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AutoRun and the companion feature AutoPlay are components of the Microsoft Windows operating system that dictate what actions the system takes when a drive is mounted. Full software with working serial keys, Soda PDF Standard version 8. Oracle acquired Sun Microsystems in 2010, and since that time Oracles hardware and software engineers have worked sidebyside to build fully integrated systems and. MDO4. 00. 0B Mixed Domain Oscilloscopes Datasheet. Introducing the worlds first oscilloscope that includes a logic analyzer, spectrum analyzer and protocol analyzer all synchronized for an integrated view. Although you can use the MDO4. B Series simply as a mixed signal oscilloscope or as a spectrum analyzer, the real power comes from the integration of the two. For the first time ever, you can see how your designs perform in both the time and frequency domains on a single instrument. View the RF spectrum at any point in time to see how it changes over time or with device state. Solve the most complicated design issues, quickly and efficiently, with an oscilloscope as integrated as your design. Winner of 1. 3 industry awards. Key performance specifications. GHz, 5. 00 MHz, 3. MHz, and 1. 00 MHz bandwidth models. Up to 2. 0 M record length on all channels 3. Magni. Vu high speed acquisition provides 6. Hz to 3 GHz or 9 k. Hz to 6 GHz frequency range models. Ultra wide capture bandwidth 1 GHz. Standard passive voltage probes with 3. F capacitive loading and 5. MHz or 1 GHz analog bandwidth. Key features. Mixed signal design and analysis. Automated triggering, decode, and search on serial and parallel buses. Per channel threshold settings. Multichannel setup and hold triggering. Spectral analysis. Dedicated front panel controls for commonly performed tasks. Automated peak markers identify frequency and amplitude of spectrum peaks. Manual markers. Trace types include Normal, Average, Max Hold, and Min Hold. Detection types include Peak, Peak, Average, and Sample. Spectrogram display for insight into slowly changing RF phenomena. Automated measurements include Channel Power, Adjacent Channel Power Ratio ACPR, and Occupied Bandwidth OBWTrigger on RF power level. Mixed domain and analysis. Time correlated analog, digital, and RF signal acquisitions in a single instrument. Wave Inspector controls provide easy navigation of time correlated data from both the time and frequency domains. Amplitude, frequency, and phase vs. Selectable spectrum time to see how RF spectrum changes over time even on a stopped acquisition. Optional serial triggering and analysis serial protocol trigger, decode, and search for I2. C, SPI, USB, Ethernet, CAN, LIN, Flex. Ray, RS 2. 324. UART, MIL STD 1. I2. SLJRJTDM2. XGA color display. Small footprint and lightweight Only 1. Connectivity. Two USB 2. USB keyboard. USB 2. PC or direct printing to a Pict. Bridge compatible printer. Integrated 1. 01. BASE T Ethernet port for network connection and video out port to export the oscilloscope display to a monitor or projector. Optional application support. Advanced RF triggering. Power analysis. Limit and mask testing. HDTV and custom video analysis. Vector signal analysis. Need more performance Introducing the Mixed Domain Oscilloscope. The MDO4. 00. 0B Series is the worlds first oscilloscope with a built in spectrum analyzer. This integration enables you to continue to use your debug tool of choice, the oscilloscope, to investigate frequency domain issues rather than having to find and re learn a spectrum analyzer. However, the power of the MDO4. B Series goes well beyond simply observing the frequency domain as you would on a spectrum analyzer. The real power is in its ability to correlate events in the frequency domain with the time domain phenomena that caused them. When both the spectrum analyzer and any analog or digital channels are on, the oscilloscope display is split into two views. The upper half of the display is a traditional oscilloscope view of the Time Domain. The lower half of the display is a Frequency Domain view of the spectrum analyzer input. Note that the Frequency Domain view is not simply an FFT of the analog or digital channels in the instrument, but is the spectrum acquired from the spectrum analyzer input. Another key difference is that with traditional oscilloscope FFTs, you can typically either get the desired view of the FFT display, or the desired view of your other time domain signals of interest, but never both at the same time. This is because traditional oscilloscopes only have a single acquisition system with a single set of user settings such as record length, sample rate, and time per division that drive all data views. But with the MDO4. B Series, the spectrum analyzer has its own acquisition system that is independent, but time correlated, to the analog and digital channel acquisition systems. This allows each domain to be configured optimally, providing a complete time correlated system view of all analog, digital, and RF signals of interest. The spectrum shown in the Frequency Domain view is taken from the period of time indicated by the short orange bar in the time domain view known as the Spectrum Time. With the MDO4. 00. B Series, Spectrum Time can be moved through the acquisition to investigate how the RF spectrum changes over time. And this can be done while the oscilloscope is live and running or on a stopped acquisition. The upper half of the MDO4. B Series display shows the Time Domain view of the analog and digital channels, while the lower half shows the Frequency Domain view of the spectrum analyzer channel. The orange bar Spectrum Time shows the period of time used to calculate the RF spectrum. Figures 1 through 4 show a simple everyday application tuning of a PLL. This application illustrates the powerful connection between the time domain and the frequency domain that the MDO4. B Series provides. With its wide capture bandwidth and ability to move Spectrum Time throughout the acquisition, this single capture includes the same spectral content as approximately 1,5. For the first time ever, correlating events, observing interactions, or measuring timing latencies between the two domains is exceptionally easy, giving you quick insight to your designs operation. Figure 1  Time and Frequency Domain view showing the turn on of a PLL. Channel 1 yellow is probing a control signal that enables the VCO. Channel 2 cyan is probing the VCO tune voltage. The SPI bus which is programming the PLL with the desired frequency is probed with three digital channels and automatically decoded. Notice Spectrum Time is placed after the VCO was enabled and coincident with the command on the SPI bus telling the PLL the desired frequency of 2. GHz. Note that the RF is at 2. GHz when the circuit turns on. Figure 2  Spectrum Time is moved about 9. At this point, the spectrum shows that the PLL is in the process of tuning to the correct frequency 2. GHz. It has made it down to 2. GHz. Figure 3  Spectrum Time is moved another 1. At this point the spectrum shows that the PLL has actually overshot the correct frequency and gone all the way down to 2. GHz. Figure 4  The PLL eventually settles on the correct 2. GHz frequency about 3. VCO was enabled. Built on the award winning MSO4. B Series of Mixed Signal Oscilloscopes. The MDO4. 00. 0B Series provides you with the same comprehensive set of features available in the MSO4. B Mixed Signal Oscilloscope Series. This robust set of tools will help you speed through every stage of debugging your design from quickly discovering an anomaly and capturing it, to searching your waveform record for the event and analyzing its characteristics and your devices behavior. Discover. To debug a design problem, first you must know it exists. Every design engineer spends time looking for problems in their design, a time consuming and frustrating task without the right debug tools. The industrys most complete visualization of signals provides fast insight into the real operation of your device. A fast waveform capture rate greater than 3. Fast. Acq enables you to see glitches and other infrequent transients within seconds, revealing the true nature of device faults.