ZS-HL
A paraméretezhető, nagy pontosságú lézeres mérőérzékelő
Az intelligens ZS-HL érzékelő kiváló dinamikus érzékelési tartományának köszönhetően a fekete gumitól az üvegig és a tükröződő felületekig széleskörűen hasznosítható az egyéni igények szerinti paraméterezéssel. A ZS-HL a ZS-L sorozat továbbfejlesztett változata, amellyel hosszabb mérési távolságok érhetők el, és biztosított a kompatibilitás az érzékelőfejekkel, illetve tartozékokkal.
- A legnagyobb felbontás és dinamikus érzékelési tartomány mindenféle felület esetén
- Egységes modularitás és méretezhetőség akár 9 érzékelővel
- Könnyen használható, telepíthető és karbantartható minden felhasználói szinten
- Gyors, 110 µs-os válaszidő
- A többszálú (multi-task) feldolgozási képesség lehetővé teszi akár 4 mérési eszköz kezelését egy vezérlőn belül
Specifikáció és rendelési információ
Ordering information
Sensors
ZS-HL-series sensor heads
Resolution1 |
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ZS-HL-series sensor heads (for nozzle gaps) also compatible with ZS-L controller
Resolution2 |
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ZS-L-series sensor heads
Resolution3 |
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ZS-HL-series sensor controllers
Multi-controllers
Data storage units
Accessories (sold separately)
Controller link
Panel mount adapter
Cables for connecting to a Personal Computer
Extension cables for sensor heads
ZS-XC10B1 |
Logging software
Memory card
Safety precautions for using laser equipment
Specifications
Sensor heads
ZS-HL-series sensor heads
Visible semiconductor laser (wavelength: 650 nm, 1 mW max., JIS Clas |
Visible semiconductor laser (wavelength 658 nm, 1 mW max., Class 2) |
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Beam diameter1 |
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Linearity2 |
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Resolution3 |
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Temperature characteristic4 |
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110 µs (high-speed mode), 500 µs (standard mode), 2.2 ms (high-precision mode), 4.4 ms (high-sensitivity mode) |
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Lits near the measurement center, and nearer than the measurement center distance inside the measuring range. |
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Lits near the measurement center, and further than the measurement center distance inside the measuring range. |
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Illumination on received light surface 3,000 lx or less (incandescent light) |
Illumination on received light surface 1,000 lx or less (incandescent light) |
Illumination on received light surface 500 lx or less (incandescent light) |
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Operating: 0 to 50°C, storage: -15 to 60°C (with no icing or condensation) |
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10 to 150 Hz, 0.7 mm double amplitude, 80 min each in X, Y, and Z directions |
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150 m/s² 3 times each in six directions (up/down, left/right, forward/backward) |
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*1 Defined as 1/e² (13.5%) of the center optical intensity in the measurement center distance. The beam diameter is sometimes influenced by the ambient conditions of the workpiece such as leaked light from the main beam.
*2 This is the error on the measured value with respect to an ideal straight line. Linear curve may change according to the workpiece. The following lists the workpieces
*3 This is the “peak-to-peak” displacement conversion value of the displacement output in the measurement center distance when high-resolution mode and the average number in the table are set (For ZS-HLDS60, the maximum resolution at 250 mm is also included). The following lists the workpieces.
*4 Value obtained when the sensor part and object part are fixed with an aluminum jig.
ZS-L-series sensor heads
Visible semiconductor laser (wavelength: 650 nm, 1 mW max., JIS Class 2) |
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Beam diameter6 |
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Linearity7 |
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Resolution8 |
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Temperature characteristic9 |
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Sampling cycle10 |
110 µs (high-speed mode), 500 µs (standard mode), 2.2 ms (high-precision mode), 4.4 ms (high-sensitivity mode) |
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Lights near the measuring center distance, and nearer than the measuring center distance inside the measuring range. Flashes when the measurement target is outside of the measuring range or when the received light amount is insufficient. |
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Lights near the measuring center distance, and further than the measuring center distance inside the measuring range. Flashes when the measurement target is outside of the measuring range or when the received light amount is insufficient. |
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Illumination on received light surface: 3,000 lx or less (incandescent light) |
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Operating: 0 to 50°C, storage: -15 to 60°C (with no icing or condensation) |
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Laser labels (1 each for JIS/EN, 3 for FDA), ferrite cores (2), insure Locks (2), instruction sheet |
Laser safety labels (1 each for JIS/EN),ferrite cores (2), insure locks (2) |
ZS-L-series sensor heads
Visible semiconductor laser (wavelength: 650 nm, 1 mW max., JIS Class 2) |
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Beam diameter11 |
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Linearity12 |
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Resolution13 |
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Temperature characteristic14 |
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Sampling cycle15 |
110 µs (high-speed mode), 500 µs (standard mode), 2.2 ms (high-precision mode), 4.4 ms (high-sensitivity mode) |
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Lights near the measuring center distance, and nearer than the measuring center distance inside the measuring range. Flashes when the measurement target is outside of the measuring range or when the received light amount is insufficient. |
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Lights near the measuring center distance, and further than the measuring center distance inside the measuring range. Flashes when the measurement target is outside of the measuring range or when the received light amount is insufficient. |
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Illumination on received light surface: 3,000 lx or less (incandescent light) |
Illumination on received light surface: 2,000 lx or less (incandescent light) |
Illumination on received light surface: 3,000 lx or less (incandescent light) |
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Operating: 0 to 50°C, storage: -15 to 60°C (with no icing or condensation) |
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Laser labels (1 each for JIS/EN, 3 for FDA), ferrite cores (2), insure Locks (2), instruction sheet |
Sensor controllers
ZS-HL-series sensor controllers
ZS-MDC11/MDC41 multi controllers
Basic specifications are the same as those for the sensor controllers.
The following points, however, are different.
(1) Sensor heads cannot be connected.
(2) A maximum 9 of controllers can be connected. Control link units are required to connect controllers.
(3) Processing functions between controllers: Math functions
Controller link unit
Data storage units
10 controllers max. (ZS-MDC: 1 controller, ZS-HLDC: 9 controllers max.)16 |
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Serial I/O: connector, other: pre-wired (standard cable length: 2 m) |
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3 outputs: HIGH, PASS, and LOW
NPN open-collector, 30 VDC, 50 mA max., |
3 outputs: HIGH, PASS, and LOW
PNP open-collector, 50 mA max., |
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ON: Short-circuited to supply voltage or within 1.5 V of supply voltage |
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Start and stop triggers can be set separately; external triggers, data triggers (self-triggers), and time triggers |
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External banks, alarm outputs, saved data format customization, and clock |
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16 digitsx2 rows, color of characters: green, resolution per character: 5x8 pixel matrix |
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Direction keys (UP, DOWN, LEFT, and RIGHT), SET key, ESC key, MENU key, and function keys (1 to 4) |
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Threshold switch (2 states: High/Low), mode switch (3 states: FUN, TEACH, and RUN) |
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Operating: 0 to 50°C, storage: -15 to 60°C (with no icing or condensation) |
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Ferrite core (1) instruction sheet, tools for data storage unit: CSV file converter for data storage unit, smart analyzer macro edition |
3. This is the peak-to-peak displacement conversion value in the displacement output at the measuring center distance in high-precision mode when the number of samples to average is set to 128 and the measuring mode is set to the high-resolution mode. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode.
6. Defined as 1/e² (13.5%) of the center optical intensity at the actual measurement center distance (effective value). The beam diameter is sometimes influenced by the ambient conditions of the workpiece, such as leaked light from the main beam.
7. This is the error in the measured value with respect to an ideal straight line. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode of the ZS-LD20T/40T/50. Linearity may change according to the workpiece.
8. This is the peak-to-peak displacement conversion value in the displacement output at the measuring center distance in high-precision mode when the number of samples to average is set to 128 and the measuring mode is set to the high-resolution mode. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode.
9. This is the value obtained at the measuring center distance when the Sensor and workpiece are fixed by an aluminum jig.
11. Defined as 1/e² (13.5%) of the center optical intensity at the actual measurement center distance (effective value). The beam diameter is sometimes influenced by the ambient conditions of the workpiece, such as leaked light from the main beam.
12. This is the error in the measured value with respect to an ideal straight line. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode of the ZS-LD20T/40T/50. Linearity may change according to the workpiece.
13. This is the peak-to-peak displacement conversion value in the displacement output at the measuring center distance in high-precision mode when the number of samples to average is set to 128 and the measuring mode is set to the high-resolution mode. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode.
*1 Defined as 1/e² (13.5%) of the center optical intensity in the measurement center distance. The beam diameter is sometimes influenced by the ambient conditions of the workpiece such as leaked light from the main beam.
*2 This is the error on the measured value with respect to an ideal straight line. Linear curve may change according to the workpiece. The following lists the workpieces
*3 This is the “peak-to-peak” displacement conversion value of the displacement output in the measurement center distance when high-resolution mode and the average number in the table are set (For ZS-HLDS60, the maximum resolution at 250 mm is also included). The following lists the workpieces.
3. This is the peak-to-peak displacement conversion value in the displacement output at the measuring center distance in high-precision mode when the number of samples to average is set to 128 and the measuring mode is set to the high-resolution mode. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode.
6. Defined as 1/e² (13.5%) of the center optical intensity at the actual measurement center distance (effective value). The beam diameter is sometimes influenced by the ambient conditions of the workpiece, such as leaked light from the main beam.
7. This is the error in the measured value with respect to an ideal straight line. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode of the ZS-LD20T/40T/50. Linearity may change according to the workpiece.
8. This is the peak-to-peak displacement conversion value in the displacement output at the measuring center distance in high-precision mode when the number of samples to average is set to 128 and the measuring mode is set to the high-resolution mode. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode.
9. This is the value obtained at the measuring center distance when the Sensor and workpiece are fixed by an aluminum jig.
11. Defined as 1/e² (13.5%) of the center optical intensity at the actual measurement center distance (effective value). The beam diameter is sometimes influenced by the ambient conditions of the workpiece, such as leaked light from the main beam.
12. This is the error in the measured value with respect to an ideal straight line. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode of the ZS-LD20T/40T/50. Linearity may change according to the workpiece.
13. This is the peak-to-peak displacement conversion value in the displacement output at the measuring center distance in high-precision mode when the number of samples to average is set to 128 and the measuring mode is set to the high-resolution mode. The standard workpiece is white aluminum ceramics in diffuse reflection mode and glass in the regular reflection mode.
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DownloadKépességek
Távolságmérés – Lemezfelület
Erősen fényvisszaverő felületen a pontos távolság mérésével az érzékelő ellenőrzi a lemez bedőlését.
Üvegvastagság – Szélvédő
A ZS mindössze egy mérőfej használatával képes megmérni átlátszó tárgyak vastagságát.
Magasságmérés – Ragasztóanyag
Az érzékelő pontosan megméri a félig átlátszó ragasztóanyag magasságát.
Vastagságmérés – Fekete gumiszalag
Két érzékelő és egy számításokat végző egység segítségével a ZS teljesen fénynyelő fekete, szalagszerű anyag vastagságát méri.
Simaság vizsgálata – Dugattyú
Több érzékelő ellenőrzi megmunkált, fényvisszaverő felület simaságát.