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Avia X

AVIA NX nanosecond laser

AVIA NX nanosecond laser

…Compact Size. AVIA NX lasers are far more powerful than any competitor and feature a fully integrated laser head with no separate controller and cumbersome umbilical. Yet the laser head is much smaller than earlier AVIA lasers or any 40 W rated competitor, measuring only 83 mm x 192 mm x 536 mm.…

AVIA 355-28 DS

AVIA 355-28 DS

…50 to 60 Hz
Power Consumption (W) <650
Current Draw at 230VAC (A)
Typical 1.9
Maximum 2.8
Fusing at 230VAC F12A HRC (5 x 20 mm)
Power Factor (Harmonic) Correction PF >
_0.90 (EN61000-3-2)
Optical Specifications
STACCATO
Ultra-Short Pulse Laser…

Microelectronics

Microelectronics

AVIA can dice thin wafers with good throughput and edge quality. Similarly, the very brittle low-k materials that are so important in today’s advanced chips are best scribed by a DPSS UV laser. Lasers enable narrower street widths on the wafer further increasing overall yield. Related Products AVIA

AVIA LX 355-20 Laser

AVIA LX 355-20 Laser

…points. Compact Size. Yet the AVIA LX laser head is much smaller than earlier lasers measuring only 13cm x 11cm x 57cm. The beam height is measuring only 50.5 mm enabling the AVIA LX to capture existing installations of competitor lasers. Ruggedized Design. The AVIA LX has been thoroughly HALT…

Avia preinstall.book

Avia preinstall.book

…average power in watts, or the word
"External" if the system is in external trigger mode.
PRINT X MOTOR POSITION
?MX
Returns the X motor position for the crystal shifter X motor.
PRINT Y MOTOR POSITION
?MY
Returns the Y motor position for the crystal shifter Y…

Avia LX w-o handle RAA

Avia LX w-o handle RAA

5.47in 139mm 1.99in 50.5mm 2.95in 75mm 2 x M5 10 0.2in 5mm 4.33in 110mm 24.21in 615mm 3x 0.28in 7mm Side View 1.26in 32mm 1.26in 32mm 1.02in 26mm Top View 3.94in 100mm 22.48in 571mm 1.04in 26.5mm Rear View Front View Bottom View

COHR PowerLine AVIANX DS 0519.pdf

COHR PowerLine AVIANX DS 0519.pdf

…(50 to 95 °F)
+10 to 35 °C (50 to 95 °F)
-20 to +50 °C (-4 to 122 °F)
DIMENSIONS
Standard Sub-System (W x H x L) 381 x 292 x 1280.5 mm (15.0 x 11.5 x 50.4 in.)
CONFIGURATION
Galvanometer Scanner
F-Theta or Telecentric Lens
Beam Alignment Box
VLM Software…

GUI 3.88 Revision History.pdf

GUI 3.88 Revision History.pdf

AVIA LX:#477 - Add control for TRIG_INPUT_SEL AVIA LX:#477 - Make the GUI work with either TRIG_INPUT_SEL or TI Converted HyperNxGui to use the new GuiUpDownControl Fixed a problem where the GUI would forget the password entered by the user if the settings form was opened a second time Make the AVIA

COHR MATRIX355 DS 0317 2.pdf

COHR MATRIX355 DS 0317 2.pdf

x 5.2 x 13.2 in.) open-frame PCB;
(H x W x D) can be mounted in 3HE 19-in. rack mount
External Control RS-232 interface, TTL QS control
Input Power Requirements
Input Voltage (VAC) 90 to 240, 50 to 60 Hz
Input Power maximum typical
Power Supply (VA) 750 350
1 AVIA

COHR MATRIX355 DS 1118 1.pdf

COHR MATRIX355 DS 1118 1.pdf

…Non-operating
±1g dynamic EN 60068-2-6
±10g EN 60068-2-26
POWER SUPPLY SPECIFICATIONS
Power Supply Dimensions (H x W x D) 100 x 131 x 335 mm (3.9 x 5.2 x 13.2 in.) open-frame PCB;
can be mounted in 3HE 19-in. rack mount
External Control RS-232 interface, TTL QS control…

COHR PowerMax-Pro DS 0917 3.pdf

COHR PowerMax-Pro DS 0917 3.pdf

…Energy Density (mJ/cm2) 33 (10 ns; 1064 nm)
Rise & Fall Time (µs) 50 10 350 350
Detector Coating BB HD BB HD
Active Area (mm) 30 x 30
Minimum Beam Size (mm) 2.0 (1.0 mm - up to 3% error)
Calibration Uncertainty (%) (k=2) ±2
Power Linearity (%) ±3
Spectral…

COHR PowerMax-Pro USB-RS DS 1017 4.pdf

COHR PowerMax-Pro USB-RS DS 1017 4.pdf

…Maximum Energy Density (J/cm2) 33 (10 ns; 1064 nm)
Rise & Fall Time (µs) 10 350 10 350
Detector Coating HD
Active Area (mm) 30 x 30
Minimum Beam Size (mm) 2.0 (1.0 mm - up to 3% error)
Calibration Uncertainty (%) (k=2) ±2
Power Linearity (%) ±5
Spectral…

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Risk factors: Except for the historical information contained here, many of the matters discussed in this Web site are forward-looking statements, based on expectations at the time they were made, that involve risks and uncertainties that could cause our results to differ materially from those expressed or implied by such statements. These risks are detailed in the “Factors That May Affect Future Results” section of our latest 10-K or 10-Q filing. Coherent assumes no obligation to update these forward-looking statements.


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