Not available for order
- Operating frequency range: from 300 kHz to 8 GHz
- Measured parameters: S11… S44
- Impedance: 50Ω
- Number of ports: 4
- Minimum dynamic range of measurements: 145 dB
- Measurement time at one frequency: 100 μs
- Output power adjustment range: from -60 to +10 dBm/W
- Built-in computer
- Two independent signal sources
Warranty: 1 year
- Frequency Range: 10 MHz…44 GHz
- Measured Parameters: S11 ... S44
- Impedance: 50 Ω
- Number of Ports: 4
- Dynamic Range of Measurements: 135 dB typical
- Measurement Time at One Frequency: 22 µs
- Output Power Adjustment Range: from -50 to 0 dB/mW
- 19'' Rack Mountable
Warranty: 1 year
- Frequency range from 0.3 to 3200 MHz
- Measured parameters: S11, S21, S12, S22
- Dynamic range of transmission coefficient module measurement is more than 140 dB
- Minimum measurement time at one frequency: 125 µs
- Output power adjustment range from -45 dBm to +10 dBm
Warranty: 1 year
- Working frequency range: from 0.1 MHz to 9.0 GHz
- Measured parameters: S11…S44
- Impedance: 50 Ω
- Number of ports: 4
- Minimum dynamic measurement range: 160 dB type
- Measurement time at one frequency: 10 μs
- Output power range adjustment: -60…+15 dB/mW
- Expansion of device functionality is available by ordering additional options
- Possibility of direct access to receivers
- Two independent signal sources
- Possibility of rack mounting in 19''
Warranty: 3 years
- Operating frequency range: from 1 MHz to 6 GHz
- Measured parameters: S11, cable loss
- Impedance: 50Ω
- Number of ports: 1
- Dynamic range: not less than 109 dB
- Measurement time at one frequency: 100 µs
- Output power adjustment range: from -40 to 0 dBm
- Measurement of S11, |S21|, |S12|, S22 (when using 2 reflectometers)
- Connection to devices without a measuring cable
- Compact and lightweight
1 year warranty
- Frequency Range: 10 MHz…44 GHz
- Measured Parameters: S11, S21, S12, S22
- Impedance: 50 Ω
- Number of Ports: 2
- Dynamic Range of Measurements: 135 dB typical
- Measurement Time at One Frequency: 22 µs
- Output Power Adjustment Range: from -50 to 0 dB/mW
- 19'' Rack Mountable
Warranty: 1 year
Not available for ordering.
- Operating frequency range: from 300 kHz to 8 GHz
- Measured parameters: S11… S44
- Impedance: 50Ω
- Number of ports: 4
- Minimum dynamic measurement range: 145 dB
- Measurement time at one frequency: 100 µs
- Output power adjustment range from -60 to +10 dBm/W
- Two independent signal sources
Warranty: 1 year
```- Operating frequency range: from 0.1MHz to 9.0GHz
- Measured parameters: S11…S44
- Impedance: 50 Ω
- Number of ports: 4
- Minimum dynamic range: 160 dB
- Measurement time at one frequency: 10 µs
- Output power adjustment range: -60…+15 dB/mW
- Expansion of the device's functionality is available by ordering additional options
- Two independent signal sources
- Possibility of mounting in a 19'' rack
Warranty: 3 years
- Frequency Range: 0.3 to 1300 MHz
- Measured Parameters: S11, S21
- Dynamic Range of Transmission Coefficient Measurement: More than 130 dB
- Minimum Measurement Time at One Frequency: 150 µs
- Output Power Adjustment Range: from -55 dBm to +3 dBm
Warranty: 1 year
- Frequency Range: 100 kHz to 9 GHz
- Measured Parameters: S11, S21, S12, S22
- Impedance: 50 Ω
- Number of Ports: 2
- Dynamic Measurement Range, minimum: 160 dB
- Measurement Time at One Frequency: 10 µs
- Output Power Range Adjustment: -60…+15 dB/mW
- Expansion of device functionality is available by ordering additional options
- Possibility of mounting in a 19'' rack
Warranty: 3 years
```
- Frequency range from 0.3 to 1500 MHz
- Measured parameters: complex reflection coefficient S11, complex transmission coefficient S21
- Dynamic range over 130 dB
- Minimum measurement time for one frequency point: 200 µs
- Measurement paths: 50 Ohm, 75 Ohm
Warranty: 1 year
Limited quantity of devices available for order.
- Frequency range from 0.3 to 8000 MHz
- Measured parameters: S11, S21, S12, S22
- Dynamic range of transmission coefficient module measurement is over 145 dB
- Minimum measurement time at one frequency is 100 µs
- Output power adjustment range from -60 dBm to +10 dBm
- For detailed examination of software features, it is necessary to download the demo version
Warranty: 1 year
Vector network analyzers (VNA) are the most powerful in their group as they measure and display the complete set of amplitude and phase characteristics of the circuit. These parameters include S-parameters, transfer functions, amplitude and phase, standing wave ratio (SWR), inserted attenuation or gain, attenuation, group delay, reflection losses, or reflection coefficient.
The principle of operation of the network analyzer is based on the separate extraction and comparison of signals: the incident signal, passed through the device under test, and the signals reflected from the inputs of this device using directional couplers, forming voltages proportional to these signals, further digital processing, and indication of the measured values.
The device includes one or more synthesized signal probing sources, S-parameter measurement equipment, and adjustable receivers of reflected and transmitted signals through the device under study.
PLANAR offers various network analyzers with different ranges of operating frequencies, functional characteristics, and versatility necessary to solve user measurement tasks.
PLANAR vector network analyzers are available as single-port vector reflectometers as well as two- and four-port ones with a frequency range up to 110 GHz. Due to high hardware and software flexibility, PLANAR network analyzers are ideal for complex testing systems used in industrial production. Analyzers with switches located on the front panel allow configuration for solving specific measurement tasks. Direct access to the generator/receiver opens up wide possibilities for configuring external measuring equipment. For example, to improve the harmonic distortion coefficient, several filters can be connected in series, and to increase the output power, several amplifiers. Such capabilities are essential in systems for measuring the nonlinear characteristics of amplifiers, electronic switches, and modules for switching the antennas of mobile radio stations.
Using PLANAR vector network analyzers, it is possible to perform:
- Analysis and filtering in the time domain
- Measurement of device parameters with frequency conversion
- Balance measurements
- Mathematical embedding and exclusion of virtual circuits
- Measurement of frequency-converting device parameters with vector calibration
- Measurement of harmonic levels and intermodulation components
- Frequency and/or power scanning of the probing signal
- Vector calibrations for coaxial, waveguide, and microstrip paths
- Calibration using electronic calibrators
- Automation of measurements
The network analyzer is a calibrated closed system according to the "impact–response" principle, which is why the measurement of microwave characteristics is carried out with exceptional accuracy. Due to the architecture and algorithm of operation of the vector network analyzer, errors are taken into account in high-precision measurements of the amplitude and phase of signals. The small size of the error may be insignificant against the background of the measurement error of some microwave measuring instruments, however, it is significant for such a precise measuring instrument as a vector network analyzer.
Control of PLANAR vector network analyzers, depending on the configuration, can be carried out using an external personal computer with installed software or directly from the built-in computer with a touch screen and keyboard on the front panel.
A multi-channel adaptive synchronization system ensures the joint operation of PLANAR VNAs with other devices. The possibility of controlling network analyzers via SCPI commands allows integrating devices into automated control and measurement complexes.
Application area includes the production and control of RF and microwave devices and equipment, research, adjustment, and testing of nodes used in radio electronics, communications, instrumentation, and measurement technology.