Longpass Filter
Product introductionLongpass filter focuses on customizing filters with a high cut-off in the short-wave region and high penetration in the long-wave region according to customer needs. The wavelength
A longpass filter, also known as a low-cut filter or a high-pass filter in optics, is a type of optical filter that transmits wavelengths longer than a specified cutoff wavelength (also known as the edge wavelength or the transition wavelength) and blocks or significantly attenuates wavelengths shorter than this cutoff point. In essence, it sets a minimum threshold for the wavelengths that can pass through it.
Key Features of Longpass Filters:
Cutoff Wavelength (λc):
This is the critical wavelength at which the filter starts to transmit light efficiently. Below this wavelength, the transmission is either blocked or greatly reduced.
Transition Width:
The range over which the filter transitions from blocking to passing wavelengths. A narrower transition width generally indicates a sharper cut-on edge, which can be important in applications requiring precise wavelength separation.
Passband Transmission:
Describes how much of the light in the passband (wavelengths longer than the cutoff) is transmitted. High-quality filters strive for high transmission in this region.
Blocking Range Transmission:
Specifies how well the filter blocks light in the range below the cutoff wavelength. Ideally, this should be minimal to prevent contamination from unwanted shorter wavelengths.
Applications of Longpass Filters:
Longpass filters are widely used in various industries and scientific disciplines due to their ability to exclude shorter wavelengths effectively:
Imaging and Photography:
They can be used to block UV or blue light, enhancing contrast and reducing noise in images, particularly in infrared photography or when dealing with fluorescence.
Spectroscopy:
By eliminating shorter wavelengths, they facilitate the analysis of longer wavelength emissions or absorptions, which are characteristic of certain materials or processes.
Medical and Biomedical Applications:
In applications like near-infrared (NIR) spectroscopy or imaging, they help isolate the NIR region for tissue analysis or oximetry, where blood oxygenation levels are measured.
Machine Vision and Industrial Inspection:
They enhance visibility of specific features by removing unwanted light, improving the performance of automated inspection systems.
Optical Communications:
In fiber optics, they can be employed to separate different communication channels by filtering out unwanted signals.
Types of Longpass Filters:
Interference Longpass Filters:
These rely on constructive and destructive interference of light waves between multiple thin-film layers to create a sharp cutoff at the desired wavelength.
Absorptive Longpass Filters:
Made using materials that absorb wavelengths below the cutoff point, these filters gradually transition from blocking to passing wavelengths, making them suitable for applications not requiring a sharp cutoff edge.
Each type has its advantages, with interference filters offering higher transmission and steeper edges but potentially being angle-sensitive, while absorptive filters may provide more robust performance under varying angles of incidence but with potentially lower transmission and a softer cutoff.
General application
Model | Application | CWL | Blocking wavelength | OD | Transmittance |
GA-LP-420 | Fluorescence detection | 420nm | >20nm | OD3-OD4 | 430-1100nm@T>94% |
GA-LP-430 | Optical beauty instrument | 430nm | >20nm | OD3-OD4 | 440-1100nm@T>94% |
GA-LP-480 | Optical beauty instrument | 480nm | >20nm | OD3-OD4 | 490-1100nm@T>94% |
GA-LP-560 | Optical beauty instrument | 560nm | >20nm | OD3-OD4 | 570-1100nm@T>94% |
GA-LP-590 | Optical beauty instrument | 590nm | >20nm | OD3-OD4 | 600-1100nm@T>94% |
GA-LP-640 | Optical beauty instrument | 640nm | >20nm | OD3-OD4 | 650-1100nm@T>94% |
GA-LP-690 | Optical beauty instrument | 690nm | >20nm | OD3-OD4 | 700-1100nm@T>94% |
GA-LP-720 | Infrared imaging | 720nm | >20nm | OD3-OD4 | 730-1100nm@T>94% |
GA-LP-800 | Nightvision goggles | 800nm | >20nm | OD3-OD4 | 810-1100nm@T>94% |
GA-LP-830 | Nightvision goggles | 830nm | >20nm | OD3-OD4 | 840-1100nm@T>94% |
GA-LP-880 | Anti-red burst camera | 880nm | >20nm | OD3-OD4 | 890-1100nm@T>94% |
Product parameters
Longpass Filter | |
Coating | IAD multilayer dielectric coating |
Peak transmittance(Tp) | T>94% |
Optical density(OD) | OD2-0D4 |
Blocking wavelength | <20nm |
Working wavelength | 200-1100nm |
Material | B270,D263T,quartz glass,sapphire |
Round | Φ3mm ~ Φ110mm |
Square | 2*2mm~146*146mm |
Thickness | 0.3-5.0mm |
Clear aperture | >95% |
Surface quality | 40-20(S/D) |
Environmental testing | MIL-STD-810F |
Custom Longpass Filter Specification Sheet
Customer Information
- Customer Name: ___________________________
- Contact Person: __________________________
- Email Address: ___________________________
- Phone Number: ____________________________
Filter Design Parameters
- Type: __Longpass Filter__
- Cut-On Wavelength (λc): __________________ nm
(The wavelength below which the filter starts to transmit significantly.)
Transmittance and Blocking Specifications
- Minimum Transmittance Above λc: _________ %
- Maximum Transmittance Below λc: _________ % (Typically <0.1% for good blocking.)
- Blocking Range (If different from λc): From ______ nm to ______ nm
Spectral Performance
- Tolerance on Cut-On Wavelength: ± ______ nm
- Slope of Transition Zone: ______ nm/nm (Describes how quickly the transmittance increases above cut-on.)
Physical Characteristics
- Diameter/Size: __________________________ mm (or specify shape and dimensions)
- Thickness: ______________________________ mm (If not standard)
- Substrate Material: ________________________ (E.g., BK7, fused silica, etc.)
- Coating Type: ____________________________ (E.g., Multi-layer dielectric, metal, etc.)
- Surface Quality: __________________________ (E.g., Scratch-Dig per MIL-PRF-13830B)
- Parallelism: ______________________________ (° or fringes, if applicable)
- Edge Treatment: __________________________ (E.g., Beveled, chamfered)
Environmental Requirements
- Operating Temperature Range: From ______ °C to ______ °C
- Storage Temperature Range: From ______ °C to ______ °C
- Humidity Resistance: _______________________% RH
Additional Comments or Special Requirements
- __________________________________________________________
- __________________________________________________________
Please note that filling out this table comprehensively and accurately is crucial for us to manufacture a longpass filter that precisely fits the intended application. Once we receive this completed specification sheet, we can proceed with the design, production, and subsequent delivery of the custom longpass filter.