Maury MW - RF Volt Meters - 9240 Series
- Dual-channel and differential voltage measurements
- 1% accuracy at full scale
- True RMS response below 30 mV
- Optional low-frequency probe for measurements from 10 Hz to 100 MHz
- DC recorder output
- IEEE-488 interface standard, RS-232
The 9240 series is the latest addition to the popular 9200 series of RF voltmeters. It combines accuracy, smart probes, and operator features that have never before been available in its price range. It is simple to use on the bench, and comprehensive enough to integrate into an ATE system. Boonton’s proven voltage probes directly measure from 200 μV to 10 V with usable indication as low as 50 μV and have true RMS response below 30 mV.
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Frequency Range |
Voltage Range |
|
10 Hz to 1.2 GHz (probe dependent) |
200 μV to 300 V |
More Product Information
Software for calibration automation. Available with CamOCR Camera Readout module. Caliber can run autonomous calibrations through remote control or provide guidance to operator in manual mode. Calculated results and uncertainties can be exported to WinQBase or third party software.
- Automatic calibration of instruments
- In line with ISO17025 and other metrology standards
- Automated optical readout module for multimeters
- Users are free to add any custom standard or DUT
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Versatile temperature range for extreme environments
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IEEE 1588 PTP
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Power over Ethernet
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P-Iris and DC-Iris lens control
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Near-Infrared (GT2050NIR) model
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GigE Vision interface with Power over Ethernet
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Screw mount RJ45 Ethernet connector for secure operation in industrial environments
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Supports cable lengths up to 100 meters (CAT-5e or CAT-6)
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Trigger over Ethernet (ToE) Action Commands allow for a single cable solution to reduce system costs
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Comprehensive I/O functionality for simplified system integration
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Popular C-Mount lens mount
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Easy camera mounting via standard M3 threads or optional tripod adapter
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Easy software integration with Allied Vision's Vimba SDK and compatibility to the most popular third party image-processing libraries.
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Defect pixel masking feature with the Defect Mask Loader tool that allows you to manage a user defined defective pixel list to match your application and optimize the life cycle of the camera.
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High spatial resolution
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IEEE 1588 PTP
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Power over Ethernet
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Defect pixel masking
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Monochrome (GT5400) and color (GT5400C) models
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Screw mount RJ45 Ethernet connector for secure operation in industrial environments
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Supports cable lengths up to 100 meters (CAT-6 recommended)
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Trigger over Ethernet Action Commands allow for a single cable solution to reduce system costs
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Comprehensive I/O functionality for simplified system integration
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Planarity adjusted (PA) EF Lens Mount (option -18) for electronic control of aperture and autofocus
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Easy camera mounting via standard M3 threads at all sides and 1/4-20 tripod mounting hole
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Defect pixel masking feature with the Defect Mask Loader tool that allows you to manage a user defined defective pixel list to match your application and optimize the life cycle of the camera.
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Easy software integration with Allied Vision's Vimba Suite and compatibility to the most popular third party image-processing libraries.
Fully Integrated: With the ProBus™ interface, the AP033 becomes an integral part of the oscilloscope. The probe sensitivity and offset can be controlled from the oscilloscope front panel, the probe front panel, or by using remote control commands (GPIB or RS-232). Sensitivity, offset, input capacitance, and common mode voltage range are displayed on the oscilloscope screen. When used with a LeCroy digital oscilloscope, no external power supply is required.
- Additive white Gaussian noise
- Integrated amplifier
- Manual attenuator
- NC6000A -BER testing, and SNR applications
- NC8000A – Secure signal jamming
- Military Applications
- Custom configurations available (consult factory)
The NC6000A and NC8000A Series instruments are designed for general-purpose noise applications on the bench, or in a rack test station. The manual controls make it simple to operate and reduce test set up time. Standard units can be modified for specific customer requirements. Please consult the factory for pricing and availability of these requests.
- C/N carrier to noise ratio
- C/I carrier to interferer ration
- C/No carrier to noise density ratio
- Eb/No bit energy to noise density ratio
- Custom configurations
- 6.25″ color TFT touch screen
- Accuracy of 0.2 dB RSS
- Bit Rates from 1 bps to 1 Gbs
- Variable Output Power from -55 dBm to +5 dBm
- True Differential and Calibrated TDR for Maximum Impedance Measurement Accuracy
- Compact, Battery-Powered Design for true portability
- 30 ps Typical Rise Time, S-Parameter support up to 15 GHz
- 50,000-point memory for DUTs up to 50 meters (XR models)
- Automatic Ohmic Loss Compensation for enhanced accuracy
- Built-in Skew Analysis (Inter-Pair and Intra-Pair) for differential signal integrity
- XR Series: Engineered for Speed, Optimized for Continuous Cable Production
- High Voltage (500V) Input
- Digital control loop technology
- Two models: 375W & 750W
- Up to 750W/500V
- Parallel up to 8 automatically
- Modular
- High Power Density
- Simple integration
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Monochrome (G-031B) and color (G-031C) models
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GigE Vision interface with Power over Ethernet option
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Screw mount RJ45 Ethernet connector for secure operation in industrial environments
-
Supports cable lengths up to 100 meters (CAT-6 recommended)
-
Comprehensive I/O functionality for simplified system integration
-
Popular C-Mount lens mount
-
Easy camera mounting via standard M3 threads on top and bottom of housing or optional tripod adapter
-
Easy software integration with Allied Vision's Vimba Suite and compatibility to the most popular third party image-processing libraries.
Maury Microwave
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Maury Microwave is a pioneering leader in the design and manufacture of precision RF and Microwave calibration, test & measurement, and modeling solutions that are powering global efforts toward a more secure, more connected, future.
Maury Microwave offers Measurement and Modeling Device Characterization Systems and Services including nonlinear passive, active and hybrid-active fundamental and harmonic load pull, non-50Ω X-Parameter modeling, pulsed IV Pulsed s-parameters and compact transistor modeling, and patent-pending ultra-fast/accurate noise parameters.
