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Tipps & Downloads / Anwendungshinweise / Optik / Custom Bandpass Filter using Shortpass and Longpass Filters
Custom Bandpass Filter using Shortpass and Longpass Filters
Edmund Optics Inc.

Custom Bandpass Filter using Shortpass and Longpass Filters

Bandpass filters are optical filters that allow transmission of a specific range of wavelengths, or band, while blocking other wavelengths. Many off-the-shelf bandpass filter options are available, but when an application has specific requirements for bandwidth or center wavelength not readily available, Longpass and Shortpass filters can be stacked creating a customized bandpass filter. Longpass filters are optical filters that reflect short wavelengths while transmitting, or passing, long wavelengths. Conversely, Shortpass filters transmit short wavelengths but reflect long ones. Examples of both are represented in Figure 1.

500nm Shortpass Filter Transmission
450 Longpass Filter Transmission
Figure 1: Transmission Comparison of Shortpass and Longpass Filters

The transmission graphs are very similar to Heaviside functions (denoted as H(λ)) in mathematics. As shown in Equation 1, Heaviside functions are specialized piecewise functions that have a value of one for a certain domain and zero for the rest. The domain is determined by the constant x.

(1)$$ H \! \left( \lambda - x \right) = \begin{cases} 0, & \lambda < x \\ 1, & \lambda \geq x \end{cases} $$

H(λ) can be denoted as the transmission of a filter and λ as the wavelength. Figure 2 shows a Heaviside model of the LWP graph from Figure 1.

Heaviside model of the Longpass curve from Figure 1
Figure 2: Heaviside model of the Longpass curve from Figure 1

A custom optical bandpass filter can be made by using at least two filters. This is conceptually very similar to multiplying Heaviside functions in mathematics. In order to obtain a rectangular function from 540 to 545, the two Heaviside functions must be multiplied together as shown in Equation 2 and Figure 3.

(2) $$\text{Let:} \, H_1 = H \! \left( \lambda - 450 \right) = \begin{cases} 0, & \lambda < 450 \\ 1, & \lambda \geq 450 \end{cases} $$
$$ H_2 = H \! \left( -\lambda + 500 \right) = \begin{cases} 0, & \lambda > 500 \\ 1, & \lambda \leq 500 \end{cases} $$
$$ H_1 \times H_2 = \text{BP}_{1, 2} \! \left( \lambda \right) = \begin{cases} 0, && \lambda < 450 \\ 1, & 450 \leq \! & \lambda \geq 500 \\ 0, && \lambda > 500 \end{cases} $$
Rectangular Function of BP1,2
Figure 3: This graph is of the rectangular function of BP1,2

What is achieved through multiplication in mathematics is achieved physically by layering two or more optical filters. When layering multiple optical filters, light propagates through one filter and into the next. Because each filter transmits certain wavelengths, layering allows for the transmission of a customized band of wavelengths.

A custom bandpass filter where F1 and F2 represent Longpass and Shortpass filters

Figure 4: A custom bandpass filter where f1 and f2 represent Longpass and Shortpass filters

This results in a transmission curve represented in Figure 5.

Transmission Curves of a Custom Bandpass Filter
Figure 5: The transmission curves of a custom bandpass filter produced by stacking a 450nm Longpass and 500nm Shortpass Filter

Stacking Longpass and Shortpass filters can quickly create a custom solution for selecting a specific bandpass and is an ideal alternative in scenarios where an off-the-shelf bandpass filter doesn't meet the application's requirements or a customer filter design is too expensive or has too long of a lead time.

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Need bandpass interference, notch, edge, dichroic, color substrate, or ND filters? We cover the spectrum from UV, visible, and NIR to mid- and long-wave IR wavelengths.

Confused about which filters to use for your application? Let EO make it easy with this simple-to-follow application note and its own filter selection guide.

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