●High rejection/transmission
更新時間:2012-04-27 17:22:26
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●Product Description
Our short and long-wave pass filters have a steep transition between the region of transmission and reflection — much steeper than colored glass filters. Both the short and long-wave pass filters have out-of-band rejection ³OD 3 to X-ray (for LWP) and to 1200nm (for SWP). Typical transmission is ³80% for long-wave pass and ³65% for short-wave pass filters. These filters are available individually and in sets.
●Product Detail
These short and long-wave pass filters have a very steep transition between the region of transmission and reflection — much steeper than colored glass filters. They have a hard, dielectric filter coating using interference effects rather than absorption to isolate the spectral bands. Unlike colored glass filters, the center wavelength will shift to shorter wavelengths with an increase in angle of incidence. This can be useful for tilt tuning these filters to your exact wavelength. A custom bandpass filter with excellent performance can be constructed using a combination of a short-wave pass and a long-wave pass filter.
●Specifications
Minimum Active Area | 20.2 mm |
Surface Quality | 80-50 scratch-dig; F/F per MIL-F-48616 |
Diameter | 25.4 +0/-0.5 mm |
Thickness | 2.0 to 7.6 mm |
Angle of Incidence | Normal |
Tav Minimum Average Transmittance |
Short Wave Pass: 65% Long Wave Pass: 80% |
Rejection (spectral) |
Short Wave Pass: 1.2lc to 1100 nm, =0.1% T or =10-3 Long Wave Pass: X-Ray to 0.85 lc, =0.1% T or =10-3 |
Slope* | £6% where slope%=100% (l80%Tpk-l5%Tabs)/l5%Tabs |
Effective Index of Refraction ne | 1.7 |
Wavelength Shift with Temperature |
Short Wave Pass: 0.02 nm/°C Long Wave Pass: 0.025 nm/°C |
Humidity | Per MIL-STD-810E, Method 507.3, Procedure III Modified to 7 cycles |
Temperature Range | -50°C to + 100 °C |
Cleaning |
Non-abrasive method, acetone or isopropyl alcohol on lens tissue recommended |
Short-Wave Pass Filters |
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Model |
lc Cut-On Wavelength @ 50% of Tpk (nm) |
Minimum Spectral range of Transmittance l1 to l2(nm) |
10SWF-450-B | 450 ± 5 | 415–440 |
10SWF-500-B | 500 ± 5 | 415–490 |
10SWF-550-B | 550 ± 5 | 415–540 |
10SWF-600-B | 600 ± 5 | 415–590 |
10SWF-650-B | 650 ± 5 | 415–640 |
10SWF-700-B | 700 ± 6 | 440–685 |
10SWF-750-B | 750 ± 6 | 475–735 |
10SWF-800-B | 800 ± 6 | 475–785 |
10SWF-850-B | 850 ± 6 | 475–835 |
10SWF-900-B | 900 ± 7 | 475–880 |
10SWF-950-B | 950 ± 7 | 475–930 |
10SWF-1000-B | 1000 ± 7 | 475–980 |
Long-Wave Pass Filters |
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Model |
lc Cut-On Wavelength @ 50% of Tpk (nm) |
Minimum Spectral range of Transmittance l1 to l2(nm) |
10LWF-400-B | 400 ± 5 | 410–1200 |
10LWF-450-B | 450 ± 5 | 460–1200 |
10LWF-500-B | 500 ± 5 | 510–1200 |
10LWF-550-B | 550 ± 5 | 560–1200 |
10LWF-600-B | 600 ± 5 | 610–1200 |
10LWF-650-B | 650 ± 5 | 660–1200 |
10LWF-700-B | 700 ± 6 | 715–1200 |
10LWF-750-B | 750 ± 6 | 765–1200 |
10LWF-800-B | 800 ± 6 | 815–1200 |
10LWF-850-B | 850 ± 6 | 865–1200 |
10LWF-900-B | 900 ± 7 | 920–1200 |
10LWF-950-B | 950 ± 7 | 970–1200 |