High Energy DPSS ND-YAG Nanosecond Laser
PRODUCTS OVERVIEW
The 50kHz/100kHz ultra-high-speed visible detector is based on a CMOS linear array image sensor. Its ultra-high line rate allows for the acquisition of a more accurate average spectrum per unit time. The large well depth brought about by the large pixels is very suitable for fine measurements in strong light applications. The dual linear array version makes the synchronous detection of the reference light very stable and convenient.
The high-speed visible detector with broad-spectrum response is based on a CMOS linear array image sensor. It also has a certain response in the ultraviolet band. Its high line rate allows for the acquisition of a high-precision average spectrum per unit time. The large pixels endow it with a large well depth. The switchable high and low gain modes make the application flexible. The dual linear array version makes the synchronous detection of the reference light very stable and convenient. Moreover, this detector is available in 1024/512 pixel versions.
The high-speed near-infrared detector with broad-spectrum response is based on an InGaAs linear array image sensor. Its spectral response range covers 500-1700nm. Its high line rate allows for the acquisition of a high-precision average spectrum per unit time. The large pixels endow it with an extremely high full well capacity. Meanwhile, the switchable high and low gain modes make the application flexible. The dual linear array version makes the synchronous detection of the reference light very stable and convenient.
The high-sensitive high-speed visible detector is based on a CMOS linear array image sensor. It has an extremely high photoelectric conversion efficiency, which is very suitable for low-light detection applications. Its high line rate allows for the acquisition of a high-precision average spectrum per unit time. The dual linear array version makes the synchronous detection of the reference light very stable and convenient. Also, this detector is available in 2048/512 pixel versions.
The visible detector with enhanced ultraviolet response is based on a CCD linear array image sensor. Its spectral response curve is smooth, and it has a good light response in the ultraviolet band. The resolution of 2048 pixels can meet the requirements of most applications. At the same time, it has a high photoelectric conversion efficiency, which is very suitable for low-light detection applications.
SPECIFICATIONS
Main Technical Indicators
| Model | VIS | NIR | |||||||||||||||||
| 100kHz | 50kHZ | Broad Spectral Response | High Sensitivity | UV Response Enhanced | Broad Spectral Response | High Speed | Cooled High Speed | ||||||||||||
| SP-SV-S/DL-100K-128P | SP-SV-S/DL-50K-384P | SP-SV-S/DL-18K-512P-W | SP-SV-S/DL-9K-1024P-W | SP-SV-S/DL-16K-512P-S | SP-SV-S/DL- 4K-2048P-S | SP-SV-S/DL-4K-2048P-U | SP-NIR-S/DL-16K-256P | SP-NIR-S/DL-50K-1024P | SP-NIR-S/DL-17K-256P-C | ||||||||||
| Line Array Version | Single/Double | ||||||||||||||||||
| Length of Photosensitive Area (mm) | 16.3 | 48.7 | 12.8 | 25.6 | 7.2 | 28.7 | 28.7 | 12.8 | |||||||||||
| Detection Wave Band (nm) | 400-1000 | 200-1000 | 200-1100 | 500-1700 | 950-1700 | 900-2550 | |||||||||||||
| Number of Pixels in a Single Array | 128 | 384 | 512 | 1024 | 512 | 2048 | 2048 | 256 | 1024 | 256 | |||||||||
| Pixel Size (μm) | 127 x 127 | 25 x 500 | 14 x 200 | 14 x 500 | 14 × 500 | 50 ×500 | 12.5 x 12.5 | 50 x 250 | |||||||||||
| Peak Quantum Efficiency | 70% @ 700 nm | 58% @ 750 nm | 83% @ 576 nm | 75% @ 570 nm | 83% @ 1300 nm | 72% @ 1500nm | 70% @ 2300nm | ||||||||||||
| Dynamic Range (dB) | 76 | 69 (High Gain)74 (Low Gain) | 74 | 76 | 72 (High Gain)76 (Low Gain) | 51 (High Gain)55 (Medium Gain)63 (Low Gain) | 76.9 | ||||||||||||
| Full-Well Capacity (Me-) | 11 | 5.8 (High Gain)25.4 (Low Gain) | 0.1 | 0.2 | 17.5 (High Gain)175 (Low Gain) | 0.213 (High Gain)0.426 (Medium Gain)1.385 (Low Gain) | 17.5 (High Gain)175 (Low Gain) | ||||||||||||
| Conversion Efficiency (μV/e-) | 0.35 | 0.56 (High Gain)0.13 (Low Gain) | 20 | 10 | 0.16 (High Gain)0.016 (Low Gain) | 8 (High Gain)4 (Medium Gain)1.23 (Low Gain) | 17.5 (High Gain)175 (Low Gain) | ||||||||||||
| Maximum Line Rate (μs) | 100 | 50 | 18 | 9 | 16 | 4 | 4 | 16 | 50 | 17.2 | |||||||||
| Minimum Exposure Time (μs) | 2 | 1 | 2 | 2 | 2 | 3 | |||||||||||||
| Data Bit Depth | 16 bit | ||||||||||||||||||
| Temperature Control Method | Active fan cooling | Two-stage electron cooling | |||||||||||||||||
| Trigger Mode | Software (internal trigger) / Hardware (external trigger) | ||||||||||||||||||
| Synchronous Signal Input | External trigger, pump–probe synchronization | ||||||||||||||||||
| Data Interface | Gigabit Ethernet | ||||||||||||||||||
| Power Supply | 9V/2V | ||||||||||||||||||
| Optical interface | Free space | ||||||||||||||||||
| Camera Size (mm) | 130 x 121 x 68 | ||||||||||||||||||
| Application Software | LabVIEW | ||||||||||||||||||
| Operating Environment | Temperature 0~40℃, humidity 10%~85% (no condensation) | ||||||||||||||||||
PUBLICATION
Jiale Liu, Xiayan Chen, Kaizhong Chen, Wenming Tian
Xiaofan Wei, Zihan Wang, Ziyu Wang, Yue Lu, Qingqing Ji, Weimin Liu
Jinyu Yang, Leyi Zhao, Zixuan Song, Jiamin Xiao, Lingyao Li, Guangjun Zhang, Wenxin Wang
Chiyu Guo, Chenghao Bi, Shibo Wei, Ke Ren, Xuexuan Huang, Liang Tao, Xingyu Wang, Nora H. de Leeuw, Wenxin Wang
Xukun Feng, Jiayu Tan, Xueqin Cao, Panpan Shao, Tao Han, Yue Wu, De Lu, Yixuan Zhou, Xiaobo Li, Yuanyuan Huang, Xinlong Xu
Liqiang Zhang, Yiliu Wang, Anshi Chu, Zhengwei Zhang, Miaomiao Liu, Xiaohua Shen, Bailing Li, Xu Li, Chen Yi, Rong Song, Yingying Liu, Xiujuan Zhuang, Xidong Duan
Junhan Xie, Wei Zhou, Haozheng Li, Ziyu Wang, Jiaming Jiang, Yile Zhang, Xiaoqin Shen, Zhijun Ning, Weimin Liu
Wei Zhang, Jie Kong, Rui Zhi An, Jiachen Zhang, Yujie Zhou, Lin-Song Cui, Meng Zhou
Geping Qu, Siyuan Cai, Ying Qiao, Deng Wang, Xihan Chen, Alex K.-Y Jen, ZongXiang Xu
Yuling Huang, Congcong Chen, Shaokuan Gong, Qiushi Hu, Jingjing Liu, Hongyu Chen, Lingling Mao, Xihan Chen
Qi Zou, Xuanying Chen, Yu Zhou, Xin Jin, Zhiyun Zhang, Jin Qiu, Rui Wang, Wenjing Hong, Jianhua Su, Da-Hui Qu,He Tian
Aggregation Enhanced Thermally Activated Delayed Fluorescence through Spin-Orbit Coupling Regulation
Wei Zhang, Shuai Li, Yujie Gong, Jiachen Zhang, Yujie Zhou, Jie Kong, Hongbing Fu, Meng Zhou
Zhi-Bin Fang, Ting-Ting Liu, Junxue Liu, Shengye Jin, Xin-Ping Wu, Xue-Qing Gong, Kecheng Wang, Qi Yin, Tian-Fu Liu, Rong Cao, Hong-Cai Zhou
Yalan Zhang, Peijun Wang, Ming-Chun Tang, Dounya Barrit, Weijun Ke, Junxue Liu, Tao Luo, Yucheng Liu, Tianqi Niu, Detlef-M Smilgies, Zhou Yang, Zhike Liu, Shengye Jin, Mercouri G. Kanatzidis, Aram Amassian, Shengzhong Frank Liu, Kui Zhao
Xiao Luo, Runchen Lai, Yulu Li, Yaoyao Han, Guijie Liang, Xue Liu, Tao Ding, Junhui Wang, Kaifeng Wu
Hongzhi Zhou, Yida Zhao, Weijian Tao, Yujie Li, Qiaohui Zhou, Haiming Zhu
