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The difference between an oscilloscope and a spectrum analyzer? This article explains the difference using examples. Read more...
Latest Oscilloscope News |
Oscilloscope Probe for Voltages in the Millivolt Range
04 November 2016 - The new R&S RT-ZP1X passive 1:1 probe from Rohde & Schwarz f is ideal for measuring smallest signals down to 1 mV/div, e.g. for power integrity measurements on integrated circuits and components. The new passive 1:1 probe is precisely matched to the R&S RTE (up to 2 GHz) and the R&S RTO1000/2000 (up to 4 GHz) oscilloscopes.
DisplayPort Type-C Transmitter Test Solution
03 November 2016 – Tektronix announced a new DisplayPort Type-C Transmitter Test solution that significantly reduces compliance test times compared to both previous Tektronix DisplayPort solution and those available from competitors. According to real-world field evaluations, the highly optimized solution for use with Tektronix high-performance oscilloscopes allows engineers to complete the full suite of DisplayPort Type C compliance tests in less than 6 hours compared to competitive offerings that require up to 16 hours to complete -- a remarkable execution speed.
Debugging of complex 100G Datacenter Interconnects
01 November 2016 – Tektronix released a new 100G link training tool for use with its DPO70000SX family of ultra-high performance oscilloscopes. This new option, along with expanded measurement support for 100G electrical debug and validation, addresses critical needs in the growing datacenter market. The expanded analysis software for DPO70000SX series oscilloscopes helps engineers to debug complex high-speed Ethernet communications links.
Test Probes for Signals up to 18 Gb/s
31 October 2016 - Pico Technology launched a new family of high-performance microwave and gigabit test probes. The PicoConnect passive probes allow cost-effective fingertip browsing of broadband signals or data streams out to 9 GHz or 18 Gb/s. These include the now ubiquitous USB 2 & 3, HDMI 1 & 2, Ethernet, PCIe, SATA and LVDS standards.
High-Speed, High-Resolution, High-Voltage PXIe Oscilloscope
26 October 2016 – National Instruments (NI) announced the PXIe-5164 oscilloscope featuring 100 Vpp maximum input range at 1 GS/s and 14 bits resolution. The PXIe-5164 is built on the open, modular PXI architecture, and includes a user-programmable FPGA to help aerospace/defense, semiconductor and research/physics applications that require high-voltage measurements and high levels of amplitude accuracy.
CAN FD Support for Tektronix Mixed Domain Oscilloscopes
20 October 2016 - Tektronix introduced a complete CAN FD protocol trigger, decode and search solution for its MDO3000 and MDO4000C Series of mixed domain oscilloscopes. The solution helps automotive engineers to meet consumer demand for more capable and sophisticated electronic modules and integrated systems. Automobile manufacturers are increasingly adopting the CAN FD (Controller Area Network with Flexible Data Rate) protocol which allows them to transmit more data inside vehicles.
First Oscilloscope with PSI5 Bus Analysis Support
13 October 2016 - Yokogawa announces support for Peripheral Sensor Interface 5 (PSI5) bus analysis on its 8 channel DLM4000 and 2 and 4 channel DLM2000 oscilloscopes. Yokogawa’s PSI5 support is a first for the industry, and makes its oscilloscopes uniquely useful for automotive designers and engineers.
Oscilloscope Basics |
A Comparison between Oscilloscopes and Spectrum Analyzers
Whether it is for a land survey searching for minerals on Earth, or for a space exploration in search of alien life forms, the analysis of any signal boils down to looking at its time and frequency information. While an oscilloscope displays a signal with respect to time, a spectrum analyzer shows it with respect to frequency. Both of these tools are very important in any signal analysis application. This article explains the difference between oscilloscope and spectrum analyzer using examples.
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Oscilloscope Background |
Precision Phase Noise Measurement Technique - Part 2
In the first part of this article a simple phase noise measurement technique with a resolution of 10 ps was explained. There are other techniques, which could enhance the performance of the measurement to sub-picoseconds. That is the subject of this article.
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