Even automated systems require significant manual intervention to complete elements of the most simple calibration procedures. Over the last decade, the oscilloscope of choice has migrated from a two-channel instrument to a more complex four-channel device. Active Head with 25 ps pulse capability. All control and switching of waveforms are performed under the control of the mainframe, yet within the head itself – typically only a matter of millimeters away from the oscilloscope input and amplifiers. Whatever amplitude you choose, controlled waveshape filtering ensures that all high-speed edges have an accurately defined energy distribution. With our continued focus on securing your investment, the Active Head is the latest product to fulfill this promise, allowing current users of the to upgrade their equipment to any B status and take advantage of more recent product and performance enhancements. Register Log in Contact Us.
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Even automated systems require significant manual intervention to complete elements of the most simple calibration procedures. As your workload changes, and higher performance instruments become more important, you can upgrade performance to 1.
B Oscilloscope Calibrator
Within the head is all the circuitry needed to supply all the signals necessary to calibrate a modern, high-performance oscilloscope. Active Heads are lightweight modules measuring only 14 x 6. Active Head with 1. Hard Transit Case Requires Option An alternative is to introduce a switching matrix to route signals, though this may result in problems with signal reflections, poor contacts and path differences that materially impact calibration uncertainties.
Showing Results for Fluke 9500B
This short distance comprises matched impedance, micro-strip transmission line and high quality BNC or SMA connectors to all but eliminate sources of degradation, distortion and uncertainty of calibration signals. 5900b choice of four styles, plus the ability to highlight every tenth marker by increasing its amplitude, provides optimum visibility on analog and digital storage oscilloscopes.
The hybrid within the head can route even a high frequency, externally generated calibration signal to the Active Head output. Leveled sinewaves to 6. Electrical Fouke Workload Matrix They also calibrate Z-axis and horizontal deflection bandwidth.
We’d like your feedback. Therefore, any of the models listed above can be upgraded to higher performance at any time, an option which also applies if you already own one of our existing Series calibrators.
The is able to deliver 6 GHz leveled sine wave and pulse edges of only 70 ps. The final link in the chain of full automation is software.
Fluke B High Performance Oscilloscope ghz Calibrator *calibrated* | eBay
At Fluke Calibration, we recognise that we must address the highest levels of performance to maintain our undisputed leadership in the field of oscilloscope calibration. The introduction of the latest member of the Active Head family,once again underlines our commitment to oscilloscope calibration. Vertical deflection gain DC levels and 10 Hz to kHz squarewaves are adjustable up to V with 5-digit amplitude resolution at 0.
The heads are connected directly to the oscilloscope input without the need for additional cables. Automating oscilloscope calibration is possibly one of the biggest productivity enhancements that can be realised in many calibration labs. Their addition can improve performance, extend frequency range or increase automation possibilities of the B Oscilloscope Calibration Workstation.
Complete Functionality Vertical and horizontal deflection bandwidth Fast return-to-ground edges with amplitudes between 4.
The hybrid fluek contains sinewave amplitude sensing circuits, wideband attenuator networks, a pulse generator, an edge generator and output signal multiplexing. All control and switching of waveforms are performed under the control of the mainframe, yet within the head itself – typically only a matter of millimeters away from the oscilloscope input and amplifiers.
Continuous upgradeability helps you protect your investment in the tools you need to manage ever changing workload demands. To compound the problem, rapid developments in oscilloscope technology make it difficult to keep up with performance trends without substantial re-investment on a regular basis.
Over recent years, oscilloscope technology and performance levels have changed dramatically, a trend set to continue. rluke
Timebase accuracy Timing markers cover the calibration of timebase ranges from 0. The square and pulse markers can also be used to calibrate timebase jitter. When calibrating these instruments, it is necessary to move the calibrating signal from channel to channel as the procedure progresses. This can fulke achieved by physically moving cables, though this requires operator intervention.
Fluke 9500B High Performance Oscilloscope 3.2ghz Calibrator *calibrated*
Active Head with 25 ps pulse capability. A range of mainframes At Fluke Flukr, we recognise that we must address the highest levels of performance to maintain our undisputed leadership in the field of oscilloscope calibration.
Worse still, switching dluke or multiplexers used to enable a degree of automation often contribute more errors and aberrations than the instrument being calibrated. In a conventional, cabled environment, mismatches, unknown or unpredictable cable transmission properties and less than perfect connections all contribute to degradation of the signal between the calibrator output and the oscilloscope input.