.getFreqAxis()
Queries the start frequency, stop frequency, and number of sweep points from the instrument and returns a linearly spaced frequency vector in Hz. Handles kHz, MHz, and GHz unit strings automatically.
Power Level
p = vna.getPowerLevel()
Returns the current stimulus power level in dBm.
vna.setPowerLevel(p)
Sets the stimulus power level in dBm.
Instrument Utilities
id = vna.getID()
Queries the instrument identification string (*IDN?).
vna.reset()
Sends *RST to reset the instrument to its default state.
vna.selfTest()
Runs the built-in self-test (*TST?) and prints the result to the console.
vna.setLocal()
Returns front-panel control to the user (SYST:LOC).
vna.clearBuffer()
Flushes any pending data in the TCP receive buffer by reading until empty. Temporarily reduces the timeout to 0.2 s during the flush.
retVal = vna.sendCommand(cmd)
Sends an arbitrary SCPI command. If the command contains ?, it reads and returns the response string; otherwise returns 0.
vna.deInit()
Releases the TCP connection. Returns 1 on success, 0 if the connection was already invalid.
Notes
- S-parameters are returned in polar (real/imaginary) format — the instrument sends interleaved real and imaginary doubles which the driver recombines into complex MATLAB arrays.
getSParams()does not trigger a sweep. Always callsweep()before reading data if you need up-to-date measurements.- The frequency string parser handles
kHz,MHz, andGHzunit suffixes from the instrument response. Responses in plain Hz are not currently handled — extendfreqStrConvertif needed. - The default TCP timeout is 10 seconds, which may need increasing for slow sweeps (e.g. high point counts or narrow IF bandwidths).
License
MIT License — see LICENSE for details.