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.
|
Frequency Range |
Voltage Range |
|
10 Hz to 1.2 GHz (probe dependent) |
200 μV to 300 V |
More Product Information
Not all amplifiers are created equal, so how can you be certain that an amplifier will work for your needs? You deserve to be confident that the amplifiers used with your test-and measurement lab benches will meet the requirements of your specific applications, are reliable, and are equally well-supported pre-and post-sale. When it comes to application expertise, reliability and support, there is no company that does it better than Maury.
- High DC power density up to 150 kW in a single bay rack-mount cabinet. Up to 240 kW in a dual bay rack.
- Fast load transient response provides protection from undesired voltage excursions.
- Fast slew rate with exceptional rise/fall times for speed-critical applications.
- Low ripple suitable for the most sensitive applications.
- Low audible noise with temperature controlled variable speed fans.
- High accuracy voltage/current measurements without external DMMs.
- Modular architecture simplifies sparing and maintenance.
- Ideal for engineering lab use
- Digital features with analog controls
- Remote control for bench, system & ATE applications.
- "P" models have RS-232, USB & LAN (LXI compliant, class C) standards.
- S-Lock: Set and lock the voltage.
- V-Span: user-defined voltage limits
- Small benchtop footprint
- Compliant with IEC 61000-4-5 Ed.3 standard:ECE R10 is regulated at Ed.2, possible to switch to Ed.2
- AC500V/200A DC600V/200A built-in coupling decoupling network.
- Built-in EV relay welding protection diode in DC line. You can evaluate the lightning surge resistance when charging EV / PHV vehicles, which is required by ECE R10-04 / 05. (EV Fast Charging applicable)
- Maximum output voltage 15kV: In the reliability evaluation test of the lightning surge test, the evaluation including the destructive test can be performed.
- Adopt a large LCD screen operation panel: A large LCD panel screen has been adopted for the operation unit to improve visibility and operability.
- Employs MPU control that simplifies continuous testing: Surge output / waveform switching / polarity switching / sequence operation can be performed automatically.
- Equipped with manual and program modes. Manual mode for standard tests and single condition tests, and Program mode for continuous tests under different conditions. You can easily set test conditions according to your application.
- Excellent safety functions including interlock
- Equipped with waveform check terminal as standard
- You can check the output waveform with your oscilloscope and BNC cable.
- Isolation transformer required to protect the power supply for EUT is available. (option)
- Possible to switch the constant of the decoupling circuit in order to prevent resonance with the power supply.
- Possible to switch to a circuit not including 18uF in the surge output of IEC61000-4-5 Edition 2.0 2005 version).
* This product is a custom product. Please contact us for details.
Customization up to DC1000V is available.
- PowerFlex design provides higher currents at lower voltages enabling one model to meet many different voltage/current requirements.
- Compact design for bench use or rack mounting (1/2 or 1/4 rack width)
- True analog controls with digital settings locking (S-Lock)
- Mixed-mode regulation with linear final regulation for low noise
- Dual models have isolated voltage tracking and synchronous on/off.
- P models have RS-232, USB, and LXI-compliant LAN interfaces plus duplicate rear terminals. GPIB Optional.
- Ideal for UUT loading or simulation
- Wide resistance range from0.5 Ω to 1.5 MΩ
- 0.1 Ω step size
- Over-voltage, over-current, and over-temperature sensing protects unit under test
- External voltage and current sense for monitoring built-in
Customers can leverage our multi-tier approach to customization to reduce engineering costs.
- Our adaptable Build-to-Order (BTO) system provides for very short lead times and allows a product to be configured from a large set of predetermined parameters, with hundreds of thousands of BTO combinations available. BTO products are indicated in the product data-sheet and are shipped within 1-3 weeks, depending on the product.
- Our Semi-Custom products require some additional design and documentation effort but can be a smart choice when more flexibility is required.
- Lastly, a full Custom product can be developed when your budget and time frame allows. This option supplies you with a fully custom-designed and built lighting solution that will be engineered to fit your exact machine vision needs.
The VTI Instruments Power switching up to 16A and high voltage mux cards
- Enables up to 24 braiding spools to be unwound at the same time
- Appropriate spools:
- Diameter of mandrel 23 mm (standard version)
- Spool outer diameter up to 100 mm
- Other spools with different inner and outer diameters possible
- Suitable for different winding materials, e.g. metal wire, plastic, natural, glass and carbon fibres
Maury Microwave
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.