Описание

Controller
Model LK-2501
Type Amplifier unit, Long-distance*1 Controller
Measurement mode High-precision mode,Long-range mode
Reference distance 350 mm (High-precision mode),500 mm (Long-range mode)
Measuring range ±100 mm (High-precision mode),±250 mm (Long-range mode)
Light source Type Visible red semiconductor laser
Wavelength 690 nm
Output 15mW
Laser Class FDA (CDRH) 21CFR Part 1040.10 Class 3B Laser Product
Laser Class IEC 60825-1
Spot diameter (at standard distance) Approx. 0.7 mm (High-precision mode),Approx. 0.3 mm (Long-range mode)
Linearity ±0.1% of F.S. *2
Repeatability 10 µm*3 (High-precision mode), 50 µm*3 (Long-range mode)
Analogue output Output voltage ±10 V (10 µm/mV)*4 (High-precision mode), ±5 V (50 µm/mV)*4 (Long-range mode)
Impedance 100 ?
Output current 4 to 20 mA (Applicable load: 350 ? max.)
Alarm output NPN: 100 mA max. (40 V max.) (N.C.), Residual voltage: 1 V max.
Sampling cycle 1,024 µs
Other functions Auto-zero, analog output holding when an alarm occurs, gain switching, response switching, span and shift adjustment of mirror surface measurement mode, changing the sampling cycle
Temperature characteristics 0.01% of F.S./°C
Rating Power voltage 24 VDC ±10 %, Ripple (P-P) 10 % or less
Maximum current consumption 400 mA max.
Environmental resistance Enclosure rating IP67
Ambient light Incandescent or fl uorescent lamp: 10,000 lux max.
Ambient temperature 0 to +50 °C (No condensation)
Relative humidity 35 to 85 % RH (No condensation)
Vibration resistance 10 to 55 Hz, Double amplitude 1.5 mm, 2 hours in each of the X, Y, and Z directions
Material Polycarbonate
Weight Approx. 515 g (including cable)
*1 The LK-501 and LK-503 can both be used in High-precision mode or Long-range mode. *2 Linearity was obtained using KEYENCE's standard target (Zirconia block gauge: LK-031/036, LK-081/086, LK-011, White ceramic block gauge: LK-501/503). *3 Repeatability was obtained using KEYENCE's analogue sensor controller (RD-50) with the number of averaging measurements set to 64. Note: The ripple of the analogue output may be 1 mV or more due to co mmon mode noise when observed with an oscilloscope or a high-speed A/D conversion board. *4 When measurement is impossible, 12 V (31.2 mA) is output.
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