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The RL127 is characterized as a Large High Dispersion Bright Field ring light.
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Non-lensed LEDs disperse light at broad angles, providing “soft” lighting for applications that require short to medium working distances.
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The low-profile design is only .75” (19mm) thick, with an O.D. of 4.6” (117mm) and I.D. of 2.61” (66.3mm) allowing it to be used in space constrained applications.
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The I.D. provides a standard 67mm diameter thread with a pitch of .75mm for further mounting flexibility.
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A wide variety of wavelengths are available from UV to IR. An optional polarizer and/or diffuser may be used to further condition the light output.
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The RL121 delivers 20kLux at a working distance of 100mm.
Amplifier Research - E-field Generators for EMC Testing
AR E-field generators offer exceptional uniformity between the elements. Our ATE10K30M uses low inductance high-power internal load resistors to terminate RF power, and offers well-matched input VSWR. The ATE10K100M is our own patent-pending folded-dipole type design. And we haven’t yet found a test object the ATE10K25M–1 can’t handle.
10 kHz to 100 MHz • 1000 V/m Between The Element
Model Number |
Description |
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10 kHz – 25 MHz, 3000 W input power, E Field Generator |
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10 kHz – 30 MHz, 2000 W input power, E Field Generator |
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10 kHz – 100 MHz, 500 W input power, E Field Generator |
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10 kHz – 100 MHz, 3000 W input power, Broadband Transmission Line, supplied with basic stand |
More Product Information
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Write your own code in ANSI C, as part of the FRIWO firmware.
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Focus on developing your own applications and USPs:
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Develop your own hill assist (application: eScooter)
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Turn your motor control into a fan or pump control
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Adapt CAN messages to your existing eScooter setup
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Adapt CAN messages of your FRIWO Battery Pack
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Use your own algorithms for field oriented control (coming soon)
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Develop your own State of Charge (SOC) calculation within the BMS (coming soon)
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Access to new modules to provide even more integration depth and possibilities for customization.
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Monitor and change your own parameters within the FRIWO Enable Tool.
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Advanced component protection against misconfiguration.
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Easy rollout of your customized software for your eScooter fleet (Requirement: The eScooters run with MCU6000).
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Access to Github Repository with detailed code samples.
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Reliable FAR Part 43 Appendix ‘F’ ERP and MTL testing in high multi-path environments
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Provides >20 dB of antenna isolation for Mode S transponder altitude and diversity tests
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Reduces interference with air traffic control and nearby aircraft
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Rugged design for ramp use
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Fits most ‘Shark Fin’ L-Band antennas
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Quick action antenna grip/release action
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Operates up to and including 16GTps, PCIe 4.0 data rates
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One Pod supports link widths of up to 4-lanes. Multiple pods can expand link widths up to 16-lanes.
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Downward compatible with PCIe 1.0 to 3.0 data rates of 2.5, 5.0 and 8.0GTps
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Eight differential probe cables support simultaneous upstream and downstream capture
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Supplied with two high-quality SFF-8674 equivalent custom cables for Analyzer attachment
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Data path uses high-sensitivity amplifiers to ensure good signal capture with little or no tuning
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Supports Analyzer side-band signal triggering and capture
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Interposer power is independent of host system.
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Power supply, 120/220 input, 12V/3A output
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LEDs provide quick indication of power and status
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Size: 170 x 107 x 34 mm (6.7 x 4.2 x 1.3 in)
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Works together with multiple VIAVI Xgig PCIe Analyzer chassis types
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Provides consistent, repeatable capture of link training, equalization negotiation and other data
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Supported by Xgig tool suite including Trace Control, Expert™ and Serialytics™
AR Microwave horns take microwave coverage to a new level. Our broadband RF and microwave horn antennas are specially designed to compensate for the losses that typically occur in test systems as frequency increases. They exhibit increasing gain with increasing frequency, up to 50 GHz. AR microwave horn antennas can be used in shielded rooms or in free space.
These rugged, dependable high gain log periodic antennas give you the constant high intensity fields you need for RFI and EMI testing in and out of a shielded room. They deliver frequency response and field intensity beyond the norm. AR’s log periodics are designed for high power radiated testing and can be calibrated for emissions.
Their lightweight modular design makes assembly and relocation easy. And they’re built tough, so they can withstand extreme temperatures.
- Solve machine vision applications efficiently by constructing flowcharts instead of writing program code, using field-proven tools for analyzing, classifying, locating, measuring, reading and verifying
- Use a single program for creating both application logic and operator interface
- Leverage deep learning for visual inspection through image classification and segmentation tools
- Rely on a common underlying vision library for the same results with an Iris GTX smart camera, vision systems or third-part computer
- Work with multiple cameras all within the same project or per project running concurrently and independently from one another, platform permitting
- Interface to Zebra AltiZ and third party 3D sensors to visualize, process and analyze depth maps and point clouds
- Communication options include discrete Zebra I/Os, RS-232, and Ethernet (TCP/IP, CC-Link IE Field Basic, EtherNet/IP, Modbus, OPC UA, and PROFINET, and native robot interfaces)
- Maximize productivity with instant feedback on image analysis and processing operations
- Receive immediate pertinent assistance through an integrated contextual guide
- Maintain control and independence through the ability to create custom flowchart steps
- Test communication with PLC using the built-in PLC interface emulator
- Protect against inappropriate changes with the Project Change Validator tool
AR E-field generators offer exceptional uniformity between the elements. Our ATE10K30M uses low inductance high-power internal load resistors to terminate RF power, and offers well-matched input VSWR. The ATE10K100M is our own patent-pending folded-dipole type design. And we haven’t yet found a test object the ATE10K25M–1 can’t handle.
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5 MHz or 10 MHz Outputs Available
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Reference Frequency Input Option
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Auto Changeover with Ref. Input Option
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Low Phase Noise Outputs
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Twenty four Outputs
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Front Panel Status Indicators
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Fault Discrete Inputs
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Compact 1U, 19” rack mount
Amplifier Research
Founded in 1969, Amplifier Research is a world-class source for broadband high power, solid state, RF amplifiers and microwave amplifiers, TWT amplifiers, log periodic antennas and high-gain horn antennas, plus EMC test equipment, software and field probes and monitors. Throughout its 50 years (and counting), AR has been responsible for a number of “firsts” which have transformed not only EMC and RF testing but also the industries and equipment affected by these tests. A sampling of these innovations includes:
- 10,000-watt tube amplifiers,100-watt solid-state • 100-1000 MHz instantaneous bandwidth Class A amplifier
- First production 16,000-watt solid-state linear amplifier from 10 kHz to 225 MHz
- 50,000-watt Class A power amplifier up to 225 MHz
- 0.7 to 6 GHz high-power Class A & AB amplifier
Additionally, they push the limits of state-of-the-art design and have ruggedized their products to make them virtually indestructible. AR amplifiers are fully tested to the extreme to ensure customers receive a product that is built to last.
Contact Details
Amplifier Research Corporation, Ametek CTS
160 Schoolhouse Rd., Souderton, PA 18964-9990, USA
Phone: 215-723-8181
Customer Service: 215-723-0275