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| | | | | | | | | | | | | | | | | | | | | ■■i | ■■■■ | ■■■■ | | MEASURING RANGES | | | | Performance optoNCDT | | | | | | | | LINEARITY | | | | | | | | | | | | ■buh | | | | | | RESOLUTION | | | | | | | | | | | | | | | | |
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| | | 10 /jm | | 100 jm | | 100 mm | | |
| | | 100 nm | | 1//m | | | 1mm | | 10 mm | | | 1m | | |
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| | | | | | | | | | optoNCDT 1300 | | | | | Compact Low-Cost | CMOS sensors with | | | | integral controller | | | | | Measuring ranges | 20 - 200 mm | | | | Linearity | ±0.2 % | | | | Resolution | 0.02 % | | | | Measuring rate | 500 Hz | | | | | | | | | | | | | | | | optoNCDT 1401 | | | | | Compact CMOS sensors with | | | | integral controller | | | | | Measuring ranges | 5 - 250 mm | | | | Linearity | <0.2% | | | | Resolution | 0.01 % | | | | Measuring rate | 1 kHz | | | | | | | | | |
| | | optoNCDT 1607 Analog PSD sensors for high speed measurements Measuring ranges 0.5 - 200 mm Linearity <0.2 % Resolution 0.02 % Measuring rate 37 kHz | | |
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| | | | | | | | | | optoNCDT 1700 | | | | | Compact CMOS sensors with | | | | integral controller | | | | | Measuring ranges | 2 - 750 mm | | | | Linearity | <0.08 % | | | | Resolution | 0.005 % | | | | Measuring rate | 2.5 kHz | | | | | | | | | |
| | | optoNCDT 2200 Measuring ranges 2 - 200 mm Linearity <0.03 % Resolution 0.005 % Measuring rate 10 kHz | | |
| | | Synchronization of two sensors Simultaneous measurement using two sensors is necessary in order to obtain precise results, with thickness or differential measurements, when the target is moving or oscillating. With the IF2004 PCI interface card the data from up to four sensors can be synchronously read via a FIFO memory. | | |
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| | | RTSC: Real-Time Surface Compensation With RTSC, a world-wide unique innovation, the degree of reflection from the target is compensated during the on-going exposure in real-time. The exposure time or the amount of light produced by the laser is optimally matched to the currently running exposure cycle. Only sensors from Micro-Epsilon are equipped with this innovative real-time control and consequently they always achieve optimum results even with changing surfaces. | | Single-shottrigger The novel single-shot trigger facilitates sensor control by means of an external trigger signal or software command. The signal controls the measurement and enables efficient data acquisition, because only relevant ranges are acquired and unnecessary measurements avoided. SPL- measurement with direct reflection The Option 001 compensates the reflection intensity on glass and mirror surfaces. Therefore it always outputs stable data particularly on direct reflecting surfaces. | | |
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| | | y (um) correct measurement | | y (um) measurement error | | |
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| | | t optoNCDT with RTSC real-time surface compensation | | |
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| | | Standard laser detection with time-shift control give distinctly incorrect signals with a change of surface | | |
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