The 1-Port VNAs (cable and antenna analyzers) perform lab quality measurements connecting directly to the DUT without the need for a test cable, resulting in increased accuracy and quality of VNA measurements, specifi cally in cable and antenna analysis. In 2016 we were granted a US patent for Measurement Module of Virtual Vector Network Analyzer number US 9,291,657 for this innovation.
Due to their measurement accuracy, ultra-compact size and elimination of a test cable Copper Mountain Technologies' cable and antenna analyzers (refl ectometers) provide a wide variety of analysis capabilities and are ideal for use by specialists working with antennas and antenna feeders in the fi eld, as well as laboratory and production testing in a wide variety of industries including design and production of various IoT hardware components, materials testing, medical devices, aerospace applications, etc.
Copper Mountain Technologies' USB VNAs are next generation analyzers designed to meet the needs of 21st Century engineers. Our VNAs include an RF measurement module and a processing module, a software application which runs on a Windows PC, laptop or tablet, connecting to the measurement hardware via its USB interface.
This innovative approach delivers high measurement accuracy and enables users to take advantage of faster processors, newer computers and larger displays. USB VNAs have a lower Total Cost of Ownership and fewer potential failure points.
These instruments are smaller and lighter, can go almost anywhere, are very easy to share and eliminate the need for data purging or hard drive removal in secure environments.
The software application takes raw measurement data from the data acquisition (measurement) module and recalculates into S-parameters in multiple presentation formats utilizing proprietary algorithms. These new and advanced calibration and other accuracy enhancing algorithms were developed by our metrology experts. Our software can be downloaded free from our website, used on an unlimited number of PCs using either Linux or Windows operating systems, and enables easy VNA integration with other software applications and automation.
The software application features a fully functioning Demo Mode, which can be used for exploring VNAs; features and capabilities without an actual measurement module connected to your PC. States may be saved in RVNA directories by default and the two buttons on the top left of the RVNA screen can be used to save an unlimited amount of states to any directory on your PC.
S11, cable loss
Up to 4 independent logical channels. Each logical channel is represented on the screen as an individual channel window. A logical channel is defi ned by such stimulus signal settings as frequency range, number of test points, etc.
Multiple data traces can be displayed in each channel window. A data trace represents one parameter of the DUT such as magnitude and phase of S11, time domain, cable loss.
Each of the multiple data traces can be saved into memory for further comparison with current values.
SWR, Return loss, Cable loss, Phase, Expand phase, Smith chart diagram, polar diagram, Group delay, Lin Magnitude
CMT 1-Port VNAs can measure return loss as low as 35 dB, across the full frequency range of each instrument. Consult the specifi cations of each instrument for more detail.
Pictured right: R60 testing in the entire frequency range of 85 MHz to 6 GHz, the return loss is shown at 35 dB
Typical dynamic range using two or more 1-Port VNAs is as high as 100 dB, depending on frequency and model. Consult the specifi cations of each instrument for more information.
Linear frequency sweep, logarithmic frequency sweep, and segment frequency sweep.
Set by the user from 2 to at least 100,001 (varies by model; consult the specifi cations of each instrument for more detail).
A frequency sweep within several independent user-defi ned segments. Frequency range, number of sweep points and IF bandwidth should be set for each segment.
Output power of every 1-Port VNA is adjustable. Typical output power and adjustment steps vary by model. Consult the specifi cations of each instrument for more detail.
Trigger modes: continuous, single, or hold.
Trigger sources: internal, bus.
Data trace, memory trace, or simultaneous indication of data and memory traces.
Data trace modification by math operations: addition, subtraction, multiplication or division of measured complex values and memory data.
The program allows the user to load a Touchstone fi le (*.s1p and *.s2p) into data memory.
Automatic selection of scale division and reference level value to have the trace most effectively displayed.
Calibration plane moving to compensate for the delay in test setup. Compensation for electrical delay in a DUT during measurements of deviation from linear phase.
Defined in degrees.
Parameters / Characteristics | Specifications | ||||||
---|---|---|---|---|---|---|---|
R60 | R140B | R180 | |||||
Frequency Range | 1 MHz - 6 GHz | 85 MHz - 14 GHz | 1 MHz - 18 GHz | ||||
Measured Parameters | S11 as Log Magnitude, DTF, Smith and more | S11 as Log Magnitude, DTF, Smith and more | S11 as Log Magnitude, DTF, Smith and more | ||||
Sweep Types | Linear Frequency, log frequency, segment | Linear Frequency, log frequency, segment | Linear Frequency, log frequency, segment | ||||
Effective Directivity | 46 dB (1 MHz - 6 GHz) | 45 dB (85 MHz - 4.8 GHz) 42 dB (4.8 GHz - 14 GHz) |
42 dB (1 MHz - 18 GHz) | ||||
Measurement Time Per Point | 100 μs | 170 μs | 100 μs | ||||
Measurement Point Per Sweep | up to 100,001 | up to 100,001 | up to 100,001 |
Checking with Copper Mountain Technologies...
Model Number | Frequency Range | Measured Parameters | Sweep Types | Measurement Time Per Point | Measurement Point Per Sweep |
---|---|---|---|---|---|
1-port Economy Vector Network Analyzer | 1 MHz - 18 GHz | S11 as Log Magnitude, DTF, Smith and more | Linear Frequency, log frequency, segment | 100 µs - 170 µs | up to 100,001 |
M Series 2-port Economy Vector Network Analyzer | 300 kHz - 18 GHz | S11, S21, S12, S22 | Linear frequency, log frequency, segment, power sweep | - | up to 200,001 |
S Series 2-port Vector Network Analyzer with TDR | 9 kHz to 44 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 200,001 |
SC Series 2-port Lab GradeVector Network Analyzer | 100 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 500,001 |
Multi-port Vector Network Analyzer | 300 kHz - 9 GHz | All S-parameter | Linear Frequency, log frequency, segment, power sweep | 24 µs per point, min typ | 2 to 500,001 |
Cobalt Series 2 and 4-port Vector Network Analyzer | 100kHz - 20 GHz | - | - | 10 µs per point, min typ. | - |
TR Series Compact Vector Network Analyzer | 300 kHz - 1.3 GHz | S11, S21 | Linear Frequency, log frequency, segment, power sweep | - | up to 16,001 |
PXIe-S5090 2-Port 9 GHz Vector Network Analyzer | 300 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | 500,001 |
Note: All trademarks that appear on this website are the property of their respective owners.
M Series VNAs deliver metrology-grade performance in a more economical package that excludes a number of advanced features: Vector Mixer Calibration, TRL Calibration, Frequency Offset, Time Domain, and Gating. These Vector Network Analyzers are small, can be powered by battery, and are ideal for use in laboratory and production testing in a variety of applications including filter tuning, antenna test and characterization, amplifier testing, etc.
Copper Mountain Technologies' USB VNAs are next generation analyzers designed to meet the needs of 21st Century engineers. Our VNAs include an RF measurement module and a processing module, a software application which runs on a Windows or Linux PC, laptop, or tablet, connecting to the measurement hardware via USB interface.
This innovative approach delivers high measurement accuracy and enables users to take advantage of faster processors, newer computers and larger displays. USB VNAs have lower Total Cost of Ownership and fewer potential failure points. These instruments are smaller and lighter, can go almost anywhere, are very easy to share and eliminate the need for data purging or hard drive removal in secure environments
The software application takes raw measurement data from the data acquisition (measurement) module and recalculates into S-parameters in multiple presentation formats utilizing proprietary algorithms. These new and advanced calibration and other accuracy enhancing algorithms were developed by our metrology experts. Our software can be downloaded free from our website, used on an unlimited number of PCs using either Linux or Windows operating systems, and enables easy VNA integration with other software applications and automation.
The software application features a fully functioning Demo Mode, which can be used for exploring VNAs; features and capabilities without an actual measurement module connected to your PC.
S11, S21, S12, S22
All models also measure absolute power of the reference and received signals at the port.
Up to 16 independent logical channels: each logical channel is represented on the screen as an individual channel window. A logical channel is defined by such stimulus signal settings as frequency range, number of test points, or power level.
Up to 16 data traces can be displayed in each channel window. A data trace represents one of such parameters of the DUT as S-parameters, response in time domain, or input power response.
Each of the 16 data traces can be saved into memory for further comparison with the current values.
Logarithmic magnitude, linear magnitude, phase, expanded phase, group delay, SWR, real part, imaginary part, Smith chart diagram and polar diagram display formats are available.
Typical dynamic range of 130 dB is achieved from 300 kHz through the top of the frequency range (at 10 Hz IF bandwidth). Seen here is the maximum dynamic range achieved when using 10 Hz IFBW and an output power of +5 dBm.
Linear frequency sweep and logarithmic frequency sweep are performed with fixed output power. Linear power sweep is a fixed frequency.
Set by the user from 2 to 200,001.
A frequency sweep within several independent user-defined segments. Frequency range, number of sweep points, source power, and IF bandwidth can be set for each segment.
Source power from -55 dBm to +5 dBm* with a resolution of 0.05 dB. In frequency sweep mode power slope can be set up to 2 dB/GHz to compensate for high frequency attentuation in fixture cables.
Trigger modes: continuous, single, or hold.
Trigger sources: internal, manual, external, bus.
Data trace, memory trace, or simultaneous indication of data and memory traces.
Data trace modification by math operations: addition, subtraction, multiplication or division of measured complex values and memory data.
Automatic selection of scale division and reference level value to have the trace most effectively displayed.
Calibration plane moving to compensate for the delay in the test setup, or for compensation of electrical delay in the device under test (DUT) during measurements phase deviation.
Defined in degrees.
Parameters / Characteristics | Specifications | |||||||
---|---|---|---|---|---|---|---|---|
M5045 | M5065 | M5090 | M5180 | |||||
Frequency Range | 300 kHz to 4.5 GHz | 300 kHz to 6.5 GHz | 300 kHz to 9 GHz | 300 kHz to 18 GHz | ||||
Measured Parameters | S11, S21, S12, S22 | S11, S21, S12, S22 | S11, S21, S12, S22 | S11, S21, S12, S22 | ||||
Sweep Types | Linear frequency, log frequency, segment, power sweep | Linear frequency, log frequency, segment, power sweep | Linear frequency, log frequency, segment, power sweep | Linear frequency, log frequency, segment, power sweep | ||||
Dynamic Range | 130 dB, typ. | 130 dB, typ. | 130 dB, typ. | 135 dB, typ. | ||||
Measurement Speed | 70 µs | 70 µs | 70 µs | 30 µs | ||||
Output Power Adjustment Range | -55 dBm to +5 dBm | -55 dBm to +5 dBm | -55 dBm to +5 dBm | -40 dBm to +10 dBm | ||||
Measurement Point Per Sweep | up to 200,001 | up to 200,001 | up to 200,001 | up to 200,001 |
Checking with Copper Mountain Technologies...
Model Number | Frequency Range | Measured Parameters | Sweep Types | Measurement Time Per Point | Measurement Point Per Sweep |
---|---|---|---|---|---|
1-port Economy Vector Network Analyzer | 1 MHz - 18 GHz | S11 as Log Magnitude, DTF, Smith and more | Linear Frequency, log frequency, segment | 100 µs - 170 µs | up to 100,001 |
M Series 2-port Economy Vector Network Analyzer | 300 kHz - 18 GHz | S11, S21, S12, S22 | Linear frequency, log frequency, segment, power sweep | - | up to 200,001 |
S Series 2-port Vector Network Analyzer with TDR | 9 kHz to 44 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 200,001 |
SC Series 2-port Lab GradeVector Network Analyzer | 100 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 500,001 |
Multi-port Vector Network Analyzer | 300 kHz - 9 GHz | All S-parameter | Linear Frequency, log frequency, segment, power sweep | 24 µs per point, min typ | 2 to 500,001 |
Cobalt Series 2 and 4-port Vector Network Analyzer | 100kHz - 20 GHz | - | - | 10 µs per point, min typ. | - |
TR Series Compact Vector Network Analyzer | 300 kHz - 1.3 GHz | S11, S21 | Linear Frequency, log frequency, segment, power sweep | - | up to 16,001 |
PXIe-S5090 2-Port 9 GHz Vector Network Analyzer | 300 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | 500,001 |
Note: All trademarks that appear on this website are the property of their respective owners.
Our Compact Series VNAs deliver lab grade performance in a compact package, with all the features engineers have come to expect included: time domain and gating conversion, segmented frequency sweeps, linear/logarithmic sweeps, power sweeps, multiple trace formats, 16 channels max. with up to 16 traces each, marker math, and limit tests.
Versatile and portable Copper Mountain Technologies' Compact analyzers can be powered by battery and are ideal for use by specialists working in the field, as well as laboratory and production testing in a wide variety of industries including design and production of RF components, cable CPEs, medical devices, aerospace, etc.
Copper Mountain Technologies' USB VNAs are next generation analyzers designed to meet the needs of 21st Century engineers. Our VNAs include an RF measurement module and a processing module, a software application which runs on a Windows or Linux PC, laptop, or tablet, connecting to the measurement hardware via USB interface.
This innovative approach delivers high measurement accuracy and enables users to take advantage of faster processors, newer computers and larger displays. USB VNAs have lower Total Cost of Ownership and fewer potential failure points.
These instruments are smaller and lighter, can go almost anywhere, are very easy to share and eliminate the need for data purging or hard drive removal in secure environments.
The software application takes raw measurement data from the data acquisition (measurement) module and recalculates into S-parameters in multiple presentation formats utilizing proprietary algorithms. These new and advanced calibration and other accuracy enhancing algorithms were developed by our metrology experts. Our software can be downloaded free from our website, used on an unlimited number of PCs using either Linux or Windows operating systems, and enables easy VNA integration with other software applications and automation.
The software application features a fully functioning Demo Mode, which can be used for exploring the VNAs' features and capabilities without an actual measurement module connected to your PC.
S11, S21, S12, S22. All models also measure absolute power of the reference and received signals at the port.
Up to 16 independent logical channels: each logical channel is represented on the screen as an individual channel window. A logical channel is defined by such stimulus signal settings as frequency range, number of test points, or power level.
Up to 16 data traces can be displayed in each channel window. A data trace represents one of such parameters of the DUT as S-parameters, response in time domain, or input power response.
Typical dynamic range of 125 dB is achieved from 300 kHz through the top of the frequency range (at 10 Hz IF bandwidth). Seen here is the maximum dynamic range achieved when using IFBW 1 Hz and an output power level of 5 dBm.
Linear frequency sweep and logarithmic frequency sweep are performed with fixed output power. Linear power sweep is a fixed frequency.
Set by the user from 2 to 200,001 or 500,001, depending on the model.
A frequency sweep within several independent user-defined segments. Frequency range, number of sweep points, source power, and IF bandwidth can be set for each segment.
Source power from -50 dBm to +5 dBm* with a resolution of 0.05 dB. In frequency sweep mode power slope can be set up to 2 dB/GHz to compensate for high frequency attentuation in fixture cables
Trigger modes: continuous, single, or hold.
Trigger sources: internal, manual, external bus.
Data trace, memory trace, or simultaneous indication of data and memory traces.
Data trace modification by math operations: addition, subtraction, multiplication or division of measured complex values and memory data
Automatic selection of scale division and reference level value to have the trace most effectively displayed.
Calibration plane moving to compensate for the delay in the test setup, or for compensation of electrical delay in the device under test (DUT) during measurements phase deviation.
Defined in degrees.
Parameters / Characteristics | Specifications | |||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
S5180B | S5243 | S7530 (replaced by SC7540) | ||||||||||
Frequency Range | 100 kHz to 18 GHz | 10 MHz to 44 GHz | 20 kHz to 3 GHz | |||||||||
Measured Parameters | S11, S21, S12, S22 | S11, S21, S12, S22 | S11, S21, S12, S22 | |||||||||
Sweep Types | Linear Frequency, log frequency, segment, power sweep | Linear Frequency, log frequency, segment, power sweep | Linear Frequency, log frequency, segment, power sweep | |||||||||
Dynamic Range | >130 dB typ. (10- Hz IF BW) | >135 dB typ. (10 Hz IF BW) | 120 dB typ. (10 Hz IF BW) | |||||||||
Measurement Speed | 24 μs typ. | 22 μs | 250 μs | |||||||||
Output Power Adjustment Range | -45 dBm to +10 dBm | -50 dBm to 0 dBm | -50 dBm to +5 dBm | |||||||||
Measurement Point Per Sweep | up to 200,001 | up to 500,001 | up to 200,001 |
Checking with Copper Mountain Technologies...
Model Number | Frequency Range | Measured Parameters | Sweep Types | Measurement Time Per Point | Measurement Point Per Sweep |
---|---|---|---|---|---|
1-port Economy Vector Network Analyzer | 1 MHz - 18 GHz | S11 as Log Magnitude, DTF, Smith and more | Linear Frequency, log frequency, segment | 100 µs - 170 µs | up to 100,001 |
M Series 2-port Economy Vector Network Analyzer | 300 kHz - 18 GHz | S11, S21, S12, S22 | Linear frequency, log frequency, segment, power sweep | - | up to 200,001 |
S Series 2-port Vector Network Analyzer with TDR | 9 kHz to 44 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 200,001 |
SC Series 2-port Lab GradeVector Network Analyzer | 100 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 500,001 |
Multi-port Vector Network Analyzer | 300 kHz - 9 GHz | All S-parameter | Linear Frequency, log frequency, segment, power sweep | 24 µs per point, min typ | 2 to 500,001 |
Cobalt Series 2 and 4-port Vector Network Analyzer | 100kHz - 20 GHz | - | - | 10 µs per point, min typ. | - |
TR Series Compact Vector Network Analyzer | 300 kHz - 1.3 GHz | S11, S21 | Linear Frequency, log frequency, segment, power sweep | - | up to 16,001 |
PXIe-S5090 2-Port 9 GHz Vector Network Analyzer | 300 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | 500,001 |
Note: All trademarks that appear on this website are the property of their respective owners.
Our SC Series Compact VNAs deliver a small lab grade VNA with higher speed, more dynamic range, and higher output power, with all the features engineers have come to expect included: time domain and gating conversion, segmented frequency sweeps, linear/logarithmic sweeps, power sweeps, multiple trace formats, 16 channels max. with up to 16 traces each, marker math, and limit tests.
Versatile and portable Copper Mountain Technologies' SC Series analyzers can be powered by battery and are ideal for use by specialists working in the field, as well as laboratory and production testing in a wide variety of industries including design and production of RF components, cable CPEs, medical devices, aerospace, etc.
Copper Mountain Technologies' USB VNAs are next generation analyzers designed to meet the needs of 21st Century engineers. Our VNAs include an RF measurement module and a processing module, a software application which runs on a Windows or Linux PC, laptop, or tablet, connecting to the measurement hardware via USB interface.
This innovative approach delivers high measurement accuracy and enables users to take advantage of faster processors, newer computers and larger displays. USB VNAs have lower Total Cost of Ownership and fewer potential failure points.
These instruments are smaller and lighter, can go almost anywhere, are very easy to share and eliminate the need for data purging or hard drive removal in secure environments
The software application takes raw measurement data from the data acquisition (measurement) module and recalculates into S-parameters in multiple presentation formats utilizing proprietary algorithms. These new and advanced calibration and other accuracy enhancing algorithms were developed by our metrology experts. Our software can be downloaded free from our website, used on an unlimited number of PCs using either Linux or Windows operating systems, and enables easy VNA integration with other software applications and automation.
The software application features a fully functioning Demo Mode, which can be used for exploring VNAs' features and capabilities without an actual measurement module connected to your PC.
S11, S21, S12, S22. All models also measure absolute power of the reference and received signals at the port.
Up to 16 independent logical channels: each logical channel is represented on the screen as an individual channel window. A logical channel is defined by such stimulus signal settings as frequency range, number of test points, or power level.
Up to 16 data traces can be displayed in each channel window. A data trace represents one of such parameters of the DUT as S-parameters, response in time domain, or input power response.
Each of the 16 data traces can be saved into memory for further comparison with the current values.
Logarithmic magnitude, linear magnitude, phase, expanded phase, group delay, SWR, real part, imaginary part, Smith chart diagram and polar diagram display formats are available.
Typical dynamic range of 140 dB is achieved from 5 MHz to 6.5 GHz (at 10 Hz IF bandwidth).
Linear frequency sweep and logarithmic frequency sweep are performed with fixed output power. Linear power sweep is a fixed frequency.
Set by the user from 2 to 500,001.
A frequency sweep within several independent user-defined segments. Frequency range, number of sweep points, source power, and IF bandwidth can be set for each segment.
Source power from -45 dBm to +15 dBm with a resolution of 0.05 dB. In frequency sweep mode power slope can be set up to 2 dB/GHz to compensate for high frequency attentuation in fixture cables.
Trigger modes: continuous, single, or hold.
Trigger sources: internal, manual, external, bus.
Data trace, memory trace, or simultaneous indication of data and memory traces.
Data trace modification by math operations: addition, subtraction, multiplication or division of measured complex values and memory data
Automatic selection of scale division and reference level value to have the trace most effectively displayed.
Calibration plane moving to compensate for the delay in the test setup, or for compensation of electrical delay in the device under test (DUT) during measurements phase deviation
Defined in degrees.
Parameters / Characteristics | Specifications | ||||||
---|---|---|---|---|---|---|---|
SC5065 | SC5090 | SC7540 | |||||
Frequency Range | 300 kHz - 6.5 GHz | 300 kHz - 9 GHz | 100 kHz - 4 GHz | ||||
Measured Parameters | S11, S21, S12, S22 | S11, S21, S12, S22 | S11, S21, S12, S22 | ||||
Sweep Types | Linear Frequency, log frequency, segment, power sweep | Linear Frequency, log frequency, segment, power sweep | Linear Frequency, log frequency, segment, power sweep | ||||
Dynamic Range | 140 dB typ. (10 Hz IF BW) | 140 dB typ. (10 Hz IF BW) | 133 dB typ. (10 Hz IF BW) | ||||
Measurement Speed | 16 μs | 16 μs | 24 μs | ||||
Output Power Adjustment Range | -45 dBm to +15dBm | -45 dBm to +15dBm | -50 dBm to +10dBm | ||||
Measurement Point Per Sweep | up to 500,001 | up to 500,001 | up to 200,001 |
Checking with Copper Mountain Technologies...
Model Number | Frequency Range | Measured Parameters | Sweep Types | Measurement Time Per Point | Measurement Point Per Sweep |
---|---|---|---|---|---|
1-port Economy Vector Network Analyzer | 1 MHz - 18 GHz | S11 as Log Magnitude, DTF, Smith and more | Linear Frequency, log frequency, segment | 100 µs - 170 µs | up to 100,001 |
M Series 2-port Economy Vector Network Analyzer | 300 kHz - 18 GHz | S11, S21, S12, S22 | Linear frequency, log frequency, segment, power sweep | - | up to 200,001 |
S Series 2-port Vector Network Analyzer with TDR | 9 kHz to 44 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 200,001 |
SC Series 2-port Lab GradeVector Network Analyzer | 100 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 500,001 |
Multi-port Vector Network Analyzer | 300 kHz - 9 GHz | All S-parameter | Linear Frequency, log frequency, segment, power sweep | 24 µs per point, min typ | 2 to 500,001 |
Cobalt Series 2 and 4-port Vector Network Analyzer | 100kHz - 20 GHz | - | - | 10 µs per point, min typ. | - |
TR Series Compact Vector Network Analyzer | 300 kHz - 1.3 GHz | S11, S21 | Linear Frequency, log frequency, segment, power sweep | - | up to 16,001 |
PXIe-S5090 2-Port 9 GHz Vector Network Analyzer | 300 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | 500,001 |
Note: All trademarks that appear on this website are the property of their respective owners.
SN09xx Multiport VNA is a competitively priced, versatile multiport solution with excellent dynamic range and measurement speed. There are additional models available in 8-, 10-, 12-, 14-, and 16-port configurations.
SN09xx VNAs are an organic extension of the Compact VNA family, enabling the full complexity of VNA measurements, a streamlined calibration process, and reduced test times. The SN09xx hardware can fit a 19" rack and utilizes robust, durable port connectors with ergonomic positioning for simplified cable connection. SN09xx features CMT's next-generation software that delivers an intuitive and contemporary user interface compatible with both Linux and Windows OS.
VNAs are delivered with factory calibration certificates containing no data. The add-on option for ISO17025/Z540-1 Accredited, Traceable Calibration Certificate and Uncertainties is available and needs to be specified at time of order.
Parameters / Characteristics | Specifications | |||
---|---|---|---|---|
Frequency Range | 300 kHz - 9 GHz | |||
Measured Parameters | All S-parameter | |||
Sweep Types | Linear Frequency, log frequency, segment, power sweep | |||
Dynamic range | 140 dB typ (10 Hz IFBW) | |||
Measurement Time Per Point | 24 μs per point, min typ | |||
Measurement Point Per Sweep | 2 to 500,001 | |||
Output power adjustment range | -45 dBm to +10 dBm |
Checking with Copper Mountain Technologies...
Model Number | Frequency Range | Measured Parameters | Sweep Types | Measurement Time Per Point | Measurement Point Per Sweep |
---|---|---|---|---|---|
1-port Economy Vector Network Analyzer | 1 MHz - 18 GHz | S11 as Log Magnitude, DTF, Smith and more | Linear Frequency, log frequency, segment | 100 µs - 170 µs | up to 100,001 |
M Series 2-port Economy Vector Network Analyzer | 300 kHz - 18 GHz | S11, S21, S12, S22 | Linear frequency, log frequency, segment, power sweep | - | up to 200,001 |
S Series 2-port Vector Network Analyzer with TDR | 9 kHz to 44 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 200,001 |
SC Series 2-port Lab GradeVector Network Analyzer | 100 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 500,001 |
Multi-port Vector Network Analyzer | 300 kHz - 9 GHz | All S-parameter | Linear Frequency, log frequency, segment, power sweep | 24 µs per point, min typ | 2 to 500,001 |
Cobalt Series 2 and 4-port Vector Network Analyzer | 100kHz - 20 GHz | - | - | 10 µs per point, min typ. | - |
TR Series Compact Vector Network Analyzer | 300 kHz - 1.3 GHz | S11, S21 | Linear Frequency, log frequency, segment, power sweep | - | up to 16,001 |
PXIe-S5090 2-Port 9 GHz Vector Network Analyzer | 300 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | 500,001 |
Note: All trademarks that appear on this website are the property of their respective owners.
The Cobalt 9 GHz Product Series of high-performance vector network analyzers offers an unmatched price-performance combination for S-parameter measurement between 100 kHz and 9 GHz and incorporates multiple technological innovations.
Advanced electromagnetic modeling was used to optimize the 9 GHz Cobalt's ultra-wideband directional coupler design. Because we incorporated new production methods for precision, these directional couplers have extraordinary stability, both over temperature and over very long intervals of time. Cobalt's hybrid dual-core DSP+FPGA signal processing engine, combined with new frequency synthesizer technologies, propel Cobalt's measurement speed to among the most advanced instruments in the industry, and well past the achievements of any cost-competitive products.
Copper Mountain Technologies' USB VNAs are next generation analyzers designed to meet the needs of 21st Century engineers. Our VNAs include an RF measurement module and a processing module, a software application which runs on a Windows or Linux PC, laptop, or tablet, connecting to the measurement hardware via USB interface.
This innovative approach delivers high measurement accuracy and enables users to take advantage of faster processors, newer computers and larger displays. USB VNAs have lower Total Cost of Ownership and fewer potential failure points.
These instruments are smaller and lighter, can go almost anywhere, are very easy to share and eliminate the need for data purging or hard drive removal in secure environments.
The software application takes raw measurement data from the data acquisition (measurement) module and recalculates into S-parameters in multiple presentation formats utilizing proprietary algorithms. These new and advanced calibration and other accuracy enhancing algorithms were developed by our metrology experts. Our software can be downloaded free from our website, used on an unlimited number of PCs using either Linux or Windows operating systems, and enables easy VNA integration with other software applications and automation.
The software application features a fully functioning Demo Mode, which can be used for exploring the VNAs' features and capabilities without an actual measurement module connected to your PC.
S11, S21, S12, S22 for the 2-port models and S11...
S44 for the 4-port models, and absolute power of reference and received signals at the port.
Up to 16 independent logical channels: each logical channel is represented on the screen as an individual channel window. A logical channel is defi ned by such stimulus signal settings as frequency range, number of test points, or power level.
Up to 16 data traces can be displayed in each channel window. A data trace represents one of the DUT parameters, including S-parameters, response in time domain, or input power response.
Each of the 16 data traces can be saved into memory for further comparison with the current values.
Logarithmic magnitude, linear magnitude, phase, expanded phase, group delay, SWR, real part, imaginary part, Smith chart diagram and polar diagram display formats are available
Cobalt's combination of a wide dynamic range and high measurement speed make it an ideal VNA for measuring and tuning high performance fi lters.
Cobalt VNAs have more than 152 dB dynamic range at 10 Hz IFBW, which allows them to maintain a wide measurement range at high measurement speeds. Measurement of all S-parameters of a BTS fi lter with full two-port and 801 measurement points with 1 MHz IFBW takes only 17.5ms while maintaining a measurement range of over 100 dB. This time is almost completely determined by the IFBW of the VNA. This measurement speed allows for real time tuning of high isolation BTS fi lters.
The 152 dB dynamic range of Cobalt VNAs combined with high measurement speed per point allows measurement of SAW fi lters' S-parameters with full 2-port calibration and 1601 measurement points in less than 32 ms while still maintaining more than 100 dB measurement range (IFBW at 1 MHz). This measurement speed corresponds to the performance of the most advanced handlers used for automatic verifi cation of mass-produced SAW fi lters
Linear frequency sweep and logarithmic frequency sweep are performed with fixed output power. Linear power sweep is a fixed frequency
Set by the user from 2 to at least 500,001.
A frequency sweep within several independent user-defined segments. Frequency range, number of sweep points, source power, and IF bandwidth can be set for each segment.
Source power from -60 dBm to +15 dBm with a resolution of 0.05 dB. In frequency sweep mode power slope can be set up to 2 dB/GHz to compensate for high frequency attentuation in fi xture cables.
Trigger modes: continuous, single, or hold.
Trigger sources: internal, manual, external, bus.
Data trace, memory trace, or simultaneous indication of data and memory traces.
Data trace modification by math operations: addition, subtraction, multiplication or division of measured complex values and memory data.
Automatic selection of scale division and reference level value to have the trace most effectively displayed.
Calibration plane moving to compensate for the delay in the test setup, or for compensation of electrical delay in the device under test (DUT) during measurements phase deviation.
Defined in degrees.
Parameters / Characteristics | Specifications | ||||
---|---|---|---|---|---|
Cobalt Series: 9 GHz | Cobalt Series: 20 GHz | ||||
Frequency Range | 100kHz - 9 GHz | 100kHz - 20 GHz | |||
Wide output power range | -60 dBm to +15 dBm | -60 dBm to +10 dBm | |||
Dynamic range | 152 dB (10 Hz IF bandwidth) typ. | 135 dB (10 Hz IF bandwidth) typ. | |||
Measurement time per point | 10 µs per point, min typ. | 12 µs per point, min typ. | |||
General |
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Model Number | Frequency Range | Measured Parameters | Sweep Types | Measurement Time Per Point | Measurement Point Per Sweep |
---|---|---|---|---|---|
1-port Economy Vector Network Analyzer | 1 MHz - 18 GHz | S11 as Log Magnitude, DTF, Smith and more | Linear Frequency, log frequency, segment | 100 µs - 170 µs | up to 100,001 |
M Series 2-port Economy Vector Network Analyzer | 300 kHz - 18 GHz | S11, S21, S12, S22 | Linear frequency, log frequency, segment, power sweep | - | up to 200,001 |
S Series 2-port Vector Network Analyzer with TDR | 9 kHz to 44 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 200,001 |
SC Series 2-port Lab GradeVector Network Analyzer | 100 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 500,001 |
Multi-port Vector Network Analyzer | 300 kHz - 9 GHz | All S-parameter | Linear Frequency, log frequency, segment, power sweep | 24 µs per point, min typ | 2 to 500,001 |
Cobalt Series 2 and 4-port Vector Network Analyzer | 100kHz - 20 GHz | - | - | 10 µs per point, min typ. | - |
TR Series Compact Vector Network Analyzer | 300 kHz - 1.3 GHz | S11, S21 | Linear Frequency, log frequency, segment, power sweep | - | up to 16,001 |
PXIe-S5090 2-Port 9 GHz Vector Network Analyzer | 300 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | 500,001 |
Note: All trademarks that appear on this website are the property of their respective owners.
The TR1300/1 Vector Network Analyzer delivers lab grade performance in a compact package, with all the features engineers have come to expect included standard in our software.
This portable 1.5 kg/53 oz. vector network analyzer can be battery powered and used in the field, in the laboratory, and in production testing. The VNA can be integrated into a production test system via Manufacturing Test plug-in.
TR1300/1 VNA includes an RF measurement module and TR software application which runs on Windows or Linux operating system on a PC, laptop, tablet, or x86 board computer connecting to the measurement hardware via USB interface. TR software can be installed on multiple computers, making it easy to share the use of the analyzer measurement module.
VNAs and ACMs are delivered with factory calibration certificates containing no data. The add-on option for ISO17025/Z540-1 Accredited, Traceable Calibration Certificate and Uncertainties is available and needs to be specified at time of order.
The software application takes raw measurement data from the data acquisition (measurement) module and recalculates into S-parameters in multiple presentation formats utilizing proprietary algorithms. These new and advanced calibration and other accuracy enhancing algorithms were developed by our metrology experts. Our software can be downloaded free from our website, used on an unlimited number of PCs using either Linux or Windows operating systems, and enables easy VNA integration with other software applications and automation.
The software application features a fully functioning Demo Mode, which can be used for exploring VNAs; features and capabilities without an actual measurement module connected to your PC.
S11, S21,
All models also measure absolute power of the reference and received signals at the port.
Up to 9 independent logical channels: each logical channel is represented on the screen as an individual channel window. A logical channel is defined by such stimulus signal settings as frequency range, number of test points, or power level.
Up to 8 data traces can be displayed in each channel window. A data trace represents one of such parameters of the DUT as S-parameters, response in time domain, or input power response.
Each of the 8 data traces can be saved into memory for further comparison with the current values.
Logarithmic magnitude, linear magnitude, phase, expanded phase, group delay, SWR, real part, imaginary part, Smith chart diagram and polar diagram display formats are available.
Typical dynamic range of 135 dB typ. is achieved from 300 kHz through the top of the frequency range (at 10 Hz IF bandwidth). Seen here is the maximum dynamic range achieved when using IFBW 10 Hz and an output power level of 3 dBm.
Linear frequency sweep and logarithmic frequency sweep are performed with fixed output power. Linear power sweep is a fixed frequency.
Set by the user from 2 to 16,001.
A frequency sweep within several independent user-defined segments. Frequency range, number of sweep points, source power, and IF bandwidth can be set for each segment.
Source power from -55 dBm to +3 dBm with a resolution of 0.05 dB. In frequency sweep mode power slope can be set up to 2dB/GHz to compensate for high frequency attentuation in fixture cables.
Trigger modes: continuous, single, or hold.
Trigger sources: internal, manual, external, bus.
Data trace, memory trace, or simultaneous indication of data and memory traces.
Data trace modification by math operations: addition, subtraction, multiplication or division of measured complex values and memory data.
Automatic selection of scale division and reference level value to have the trace most effectively displayed.
Calibration plane moving to compensate for the delay in the test setup, or for compensation of electrical delay in the device under test (DUT) during measurements phase deviation.
Defined in degrees.
Parameters / Characteristics | Specifications | |||
---|---|---|---|---|
Frequency Range | 300 kHz - 1.3 GHz | |||
Measured Parameters | S11, S21 | |||
Sweep Types | Linear Frequency, log frequency, segment, power sweep | |||
Dynamic range | 130 dB typ (10 Hz IFBW) | |||
Measurement Speed | 150 μs | |||
Measurement Point Per Sweep | up to 16,001 | |||
Output power adjustment range | -55 dBm to +3 dBm |
Checking with Copper Mountain Technologies...
Model Number | Frequency Range | Measured Parameters | Sweep Types | Measurement Time Per Point | Measurement Point Per Sweep |
---|---|---|---|---|---|
1-port Economy Vector Network Analyzer | 1 MHz - 18 GHz | S11 as Log Magnitude, DTF, Smith and more | Linear Frequency, log frequency, segment | 100 µs - 170 µs | up to 100,001 |
M Series 2-port Economy Vector Network Analyzer | 300 kHz - 18 GHz | S11, S21, S12, S22 | Linear frequency, log frequency, segment, power sweep | - | up to 200,001 |
S Series 2-port Vector Network Analyzer with TDR | 9 kHz to 44 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 200,001 |
SC Series 2-port Lab GradeVector Network Analyzer | 100 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 500,001 |
Multi-port Vector Network Analyzer | 300 kHz - 9 GHz | All S-parameter | Linear Frequency, log frequency, segment, power sweep | 24 µs per point, min typ | 2 to 500,001 |
Cobalt Series 2 and 4-port Vector Network Analyzer | 100kHz - 20 GHz | - | - | 10 µs per point, min typ. | - |
TR Series Compact Vector Network Analyzer | 300 kHz - 1.3 GHz | S11, S21 | Linear Frequency, log frequency, segment, power sweep | - | up to 16,001 |
PXIe-S5090 2-Port 9 GHz Vector Network Analyzer | 300 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | 500,001 |
Note: All trademarks that appear on this website are the property of their respective owners.
The PXIe-S5090 delivers metrology-grade VNA performance and speed to National Instruments' PXI system. This high-performance vector network analyzer allows testing of two-port devices from the bench to the production floor in a compact, modular form factor. With 138 dB dynamic range and +13 dBm maximum power, this VNA is engineered for short time to first measurement and also for high performance automation with fast test times. Premium features including Time-Domain Measurements and Gating are included in standard software. This PXI VNA is available exclusively from National Instruments.
VNAs and Automatic Calibration Modules (ACMs) are delivered with factory calibration certificates containing no data. The add-on option for ISO17025/Z540-1 Accredited, Traceable Calibration Certificate and Uncertainties is available and needs to be specified at time of order.
Parameters / Characteristics | Specifications | |||
---|---|---|---|---|
Frequency Range | 300 kHz - 9 GHz | |||
Measured Parameters | S11, S21, S12, S22 | |||
Sweep Types | Linear Frequency, log frequency, segment, power sweep | |||
Dynamic range | 140 dB typ (10 Hz IFBW) | |||
Measurement Speed | 16 μs | |||
Measurement Point Per Sweep | 500,001 | |||
Output power adjustment range | -45 dBm to +13 dBm |
Checking with Copper Mountain Technologies...
Model Number | Frequency Range | Measured Parameters | Sweep Types | Measurement Time Per Point | Measurement Point Per Sweep |
---|---|---|---|---|---|
1-port Economy Vector Network Analyzer | 1 MHz - 18 GHz | S11 as Log Magnitude, DTF, Smith and more | Linear Frequency, log frequency, segment | 100 µs - 170 µs | up to 100,001 |
M Series 2-port Economy Vector Network Analyzer | 300 kHz - 18 GHz | S11, S21, S12, S22 | Linear frequency, log frequency, segment, power sweep | - | up to 200,001 |
S Series 2-port Vector Network Analyzer with TDR | 9 kHz to 44 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 200,001 |
SC Series 2-port Lab GradeVector Network Analyzer | 100 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | up to 500,001 |
Multi-port Vector Network Analyzer | 300 kHz - 9 GHz | All S-parameter | Linear Frequency, log frequency, segment, power sweep | 24 µs per point, min typ | 2 to 500,001 |
Cobalt Series 2 and 4-port Vector Network Analyzer | 100kHz - 20 GHz | - | - | 10 µs per point, min typ. | - |
TR Series Compact Vector Network Analyzer | 300 kHz - 1.3 GHz | S11, S21 | Linear Frequency, log frequency, segment, power sweep | - | up to 16,001 |
PXIe-S5090 2-Port 9 GHz Vector Network Analyzer | 300 kHz - 9 GHz | S11, S21, S12, S22 | Linear Frequency, log frequency, segment, power sweep | - | 500,001 |
Note: All trademarks that appear on this website are the property of their respective owners.