Lasers for Plug-and-Play Simplicity Across the Spectrum

OBIS
Lasers for Plug-and-Play Simplicity Across the Spectrum
OBIS Features:
OBIS is the breakthrough laser platform offering plug-and-play simplicity from
the UV to the near IR, allowing for faster integration and reduced time to market.
•Compact and identical foot print,
dimensions, beam exit, interface,
power supply, protocol
Based on Coherent’s proprietary Optically Pumped Semiconductor Laser (OPSL)
technology and its laser diode based solutions, OBIS lasers are the ideal solution
for a wide range of applications including life sciences, environmental monitoring, and inspection. With wavelengths offered throughout the spectrum - from
the UV at 375 nm to the near IR at 785 nm - OBIS lasers offer users the ability to
tailor wavelengths to their application requirements. Low RMS noise and impressive beam quality is a key specification to offer your application superior power
and signal-to-noise.
•Integrated control electronics
OBIS LX uses high quality optics to create a diode laser with
a low astigmatism circular beam. Beam measurements are
made at the 90/10 Clip Levels to insure the highest mode
quality while measuring a majority of the beam.
OBIS LS uses Optically Pumped Semiconductor Laser technology to provide the highest quality beam. OPSL offers advantages of excellent circularity and beam parameters (divergence,
diameter) that are constant over a wide power range.
•OEM and end user versions
•Superior beam quality
•Analog and digital modulation
•USB with complete I/O and controls
•Superior reliability
OBIS Applications:
•Confocal Microscopy
•DNA Sequencing
•Flow Cytometry
•Medical Imaging and
Instrumentation
www.Coherent.com/OBIS
Superior Reliability & Performance
OBIS
Lasers for Plug-and-Play Simplicity Across the Spectrum
OBIS
375LX System Specifications
Wavelength1 (nm) Output Power2 (mW)
Spatial Mode
M2 (Beam Quality)3
Beam Asymmetry
Beam Diameter at 1/e2 (mm)
Beam Divergence (mrad, full-angle)
OBIS
405LX 375
16
405
50
50, 100
TEM00
_<1.3
_<1.2
_<1:1.2
0.7 ±0.1
200
TEM00
_<1:1.2
_<1.3
OBIS
422LX OBIS
445LX
422
445
100
75
TEM00
_<1.2
TEM00
_<1.2
0.9 ±0.1
0.6 ±0.1
_<1:1.2
0.8 ±0.1
_<1:1.2
<1
<1
<1.1
<1.1
Pointing Stability (μrad)
(over 2 hours after warm-up and ±3°C)
<30
<30
<30
<30
Pointing Stability Over Temp. (μrad/°C)
<5
_<0.05
<5
_<0.05
<5
_<0.05
<5
_<0.05
RMS Noise (%)(20 Hz to 20 MHz)
Peak-to-Peak Noise (%)(20 Hz to 20 kHz)
<0.5
<0.5
<0.5
<0.5
Long-term Power Stability (%)(8 hrs., ±3°C)
<2
<2
<2
<2
Warm-up Time4 (minutes)(from cold start)
<5
<5
<5
<5
Polarization Ratio
Minimum 100:1, Vertical ±5°
Laser Drive Modes
CW, Analog Modulation, Digital Modulation and Computer Control
Digital Modulation
Maximum Bandwidth (MHz)
Rise Time (10% to 90%)(nsec)
Fall Time (90% to 10%)(nsec)
Modulation Depth (extinction ratio)
75
<5
<5
>1,000,000:1 at 0 Hz,
>250:1 at 75 MHz
150
<2
<2
150
<2
<2
>1,000,000:1 at 0 Hz, >250:1 at 150 MHz
150
<2
<2
Analog Modulation
Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (90% to 10%)(nsec)
Modulation Depth (extinction ratio)
500
<700
<700
>1,000,000:1
500
<700
<700
>1,000,000:1
500
<700
<700
>1,000,000:1
500
<700
<700
>1,000,000:1
<1
<5
n/a
<1
<5
n/a
<1
<5
n/a
<1
<5
n/a
Static Alignment Tolerances
Beam Position from Reference5 (mm)
Beam Angle5 (mrad)
Beam Waist Position at Exit Window (mm)
Laser Safety Classification
ESD Protection6
Power Consumption (W)
Laser Head Baseplate Temp. (Max., °C)
3b
3b
3b
3b
Level 4
Level 4
Level 4
Level 4
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
50
50
50
50
Heat Dissipation of Laser Head7 (W)
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Ambient Temperature8
Operating Condition9 (°C)
Non-operating Condition (°C)
10 to 50
-20 to 60
10 to 50
-20 to 60
10 to 50
-20 to 60
10 to 50
-20 to 60
30
30
30
30
Shock Tolerance (g)(6 ms)
1
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
For LS versions all residual laser emission at 808 nm pumplight or fundamental <0.1 mW.
3
For LX versions the M2 measured with ModeMaster with 90/10 clip levels.
4
For LS versions typical power-on delay 1 minute. For LX versions typical power-on delay 0.1 minutes.
5
See mechanical drawing for exit beam location.
6
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
7
Typically 85% of heat load through the base plate. See Users Manual for more detail.
8
Non-Condensing. See User Manual for more detail.
9
For LS versions laser head baseplate temperature needs to be maintained at <_40°C.
OBIS
Lasers for Plug-and-Play Simplicity Across the Spectrum
System Specifications
Wavelength1 (nm) Output Power2 (mW) Spatial Mode M2 (Beam Quality)3 Beam Asymmetry Beam Diameter at 1/e2 (mm)
OBIS
458LX OBIS
473LX 458
473
75
75
TEM00
_<1.2
TEM00
_<1.2
0.8 ±0.1
0.8 ±0.1
_<1:1.2
OBIS
488LX 488
50
488
150
TEM00
_<1.2
_<1:1.2
_<1:1.2
0.8 ±0.1
OBIS
488LS
0.6 ±0.1
20, 60, 80, 100
TEM00
_<1.1
_<1:1.1
0.7 ±0.05
Beam Divergence (mrad, full-angle) <1.1
<1.1
<1.2
<1.2
Pointing Stability (µrad)
(over 2 hours after warm-up and ±3°C)
<30
<30
<30
<30
Pointing Stability Over Temp. (µrad/°C)
<5
_<0.05
<5
_<0.05
<5
_<0.05
<5
_<0.25
RMS Noise (%)(20 Hz to 20 MHz)
Peak-to-Peak Noise (%)(20 Hz to 20 kHz) <0.5
<0.5
<0.5
<1
Long-term Power Stability (%)(8 hrs., ±3°C) <2
<2
<2
<2
Warm-up Time4 (minutes)(from cold start)
<5
<5
<5
<5
Polarization Ratio
Minimum 100:1, Vertical ±5°
Laser Drive Modes CW, Analog Modulation, Digital Modulation and Computer Control
Digital Modulation
Maximum Bandwidth (MHz) 150
150
Rise Time (10% to 90%)(nsec) <2
<2
Fall Time (90% to 10%)(nsec) <2
<2
Modulation Depth (extinction ratio) >1,000,000:1 at 0 Hz, >250:1 at 150 MHz
Analog Modulation
Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (90% to 10%)(nsec)
Modulation Depth (extinction ratio) Static Alignment Tolerances
Beam Position from Reference5 (mm)
Beam Angle5 (mrad)
Beam Waist Position at Exit Window (mm)
Laser Safety Classification
ESD Protection6
Power Consumption (W)
Laser Head Baseplate Temp. (Max., °C)
150
<2
<2.5
0.05
<18,000
<2000
>1,000,000:1 at
0 Hz to 50 kHz
500
<700
<700
>1,000,000:1
500
<700
<700
>1,000,000:1
500
<700
<700
>1,000,000:1
100
<3000
<3000
>50:1
<1
<5
n/a
<1
<5
n/a
<1
<5
n/a
<0.5
<2.5
±200
3b
3b
3b
3b
Level 4
Level 4
Level 4
Level 4
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 8,
Max. 12
50
50
50
40
Heat Dissipation of Laser Head7 (W)
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 8,
Max. 12
Ambient Temperature8
Operating Condition9 (°C)
Non-operating Condition (°C)
10 to 50
-20 to 60
10 to 50
-20 to 60
10 to 50
-20 to 60
15 to 40
-20 to 60
30
30
30
30
Shock Tolerance (g)(6 ms)
1
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
For LS versions all residual laser emission at 808 nm pumplight or fundamental <0.1 mW.
3
For LX versions the M2 measured with ModeMaster with 90/10 clip levels.
4
For LS versions typical power-on delay 1 minute. For LX versions typical power-on delay 0.1 minutes.
5
See mechanical drawing for exit beam location.
6
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
7
Typically 85% of heat load through the base plate. See Users Manual for more detail.
8
Non-Condensing. See User Manual for more detail.
9
For LS versions laser head baseplate temperature needs to be maintained at <_40°C.
OBIS
Lasers for Plug-and-Play Simplicity Across the Spectrum
OBIS
505LX
OBIS
514LS OBIS
514LX OBIS
520LX
Wavelength1 (nm) 505
514
514
520
Output Power2 (mW) 50
20
40
40
TEM00
_<1.2
TEM00
_<1.1
TEM00
_<1.2
TEM00
_<1.2
0.8 ±0.1
0.7 ±0.05
0.6 ±0.1
0.6 ±0.1
System Specifications
Spatial Mode M2 (Beam Quality)3 Beam Asymmetry Beam Diameter at 1/e2 (mm)
_<1:1.2
_<1:1.1
_<1:1.2
_<1:1.2
Beam Divergence (mrad, full-angle) <1.2
<1.2
<1.1
<1.1
Pointing Stability (µrad)
(over 2 hours after warm-up and ±3°C)
<30
<30
<30
<30
Pointing Stability Over Temp. (µrad/°C)
<5
_<0.05
<5
_<0.25
<5
_<0.05
<5
_<0.05
RMS Noise (%)(20 Hz to 20 MHz)
Peak-to-Peak Noise (%)(20 Hz to 20 kHz) <0.5
<1
<1
<1
Long-term Power Stability (%)(8 hrs., ±3°C) <2
<2
<2
<2
Warm-up Time4 (minutes)(from cold start)
<5
<5
<5
<5
Polarization Ratio
Minimum 100:1, Vertical ±5°
Laser Drive Modes CW, Analog Modulation, Digital Modulation and Computer Control
Digital Modulation
Maximum Bandwidth (MHz) Rise Time (10% to 90%)(nsec) Fall Time (90% to 10%)(nsec) Modulation Depth (extinction ratio) 150
<2
<2.5
>1,000,000:1 at 0 Hz,
>250:1 at 150 MHz
0.05
<18,000
<2000
>1,000,000:1
at 0 Hz to 50 kHz
150
<2
<2
>1,000,000:1 at 0 Hz, >250:1 at 150 MHz
150
<2
<2
>1,000,000:1 at 0 Hz,
>250:1 at 150 MHz
Analog Modulation
Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (90% to 10%)(nsec)
Modulation Depth (extinction ratio) 500
<700
<700
>1,000,000:1
100
<3000
<3000
>50:1
500
<700
<700
>1,000,000:1
500
<700
<700
>1,000,000:1
<1
<5
n/a
<0.5
<2.5
±200
<1
<5
n/a
<1
<5
n/a
Static Alignment Tolerances
Beam Position from Reference5 (mm)
Beam Angle5 (mrad)
Beam Waist Position at Exit Window (mm)
Laser Safety Classification
ESD Protection6
Power Consumption (W)
Laser Head Baseplate Temp. (Max., °C)
3b
3b
3b
3b
Level 4
Level 4
Level 4
Level 4
Typical 5,
Max. 13
Typical 8,
Max. 12
Typical 5,
Max. 13
Typical 5,
Max. 13
50
40
50
50
Heat Dissipation of Laser Head7 (W)
Typical 5,
Max. 13
Typical 8,
Max. 12
Typical 5,
Max. 13
Typical 5,
Max. 13
Ambient Temperature8
Operating Condition9 (°C)
Non-operating Condition (°C)
10 to 50
-20 to 60
15 to 40
-20 to 60
10 to 50
-20 to 60
10 to 50
-20 to 60
30
30
30
30
Shock Tolerance (g)(6 ms)
1
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
For LS versions all residual laser emission at 808 nm pumplight or fundamental <0.1 mW.
3
For LX versions the M2 measured with ModeMaster with 90/10 clip levels.
4
For LS versions typical power-on delay 1 minute. For LX versions typical power-on delay 0.1 minutes.
5
See mechanical drawing for exit beam location.
6
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
7
Typically 85% of heat load through the base plate. See Users Manual for more detail.
8
Non-Condensing. See User Manual for more detail.
9
For LS versions laser head baseplate temperature needs to be maintained at <_40°C.
OBIS
Lasers for Plug-and-Play Simplicity Across the Spectrum
System Specifications
Wavelength1 (nm) Output Power2 (mW) Spatial Mode M2 (Beam Quality)3 Beam Asymmetry Beam Diameter at 1/e2 (mm)
OBIS
532LS OBIS
552LS OBIS
561LS
532
552
561
20, 50, 80, 100
20, 60, 80, 100
20, 50, 80, 100
TEM00
_<1.1
TEM00
_<1.1
TEM00
_<1.1
0.7 ±0.05
0.7 ±0.05
0.7 ±0.05
_<1:1.1
_<1:1.1
_<1:1.1
Beam Divergence (mrad, full-angle) <1.2
<1.2
<1.2
Pointing Stability (µrad)
(over 2 hours after warm-up and ±3°C)
<30
<30
<30
Pointing Stability Over Temp. (µrad/°C)
<5
_<0.25
<5
_<0.25
<5
_<0.25
RMS Noise (%)(20 Hz to 20 MHz)
Peak-to-Peak Noise (%)(20 Hz to 20 kHz) <1
<1
<1
Long-term Power Stability (%)(8 hrs., ±3°C) <2
<2
<2
Warm-up Time4 (minutes)(from cold start)
<5
<5
<5
Polarization Ratio
Minimum 100:1, Vertical ±5°
Laser Drive Modes CW, Analog Modulation, Digital Modulation and Computer Control
Digital Modulation
Maximum Bandwidth (MHz) Rise Time (10% to 90%)(nsec) Fall Time (90% to 10%)(nsec) Modulation Depth (extinction ratio) 0.05
<18,000
<2000
0.05
<18,000
<2000
>1,000,000:1 at 0 Hz to 50 kHz
0.05
<18,000
<2000
Analog Modulation
Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (90% to 10%)(nsec)
Modulation Depth (extinction ratio) 100
<3000
<3000
>50:1
100
<3000
<3000
>50:1
100
<3000
<3000
>50:1
Static Alignment Tolerances
Beam Position from Reference5 (mm)
Beam Angle5 (mrad)
Beam Waist Position at Exit Window (mm)
<0.5
<2.5
±200
<0.5
<2.5
±200
<0.5
<2.5
±200
Laser Safety Classification
ESD Protection6
Power Consumption (W)
Laser Head Baseplate Temp. (Max., °C)
3b
3b
3b
Level 4
Level 4
Level 4
Typical 8,
Max. 12
Typical 8,
Max. 12
Typical 8,
Max. 12
40
40
40
Heat Dissipation of Laser Head7 (W)
Typical 8,
Max. 12
Typical 8,
Max. 12
Typical 8,
Max. 12
Ambient Temperature8
Operating Condition9 (°C)
Non-operating Condition (°C)
15 to 40
-20 to 60
15 to 40
-20 to 60
15 to 40
-20 to 60
30
30
30
Shock Tolerance (g)(6 ms)
1
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
For LS versions all residual laser emission at 808 nm pumplight or fundamental <0.1 mW.
3
For LX versions the M2 measured with ModeMaster with 90/10 clip levels.
4
For LS versions typical power-on delay 1 minute. For LX versions typical power-on delay 0.1 minutes.
5
See mechanical drawing for exit beam location.
6
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
7
Typically 85% of heat load through the base plate. See Users Manual for more detail.
8
Non-Condensing. See User Manual for more detail.
9
For LS versions laser head baseplate temperature needs to be maintained at <_40°C.
OBIS
Lasers for Plug-and-Play Simplicity Across the Spectrum
System Specifications
OBIS
637LX OBIS
640LX OBIS
647LX OBIS
660LX
660
Wavelength1 (nm)
637
640
647
Output Power2 (mW)
140
40, 100
120
100
TEM00
_<1.2
TEM00
_<1.2
TEM00
_<1.2
TEM00
_<1.2
0.7 ±0.1
0.8 ±0.1
0.8 ±0.1
0.9 ±0.1
Spatial Mode
M2 (Beam Quality)3
Beam Asymmetry
Beam Diameter at 1/e2 (mm)
_<1:1.2
_<1:1.2
_<1:1.2
_<1:1.2
Beam Divergence (mrad, full-angle)
<1.3
<1.3
<1.3
<1.3
Pointing Stability (μrad)
(over 2 hours after warm-up and ±3°C)
<30
<30
<30
<30
Pointing Stability Over Temp. (μrad/°C)
<5
_<0.05
<5
_<0.05
<5
_<0.05
<5
_<0.05
RMS Noise (%)(20 Hz to 20 MHz)
Peak-to-Peak Noise (%)(20 Hz to 20 kHz)
<0.5
<0.5
<0.5
<0.5
Long-term Power Stability (%)(8 hrs., ±3°C)
<2
<2
<2
<2
Warm-up Time4 (minutes)(from cold start)
<5
<5
<5
<5
Polarization Ratio
Minimum 100:1, Vertical ±5°
Laser Drive Modes
CW, Analog Modulation, Digital Modulation and Computer Control
Digital Modulation
Maximum Bandwidth (MHz)
Rise Time (10% to 90%)(nsec)
Fall Time (90% to 10%)(nsec)
Modulation Depth (extinction ratio)
Analog Modulation
Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (90% to 10%)(nsec)
Modulation Depth (extinction ratio)
Static Alignment Tolerances
Beam Position from Reference5 (mm)
Beam Angle5 (mrad)
Beam Waist Position at Exit Window (mm)
Laser Safety Classification
ESD Protection6
Power Consumption (W)
Laser Head Baseplate Temp. (Max., °C)
150
<2
<2
150
150
<2
<2
<2
<2
>1,000,000:1 at 0 Hz, >250:1 at 150 MHz
150
<2
<2
300
<1200
<800
>1,000,000:1
500
<700
<700
>1,000,000:1
500
<700
<700
>1,000,000:1
500
<700
<700
>1,000,000:1
<1
<5
n/a
<1
<5
n/a
<1
<5
n/a
<1
<5
n/a
3b
3b
3b
3b
Level 4
Level 4
Level 4
Level 4
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
50
50
50
50
Heat Dissipation of Laser Head7 (W)
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Ambient Temperature8
Operating Condition9 (°C)
Non-operating Condition (°C)
10 to 50
-20 to 60
10 to 50
-20 to 60
10 to 50
-20 to 60
10 to 50
-20 to 60
30
30
30
30
Shock Tolerance (g)(6 ms)
1
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
For LS versions all residual laser emission at 808 nm pumplight or fundamental <0.1 mW.
3
For LX versions the M2 measured with ModeMaster with 90/10 clip levels.
4
For LS versions typical power-on delay 1 minute. For LX versions typical power-on delay 0.1 minutes.
5
See mechanical drawing for exit beam location.
6
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
7
Typically 85% of heat load through the base plate. See Users Manual for more detail.
8
Non-Condensing. See User Manual for more detail.
9
For LS versions laser head baseplate temperature needs to be maintained at <_40°C.
OBIS
Lasers for Plug-and-Play Simplicity Across the Spectrum
OBIS
685LX OBIS
730LX OBIS
785LX
Wavelength1 (nm) 685
730
785
Output Power2 (mW) 40
30
50
TEM00
_<1.2
TEM00
_<1.2
TEM00
_<1.2
0.8 ±0.1
0.8 ±0.1
0.7 ±0.1
System Specifications
Spatial Mode M2 (Beam Quality)3 Beam Asymmetry Beam Diameter at 1/e2 (mm)
_<1:1.2
_<1:1.2
_<1:1.2
Beam Divergence (mrad, full-angle) <1.3
<1.3
<1.7
Pointing Stability (µrad)
(over 2 hours after warm-up and ±3°C)
<30
<30
<30
Pointing Stability Over Temp. (µrad/°C)
<5
_<0.05
<5
_<0.05
<5
_<0.05
RMS Noise (%)(20 Hz to 20 MHz)
Peak-to-Peak Noise (%)(20 Hz to 20 kHz) <0.5
<0.5
<0.5
Long-term Power Stability (%)(8 hrs., ±3°C) <2
<2
<2
Warm-up Time4 (minutes)(from cold start)
<5
<5
<5
Minimum 100:1,
Vertical ±5°
Minimum 100:1,
Vertical ±5°
Minimum 25:1,
Vertical ±15°
Polarization Ratio
Laser Drive Modes CW, Analog Modulation, Digital Modulation and Computer Control
Digital Modulation
Maximum Bandwidth (MHz) 150
150
Rise Time (10% to 90%)(nsec) <2
<2
Fall Time (90% to 10%)(nsec) <2
<2
Modulation Depth (extinction ratio) >1,000,000:1 at 0 Hz,
>1,000,000:1 at 0 Hz,
>250:1 at 150 MHz
>250:1 at 150 MHz
Analog Modulation Maximum Bandwidth (kHz)
500
500
Rise Time (10% to 90%)(nsec)
<700
<700
Fall Time (90% to 10%)(nsec)
<700
<700
Modulation Depth (extinction ratio) >1,000,000:1
>1,000,000:1
Static Alignment Tolerances Beam Position from Reference5 (mm)
<1
<1
Beam Angle5 (mrad)
<5
<5
Beam Waist Position at Exit Window (mm)
n/a
n/a
Laser Safety Classification
ESD Protection6
Power Consumption (W)
Laser Head Baseplate Temp. (Max., °C)
100
<4
<4
>700,000:1 at 0 Hz,
>250:1 at 100 MHz
450
<800
<800
>700,000:1
<1
<5
n/a
3b
3b
3b
Level 4
Level 4
Level 4
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
50
50
50
Heat Dissipation of Laser Head7 (W)
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Ambient Temperature8
Operating Condition9 (°C)
Non-operating Condition (°C)
10 to 50
-20 to 60
10 to 50
-20 to 60
10 to 50
-20 to 60
30
30
30
Shock Tolerance (g)(6 ms)
1
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
For LS versions all residual laser emission at 808 nm pumplight or fundamental <0.1 mW.
3
For LX versions the M2 measured with ModeMaster with 90/10 clip levels.
4
For LS versions typical power-on delay 1 minute. For LX versions typical power-on delay 0.1 minutes.
5
See mechanical drawing for exit beam location.
6
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
7
Typically 85% of heat load through the base plate. See Users Manual for more detail.
8
Non-Condensing. See User Manual for more detail.
9
For LS versions laser head baseplate temperature needs to be maintained at <_40°C.
OBIS
Lasers for Plug-and-Play Simplicity Across the Spectrum
Utility and Environmental Requirements
Operating Voltage1 (VDC)
12 ±2
Dimensions (L x W x H)
Laser
OBIS Remote (optional)
DC Power Supply (optional)
Cable, Laser to OBIS Remote (optional)
70 x 40 x 38 mm (2.75 x 1.57 x 1.5 in.)
105 x 68 x 36 mm (4.13 x 2.68 x 1.42 in.)
105 x 42 x 33 mm (4.13 x 1.65 x 1.3 in.)
1 m (3.28 ft.)(3 meter and 0.3 meter sold separately)
Weights
Laser
OBIS Remote (optional)
DC Power Supply (optional)
Cable, Laser to OBIS Remote (optional)
0.16 kg (0.35 lbs.)
0.24 kg (0.53 lbs.)
0.36 kg (0.79 lbs.)
0.1 kg (0.22 lbs.) for 1 meter
1
If user supplied, the DC power supply has to meet the following requirements: power >20W; ripple <5% peak-to-peak; line regulation <0.5%.
Mechanical Specifications
Status
Indicator
Top View
3 mm
(0.12 in.)
64 mm
(2.52 in.)
5 mm
(0.2 in.)
38 mm
(1.5 in.)
30 mm
(1.18 in.)
40 mm
(1.57 in.)
70 mm
(2.76 in.)
4X Ø3.18 mm
(0.13 in.) Thru
OEM Label
Safety
Shutter
Laser Exit Aperture
M6 X 0.75 Thread
2.54 mm Deep
19 mm
(0.75 in.)
Fan
Power
USB
15.5 mm
(0.61 in.)
Front View
Rear View
SDR
Rear View with
OEM Label Removed
OBIS FP
Fiber Pigtailed Lasers for Plug-and-Play Simplicity
Across the Spectrum
OBIS FP Features:
Fiber pigtailed lasers that provide users the simplicity of a plug-and-play
platform, utilizing a wide range of wavelengths from the UV to the near IR.
Fiber is complete with a FC/APC connector.
•Compact and identical foot print,
dimensions, SM/PM fiber with
FC/APC, interface, power supply,
protocol
OBIS FP lasers are based off the OBIS laser platform, offering plug-and-play
simplicity that allows for faster integration thereby reducing the cost of integration and time to market.
•Integrated control electronics
OBIS FP lasers achieve superior performance and reliability with hands-free
operation. OBIS FP lasers combine single-mode polarization-maintaining fiber
with an FC/APC connector for a high-quality low-noise laser beam output. The
OBIS FP also utilizes proprietary fiber technology to provide superior lifetimes
and a permanent fiber attachment for a guaranteed power over time.
•OEM and end user versions
•Superior beam quality from single
mode polarization maintaining fiber
•Analog and digital modulation
•USB with complete I/O and controls
•Superior reliability
•FC/APC connector
OBIS FP Applications:
•Confocal Microscopy
•DNA Sequencing
•Flow Cytometry
•Medical Imaging and
Instrumentation
www.Coherent.com/OBISFP
Superior Reliability & Performance
OBIS FP
Fiber Pigtailed Lasers for Plug-and-Play Simplicity Across the Spectrum
System Specifications
Wavelength1 (nm) Output Power2 (mW) Output from Fiber
Fiber Cable Type
Fiber Cable Length (m)(minimum)
Fiber Numerical Aperture (NA)(1/e2)
Fiber Core Diameter (µm)(typical)
Spatial Mode M2 (Beam Quality)3 Beam Asymmetry
RMS Noise (%)(20 Hz to 20 MHz)
OBIS FP
405LX 405
3 mm Mono-Coil
3 mm Mono-Coil
0.045
3.5
TEM00
_<1.1
_<1:1.1
_<0.2
<2
Laser Drive Modes
FC/APC;
8° angled8
1
_<2
Polarization Ratio
45
FC/APC;
8° angled8
Long-term Power Stability (%)(8 hrs., ±3°C) Warm-up Time4 (minutes)(from cold start)
445
50, 100
Peak-to-Peak Noise (%)(20 Hz to 20 kHz)
Long-term Output Power Average (%/hrs.)
OBIS FP
445LX
_<5/1000
<5
Minimum 100:1
Laser Safety Classification
ESD Protection5 Power Consumption (W) Laser Head Baseplate Temperature (Max., °C)
3.5
TEM00
_<1.1
_<1:1.1
_<0.2
_<2
<2
_<5/1000
<5
Minimum 100:1
CW, Analog Modulation, Digital Modulation and Computer Control
Digital Modulation
Maximum Bandwidth (MHz) 150
Rise Time (10% to 90%)(nsec) <2
Fall Time (90% to 10%)(nsec) <2
Modulation Depth (extinction ratio) >1,000,000:1 at 0 Hz, >250:1 at 150 MHz
Analog Modulation Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (10% to 90%)(nsec)
Modulation Depth (extinction ratio) 1
0.045
500
<700
<700
>1,000,000:1
3b
150
<2
<2
500
<700
<700
>1,000,000:1
3b
Level 4
Level 4
Typical 5,
Max. 13
Typical 5,
Max. 13
40
40
Heat Dissipation of Laser Head6 (W) Typical 5,
Max. 13
Typical 5,
Max. 13
Ambient Temperature7
Operating Condition (°C)
Non-operating Condition (°C)
10 to 40
-20 to +60
10 to 40
-20 to +60
Shock Tolerance (g)(6 ms) 1
30
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1 mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
3
M2 measured with ModeMaster with 90/10 clip levels.
4
Typical power-on delay 0.1 minutes.
5
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
6
Typically 85% of heat load through the base plate. See Users Manual for more detail.
7
Non-Condensing. See User Manual for more detail.
8
Fiber FC/APC connector output not compatible for patchcord-to-patchcord connection.
30
OBIS FP
Fiber Pigtailed Lasers for Plug-and-Play Simplicity Across the Spectrum
System Specifications
OBIS FP
473LX OBIS FP
488LX OBIS FP
488LS
Wavelength1 (nm) 473
488
488
Output Power2 (mW) 50
30, 100
15, 40, 60, 80
Output from Fiber
FC/APC;
8° angled8
FC/APC;
8° angled8
FC/APC;
8° angled
Fiber Cable Type
3 mm
Mono-Coil
3 mm
Mono-Coil
5 mm
Protective Tubing
Fiber Cable Length (m)(minimum)
Fiber Numerical Aperture (NA)(1/e2)
Fiber Core Diameter (µm)(typical)
1
1
1
0.045
0.045
0.1
3.5
3.5
4
TEM00
_<1.1
TEM00
_<1.1
TEM00
_<1.1
Peak-to-Peak Noise (%)(20 Hz to 20 kHz)
_<2
_<2
Long-term Power Stability (%)(8 hrs., ±3°C) <2
_<4/1000
<2
_<4/1000
<2
Long-term Output Power Average (%/hrs.)
Warm-up Time4 (minutes)(from cold start)
<5
<5
<5
Minimum 100:1
Minimum 100:1
Spatial Mode M2 (Beam Quality)3 Beam Asymmetry
RMS Noise (%)(20 Hz to 20 MHz)
Polarization Ratio
_<1:1.1
_<0.2
Minimum 100:1
Laser Drive Modes
150
<2
<2
Analog Modulation Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (10% to 90%)(nsec)
Modulation Depth (extinction ratio) 500
<700
<700
>1,000,000:1
ESD Protection5 Power Consumption (W) Laser Head Baseplate Temperature (Max., °C)
_<1:1.1
_<0.25
_<1
-
CW, Analog Modulation, Digital Modulation and Computer Control
Digital Modulation
Maximum Bandwidth (MHz) Rise Time (10% to 90%)(nsec) Fall Time (90% to 10%)(nsec) Modulation Depth (extinction ratio) Laser Safety Classification
_<1:1.1
_<0.2
150
<2
<2.5
>1,000,000:1 at 0 Hz,
>250:1 at 150 MHz
500
<700
<700
>1,000,000:1
0.05
<18,000
<2000
>1,000,000:1
at 0 Hz to 50 kHz
100
<3000
<3000
>50:1
3b
3b
3b
Level 4
Level 4
Level 4
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 8,
Max. 12
40
40
40
Heat Dissipation of Laser Head6 (W) Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 8,
Max. 12
Ambient Temperature7
Operating Condition (°C)
Non-operating Condition (°C)
10 to 40
-20 to +60
10 to 40
-20 to +60
15 to 40
-20 to +60
30
30
30
Shock Tolerance (g)(6 ms) 1
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1 mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
3
M2 measured with ModeMaster with 90/10 clip levels.
4
Typical power-on delay 0.1 minutes.
5
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
6
Typically 85% of heat load through the base plate. See Users Manual for more detail.
7
Non-Condensing. See User Manual for more detail.
8
Fiber FC/APC connector output not compatible for patchcord-to-patchcord connection.
OBIS FP
Fiber Pigtailed Lasers for Plug-and-Play Simplicity Across the Spectrum
System Specifications
OBIS FP
514LS Wavelength1 (nm) 514
Output Power2 (mW) 15
Output from Fiber
Fiber Cable Type
Fiber Cable Length (m)(minimum)
Fiber Numerical Aperture (NA)(1/e2)
Fiber Core Diameter (µm)(typical)
Spatial Mode M2 (Beam Quality)3 Beam Asymmetry
RMS Noise (%)(20 Hz to 20 MHz)
5 mm
Protective Tubing
3 mm
Mono-Coil
1
1
0.1
0.09
4
TEM00
_<1.1
_<1:1.1
_<0.2
_<1
<2
Long-term Output Power Average (%/hrs.)
-
Laser Drive Modes
<5
Minimum 100:1
0.05
<18,000
<2000
>1,000,000:1
at 0 Hz to 50 kHz
Analog Modulation
Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (10% to 90%)(nsec)
Modulation Depth (extinction ratio) 100
<3000
<3000
>50:1
ESD Protection5 Power Consumption (W) Laser Head Baseplate Temperature (Max., °C)
4.5
TEM00
_<1.1
_<1:1.1
_<0.25
_<2
<2
_<3/1000
<5
Minimum 100:1
CW, Analog Modulation, Digital Modulation and Computer Control
Digital Modulation
Maximum Bandwidth (MHz) Rise Time (10% to 90%)(nsec) Fall Time (90% to 10%)(nsec) Modulation Depth (extinction ratio) Laser Safety Classification
20
FC/APC;
8° angled8
Long-term Power Stability (%)(8 hrs., ±3°C) Warm-up Time4 (minutes)(from cold start)
520
FC/APC;
8° angled
Peak-to-Peak Noise (%)(20 Hz to 20 kHz)
Polarization Ratio
OBIS FP
520LX
3b
150
<2
<2
>1,000,000:1 at 0 Hz,
>250:1 at 150 MHz
500
<700
<700
>1,000,000:1
3b
Level 4
Level 4
Typical 8,
Max. 12
Typical 5,
Max. 13
40
40
Heat Dissipation of Laser Head6 (W) Typical 8,
Max. 12
Typical 5,
Max. 13
Ambient Temperature7
Operating Condition (°C)
Non-operating Condition (°C)
15 to 40
-20 to +60
10 to 40
-20 to +60
Shock Tolerance (g)(6 ms) 1
30
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1 mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
3
M2 measured with ModeMaster with 90/10 clip levels.
4
Typical power-on delay 0.1 minutes.
5
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
6
Typically 85% of heat load through the base plate. See Users Manual for more detail.
7
Non-Condensing. See User Manual for more detail.
8
Fiber FC/APC connector output not compatible for patchcord-to-patchcord connection.
30
OBIS FP
Fiber Pigtailed Lasers for Plug-and-Play Simplicity Across the Spectrum
System Specifications
Wavelength1 (nm) Output Power2 (mW) Output from Fiber
Fiber Cable Type
Fiber Cable Length (m)(minimum)
Fiber Numerical Aperture (NA)(1/e2)
Fiber Core Diameter (µm)(typical)
OBIS FP
532LS OBIS FP
552LS OBIS FP
561LS
532
552
561
20, 40, 60, 80
15, 40, 60, 80
40, 60, 80
FC/APC;
8° angled
FC/APC;
8° angled
FC/APC;
8° angled
5 mm
Protective Tubing
5 mm
Protective Tubing
5 mm
Protective Tubing
1
1
1
0.1
0.1
0.1
4
4
4
TEM00
_<1.1
TEM00
_<1.1
TEM00
_<1.1
Long-term Power Stability (%)(8 hrs., ±3°C) <2
<2
<2
Long-term Output Power Average (%/hrs.)
-
-
-
Warm-up Time4 (minutes)(from Cold Start)
<5
<5
<5
Minimum 100:1
Minimum 100:1
Spatial Mode M2 (Beam Quality)3 Beam Asymmetry
RMS Noise (%)(20 Hz to 20 MHz)
Peak-to-Peak Noise (%)(20 Hz to 20 kHz)
Polarization Ratio
_<1:1.1
_<0.25
_<1
Minimum 100:1
Laser Drive Modes
Digital Modulation
Maximum Bandwidth (MHz) Rise Time (10% to 90%)(nsec) Fall Time (90% to 10%)(nsec) Modulation Depth (extinction ratio) Analog Modulation
Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (10% to 90%)(nsec)
Modulation Depth (extinction ratio) Laser Safety Classification
ESD Protection5 Power Consumption (W) Laser Head Baseplate Temperature (Max., °C)
_<1:1.1
_<0.25
_<1
_<1:1.1
_<0.25
_<1
CW, Analog Modulation, Digital Modulation and Computer Control
0.05
<18,000
<2000
0.05
<18,000
<2000
>1,000,000:1 at 0 Hz to 50 kHz
0.05
<18,000
<2000
100
<3000
<3000
>50:1
100
<3000
<3000
>50:1
100
<3000
<3000
>50:1
3b
3b
3b
Level 4
Level 4
Level 4
Typical 8,
Max. 12
Typical 8,
Max. 12
Typical 8,
Max. 12
40
40
40
Heat Dissipation of Laser Head6 (W) Typical 8,
Max. 12
Typical 8,
Max. 12
Typical 8,
Max. 12
Ambient Temperature7
Operating Condition (°C)
Non-operating Condition (°C)
15 to 40
-20 to +60
15 to 40
-20 to +60
15 to 40
-20 to +60
30
30
30
Shock Tolerance (g)(6 ms) 1
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1 mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
3
M2 measured with ModeMaster with 90/10 clip levels.
4
Typical power-on delay 0.1 minutes.
5
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
6
Typically 85% of heat load through the base plate. See Users Manual for more detail.
7
Non-Condensing. See User Manual for more detail.
OBIS FP
Fiber Pigtailed Lasers for Plug-and-Play Simplicity Across the Spectrum
OBIS FP
637LX OBIS FP
640LX Wavelength1 (nm) 637
Output Power2 (mW) 100
System Specifications
Output from Fiber
Fiber Cable Type
Fiber Cable Length (m)(minimum)
Fiber Numerical Aperture (NA)(1/e2)
Fiber Core Diameter (µm)(typical)
OBIS FP
647LX OBIS FP
660LX
640
647
660
75
100
75
FC/APC;
8° angled8
FC/APC;
8° angled8
FC/APC;
8° angled8
FC/APC;
8° angled8
3 mm Mono-Coil
3 mm Mono-Coil
3 mm Mono-Coil
3 mm Mono-Coil
1
1
1
1
0.09
0.09
0.09
0.09
4.5
4.5
4.5
4.5
TEM00
_<1.1
TEM00
_<1.1
TEM00
_<1.1
TEM00
_<1.1
Peak-to-Peak Noise (%)(20 Hz to 20 kHz)
_<2
_<2
_<2
_<2
Long-term Power Stability (%)(8 hrs., ±3°C) <2
Spatial Mode M2 (Beam Quality)3 Beam Asymmetry
RMS Noise (%)(20 Hz to 20 MHz)
Long-term Output Power Average (%/hrs.)
Warm-up Time4 (minutes)(from cold start)
Polarization Ratio
_<1:1.1
_<0.2
_<3/1000
Analog Modulation
Maximum Bandwidth (kHz)
Rise Time (10% to 90%)(nsec)
Fall Time (10% to 90%)(nsec)
Modulation Depth (extinction ratio) Laser Safety Classification
ESD Protection5 Power Consumption (W) Laser Head Baseplate Temperature (Max., °C)
<2
_<3/1000
_<1:1.1
_<0.2
<2
_<3/1000
_<1:1.1
_<0.2
<2
_<3/1000
<5
<5
<5
<5
Minimum 100:1
Minimum 100:1
Minimum 100:1
Minimum 100:1
Laser Drive Modes
Digital Modulation
Maximum Bandwidth (MHz) Rise Time (10% to 90%)(nsec) Fall Time (90% to 10%)(nsec) Modulation Depth (extinction ratio)
_<1:1.1
_<0.2
CW, Analog Modulation, Digital Modulation and Computer Control
150
<2
<2
300
<1200
<800
>1,000,000:1
150
150
<2
<2
<2
<2
>1,000,000:1 at 0 Hz, >250:1 at 150 MHz
500
<700
<700
>1,000,000:1
500
<700
<700
>1,000,000:1
150
<2
<2
500
<700
<700
>1,000,000:1
3b
3b
3b
3b
Level 4
Level 4
Level 4
Level 4
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
40
40
40
40
Heat Dissipation of Laser Head6 (W) Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Typical 5,
Max. 13
Ambient Temperature7
Operating Condition (°C)
Non-operating Condition (°C)
10 to 40
-20 to +60
10 to 40
-20 to +60
10 to 40
-20 to +60
10 to 40
-20 to +60
30
30
30
30
Shock Tolerance (g)(6 ms) 1
Laser-to-laser tolerance. All LS versions ±2 nm. All LX versions with ±5 nm except 520LX with a 520 nm to 530 nm range,
640LX with 635 nm to 644 nm range and 660LX with 652 nm to 665 nm range.
2
Output power is variable in CW Mode from 1 mW (1% for LX Models) to 110% of rated power. Specifications are valid for 100% power.
3
M2 measured with ModeMaster with 90/10 clip levels.
4
Typical power-on delay 0.1 minutes.
5
Electro-Static Discharge Standard IEC 1000-4-2, 1995.
6
Typically 85% of heat load through the base plate. See Users Manual for more detail.
7
Non-Condensing. See User Manual for more detail.
8
Fiber FC/APC connector output not compatible for patchcord-to-patchcord connection.
OBIS FP
Fiber Pigtailed Lasers for Plug-and-Play Simplicity Across the Spectrum
Utility and Environmental Requirements
Operating Voltage1 (VDC)
12 ±2
Dimensions (L x W x H)
Laser
70 x 40 x 38 mm (2.75 x 1.57 x 1.5 in.)
OBIS Remote (optional)
105 x 68 x 36 mm (4.13 x 2.68 x 1.42 in.)
DC Power Supply (optional)
105 x 42 x 33 mm (4.13 x 1.65 x 1.3 in.)
Cable, Laser to OBIS Remote (optional)
1 m (3.28 ft.)(3 meter and 0.3 meter sold separately)
Fiber Minimum Bend Radius
51 mm (2.0 in.)
Weights
Laser
OBIS Remote (optional)
DC Power Supply (optional)
Cable, Laser to OBIS Remote (optional)
Fiber Tensile Load (max.)
1
0.23 kg (0.51 lbs.)
0.24 kg (0.53 lbs.)
0.36 kg (0.79 lbs.)
0.1 kg (0.22 lbs.) for 1 meter
1 kg (2.2 lbs.)
If user supplied, the DC power supply has to meet the following requirements: power >20W; ripple <5% peak-to-peak; line regulation <0.5%.
Mechanical Specifications
OBIS FP LX
Front
View
38.1 mm
(1.5 in.)
Side View
Rear
View
OEM Label
5.1 mm
(0.2 in.)
40 mm
(1.57 in.)
1m (minimum)
(39.4 in.)
8.0°
Polish Direction
Axis ±4° Max.
FC Connector Key
FC Connector Key
Type R - Narrow Key
(2.0 mm +0.02/-0.03 mm Key Width)
Angle Polished 8 ±0.5°
3 mm PVC
Coated Monocoil
Tubing
8.0°
Polarization
±2° Max.
Laser Exit Aperture
View of Fiber from
Connector End
.20 mm ±0.10 mm
4X Ø3.2 mm Thru
(0.13 in.)
5 mm
(0.2 in.)
30 mm
(1.18 in.)
Top View
3 mm
(0.12 in.)
64 mm
(2.52 in.)
OBIS FP
Fiber Pigtailed Lasers for Plug-and-Play Simplicity Across the Spectrum
Mechanical Specifications
OBIS FP LS
Side View
Front
View
1.0m (minimum) (39.4 in.)
Rear
View
70 mm (2.76 in.)
OEM Label
37.9 mm
(1.49 in.)
5.1 mm
(0.2 in.)
40 mm
(1.57 in.)
5 mm
(0.2 in.)
8° ±0.5°
FC Connector Key
Narrow Key
Protective Tubing 5 mm (0.2 in.)
Min. Bend Radius 51 mm (2 in.)
FC Connector Key
View of Fiber from
Connector End
Laser Exit Aperture
4 mm
(0.16 in.)
4X Ø3.2 mm Thru
(0.13 in.)
30 mm
(1.18 in.)
Top View
3 mm
(0.12 in.)
64 mm (2.52 in.)
Looking for OBIS Galaxy Lasers? Please refer to the OBIS Galaxy data sheet and/or web page.
Coherent follows a policy of continuous product improvement. Specifications are subject to change without notice.
Coherent’s scientific and industrial lasers are certified to comply with the Federal Regulations (21 CFR Subchapter J)
as administered by the Center for Devices and Radiological Health on all systems ordered for shipment after
August 2, 1976.
www.Coherent.com
Coherent, Inc.,
5100 Patrick Henry Drive
Santa Clara, CA 95054
phone
(800) 527-3786
(408) 764-4983
fax
(408) 764-4646
e-mail
tech.sales@Coherent.com
Printed in the U.S.A. MC-008-12-0M0414Rev.F
Copyright ©2014 Coherent, Inc.
Coherent offers a limited warranty for all OBIS lasers. For full details of this warranty coverage, please refer to the
Service section at www.Coherent.com or contact your local Sales or Service Representative.
Benelux
+31 (30) 280 6060
China
+86 (10) 8215 3600
France
+33 (0)1 8038 1000
Germany/Austria/
Switzerland +49 (6071) 968 333
Italy
+39 (02) 31 03 951
Japan
+81 (3) 5635 8700
Korea
+82 (2) 460 7900
Taiwan
+886 (3) 505 2900
UK/Ireland +44 (1353) 658 833
VISIBLE AND INVISIBLE LASER RADIATION.
AVOID EYE OR SKIN EXPOSURE TO
DIRECT OR SCATTERED RADIATION.
CLASS IIIb LASER PRODUCT.
350 nm to 1100 nm
<500 mW
ISO 9001 Registered