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ATR20202-600mW 785nm拉曼窄线宽激光器
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- 供货周期:现货
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奥谱天成(厦门)光电有限公司,由光谱仪器领域专家筹建,致力于开发具有水平的光谱分析仪器等技术创新和应用推广。公司与厦门大学、浙江大学、*等单位紧密合作,实现多个系列的光谱仪和拉曼光谱仪的研发和产业化,目前已广泛应用于安防、食品安全、药品检测、LED分光、水质检测等多种行业领域。
◆ “重大科学仪器专项计划”承担者;
◆ 重大产业化专项项目承担者;
◆ 国家《拉曼光谱仪标准》起草单位;福建省《便携式拉曼光谱仪标准》评审专家单位。
◆ 厦门市“双百人才计划”A类重点引进项目(Z高等级);
◆ 拉曼光谱仪、光纤光谱仪等光谱分析方案提供商;
◆ 产品可靠性:生产工艺来自航天、通讯技术;
◆ 借鉴安捷伦(Agilent)的全套质控体系;
◆ 快速样机设计与生产能力,可接收光电模块定制开发;
◆ 厦门大学、集美大学、厦门理工学院实习基地;
详细信息
ATR20202-600mW 785nm拉曼窄线宽激光器
GENERAL DESCRIPTION
ATR20202 785nm narrow line laser is characteristic by its highreliability and ultra-narrow linewidth. ATR20202 operates with a single 5V power supply and can output 500 mW laser power.When ATR20202 is used in Ramanspectrometer, it will help to obtain high spectral stability and highresolution. It can be controlled through the TTL interface by the offered pinout definition and the communication protocol. The output laser power canbe changed continuously by changing the LD working current with the commands.
ATR20202-600mW 785nm拉曼窄线宽激光器
APPLICATIONS
Raman spectrometer
Bio-medical
Sensing
FEATURES
lMaxoutput power: 500 mW
lCenterwavelength: 785±0.5 nm
lLinewidth (FWHM): < 0.1 nm
lFiber:105/125μm, 0.22NA,FC/PC
lInterface:UART
lPowersupply: +5V/DC
ADVANTAGE
Narrowline
Highstability
Low powerconsumption
Highreliability
Optical Parameters | Specs | Conditions | ||
Min | Typ | Max | ||
Wavelength center | 784.5 | 785 nm | 785.5 | |
Line-width | 0.08 nm | 0.12 nm | FWHM | |
Output Power | 500 mW | Multimode fiber coupled | ||
Power stability in 2h | 0.4% | RMSE | ||
Stability time | 5 s | 7s | Power stability while open laser | |
SMSR | >40 dB | |||
Optical fiber | 105/125um multimode fiber 0.22NA | Fiber coupled | ||
Connector | FC/PC | Fiber coupled | ||
Electrical Parameters | ||||
LD working current | 300mA | 700mA | 1000mA | |
TEC (˚C) (±5) | 25 ˚C | |||
Power Supply | 4.75 V | 5 V | 5.25 V | |
Current (Laser on) | 0.75 A | 2 .5 A | TEC on | |
Current (Laser off) | 0.3 A | 1.3 A | TEC on
| |
Figure3 the relationship between output laser power and the operationcurrent
1 Reliabilityand Stability
Figure 4showing thestability times while open laser. The typical stabilization time is 5 seconds. Thisparameter affects the application directly in rapid detection.
Figure 5 showing the long term power stabilitytesting result of 5 samples, it indicated that the laser has a good stabilityin continuous work.
Figure 5 Long term stabilitytesting results of 5 samples
