远心镜头是一种特殊的光学镜头,依据光学结构分为物方远心、像方远心和双侧远心镜头,其核心特点在于主光线平行于光轴传播,远心镜头通过特殊光学设计,能实现近乎平行的主光线传播,大幅减少甚至消除视差,使得物体在不同距离下成像尺寸保持一致,因此在高精度测量、检测等对尺寸精度要求极高的应用场景中,远心镜头具有无可比拟的优势。
|
型号
|
物方视场
|
光学倍率
|
工作距离
|
F.NO
|
远心度
|
光学畸变
|
分辨率(um)
|
景深(mm)
|
接口
|
芯片
|
|---|---|---|---|---|---|---|---|---|---|---|
|
56.03
|
0.589
|
138±2
|
9.7
|
<0.1°
|
<0.1
|
11.1
|
3
|
m58
|
2
|
|
|
48.18
|
0.685
|
128±2
|
12.9
|
<0.1°
|
<0.1
|
10.2
|
3
|
m58
|
2
|
|
|
41.98
|
0.786
|
118±2
|
12.9
|
<0.1°
|
<0.1
|
9.3
|
2
|
m58
|
2
|
|
|
36.11
|
0.914
|
111±2
|
17.2
|
<0.1°
|
<0.1
|
8.6
|
2
|
m58
|
2
|
|
|
25.94
|
1.272
|
72±2
|
17.2
|
<0.1°
|
<0.1
|
6.3
|
1.6
|
m58
|
2
|
|
|
231.90
|
0.163
|
410
|
6.5
|
<0.1°
|
<0.1
|
38.3
|
20
|
m58
|
39
|
|
|
164.35
|
0.23
|
318
|
6.5
|
<0.1°
|
<0.1
|
25.5
|
11
|
m58
|
39
|
|
|
144.83
|
0.261
|
301
|
10
|
<0.1°
|
<0.1
|
22.5
|
10
|
m58
|
39
|
|
|
131.71
|
0.287
|
288
|
7
|
<0.1°
|
<0.1
|
21.7
|
9
|
m58
|
39
|
|
|
107.69
|
0.351
|
251
|
8.5
|
<0.1°
|
<0.1
|
17.8
|
6
|
m58
|
39
|
|
|
96.18
|
0.393
|
238
|
9.1
|
<0.1°
|
<0.1
|
16.3
|
5
|
m58
|
39
|
|
|
87.10
|
0.434
|
208
|
10.2
|
<0.1°
|
<0.1
|
13.8
|
4
|
m58
|
39
|
|
|
77.46
|
0.488
|
230
|
11.5
|
<0.1°
|
<0.1
|
14.2
|
5
|
m58
|
39
|
|
|
69.61
|
0.543
|
178
|
10.5
|
<0.1°
|
<0.1
|
13.1
|
4
|
m58
|
39
|
|
|
61.97
|
0.61
|
159
|
10
|
<0.1°
|
<0.1
|
11,7
|
3
|
m58
|
39
|
|
|
61.66
|
0.613
|
187±2
|
18
|
<0.1°
|
<0.1
|
4.3
|
7
|
m58
|
39
|
|
|
54.15
|
0.698
|
138
|
10
|
<0.1°
|
<0.1
|
8.9
|
2
|
m58
|
39
|
|
|
46.44
|
0.814
|
128
|
15
|
<0.1°
|
<0.1
|
8.7
|
2
|
m58
|
39
|
|
|
40.60
|
0.931
|
118
|
15.3
|
<0.1°
|
<0.1
|
8.2
|
2
|
m58
|
39
|
|
|
35.00
|
1.08
|
111
|
18
|
<0.1°
|
<0.1
|
7.1
|
2
|
m58
|
39
|
|
|
25.20
|
1.5
|
72
|
20.4
|
<0.1°
|
<0.1
|
6
|
2
|
m58
|
39
|
|
|
241.76
|
0.182
|
410±5
|
6
|
<0.1°
|
<0.1
|
34.3
|
14
|
m58
|
44
|
|
|
241.76
|
0.182
|
410±5
|
6
|
<0.1°
|
<0.1
|
34.3
|
14
|
M58
|
44
|
|
|
171.21
|
0.257
|
318±4
|
6
|
<0.1°
|
<0.1
|
24.3
|
6
|
M58
|
44
|
|
|
150.68
|
0.292
|
301±4
|
10
|
<0.1°
|
<0.1
|
21.4
|
12
|
M58
|
44
|
|
|
137.07
|
0.321
|
288±4
|
6.2
|
<0.1°
|
<0.1
|
18.3
|
4
|
M58
|
44
|
|
|
112.24
|
0.392
|
251±3
|
8
|
<0.1°
|
<0.1
|
19.6
|
6
|
M58
|
44
|
|
|
100.23
|
0.439
|
238±3
|
10.2
|
<0.1°
|
<0.1
|
16.9
|
5
|
M58
|
44
|
|
|
90.53
|
0.486
|
208±2
|
11.4
|
<0.1°
|
<0.1
|
12.8
|
4
|
M58
|
44
|
|
|
76.66
|
0.574
|
230±2
|
12.8
|
<0.1°
|
<0.1
|
11.7
|
5
|
M58
|
44
|
|
|
72.37
|
0.608
|
178±2
|
10.3
|
<0.1°
|
<0.1
|
10.1
|
2.4
|
M58
|
44
|
|
|
64.71
|
0.68
|
187±2
|
20.5
|
<0.1°
|
<0.1
|
11.4
|
7
|
M58
|
44
|
|
|
64.52
|
0.682
|
159±2
|
10
|
<0.1°
|
<0.1
|
9.7
|
3
|
M58
|
44
|
|
|
56.27
|
0.782
|
138±2
|
12
|
<0.1°
|
<0.1
|
7.9
|
2
|
M58
|
44
|
|
|
44.40
|
0.911
|
128±2
|
17.1
|
<0.1°
|
<0.1
|
7.2
|
2
|
M58
|
44
|
|
|
41.98
|
1.048
|
118
|
17.2
|
<0.1°
|
<0.1
|
9.5
|
1.4
|
M58
|
44
|
|
|
36.30
|
1.212
|
111±2
|
18.7
|
<0.1°
|
<0.1
|
6.2
|
1.2
|
M58
|
44
|
|
|
26.11
|
1.685
|
72±2
|
22.8
|
<0.1°
|
<0.1
|
5.8
|
1.2
|
M58
|
44
|
|
|
232.65
|
0.245
|
410±5
|
8.7
|
<0.1°
|
<0.1
|
17.7
|
16
|
M72*P0.75
|
59
|
|
|
164.74
|
0.346
|
318±4
|
8.5
|
<0.1°
|
<0.1
|
13.7
|
88
|
M72*P0.75
|
59
|
|
|
145.41
|
0.392
|
301±4
|
15
|
<0.1°
|
<0.1
|
18.2
|
12
|
M72*P0.75
|
59
|
|
|
131.94
|
0.432
|
288±4
|
10
|
<0.1°
|
<0.1
|
11.5
|
7
|
M72*P0.75
|
59
|
|
|
107.95
|
0.528
|
251±3
|
10
|
<0.1°
|
<0.1
|
11.1
|
5.2
|
M72*P0.75
|
59
|
|
|
62.23
|
0.916
|
159±2
|
12
|
<0.1°
|
<0.1
|
7.2
|
2.6
|
M72*P0.75
|
59
|
远心镜头是一种特殊的光学镜头,依据光学结构分为物方远心、像方远心和双侧远心镜头,其核心特点在于主光线平行于光轴传播,远心镜头通过特殊光学设计,能实现近乎平行的主光线传播,大幅减少甚至消除视差,使得物体在不同距离下成像尺寸保持一致,因此在高精度测量、检测等对尺寸精度要求极高的应用场景中,远心镜头具有无可比拟的优势。
