什么是PSD ?
有多种方法可用于检测入射光线的位置。这些
包括使用小的离散检测器阵列或多元件等传感器的方法
由于CCD传感器。相对于这些传感器,的PSD (位置敏感探测器)
是由一个整体式检测器的无离散的元件,并提供
通过使用光电二极管的表面电阻的连续位置的数据。
月台幕门提供的优势,如高位置分辨率,高速响应和
可靠性。
n
PSD的特点
·优秀的位置分辨率
·宽光谱响应范围
高速响应
·检测重心的点光源的位置
·同时检测光的强度和重心的点光源的位置
高可靠性
n
PSD中的应用
·位置和角度传感
·变形和振动测量
·镜头反射和折射测量
·激光位移传感器
·光学遥控器
·光学测距仪
●光开关
·相机自动对焦
目录
选型指南················································································································· 1
术语的说明········································································································· 4
特性及用途······································································································五
1.基本原理
············································································································
5
2.一维PSD
·································································································
5
3.二维PSD的
·································································································
5
4.位置检测误差
·······························································································
7
5.将分辨率
·······································································································
8
6,响应速度快
·········································································································
10
7.光饱和
································································································
11
选购指南
PSD (位置敏感探测器)是一种光电位置传感器utiliz-
荷兰国际集团光电二极管的表面电阻。不像分立元件的检测器如
CCD , PSD提供连续的位置数据( X或Y坐标数据)和
具有高的位置分辨率和高速响应。
一维PSD的
······························
1
2
3
4
5
滨松提供多种类型的设计的一维PSD的
用于高精密的距离测量,如位移计,
摄像头自动对焦和光学开关。我们的产品线包括
可见切型近红外检测,一个红色的敏感性增强型
红色光检测,显微射灯( LD束等)的检测
型,和一个长而窄的类型与活性区域超过30毫米。
11
14
15
6
7
8
9
10
12
13
型号
S6407
S6515
S4580-04
S4580-06
S4581-04
S4581-06
S3271-05
S4582-04
S4582-06
S3272-05
S4583-04
S4583-06
S3273-05
S7879
S8361 *
S4584-04
S4584-06
S3274-05
S7105-04
S7105-06
S7105-05
S5629
S5629-01
S5629-02
S3979
S3931
S3932
S1352
S3270
活动区域
(mm)
1×1
1 × 1.2
0.8 × 1.5
1×2
电阻的长度
(mm)
1
1.2
1.5
2
极间
阻力
VB = 0.1 V
(k)
200
140
140
140
400
光谱响应
范围
(纳米)
760到1100
760到1100
760到1100
320到1100
760到1060
320到1060
760到1060
760到1100
320到1100
760到1100
760到1100
320到1100
760到1100
440到1100
400至1100
760到1100
320到1100
760到1100
760到1100
320到1100
760到1100
760到1100
320到1100
760到1100
320到1100
320到1100
320到1100
320到1100
700至1100
包
1
2
3
2
3
4
2
3
4
2
3
4
5
6
2
3
4
7
8
7
9
10
9
11
12
13
14
15
1 × 2.5
2.5
140
400
140
1×3
3
400
110
塑料
1 × 3.5
3.5
140
400
1 × 4.2
4.2
140
400
1×6
1×3
1×6
1 × 12
2.5 × 34
1 × 37
6
3
6
12
34
37
50
300
140
50
50
20
15
TO-5
陶瓷的
*在红色区域型高灵敏度
工程与微点光检测。
1
选购指南
二维PSD的
······························
1
2
3
4
6
7
二维的PSD进行分类结构分成四横向型和一
二人外侧型。在四侧式提供高速响应和低
暗电流。二人外侧型提供小型位置检测误差和高
位置分辨率。甲枕形,它是与四 - 横向型
提高有源区和电极,具有位置检测误差小
二人外侧型,同时还具有四横型的优势。
阻力
长
(mm)
13 × 13
14 × 14
26 × 26
5.7 × 5.7
极间
阻力
VB = 0.1 V
(k)
10
10
10
10
7
7
100
5
8
9
(典型值)。
型号
S1200
S1300
S1880
S1881
S2044
活动区域
(mm)
13 × 13
12 × 12
22 × 22
4.7 × 4.7
光谱响应
范围
(纳米)
320到1060
320到1100
320到1060
320到1060
320到1100
760到1100
320到1100
结构
四,横向型
双核外侧型
枕形
(改进四横型)
枕形
(改进四横型)
枕形
(改进四横型)
四,横向型
1
2
3
4
5
6
7
8
9
包
陶瓷的
陶瓷的
金属
陶瓷的
芯片载体
塑料
n
位置探测(大= 25℃下的例子,
λ=890
纳米,射灯尺寸:
φ200
m)
l
S1200
l
S1300
l
S1880
线间距为1mm
线间距为1mm
线间距为1mm
S5990-01
4×4
4.5 × 4.5
S5991-01
9×9
10 × 10
S7848
2×2
2×2
S7848-01
工程与微点光源检测
l
S5991-01
线间距为1mm
KPSDC0017EA
l
S7848
线间距为0.2mm
KPSDC0015EA
KPSDC0020EA
KPSDC0065EA
KPSDC0084EA
128元件的PSD阵列
···························································
S5681是一个128元的PSD线性阵列。通过扫描狭缝状光束右和左基于
上的缝隙光投影法, S5681使测量对象物的三维形状。
(典型值)。
型号
S5681
活动区域
(mm)
0.025 × 6.375/
128元
电阻长度间电阻光谱响应
VB = 0.1 V
范围
(纳米)
(k)
(mm)
6.375
100
320到1100
包
陶瓷的
2
QQ:2880707522 复制
