Sciencetech聚光脉冲太阳模拟器FSSC
详细信息
| 品牌:Sciencetech | | 型号:FSSC | | 加工定制:是 | |
| 外形尺寸:1 mm | | 重量:1 ㎏ | | 用途:1 | |
Sciencetech聚光脉冲太阳模拟器FSSC
特征
●AAA级太阳能模拟器
●强度等级高达4000太阳
●<2%不均匀
●紧凑的设计
●灯泡寿命> 10,000次闪烁
应用
●太阳模拟
●聚光光伏
●高功率光伏电池(三结电池)的表征
●加速暴露测试
A typical Non-uniformity measurement. Graph is
interpolated from 64 measurements over a
5c mx5cm area. The data indicates a
non-uniformity of 1.87%
Sciencetech的太阳能模拟器集中器(FSSC)是一种紧凑而坚固的光源,可产生非常高的太阳辐照度,并且产生的不均匀性很小。Sciencetech专有的均质化技术使FSSC能够达到行业*佳的均匀度和功率水平。
FSSC可用于表征*大尺寸为5cm x 5cm的太阳能电池和其他设备。可以通过功率控制在225到4000个太阳之间的50个步长中设置误差。
使用Sciencetech FSSC太阳能滤光片,该装置符合AM1.5D ASTM光谱标准。
Wavelength Band (nm) |
FSSC Measure- ment
(%, with AM1.5D Filter) |
Air Mass 1.5D ideal
spectral match (%) |
400-500 |
15.1 |
14.2 |
500-600 |
18.0 |
16.4 |
600-700 |
16.1 |
15.4 |
700-800 |
11.7 |
12.7 |
800-900 |
10.9 |
10.7 |
900-1100 |
11.5 |
13.9 |
规格
Model |
FSSC |
Illumination Intensity |
From 225 to 4000 suns (lower concentration levels possible with ND filtering) |
Illumination Intensity Reference |
Built into homogenizer, 5.377uA/Sun 11.0mA typical @2000 Suns |
Target Area |
5cm x 5cm |
Angle of Exit |
50 % within 30 degrees, 47.5 degrees maximum angle |
Non-Uniformity of Irradiance |
<2% typical |
Working Distance |
From 1 to 7 mm (3mm typical) |
Spectral Match |
Class A AM1.5D typical |
Spectral Adjustability |
From AM1.0 to AM2.0 with different filters |
Flash Duration |
1mSec around peak (90% points), 2.2mSec at 50% points t |
Minimum # of flashes per lamp |
20,000 flashes typical @2000 suns , 100,000 flashes @ 400 suns * |
Flash to Flash Repeatability |
+/- 5%, +/- 3% typical ** |
Flash Interval |
5 seconds typical , 2 seconds minimum |
Energy Setting |
75-2400 Joules (50 steps) |
Dimensions (cm) |
36 x 36 x 78 |
Dimensions including mounting frame (cm) |
61 x 61 x 82 |
T Flash duration can be widened and profile flattened with appropriate power supply, peak power level will be reduced.
* Higher power settings can degrade lamp life more quickly
** flash to flash repeatability can be reduced below 2% with power supply modification