- Frequency Range: 9KHz to 6GHz
- Fast sweep time at 12 GHz/s
- Real-time bandwidth to 32MHz
- Direction Finding Mode
- Integrated GPS
- Integrated Map Display
- I/Q Analysis & Recording
RF & Microwave
Showing 65–80 of 162 results
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Microchip MAC-SA.5X Miniature Atomic Clock
The MAC-SA5X is designed for applications that require Rubidium Atomic Clock holdover performance, but are constrained by size and low power requirements. Its superb short term stability (ADEV), resistance to temperature changes (TempCo) and long-term drift performance allow tight synchronization to GNSS timing or other primary reference clock, enabling nanosecond holdover performance for days at a time. The Microchip MAC – SA5X Rubidium Miniature Atomic Clock features compact design and low power consumption. Cost effective, and easily adaptable to a wide variety of timing and synchronization applications. The MAC – SA5X is designed for applications where an economical solution for frequency stability is required. Requiring little power, and able to operate across a wide spectrum of temperatures, the MAC – SA5X is an ideal choice for LTE Base Stations, Smartgrid, Enterprise Network Infrastructure, Autonomous Sensor Networks, Drones and Data Centre applications.
Key Features:
- Frequency Output: 10MHz CMOS Square Wave
- 1pps Input and Output
- < 5E-11 monthly aging (frequency drift per month)
- < 5E-11 frequency change versus temperature change (-40 to +75 °C)
- < 200 ns Holdover ability over 24 hours (typical, static temperature)
- Remote monitoring and control (RS232 and USB)
- 1 PPS disciplining from externally supplied signal (phase and frequency calibration)
- Small Size: 51mm x 51mm x 18mm
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Narda ADFA-2 Auto Direction Finding Antenna
ADFA 2 Automatic Direction Finding Antenna combined with SignalShark Signal Analyser is the smallest setup in the world that can precisely localize signals from 10 MHz to 8 GHz. Minimum effort, maximum gain. No external PC, no second or third antenna or any software needed. Easy to transport, easy to set up. Simply attach the ADFA 2 to any commercial vehicle roof using the magnetic base, connect it to the SignalShark with the control and power cable, and start mobile direction finding immediately. Or, for long term monitoring and direction finding, use the quick connector on a tripod. Ready for action, unbeatably fast.
- Automatic DF-Antenna 10 MHz to 8 GHz
- Built-in phase shifter and switch matrix
- Direction finding method › Watson-Watt and correlative interferometer
- DF accuracy f < 200 MHz: < 3° RMS (typ) | f > 200 MHz: < 1° RMS
- Built-in electronic compass
- Built-in GNSS receiver with antenna and PPS output
- Diameter: 480 mm
- Option, Automatic DF antenna control, Bearing View
- ADFA Vehicle Mounting Kit
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Narda SignalShark Remote Spectrum Analyser
The Narda SignalShark Real-Time Remote Spectrum Analyzer is designed for the Detection, Analysis, Classification and Localization of RF Signals between 8 kHz and 8 GHz. Supports automatic direction finding and TDOA. Solves complex measurement and analysis tasks reliably and quickly with outstanding RF performance. The form factor of the remote analyzerversion is optimal for remote control applications. It is easily mountable in 19’’ racks and – due to its small size. The well documented SCPI commands reference and the VITA 49 conform I/Q streaming allows easy integration in every software environment. Within its real-time bandwidth of 40 MHz it calculates FFTs of up to 16 384 points with at least 75 % overlap. This means that every signal event, even if it is extremely short and infrequent, is reliably detectable. The automatic DF antennas and the integrated statistical localization algorithm allow the localization of transmitters based on AOA. SignalShark has already been integrated in th ird party TDOA systems. The Narda Remote SignalShark owns an excellent RF front-end with outstanding sensitivity and dynamic range and even offers four switchable RF inputs. It is a superfast spectrum analyzer in scan mode. The Narda SignalShark is ideal for applications where high sensitivity, high dynamic range, reliable detection of very short and infrequent signal events, and the localization of transmitters are required. All of these requirements are essential in the area of radio monitoring.
- Frequency Range: 8KHz to 8GHz
- Fast sweep time at 50GHz/s
- 40MHz Real-Time Instantaneous Bandwidth
- 100 % POI for signals longer than 3.125 µs
- I/Q Analysis & Recording
- Automatic Direction Finding Mode
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71 %
Narda SignalShark Interference & Direction Spectrum Analyser
Like a Shark, that highly efficient hunter in the ocean, Narda’s SignalShark derives its success in measurement from the interplay of its highly developed senses. Its 40MHz Real-Time bandwidth captures the spectrum of even very short pulsed signals of 3.125us with a POI of 100 %. This guarantees a consistent awareness of all spectrum events. Due to its distinguished analysis functions like Real-Time Spectrum, Spectrogram, Persistence and Channel Analysis and its large integrated I/Q recorder, measured signals are analyzed with a very high frequency and time resolution.
EX-Demo Special Price: A$19,997.00 +gst
Features:
- Frequency Range: 8KHz to 8GHz
- Fast sweep time at 50GHz/s
- 40MHz Real-Time Instantaneous Bandwidth
- Integrated GPS
- Live Persistence Spectrum
- I/Q Analysis & Recording
- Automatic Direction Finding Mode
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Narda Interference & Direction Analyser
The IDA-2 portable Interference and Direction Analyzer was specially developed for identifying and localizing interference, impairments and unknown sources. It is not simply a receiver with antennas attached to it. The IDA is a complete all-in-one measuring system that is tailored precisely to its application: efficient source localization. It is a true direction finder with the qualities of a receiver in a hand-held format.
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dBm Model ACE9600 Advanced Channel Emulator
The dBm ACE9600 builds upon the SLE900 by adding Payload impairment capability, synchronization of up to 16 channels, 12 tap multipath fading, and 600 MHz of instantaneous bandwidth. The instrument can be configured with 1 to 4 channels. Link impairments include delay, Doppler, attenuation, phase offset, AWGN, frequency hopping, and multipath fading. Payload impairments include IMUX/OMUX emulation (amplitude and delay distortion), amplifer compression effects (AM/AM and AM/PM), phase noise, and spurious signals. Parameters can be set to fixed values in Static mode, or continuously changed in real time in Dynamic mode without phase discontinuities. Ephemeris data files are downloaded via an ethernet connection and stored internally in solid state memory. These dynamic files can have playback rates from 1 Hz to 1000 Hz, and can be executed single run, continuously looped, or single stepped.
Remote control can be accomplished by making calls from your test software, or by using the ACEClient application program provided with the instrument. This application provides control of all ACE functions, as well as manipulation of the dynamic data files. Built into the client are wizards that can generate profiles to emulate band limiting filters such as IMUX/MUX devices, and profiles for amplifier compression.
- Centre Frequency : 1125MHz
- 1dB RF Bandwidth: 72MHz, 125MHz, 300MHz or 600MHz
- Independant Channels: 1, 2, 3 or 4
- Static and dynamic operation
- Timing synchronization up to 16 channels
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dBm Model CNG Carrier to Noise Generator
The dBm Model CNG-70/140 is a fully automated test instrument that sets and maintains a highly accurate ratio between a user-supplied carrier and internally generated White Gaussian noise. The instrument operates over a wide range of power levels. The modular design provides one or two totally independent channels covering 50 to 180 MHz. The instrument utilizes dBm’s proprietary microprocessor controlled attenuator with 0.015 dB resolution, so resolution uncertainty is less than 0.008 dB. Typical attenuator error is less than 0.02 dB over its entire frequency range and attenuation range. The CNG corrects for noise density and signal level variations over frequency, and integrates the actual noise power over the user defined signal bandwidth. The carrier signal path is never interrupted.
The dBm Model CNG-1-800/2700 covers 800 to 2700 MHz, with the same accuracy as our 70/140 MHz units! In the CNG-1-800/2700, noise generation, attenuation, and power measurements are done at IF, so there is no degradation to ratio accuracy. Total noise bandwidth is 125 MHz, wide enough for virtually every application while still providing a high noise power spectral density.
Key Features:
- C/N, C/No, Eb/No, and C/I modes
- 1 or 2 independent RF channels
- Frequency ranges up to 2.7 GHz
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dBm Model WGN White Gaussian Noise Generator
The dBm Model WGN White Gaussian Noise Generator outputs very accurate, high quality white Gaussian noise. The output level can be set as Noise Density or Noise Power in a selectable bandwidth. Factory calibration over the entire frequency range yields 0.25 dB absolute accuracy. The noise power can be varied with 0.015 dB resolution over a 60 dB range. A user supplied signal can be injected into the instrument to combine with the noise. The instrument utilizes dBm‘s proprietary microprocessor controlled attenuator with 0.015 dB resolution, providing an extremely accurate output.
Key Features:
- On/off control of both the signal path and the noise output
- 60 dB noise power range, typically -103 dBm/Hz to -163 dbm/Hz
- Frequency range 100 – 3000 MHz
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dBm Model SSA Series Broadband Solid State Attenuators
dBm‘s SSA series attenuators cover up to 3 GHz. They are all solid state designs with 1 dB resolution. Switching time is 1000 times faster than relay type attenuators, and reliability and repeatability are outstanding. Power consumption is extremely low. These solid state attenuators can also be configured in groups of up to 16. An addressable 8 bit parallel driver card provides a simple control interface. The interface is double buffered, so attenuation channels can be set individually, or all changed simultaneously.
- Frequency Range: 20 – 3000 MHz
- 1, 8, or 16 channels with single control interface
- Exceptional reliability and repeatability
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dBm Model SSG Synthesised Signal Generator
So many jobs in the lab require a good quality synthesized RF signal generator used solely as a CW source. The dBm SSG is designed to be a workhorse in the lab, providing a low phase noise synthesized CW output in a small package that is easy to move around, and without the penalty of paying for features you don’t need.
Key Features:
- Frequency Range : 10 MHz – 4000 MHz
- 40dB Power Range
- Low phase noise CW output
- Automatic selection between internal or external 10 MHz reference
- Front panel, RS232, GPIB, and LAN control
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dBm Model UDC Series Frequency Converter
The dBm’s Frequency Converter models cover virtually any band up to 30 GHz. They are available as block converters, synthesized broadband converters, and RF to baseband converters. Instantaneous bandwidth is typically 125 MHz in both up and down conversions. Some standard frequency bands are 800 – 2700 MHz, 870 – 1750 MHz, and ultra-broadband 400 MHz – 18 GHz with IF frequencies of 70 MHz or 140 MHz.
Key Features:
- 8 Converters per Channel
- Tuneable Step Size: 1 MHz
- Input Frequency Range: Typically L, C, S Ku or Ka bands
- Output Frequency: Typically 70 or 140MHz
- Input Power: 0 dBm typical
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Amplifier Research RF & EMC Book of Knowledge
Orange Book of Knowledge 9th Edition
The OBK is filled with technical resources to help answer questions and provide solutions to current problems. Learn about ever-changing standards and the demands of future test requirements. Read this “go-to” resource for everything and anything related to EMC and more. The future will certainly present new challenges; and AR will be right there with you providing the technical resources and the products to meet those ever-growing demands.
RF & EMC Product Catalogue 2021
This comprehensive catalogue includes everything necessary for RF and EMC testing. You’ll find important information on everything from RF and Microwave Amplifiers to Antennas, Probes, Analyzers, Accessories, and Integrated Test Systems that make testing quicker, easier, and more accurate. AR has distinguished itself as a single-source provider with the ability to design, build, and service industry-leading EMC test and RF chambers. AR delivers innovative technology, advanced design, quality workmanship, mismatch capability, durability, longevity, less cost per W, and a worldwide support network that’s with you all the way.
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Amplifier Research EMC Test Systems
Amplifier Research can deliver a solution that integrates all your testing needs: radiated and conducted immunity,radiated and conducted emissions, electrostatic discharge, lightning simulation…whatever you need. We have the expertise and experience to supply fully automated systems needed to test various standards including IEC 61000, MIL-STD 461 and 464, DO-160, wireless, automotive, HIRF and HERO. Fully Integrated Test Systems For any application from DC to 50 GHz. Whether you choose one of our standard test systems or have AR build a system to your specs – you’ll be amazed at how easy, accurate, efficient, and affordable testing can be. Everything you need is right at your fingertips. It all works together perfectly, because everything has been carefully selected and assembled by AR engineers, using the most dependable and most innovative equipment on the market today.
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Amplifier Research Model FL8000 Series Field Probe Kit
The Amplifier Research model FL8000 series is an advanced line of laser-powered Electric Field Probes, and associated Kits designed specifically for EMC radiated immunity test applications. Each Field Probe is an electrically small, separable axis sensor capable of measuring both continuous wave and pulsed electric fields. There are a total of five Field Probes available, each with a unique bandwidth, sensitivity, and dynamic range. The filed probe kits contain everything needed to operate its associated Field Probe.
- Laser-Powered Electric Field Probe Kit
- Frequency Ranges from 5KHz to 60GHz (model dependant)
- Field Strength Ranges from 0.3V/m to 1000Vm(model dependant)
- CW and Pulse Electric Field Measurement
- Separable X, Y and Z Axis
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Amplifier Research Model 750S1G6C Microwave Amplifier
The Amplifier Research Model 750S1G6C is a solid-state, Class A design, self-contained, air-cooled, broadband power amplifier designed for applications where instantaneous bandwidth, high gain and linearity are required. It will provide a minimum of 750 W across its operating bandwidth of 1.0 – 4.2 GHz and 500 W from 4.2 – 6.0 GHz.
- Power: 75 Watts
- Frequency Range: 1GHz – 4,2GHz at 750W
- Frequency Range: 4,2GHz – 6.0GHz at 500W
- Class A
- Built in Fault Monitoring & Protection
- Ethernet, USB, GPIB, Fibre Optic & RS232 Interface
- Low Acoustic Noise
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Amplifier Research Model 75S1G6C Microwave Amplifier
The Amplifier Research Model 75S1G6C is a Solid-State, Class A design, self-contained, air-cooled, Broadband Power Amplifier designed for applications where instantaneous bandwidth, high gain and linearity are required. It will provide a minimum of 75 W across its operating bandwidth. Protection from input overdrive beyond 0 dBm is provided as well as protection from various failure conditions including over-temperature and power supply faults.
- Power: 75 Watts
- Frequency Range: 1GHz – 6GHz
- Class A
- Built in Fault Monitoring & Protection
- Ethernet, USB, GPIB, Fibre Optic & RS232 Interface
- Low Acoustic Noise