RF & Microwave

Showing 33–48 of 160 results

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  Microchip/Tekron IRIG-B Analyser

  With the Microchip/Tekron  IRIG-B Analyzer there’s no need to use oscilloscopes or complex systems, saving those extra callouts and repeat trips to your substation. With multilevel signal support, get accurate on-site fault diagnosis through a Hand-Held, Rugged, Portable and Battery-operated form factor.

  • Decode over 24 IRIG-B Timecodes with extensions
  • IRIG-B DCLS, AM and Modified Manchester decoding
  • Electrical and Optical signals decoded
  • IRIG Time, Type and Signal levels provided
  • Ruggedized, Handheld device
  • Intuitive user interface
  • IRIG-B Oscilloscope App for Android devices
  • 2.5” backlit display
  • Battery Powered
  • Carry Case

  • Datasheet
  • Request Quote
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  Microchip/Tekron Model ITP Isolated Timing Repeater

  The Microchip/Tekron ITR  Isolated Timing Repeater is the Swiss Army Knife of Time Synchronisation. It’s a compact DIN rail mountable signal repeater that performs a number of tasks including converting time sync signals, boosting signal strengths and converting one type of signal to another. The ITR is completely electrically isolated and it will provide your IEDs (Intelligent Electronic Devices) with an additional layer of electrical protection.

  Inputs & Outputs:

  • • Copper to Fibre
    • Fibre to Copper
    • Fibre Output
    • TTL Output (0-5V,150mA drive)
    • RS232 Output (+/-10V)
    • RS422/RS485 Output (+/-5V)
    • AM IRIG-B  Output (8V)
    • HV Switch
  • Converts Fibre to Copper & Copper to Fibre
  • Extend the distance of an IRIG-B or Pulse signal
  • Provide isolation between A & B Protection Systems or between IEDs
  • Converts a TTL signal from copper to fiber / fiber to copper
  • Converts a TTL signal to a digital High Voltage MOSFET signal
  • Reduces wiring to panels of equipment

  • Specifications
  • Field User Guide
  • Request Quote
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  Microchip/Tekron GridTime3000 GNSS Time Server

  The Microchip/Tekron  GridTime™ 3000 GNSS Time Server is a software-enabled solution that provides enhanced levels of redundant, secure and resilient timing for power utility substations. It generates precise Time and Frequency signals to synchronize analog and digital communication systems within the substation. The GridTime 3000 GNSS Time Server consists of multiple safeguards to ensure it can withstand unpredictable and adverse conditions. Mitigation techniques include malicious software checking, hardened components, advanced holdover options and compliance to IEC 61850-3 environmental standards.

  The GridTime 3000 GNSS Time Server generates precise Time and Frequency signals to synchronize analog and digital communication systems within the substation.

  Features:

  • Compliance to IEEE^® 1613-2009 and IEC 61850-3 electrical substation environmental requirement
  • Isolated Single or Dual power supply
  • Oven-Controlled Crystal Oscillator (OCXO) or  Rubidium Holdover
  • IEEE 1588 Precision Time Protocol (PTP)  support
  • 10 independently configured Ethernet ports
  • Swappable High and Low voltage power supplies
  • Independently isolated outputs
  • Class B Boundary Clock
  • UTC and LST with user-defined DST options
  • Hardware-based assurance boot process
  • HTTP/S browser-based configuration and management tool

   

  • Specifications
  • Request Quote
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  Microrad Model NHT3DL Electromagnetic Field Meter

  The MicroRad Model NHT 3DL is a brand-new Electromagnetic Field Analyzer equipped with the most advanced technology. Powerful, light, compact, fully non-magnetic with over 24 hours of operating autonomy. It incorporates an operator interface based on a high resolution Color Touch Screen display. The user interface can be remotely controlled via Wi-Fi and displayed on Windows operating systems (PC, tablet) as well as on Android devices (smartphone). It is equipped with a section for complex signal analysis composed of an FFT Analyzer and a complete Oscilloscope equipped with triggers and markers. While in broadband mode, the Model NHT 3DL can demodulate and rebuild pulse radar signals with a Tau up to 500 ns.

   

  Key Features:

  • Interchangeable Isotropic Probes from 100KHz to 40GHz
  • Colour Touch Display & Battery operation (24HRs)
  • Fibre Optic and Wireless (WiFi) Remote connection
  • Android Smartphone/device compatible
  • Temperature and Humidity Sensors
  • Demodulates the pulse signle base band up to 500nS
  • Automatic Measurement of Tau, PRF and Duty Cycle Values
  • Ready for the 5G Challenge
  • Intuitive and Powerful Software
  • Test Compliance with National & International Regulatory Standards

  • Specifications
  • Request Quote
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  Boonton Model NGX1000 Series Programmable RF Noise Generator

  The Boonton NGX1000 Programmable Noise Generator is a high performance, broadband additive white gaussian noise (AWGN) generator in an easy-to-use compact form factor. The streamlined user interface and flat menu structure provides a fast, simple way to add RF noise in a communications system to test reliability, robustness and performance. All functionality of the generator is accessible through the 5” touch screen or via remote control through an ethernet connection delivering flexible, programmable noise generation for broad use in Semiconductor, Military, Aerospace, Satellite, Medical and Communications Applications.

  Key Features:

  • White Gaussian Noise Output
  • Output Power up to +10 dBm
  • 127 dB of Attenuation; 0.1 dB Step Size
  • 5” Touch Screen Display
  • Ethernet Interface

  • Datasheet
  • Request Quote
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  Boonton Model SGX1000 Series RF Signal Generator

  The SGX1000 series of RF signal generators offer high performance signal generation with an easy-to-use interface in a compact form factor. The SGX1000 utilizes a proprietary blend of direct digital and direct analog synthesis to provide ultra-fine frequency resolution, lightning-fast frequency switching, ultra-low phase noise and jitter, and superior reliability.

  The instrument’s intuitive, multi-touch display enables easy access and configuration to perform frequency and/or power sweeps as well as apply amplitude, frequency, phase and pulse modulation to address a wide variety of test requirements.

  Key Features:

  • SGX1003 Frequency Range: 10MHz to 3GHz
  • SGX1006 Frequency Range: 10MHz to 6GHz
  • SGX1018 Frequency Range: 10MHz to 18GHz
  • Output Power Range: -70 to +20 dBm
  • AM/FM/PM and Pulse Modulation
  • 10/100 MHz Reference Input
  • Lightning fast – Maximum switching speed: 6 µs /100µs
  • Ultra-Low Phase Noise (3 GHz, 10 kHz offset) -123 dBc/Hz (typ)
  • Ultra-low Jitter: 55 fs (typ)
  • Excellent Amplitude Accuracy (as low as -70 dBm): +/-0.25 dB (typ)
  • Multi-Touch, Touchscreen Display
  • Superior reliability – MTBF (synthesizer module): >240,000

  • SGX1003 & SGX1006 Specifications
  • SGX1018 Specifications
  • Request Quote
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  Boonton Model PMX40 RF Power Meter System

  The Boonton PMX40 RF Power Meter utilises up to four Boonton RTP and CPS families of USB RF Power Sensors with industry-leading performance and capabilities either independently or for synchronized multi-channel measurements of CW, modulated, and pulsed signals. As a benchtop meter, the PMX40 provides a standalone solution for capturing, displaying, and analysing peak and average RF power in both the time and statistical domains through an intuitive, multi-touch touchscreen display.

  Key Features:

  • Frequency range 4kHz to 40 GHz
  • Capture/Display/Analyse Peak and Average power
  • Video Bandwidth to 195 MHz
  • Rise Time down to 3nS
  • Time Resolution as fine as 100ps
  • 100,000 Measurements per second
  • Synchronous multi-channel measurements up to 4 channels
  • Sensors can be used as standalone instruments
  • Specifications are sensor specific.

  • Specifications
  • Request Quote
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  Boonton Model RTP5000 Peak Power Sensor

  Providing the highest video bandwidth and fastest rise times, RTP5000 peak power sensors with Boonton’s Real-Time Power Processing^TM deliver 100,000 measurements per second, no gaps in signal acquisition and zero measurement latency.  Combining this performance with automatic pulse measurements, CCDF and crest factor statistical analysis, multi-channel capabilities and documentation tools RTP5000 peak power sensors are the ideal instrument for fast, accurate and reliable RF power measurements.

  Key Features:

  • Frequency range: 6 GHz, 18 GHz and 40 GHz RF Power Sensors
  • Up to 195 MHz video bandwidth with 3 ns rise time
  • Real-Time Power Processing^TM technology with zero measurement dead time
  • 100,000 measurements per second
  • Power Analyzer Suite advanced measurement and analysis software
  • Crest factor, CCDF and statistical measurements
  • 10 GS/s effective sample rate
  • 100 MS/s continuous sample rate
  • Synchronized multi-channel measurements

  • Specifications
  • Video
  • Request Quote
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  Boonton Model RTP4000 Real Time True Average Power Sensor

  The Boonton RTP4000 True Average Power Sensors provide 80 dB dynamic range and a frequency range down to 4 kHz. Built with Boonton’s Real-Time Power Processing^TM, these sensors deliver 100,000 measurements per second, no gaps in signal acquisition and zero measurement latency. Combining this performance with pulse profiling, capture and measure of pulsed, CW and modulated signals, multi-channel capabilities and documentation tools, RTP4000 average power sensors are the ideal instrument for fast, accurate and reliable RF power measurements.

  Key Features:

  • Frequency Range: 4 kHz to 6 GHz and 10 MHz to 6 GHz Sensors
  • -60 dBm to +20 dBm dynamic range
  • 175 kHz Video Bandwidth for pulse profiling
  • Real-Time Power Processing^TM technology with zero measurement dead time
  • 100,000 measurements per second
  • Power Analyzer Suite advanced measurement and analysis software
  • True average measurements with no modulation bandwidth limitations
  • 1 GSPS Effective, 25 MSPS Continuous Sample Rate
  • 100 MS/s continuous sample rate
  • Synchronized multi-channel measurements

  • Specifications
  • Video
  • Request Quote
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  Boonton Model CPS2018 True Average Connected Power Sensor

  The Boonton CPS2000 True Average Connected Power Sensors provide USB, LAN and PoE capabilities to enable easy RF power measurement of modulated and CW signals from 50 MHZ to 8 GHz. Compatible with Windows and Linux systems, CPS2000 sensors include all the necessary drivers for programming through SCPI, IVI and LabVIEW. Connectivity and compatibility, combined with 60 dB dynamic range and 100 measurements per second, CPS2000 sensors are the ideal solution for lab, field, production test, ATE, remote monitoring and embedded environments.

  Key Features:

  • Frequency Range: 4 kHz to 6 GHz and 10 MHz to 6 GHz Sensors
  • -60 dBm to +20 dBm dynamic range
  • 175 kHz Video Bandwidth for pulse profiling
  • Real-Time Power Processing^TM technology with zero measurement dead time
  • 100,000 measurements per second
  • Power Analyzer Suite advanced measurement and analysis software
  • True average measurements with no modulation bandwidth limitations
  • 1 GSPS Effective, 25 MSPS Continuous Sample Rate
  • 100 MS/s continuous sample rate
  • Synchronized multi-channel measurements

  • Specifications
  • Video
  • Request Quote
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  Boonton Model 4500C Peak Power Meter

  The Boonton Model 4500C is the instrument of choice for capturing, displaying, analyzing and characterizing microwave and RF power in both the time and statistical domains. It is ideal for design, verification, and troubleshooting of pulsed and noise-like signals used in commercial and military radar, electronic warfare (EW), wireless communications (e.g., LTE, LTE-A, and 5G), and consumer electronics (WLAN), as well as education and research applications.

  Key Features:

  • Frequency range 30 MHz to 40 GHz
  • Measurement range -60 dBm to +20 dBm
  • RF channel video bandwidth 125 MHz
  • RF channel rise time < 5 ns
  • Overall accuracy 0.2 dB
  • Time Resolution 100 ps
  • Min Pulse Width / Max PRF 6 ns / 50 MHz

  • Specifications
  • Request Quote
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  Microrad Model NHT3D Electromagnetic Field Meter

  The MicroRad NHT 3D is a high performance handheld analyzer designed for measurement of electric and magnetic fields which are characterised by complex form factors in the frequency range DC to 400kHz in selective mode, and DC to 40GHz in wide band mode.
  Thanks to the interchangeability of the probes it is possible to configure the instrument for measurements in different environments and in full compliance with industry standards. The Waves software provides a quick view of the main indexes and the trend of the field in the time and frequency domains through repeated acquisitions generating up to 65.536 samples. These acquisitions may be triggered manually or automatically. The “Monitoring” operating mode function allows for the signals to be recorded to the non-volatile internal memory of the instrument from the probe. Thanks to this feature it is possible to download the data to a PC and extract the relevant information such as signal amplitude / frequency and indexes acquired during the monitoring. This feature together with the instrument’s battery autonomy allows the user to perform monitoring tasks for over 24hours.

   

  Key Features:

  • Time/Frequency domain measurements:
    Selective Mode: 0Hz – 400 kHz, Broadband mode: 100kHz -40GHz
  • Interchangeable Isotropic Probes from 100KHz to 40GHz
  • Battery operation (24HRs)
  • Selective measurements for magnetic induction (H)
    and electric fields with any form factor
  • Dynamic Range >100 dB without range changing
  • Selectable indexes:
    WP10 – Weighted Peak (Icnirp 2010 Health Physics (99:818-836-2010)
    II98 (Icnirp 1998 Health Physics 74:494-522-1998)
    IB50 (Time domain Analysis CEI EN 62233)
    IRSS (Frequency domain Analysis CEI EN 62233)
  • Calculation and display of RMS, IRMS, Max, Min, Instant, Fmax
  • GPS receiver and temperature sensor available on board
  • Fiber optic communication (up to 40Mt)
  • Firmware upgradeable
  • Waves Software

  • Specifications
  • Request Quote
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  Microrad Model NHT310 Electromagnetic Field Meter

  The MicroRad NHT 3D The NHT 310 meter is capable of measuring a wide frequency of electric, magnetic and
  electromagnetic fields. By selecting and inserting the appropriate probe the instrument covers all
  frequencies from DC to millimeter waves.

  Key Features:

  • Broadband measurement capability from DC up to 40 GHz
  • Interchangeable Probes
  • Measuring Electric, Magnetic and Electromagnetic fields
  • Battery operation (70HRs)
  • Multiple monitoring capability
  • Over 24 hours of recording time (step 5s)
  • MicroLink software for displaying measurements and data
  • GPS receiver and temperature sensor available on board
  • Fiber optic communication (up to 40Mt)
  • Firmware upgradeable

  • Specifications
  • Request Quote
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  Microrad Model EMF18-G Sensor for EMC Applications

  The MicroRad EMF-18G has been designed to operate in Electric Field Environments such as TEM cells, GTEMs, Anachoic Chambers as well as Electromagnetic Safety applications. It is suitable for use in TEM cells  which have a Septum of 45cm. The bandwidth and the Sampling rate of the Active Probe makes it the reference point for users in this field, providing fast, easy and precise characteristics of Electric Fields (E) in the 10KHz to 18GHz range.

  Key Features:

  • Ultra Wide Band Frequency Range: 10KHz to 18GHz
  • 20mS Sampling Rate
  • Small size
  • Operation Time > 45Hrs
  • 8 sensor connected Simultaneously
  • Indication of position and Inclination of sensor
  • EMC Viewer Software

  • Specifications
  • Request Quote
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  Microchip/Tekron Model TCG-01-G GNSS Timing Generator

  The Microchip/Tekron Model TCG 01-G is a highly accurate, fully featured GPS and GLONASS (GNSS) clock. With enhanced cyber security features that support NERC CIP requirements, the TCG 01-G is designed for use in modern day Smart Grid / Smart Substations, Electricity Distribution, Transmission, Generation Protection and Control Systems. The clock synchronizes multiple IEDs (Intelligent Electronic Devices) within a network, including protection relays and remote telemetry units to enable accurate time stamping. The TCG 01-G supports IEEE 1588 v2 (PTP) and IEC 61850.

  Features:

  • GPS and GLONASS support
  • Multi level password protection with custom configurable privilege settings
  • Remote configuration via Ethernet
  • Independently isolated outputs
  • Isolated power supplies
  • High output power line drivers
  • PTP (1588v2) Default profile, Full Power profile (C37.238),Telecom slave profile (ITU G.8265.1),
    Telecom grandmaster & slave profile (ITU G.8275.1)
  • NTP/SNTP v3, v4 server operation
  • DC IRIG-B (Unmodulated, DCLS)
  • AM IRIG-B (Modulated)
  • Supports C37.118.1

   

  • Specifications
  • Request Quote
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  Noise XT Model SLC Ultra Low Jitter Clock Synthesizer

  The SLC is a very affordable single or dual clock 7 GHz synthesizer that exhibits outstanding phase noise and jitter performance in a very small package. With -178 dBc/Hz phase noise floor at 10 MHz, the SLC is the lowest phase noise compact clock synthesizer of the industry that can help you challenge tomorrow’s requirements for high speed, high bandwidth Software Defined Radio applications (SDR) and low phase noise PLL and DDS synthesis. Its high power output is ideal to drive mixers’ LO inputs or high-speed digital clocks. Its very low jitter profile makes ADC and DAC testing more accurate. This source is often cleaner than a crystal oscillator and can offer a high SNR, up to 135 dB. USB control helps you seamlessly integrate this tool in your test project or clock distribution architecture. Both synthesizers can be controlled completely independently and do not share any common reference frequencies. However, when coherent signals are required, they can be locked to each other with the help of their 10 MHz reference signals. A unique feature allows multiple SLCs to align their outputs when Phase Coherence is important. Not only they are phase locked in a conventional way like other signal generators but their precise phase relationship is always the same even if you have switched to another frequency in between two measurements. Optional ultra low phase noise OCXO allows the synthesizers to reach their best specification and if this is not enough, the external 10/100/400 MHz reference input/Outputs will extends its long term frequency stability (Allan variance) to the one of atomic clocks.

  • Frequency Range: 2 MHz to 7 GHz
  • Phase Noise Floor: down-to -178 dBc/Hz
  • One or Two Clock synthesizers configuration
  • SNR up to 135 dB
  • 0.001 Hz Resolution
  • Phase alignment for Phase Coherent applications

  • Specifications
  • Request Quote