STx High Performances Triggered Microchip Series
KEY FEATURES
• Ultra-short pulses down to 350ps
• 1064nm, 532nm, 355nm and 266nm
• Single-shot to 4kHz
• Multi-kW peak power
• Excellent beam quality
• Efficient, air-cooled
• Sealed package, extremely long life
For generating high peak power pulses of a few hundred picoseconds, microchip lasers are economical, compact, and reliable. Visible and UV wavelength are generated from the harmonic conversion of an IR passively Q-switched Nd:YAG microchip engine, within a sealed package ensuring incredibly long lifetime even in harsh industrial environment. The triggered series offer the highest peak power and shortest pulses of the entire Microchip family, and span the full wavelength spectrum down to 266nm. With these devices, the user is able to trigger pulse emission on demand from single-shot to 4kHz.
APPLICATIONS
• Instrumentation - Ranging - Differential absorption LIDAR - Super-continuum generation - Distributed temperature sensing - Raman spectroscopy
• Biophotonics - Micro-dissection of cells - Brain nanosurgery - Protein cross-linking
TECHNICAL SPECIFICATIONS
STP-07E-1x0
Wavelength
1064nm
Maximum Repetition Rate
RRmax (1)
4kHz
Constant Pulse width (FWHM) (2) <0.7ns
Output Energy >7µJ
Peak Power >10kW
PCD(3) <70µs
PCD jitter <±1.5µs
Short term (1min) power stability(4)
<±1%
Long term (6 hrs) power stability(4)
<±3%
Beam profile
Gaussian TEM00
Full angle divergence
Horizontal@1/e²
Vertical@1/e²
13±5mrad
13±5mrad
M²(5)
<1.3
Beam ellipticity(6)
<1.3
Main Lobe Gaussian Fit (7) N/A
Polarization
Linear
PER>20dB
Package dimensions
144x42x36mm
Package weight
300g
Options (table p3)
0,1,2,3,4,F,M
Options included
S
NOTES
(1) See options p3
(2) Measured with 1Ghz photodiode and 1GHz/10GS/s oscilloscope.
(3) PCD = Pulse Creation Delay, the delay between the trigger command and the effective pulse firing
(4) For temperature variation < ± 3°C and < 3°C/hour, stability is measured with calorimeter – detector band [DC, 2Hz]
(5) Mean average value M = √(XY), X and Y being respectively the major and minor axis of the ellipse
(6) Beam ellipticity is calculated as the ratio of the main axis far field divergence
(7) Measurement performed in the far field with a WincamTD-U series camera
(8) Beam exhibits different profile in horizontal (Gaussian) and vertical ((sin x /x)² in far-field) plans
(9) Contact factory for availability
COMPLEMENTARY INFORMATION & OPTIONS
Environment Parameters
Operating Temperature Range
0-50°C for STP and STG
15-35°C for STV and STU
Maximum Laser Head Baseplate Temperature
50°C for STP and STG
40°C for STV and STU
Maximum Power Consumption
<40W
Laser Head Thermal Dissipation
<15W
Storage Temperature
0-50°C
Shock of 11ms according to IEC 68-2-27, non operating
25g
Vibration 5Hz to 500Hz sinusoidal according to IEC 68-2-6
2g
Certification
Laser classification according to IEC 60825-1:2007
3B Except STU-01E : 4
CDRH
Yes, if used with a -DP1 controller
ROHs
Yes
Options
Fixed Repetition Rate = RR max
-10x version
Fixed Repetition Rate ≠ RR max
-11x version ; RR to be chosen over 10Hz-RRmax
External Variable Repetition Rate
-12x version ; single shot to RRmax, 1 optimized RR value
External Variable Multi-Repetition Rate
-13x version ; single shot to RRmax, 3 optimized RR values
External Continuous Variable Repetition Rate
-14x version ; optimized over [10Hz; 2kHz] range
Multimode fibering (M)
Contact factory for availability
Single mode fibering (F)
Contact factory for availability
Collimation (C)
With collimated beam
Synchronization output (S)
TTL compatible output signal for synchronization/monitoring
Available Controller Types
Model
Type
Input Power
CDRH
MLC-03A-DP1
Desktop
100-240 V AC
Yes
MLC-03A-MP1
Module
12 V DC
No
MLC-03A-BP1
Board
12 V DC
No
商品属性 [波长] 1064nm [脉宽] <0.7ns [峰值功率] >10kW [重复频率] 4kHz [单脉冲能量] >7µJ