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Avia 355 30

AVIA NX nanosecond laser

AVIA NX nanosecond laser

AVIA NX AVIA NX is a diode-pumped, solid-state, Q-switched laser offered at 532 nm and 355 nm. The AVIA NX family delivers the highest power on the market, in a small lightweight package. Available at several power levels from 20 W to 85 W, every model has the same footprint and electrical…

Solar Cell Manufacturing

Solar Cell Manufacturing

…scribe lines (<30 μm), reduced ‘dead’ area around the trenches, and minimized sub-surface laser damage. Sub-surface damage – a negative outcome of using long wavelength IR lasers – can include changes to minority carrier lifetimes and bulk microcracking. Related Products AVIA NX c-Si Selective…

Microelectronics

Microelectronics

…substrate dicing with diode-pumped solid-state lasers at 266 nm and 355 nm or picosecond lasers, further reduce production costs and at the same time significantly enhance yield and efficiency of HB-LEDs. Related Products AVIA NX LEAP MATRIX QS DPSS Lasers RAPID NX Flex Circuit Machining The…

AVIA 355-28 DS

AVIA 355-28 DS

STACCATO
Wavelength (nm)(center) 1030 ±2
Average Power (W) >
_2.4 at 80 kHz
Pulse Energy (µJ) >
_30
Pulse Duration t (FWHM, sech2) 1300 fs <
_t <
_ 2000 fs
Pulse Energy Stability (%)(Peak-to-Peak over 1000 Pulses) <
_5 RMS (1s)

COHR AVIA NX UV DS 0117 5.pdf

COHR AVIA NX UV DS 0117 5.pdf

…Specifications
Temperature -20 to +60°C (-4 to 140°F)
Relative Humidity (%) 5 to 80
AVIA NX 355-30, 355-25 and 355-20 Spec UV Performance
0
5
10
15
20
25
30
35
0
50
100
150
200
250
300
350
0

AVIA LX Solid State Q-Switched UV Laser

AVIA LX Solid State Q-Switched UV Laser

AVIA LX Datasheet
SPECIFICATIONS AVIA LX 355-20-50 AVIA LX 355-20-100 AVIA LX 355-20-40 HE
1.5 SB 3.0 SB 1.5 SB 3.0 SB 1.5 SB 3.0 SB
Output Power (W) (specified) >20 at 50 kHz >20 at 100 kHz >20 at 40 kHz
Output Power (W) (typical) >15 at 100 kHz
>10 at 150…

COHR MATRIX355 DS 0317 2.pdf

COHR MATRIX355 DS 0317 2.pdf

…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 Ultra 2000 compatible beam parameters through internal beam expander (BE).
2 At specified rep. rate.
MATRIX 355 Datasheet

COHR MATRIX355 DS 1118 1.pdf

COHR MATRIX355 DS 1118 1.pdf

…Input Power Requirements
Input Voltage (VAC)
Input Power
Power Supply (VA)
90 to 240, 50 to 60 Hz
maximum typical
750 350
MATRIX 355 Datasheet
1 AVIA Ultra 2000 compatible beam parameters through internal beam expander (BE).
2 At specified rep. rate.

compatibility matrix 02

compatibility matrix 02

…Solid-State (pulsed)
AVIA (< 10 W) 266, 355 nm FieldMaxII-TO PM10X
AVIA (10 to 30 W) 355, 532 nm FieldMaxII-TO PM30X
AVIA NX (> 30 W) 355, 532 nm FieldMaxII-TO PM150
Daytona (discontinued 2014) 355 nm FieldMaxII-TO PM30X
Flare 355, 532, 1064 nm LabMax-TOP J-10MB-HE…

GUI 3.88 Revision History.pdf

GUI 3.88 Revision History.pdf

…the AVIA LX service triggering tab
AVIA LX:#303 - Store power meter readings in the laser if the laser supports this
Resolves AVIA LX:#291 - Add AVIA LX link to "Visit AVIA webpage" button
Resolves AVIA LX:#298 - Don't display seconds on charts in Singapore
Resolves AVIA LX:#149…

COHERENT LMC 2016-2017 Catalog .pdf

COHERENT LMC 2016-2017 Catalog .pdf

…Power Sensor
AVIA (<10W) 266, 355 FieldMaxII-TO PM10X
AVIA (10W to 30W) 355, 532 FieldMaxII-TO PM30X
AVIA (>30W) 532 FieldMaxII-TO PM150
Mamba Green, IR 532, 1064 FieldMaxII-TO PM1K
MATRIX 532, 1064 532, 1064 FieldMaxII-TO PM30
MATRIX 355 355 FieldMaxII-TO PM10X…

2009 LMCCatalog86.pdf

2009 LMCCatalog86.pdf

…PM30
Laser Wavelength (nm) Power Meter Power Sensor Energy Meter Energy Sensor
AVIA (<10W) 266, 355 FieldMaxII-TO PM10X - -
AVIA (10W to 30W) 355, 532 FieldMaxII-TO PM30X - -
AVIA (>30W) 532 FieldMaxII-TO PM150 - -
Indigo-DUV 193 FieldMaxII-TO PS10 3sigma J-10MT-10KHZ…

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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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