Focus Microwaves - Noise Modules
Noise measurements allow the determination of the four Noise Parameters of a device (transistor). Focus’ Noise Modules integrate well with various third party noise receivers.
Noise Parameters: These are four numbers that fully describe the noise behaviour of an active or passive device (twoport) at a given frequency. For practical reasons we use the following quantities as Noise Parameters:
Focus’ noise parameter extraction routines leverage the PNA-X’s unique implementation
of the cold-source noise figure measurement technique. This specific technique requires a noise source to determine the kBG (gain-bandwidth constant) of the system and a passive mechanical tuner is used to characterize the noise receiver across both the impedance and frequency space. This step is imperative to obtain fully vector-source-corrected measurements.
of the cold-source noise figure measurement technique. This specific technique requires a noise source to determine the kBG (gain-bandwidth constant) of the system and a passive mechanical tuner is used to characterize the noise receiver across both the impedance and frequency space. This step is imperative to obtain fully vector-source-corrected measurements.
A RF down conversion stage might be required if the frequency of noise measured exceeds the receiver’s bandwidth. Focus offers noise modules which support down conversion for optimal speed and performance.
Hardware
Noise Measurement System
| Model | Frequency | Insertion Loss | VSWR | Min. Gain | Max. VSWR | Connector |
| NMS-2600 | up to 26.5 GHz | 0.80 dB | 1.61 | 29 for 0.8-26.5GHz | 1.8:1 | 3.5mm |
| NMS-4000 | up to 40 GHz | 0.91 dB | 1.81 | 30 for ≤26.5GHz, 29 for 26-40GHz | 2.1:1 | 2.9mm |
| NMS-5000 | up to 50 GHz | 0.99 dB | 1.8:1 |
27 for ≤26.5GHz, 27 for 26-40GHz, 28 for 40-50GHz |
2:1 | 2.4mm |
| NMS-6700 | up to 67 GHz | 1.12 dB | 1.91 |
29 for ≤26.5GHz, 28.5 for 26-40GHz, 28 for 40-50GHz, 21 for 50-65GHz |
3:1 | 1.85mm |
| NMS-6700-DC* | up to 67 GHz | 1.12 dB | 1.9:1 |
29 for ≤26.5GHz, 28.5 for 26-40GHz, 28 for 40-50GHz, 37 for 50-65GHz |
3:1 | 1.85 mm |
| NMS-75500-DC* | 50 to 75 GHz | 0.4dB | 1.2:1** | 40 for 50-75GHz | 1.6:1** | WR-15 |
| NMS-90600-DC* | 60 to 90 GHz | 0.9dB | 1.3:1** | 35 for 60-90GHz | 1.8:1** | WR-12 |
| NMS-110750-DC* | 75 to 110 GHz | 1.1dB | 1.3:1** | 36 for 75-110GHz | 1.9:1** | WR-10 |
| NMS-1701100-DC* | 110 to 170 GHz | 1.3dB | 1.4:1** | 36 for 110-170GHz | 2:1** | WR-6.5 |
* with Downconverter
** +/-10%
Graphs
Noise Parameters
Noise Circles & Stability Regions
Noise Parameters: Minimum Noise Figure / Rn / Gamma Opt / Phase of Gamma Opt
Setup
More Product Information
- Low noise
- Excellent line⁄load regulation
- Coarse and fine voltage controls
- Constant voltage or constant current operation with automatic crossover and mode indication
- Individual ON⁄Off switch per output (not including fixed output)
- Switchable 3.3V⁄5V output on triple output model
- Switchable remote sense (XPH 1810 and XPH 4210 models)
Brandywine’s RFS-700D is a miniaturized Rubidium Frequency Reference in a compact ruggedized package designed for mounting on a DIN rail system. The RFS-700D is capable of outputting 7x 10MHz frequency reference with low phase noise.
This model is for carrying out a high pressure noise test of individual automotive manufacturers' demands. It simulates representative high voltage noise of HV and EV.
- Single-phase 3 wire
- AC85 - 240V16A
- 50/60Hz
- DC125V16A
- Pulse: ~ 500V 50kHz (option)
Introducing Auriga’s 5th generation pulsed IV/RF characterization system delivers unparalleled performance, capturing measurements with incredible speed and accuracy. Pulsed IV (current-voltage) measurements have emerged as the preferred method of capturing current-voltage characteristics of active devices such as field effect (FETs) and bipolar junction (BJTs) transistors. With the growing popularity of higher-power devices, like GaN HEMTs, LDMOS, SiC, and graphene, current and voltage requirements are constantly being pushed higher and higher.
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Defect pixel correction (on/off)
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Fixed pattern noise correction (on/off)
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Region of interest (ROI)
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Gain (manual control, 0 to 20 dB)
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Exposure (manual control, 44.2 µs to 1.4 s)
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Gamma correction
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Reverse X
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DeviceLinkThroughputLimit (easy bandwidth control)
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Sync out modes: Waiting for a trigger, exposing, readout, imaging
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Storable user sets
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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 (GT6400) and color (GT6400C) 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.
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Defect pixel correction (on/off)
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Fixed pattern noise correction (on/off)
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Region of interest (ROI)
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Gain (manual control, 0 to 20 dB)
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Exposure (manual control, 44.2 µs to 1.4 s)
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Gamma correction
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Reverse X
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DeviceLinkThroughputLimit (easy bandwidth control)
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Sync out modes: Waiting for a trigger, exposing, readout, imaging
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Storable user sets
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High SNR mode (up to 24 dB better signal-to-noise ratio)
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Low-noise binning mode
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Shading correction
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Defect pixel correction
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Area of interest (AOI), separate AOI for auto features
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Binning
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Decimation
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Auto gain (manual gain control: 0 to 24.4 dB)
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Auto exposure (74 µs to 67 s)
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Auto white balance
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Look-up table (LUT)
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Hue, saturation
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Color correction
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Local color anti-aliasing
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Reverse X/Y
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Deferred image transport
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Trigger programmable, level, single, bulk, programmable delay
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Sequence mode (changes the camera settings on the fly)
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SIS (secure image signature, time stamp for trigger, frame count etc.)
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Storable user sets
Scope of delivery
- Camera and IEEE 1394b cable (other configurations on request)
- Up to 4 GHz Bandwidth
- ±60 V Offset Capability
- ±800 mV Dynamic Range
- 50 kΩ DC Input Impedance
- 1.2x Attenuation for low additive noise
- MCX terminated cable with wide variety of connections:
- Solder-in (4 GHz)
- Coaxial Cable to U.FL receptacle (3 GHz)
- MCX PCB Mount (4 GHz)
- Browser (500 MHz)
- ProBus Interface
Focus Microwaves
Focus Microwaves is a pioneering engineering company, built around the innovations of its founder Dr. Christos Tsironis who developed his first manual tuner in 1973 and is the inventor of most existing electro-mechanical tuner families. The success of Focus is based on the engineering and manufacturing skills of its highly motivated and experienced team of engineers and technicians, who have been trained and encouraged to develop new technologies. In addition, listening to our customers needs and insights helps us discover and develop new and measurement methods on an ongoing basis, relentlessly pushing the limits of what is possible.
From humble beginnings in 1988, Focus has become the main supplier of advanced Load Pull and Noise Tuner Systems. Our mission is to provide effective, reliable and innovative solutions for non-50 Ohm testing (Noise and Load Pull) of RF microwave transistors, thus enabling our customers to compete in the marketplace with better designs and to advance the understanding and knowledge of the field.
Contact Details
Focus Microwaves Inc. Main Head Office
4555 Chem. du Bois-Franc, Saint-Laurent, QC H4S 1A8, Canada
Phone: +1-514-684-4554
Test & Measurement
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