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LeCroy built 1971 the firstreal-time digital oscilloscope(WD 2000) with a memory depth of 20 samples and a sampling rate of 1 ns.188.博金宝

Latest Oscilloscope News

Keysight IV1000X2020年3月18日宣布fo Keysight技术ur new 2-channel models of the InfiniiVision 1000 X-Series oscilloscopes with 50 MHz to 200 MHz bandwidth, providing professional-level measurements and capabilities at an affordable price, including a standard decode function for five serial data protocols and remote connection via local area networks (LANs) and USB.

18 March 2020 - Tektronix and Coherent Solutions announced an exclusive partnership agreement to provide fully-integrated optical communications platforms in support of the growing global demand for communications across the telecom, datacom, defense/aerospace, and semiconductor markets.

TiePie WiFiScopeWS6DIFF16 March 2020 - TiePie engineering introduced two new members of the high resolution WiFiScope series oscilloscopes. The new WiFiScopes mark a new, innovative development of TiePie engineering: the first and industry’s only WiFi connected oscilloscopes with differential inputs. Available are two models with 4 channels: WiFiScope WS4 DIFF (50 MHz bandwidth) and WiFiScope WS6 DIFF (250 MHz bandwidth).

Picotech 6000E24 February 2020 – Pico Technology announced the PicoScope 6000E Series FlexRes oscilloscopes, featuring 8 channels with 500 MHz bandwidth, 16 digital channels, and resolution of 8, 10 or 12 bits. The products work with PicoScope 6 application software, which takes full advantage of the latest PC performance and display capabilities, showing clean, crisp waveforms on screens of any size and resolution.

Keysight SiliconLabs10 February 2020 - Keysight Technologies and Silicon Labs announced a collaboration that streamlines the validation of timing solutions critical in the development of system-level designs for wireless communications, high-speed digital, medical imaging and automotive applications. The new solutions allows a quickly and cost-effectively characterization of the performance of clocks and oscillators.

RS FSWP03 February 2020 – Epson and Rohde & Schwarz developed a test procedure for measuring power supply noise rejection to bring clarity and precision to real-world signal integrity design challenges. The companies demonstrated the procedure and summarized data from Epson’s SG3225EEN low noise differential crystal oscillator measured by the R&S FSWP phase noise analyzer from Rohde & Schwarz at DesignCon 2020 in January.

TLC QPHY30 January 2020 – Teledyne LeCroy announceed the QualiPHY USB4 Electrical Transmitter (Tx) and Receiver (Rx) Compliance Test Software (QPHY-USB4-TX-RX) for its LabMaster 10 Zi-A and WaveMaster/SDA 8 Zi-B oscilloscopes used in conjunction with Anritsu’s Signal Quality Analyzer-R (SQA-R) MP1900A BERT. This announcement follows Teledyne LeCroy’s shipment of the first (and only) USB4 Protocol Analyzer in September of 2019.

  1. New Approach for Signal Integrity Debugging
  2. Siglent launched new 2/4-channel 100-350Hz Oscilloscopes
  3. Differential Probing Solution for DDR5/LPDDR5
  4. Testing and Debugging of Automotive Ethernet
  5. 200 MHz to 1 GHz Oscilloscopes with 12-bit Resolution
  6. Portable Oscilloscope with USB, LAN or WiFi Connection
  7. 200 MHz 2-Channel Oscilloscope with 24MPts Memory

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Oscilloscope Basics

A Comparison between Oscilloscopes and Spectrum Analyzers

oscilloscope spectrum analyzer function无论是土地调查寻找我rals 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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Digital Debugging - better using a Mixed-Signal-Oscilloscope or a Logic Analyzer?

Tektronix mixed-signal oscilloscope MSOToday’s technology is fundamentally balanced on an increasingly fine line between the analogue and digital domains; as data speeds increase — both within and between devices — the ‘ideal world’ of fast, clean digital transitions becomes evermore difficult to achieve. This presents new and escalating challenges when verifying faster digital signals that exhibit more and more analogue-like features. As a result it is becoming necessary to remove the hard line between digital and analogue.

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