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NanoVNA-F Vector Network Analyzer 10K-1500MHz 4.3" IPS Button Version Hardware V3.1 + RF Demo Kit
Version Introduction:
This version is designed with buttons to operate. And its hardware is V3.1.
Package Included:
- 1 x NanoVNA-F host 4.3 inch
- 1 x USB Type-C data cable
- 2 x 20cm SMA male to male RG316 RF cables
- 1 x SMA male calibration kit - OPEN
- 1 x SMA male calibration kit - SHORT
- 1 x SMA male calibration kit - LOAD
- 1 x SMA-JJ male to male connector
- 1 x SMA-KK female to female connector
- 1 x SMA-JKW male to female right angle connector
- 1 x Plastic box
- 1 x PCB RF tester board
- 2 x 20cm adapter cables
Know more about RF demo Kit here:
https://www.thanksbuyer.com/rf-demo-kit-nanovna-rf-tester-board-filter-attenuator-for-nanovna-f-vector-network-anaylzer-62944?search=62944
Latest 0.1.1 Firmware:
1. Add TDR feature
2. Add marker tracking feature & dynamic update of frequency and other information when the mark moves
3. Add ordinate display
4. Support to 10kHz~1.5GHz frequency
5. Some font, color, and layout optimizations
6. suggestions from groups.io/nanovna-f & facebook group members and much more, thank you for your feedback
(1) a beep to the end of each standard measurement in calibration
(2) callsign.txt expanded to more chars, not limited to call sign display, can display your phone and email address, etc.
CQ CQ CQ, This is BH5HNU, Brave Hotel Five Hotel Novemter Uniform, the original author of NanoVNA-F.
NanoVNA-F "Handheld Vector Network Analyzer" is a product based on the Open Source Project of NanoVNA(https://ttrf.tk/kit/nanovna/).
Thanks
to hugen's creative idea of use the harmonic of Si5351, We build
NanoVNA-F and expand the measure frequency up to 1GHz, which S11 still
have 40dB dynamic range At 1GHz.
Your can ask any questions about NanoVNA-F at: https://groups.io/g/nanovna-f
Or watch the Video: https://youtu.be/LwgF8JfZZaQ
NanoVNA-F hardware features include and are not limited to the following improvements:
1.
Use 4.3-inch IPS TFT LCD & resistive touch screen, with a larger
view angle and can be seen clearly in strong outdoor light.
2. Switch
to large capacity 5000mAh/3.7V lithium battery(We also provide a
battery holder, you can use the common mobile phone battery as an
alternative, which size limit < L(90mm)*W(54mm)*H(5.6mm)), standby
time is longer, and expand a USB interface. Usually, it can be used as a
power bank when the instrument is not used.
3. The Lipo Charing IC to changed to IP5306(with 2A high charing current) , make the charging time shorter.
4. Use a larger and better operating level.
5. Use a larger and better operating Power Switch.
6. Support Chinese and English menu switching;
7. Upgrade the user program by virtual U disk(16MB SPI Flash Memory Inside).
8. Standard aluminium shell to protect SMA head and reduce the interference of external electromagnetic wave to instrument.
9. Firmware are fully open source at github.com/flyoob/NanoVNA-F please star me ~~~
...
NanoVNA-F hardware block diagram:
The
NanoVNA-F measurement range is 50k-1GHz. Use the harmonic of the clock
chip SI5351 the measure frequency up to 1000MHz. At 600M-1GHz, the S11
has a dynamic range of 40dB (the standing wave ratio is less than 1.02).
The RF front end is designed with a metal shield that allows the S21 to
have a dynamic range better than 60dB over the full frequency range.
Basic performance:
● Size: 14CM * 7.5CM * 2CM (length, width and height)
● Measurement frequency: 50kHz ~ 1000MHz
● RF output: -13dbm (maximum -9dbm)
● Frequency accuracy: < 0.5ppm
● Port SWR: < 1.1
● Display: 4.3 inch IPS TFT (800x480)
● USB interface: USB Type-C communication mode: CDC (serial)
● Power consumption: USB 5V 200mA, built-in 5000mAh/3.7V battery, theoretical battery life 18 hours, maximum charging current 2A
● Output capacity: 5V/1A, support for Android, Apple mobile phone
● Number of calibration points: 101
● Number of scanning points: 101
● Display Tracking: 4, Marking: 4, Setting Save: 5
● Scanning time: about 1.9s/1 times (50kHz ~ 1000MHz full frequency band)
Can measure S parameters, voltage standing wave ratio SWR, phase map, group delay, Smith chart...
Original 19.0Wh (about 5000mAh/3.7V after conversion) large capacity lithium battery
Designing
a metal shield for the RF front end, allowing the S21 to have a dynamic
range better than 60dB over the full frequency range.
Power Bank function 5V/1A, support for Android, Apple mobile phone
Open
Coaxial Cable Length Measure (You can follow the method. The analyzer
pictured is not our product, for demonstration purpose only.):
1. NanoVNA-F S11 parameters, SWR standing wave ratio measure:
UV9D-Plus
antenna UHF standing wave ratio measurement, starting frequency: 300M,
stop frequency: 600M, the green curve in the figure below is the
standing wave ratio, the lowest frequency of the standing wave is at
444.000000MHz, SWR=1.03. (The analyzer pictured is not our product, for
demonstration purpose only.)
UV9D-Plus
antenna interface is an SMA standard male (internal screw) that can be
directly connected to the instrument or connected via the included SMA
elbow for easy testing. (The analyzer pictured is not our product, for
demonstration purpose only.)
Baofeng
UV-5R VHF antenna VSWR measurement, the antenna interface is SMA
standard female, can be connected to the instrument through the attached
SMA-JJ adapter. The lowest point of the standing wave is 134.200000MHz,
SWR=1.68. (The analyzer pictured is not our product, for demonstration
purpose only.)
2. S21 insertion loss measurement, low pass, high pass, band pass filter measurement
Measuring 6.5M Ceramic Notch with NanoVNA-F
Measuring 10.7M ceramic filter using NanoVNA-F
A self-made low-pass filter was measured using the NanoVNA-F with a 3dB bandwidth of approximately 400MHz.
3. Performance indicators comparison, Keysight E5071C four-port vVector network analyzer vs NanoVNA-F
R433 Surface-Acoustic-Wave Resonator Measurement Comparison,
Right click to open the original picture.
The actual frequency response curve in the Surface-Acoustic-Wave Resonator data sheet:
The
real measurement result of NanoVNA-F, the blue curve is S21, and the
transmission measurement (insertion loss). (The analyzer pictured is not
our product, for demonstration purpose only.)
LoRa U Band duplexer measure comparison, RX: 480M TX: 505M NanoVNA-F
S11 U Band duplexer data comparison, E5071C(501 points) vs NanoVNA-F(101 points), import to Matlab.
NanoVNA-F 's Data is interpolated.
S21 U Band duplexer data comparison, E5071C(501 points) vs NanoVNA-F(101 points), import to Matlab.
NanoVNA-F 's Data is interpolated.
It can be seen that after calibration, NanoVNA-F can get good measurement results.
4. About PC control software
After Firmware v0.0.3, NanoVNA-F support PC control softwares build for NanoVNA.
NanoVNASharp v1.0.3(by Hugen)
nanoVNA_mod_v2(by alex_m)
nanovna-saver(by Rune B. Broberg)
Right click to open the original picture.
5. NanoVNA-F Menu Structure Quick start guide
Right click to open the original picture.