Delivering confidence to confront the most challenging RF designs.
Quickly solve Radio Frequency Identification measurement issues with Tektronix RFID test solutions. RFID technologies, including applications such as Near Field Communication and Tire Pressure Monitoring Systems, are developing at a rapid rate and being integrated on devices with other RF technologies. With the industry's most complete standard support and deep acquisition memory, Tektronix solutions simplify complete characterization and troubleshooting of these designs.
| Product |
Frequency Range |
Maximum Acquisition Bandwidth |
| H600 / SA2600 |
10 kHz - 6.2 GHz |
20 MHz |
| Product |
Frequency Range |
Sample Rate |
| AWG5000 |
DC to 350 MHz |
Up to 1200 MS/s |
| AWG7000 |
DC to 9.6 GHz |
Up to 24 GS/s |
| Product |
Frequency Range |
Maximum Acquisition Bandwidth |
| RSA3000 |
DC to 8 GHz |
36 MHz |
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Product Series |
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This brief fact sheet provides an overview of the challenges and solutions for FRID/NFC/TPMS design, compliance and field validation. |
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This application note offers a systematic, detailed approach to analyzing the performance of an RFID system, and the environment in which it is deployed. |
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An article at RF Designline |
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An article at Microwave Journal |
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This article addresses the challenges involved in generating a wide range of real-world signals required to test an effective SIGINT receiver. By RF Design. |
RFXpress |
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Although UWB promises high data rates, creating these signals in the lab and preserving their signal integrity is a highly complex process. One unique method of creating UWB-WiMedia signals uses an arbitrary waveform generator (AWG), yet retains the simplicity of using a dedicated UWB chipset. By RF Design magazine. |
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Wireless Design & Development magazine |
RSA6000 |
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Microwave Journal magazine |
RSA6000 |
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RSAVu software enables offline demodulation and analysis of data captured from Tektronix Real-Time Spectrum Analyzers (RTSA). From 3G wireless standards to the latest RFID formats, RSAVu is a tool designers can use to analyze signals without having RTSA hardware connected. |
RSA3000 |
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This reference guide describes how to communicate remotely with RSAVu and the Real Time Spectrum Analyzer (RTSA) via SCPI commands by the use of two examples, one in C++ and one in MATLAB |
RSA6000 |
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Product Series |
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Your Guide to Selecting the Right Real-Time Spectrum Analyzer |
Today's RF signals change over time, often unpredictably. To effectively characterize these signals, engineers need a tool that can trigger on both known and unpredictable events, capture the signals seamlessly into memory, and analyze the behavior of frequency, amplitude, and modulation parameters over time. |
RSA3000 |
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Product Series |
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Solving Challenges in UHF RFID Systems Webinar |
This webinar offers a systematic, detailed approach to analyzing the performance of a UHF RFID system using the features available in the Tektronix RSA3000 Series Real-Time Spectrum Analyzer (RTSA). While there are a variety of frequency bands and applications for RFID, this presentation will offer examples with a focus on the 900 MHz and 433 MHz bands. The challenges and solutions presented here often apply to LF and VHF frequency bands, as well. |
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RTSAs: Enabling Cetecom to lead the RFID industry |
Cetecom uses a Real-Time Spectrum Analyzer at the heart of their RIDER test platform to provide the ability to test a wide range of frequencies, data rates and other timing parameters. |
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