| After-sales Service: | Following Updating |
|---|---|
| Warranty: | Under Discussion |
| Weighing: | 5000kg |
| Accuracy: | 0.1kg |
| Display Type: | LCD |
| Display Digits: | 4 digits |
| Samples: |
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Audited Supplier | characteristic |
| The maximum measurement and control speed is 1920 times per second. The functions of calculation, alarm, peak valley value, capture, etc. are synchronized with measurement and control |
| Real time capture function, suitable for fast testing applications such as tensile testing, high-speed stamping, rebound tester, free fall impact, etc |
| Real time capture of 19200 data buffer points, replayable or high-speed transmission |
| A total of 6144 points of historical captured data can be recorded, replayed, or transmitted at high speed |
| 3.2 inch true color LCD display with a resolution of 320 x 240. Multiple display methods for waveforms and numbers |
| Equipped with a large capacity lithium battery and an optional external power adapter. |
| Communication can be set to instrument shutdown or standby mode. |
| Can be used by hand or fixed installation. The screen can be rotated 180 ° for display. |
| Typical applications |
| Continuous workflow |
| Use "continuous waveform", "bar graph screen" or "multi-channel numerical screen" to achieve measurement, alarm, communication functions, and also view the continuous curve of the measurement. |
| Intermittent work cycle |
| For example, processes such as workpiece stamping and material tensile testing are not continuous, but have obvious intermittent working cycles. There are usually startup conditions (trigger thresholds) that require obtaining peak, valley, or waveform data during the process. |
| High speed short-term impact process |
| For example, free fall impact testing and other impact tests are characterized by their fast speed, requiring the acquisition of peak, valley, or waveform data during the process. |
| High speed continuous waveform observation |
| For example, in the observation of vibration waveforms, the characteristic of real-time display of waveforms in the waiting trigger state of the "capture screen" can be used to observe high-speed continuous waveforms in this state. Alternatively, as an intermittent work cycle, waveform observation before capturing waveform records can be used to determine reasonable parameter settings. |
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