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REPETITION RATE
0-120 MHz
PILAS
Gain-switched laser diode module

Picosecond gain switched laser diode module for scientific applications, sensing and detection, and easy OEM integration.

OUTSTANDING FEATURES

• Wavelength: 375 nm - 1.6 um
• Pulse duration down to 20 ps
• Continuously tunable repetition rate
• Low timing jitter
• External trigger (master and slave operation)
• Remote control

WAVELENGTH
(nm)
TOLERANCE
(nm)
SPECTRAL WIDTH
(nm)
PULSE WIDTH
(ps) ¹
PEAK POWER
(mW) ²
AVERAGE POWER
(mW) ³
PiL037X
375
± 10
< 5
< 45
> 300
2
PiL040X
405
± 15
< 5
< 45
> 300
2
PIl044X
440
± 20
< 5
< 70
> 150
1.5
PiL047X
470
± 10
< 5
< 60
> 150
1.5
PiL048X
480
± 10
< 5
< 60
> 100
1
PiL051X
510
± 20
< 10
< 140
> 100
1
PiL063X
635
± 15
< 7
< 45
> 200
1.5
PiL067X
665
± 15
< 7
< 45
> 200
1.5
PiL069X
690
± 15
< 7
< 50
> 200
1.5
PiL072X
720
± 30
< 7
< 50
> 200
1.5
PiL077X
770
± 20
< 7
< 50
> 100
1
PiL080X
805
± 20
< 7
< 50
> 100
1
PiL083X
830
± 15
< 10
< 50
> 100
1
PiL085X
850
± 15
< 10
< 50
> 100
1
PiL088X
880
± 20
< 10
< 50
> 100
1
PiL090X
905
± 15
< 10
< 50
> 100
1
PiL094X
940
± 20
< 10
< 50
> 100
1
PiL098X
980
± 20
< 10
< 50
> 100
1
PiL103X
1030
± 20
< 15
< 60
> 100
1
PiL106X
1060
± 20
< 15
< 60
> 100
1
PiL131X
1310
± 20
< 15
< 35
> 50
0.5
PiL155X
1550
± 20
< 15
< 35
> 50
0.5
PiL199X
1990
± 50
< 50
< 80
> 100
1
PiL084DFBX
852
± 2
< 0.5
< 90
> 100
0.5
PiL106DFBX
1064
± 2
< 0.5
< 60
> 100
0.5
PiL131DFBX
1310 ⁴
± 20
< 0.5
< 30
> 50
0.5
PiL155DFBX
1550 ⁴
± 20
< 0.5
< 30
> 50
0.5
OPTIONS

• Fiber output (PM, SM, MM)
• Fiber collimator w/o microfocus
• Thermal wavelength tuning
• Converter TTL to NIM level for trigger out
• Narrow spectral linewidth DFB-laser
• Single-box OEM package

APPLICATIONS

• Detector testing (PMT, APD, etc.)
• Time-resolved spectroscopy
• Analysis of ultrafast electrical circuits
• Semiconductor inspection
• Fiber testing

¹ Minimum pulse widths depend on repetition rate.

 ² Peak power for collimated beam. Fiber coupling will reduce peak power. Corresponding pulse energy depends on pulse width. Range is from 1pJ to 50pJ for near Gaussian pulses. Higher pulse energy at the expense of pulse shape is possible with increased pulse duration up to 1 or 2ns. Maximum repetition rate will be limited in that case.

 ³ Typical average output power for collimated beam at 100 MHz is given. Average power depends on repetition rate. For repetition rate above 80MHz a passive heat sink for the laser head is required for long time operation.

 ⁴ The wavelength is selectable within C- and O-Band.