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The Tektronix TDS3064B oscilloscope is a graph-displaying device – it draws a graph of an electrical signal. In most applications, the graph shows how signals change over time: the vertical (Y) axis represents voltage and the horizontal (X) axis represents time. The intensity or brightness of the display is sometimes called the Z axis.
The Tektronix TDS3064B oscilloscope's simple graph can tell you many things about a signal, such as: the time and voltage values of a signal, the frequency of an oscillating signal, the “moving parts” of a circuit represented by the signal, the frequency with which a particular portion of the signal is occurring relative to, other portions, whether or not a malfunctioning component is distorting the signal, how much of a signal is direct current (DC) or alternating current (AC) and how much of the signal is noise and whether the noise is changing with time.
The TDS3000B Series of Digital Phosphor Oscilloscopes provides unmatched performance and portability at an affordable Price. The TDS3064B packs the power of a DPO, digital real-time (DRT) sampling technology, WaveAlert waveform anomaly detection, OpenChoice documentation and analysis solutions and five application-specific modules into a lightweight, battery-capable design.A DPO provides a greater level of insight into complex signals. The TDS3000B Series DPO delivers 3,600 wfms/s continuous waveform capture rate to capture glitches and infrequent events three times faster than comparable oscilloscopes. Some oscilloscope vendors claim high waveform capture rates for short bursts of time,but only DPOs can deliver these fast waveform capture rates on a continuous basis saving minutes, hours or even days by quickly revealing the nature of faults so advanced triggers can be applied to isolate them. In addition, the TDS3064B DPO's real-time intensity grading highlights the details about the history of a signal's activity, making it easier to understand the characteristics of the waveforms you've captured.
- 600MHz Bandwidths
- 5 GS/s Maximum Real-time Sample Rate, with Sin(x/x Interpolation
- 4 Channels
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