OSI Optoelectronics D Series, Metal Package PIN-3CD

Description
The Photoconductive Detector Series are suitable for high speed and high sensitivity applications. The spectral range extends from 350 to 1100 nm, making these photodiodes ideal for visible and near IR applications, including such AC applications as detection of pulsed LASER sources, LEDs, or chopped light. To achieve high speeds, these detectors should be reverse biased. Typical response times from 10 ns can be achieved with a 10V reverse bias, for example. When a reverse bias is applied, capacitance decreases ( as seen in the figure below) corresponding directly to an increase in speed. As indicated in the specification table, the reverse bias should not exceed 30 volts. Higher bias voltages will result in permanent damage to the detector. Since a reverse bias generates additional dark current, the noise in the device will also increase with applied bias. For lower noise detectors, the Photovoltaic Series should be considered. Refer to the Photoconductive Mode (PC) paragraph in the "Photodiode Characteristics" section of this catalog for detailed information on electronics set up.
Datasheet
Description
The Photoconductive Detector Series are suitable for high speed and high sensitivity applications. The spectral range extends from 350 to 1100 nm, making these photodiodes ideal for visible and near IR applications, including such AC applications as detection of pulsed LASER sources, LEDs, or chopped light. To achieve high speeds, these detectors should be reverse biased. Typical response times from 10 ns can be achieved with a 10V reverse bias, for example. When a reverse bias is applied, capacitance decreases ( as seen in the figure below) corresponding directly to an increase in speed. As indicated in the specification table, the reverse bias should not exceed 30 volts. Higher bias voltages will result in permanent damage to the detector. Since a reverse bias generates additional dark current, the noise in the device will also increase with applied bias. For lower noise detectors, the Photovoltaic Series should be considered. Refer to the Photoconductive Mode (PC) paragraph in the "Photodiode Characteristics" section of this catalog for detailed information on electronics set up.
Datasheet

Suppliers

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Product
Description
Supplier Links
D Series, Metal Package - PIN-3CD - OSI Optoelectronics
Hawthorne, CA, United States
D Series, Metal Package
PIN-3CD
D Series, Metal Package PIN-3CD
The Photoconductive Detector Series are suitable for high speed and high sensitivity applications. The spectral range extends from 350 to 1100 nm, making these photodiodes ideal for visible and near IR applications, including such AC applications as detection of pulsed LASER sources, LEDs, or chopped light. To achieve high speeds, these detectors should be reverse biased. Typical response times from 10 ns can be achieved with a 10V reverse bias, for example. When a reverse bias is applied, capacitance decreases ( as seen in the figure below) corresponding directly to an increase in speed. As indicated in the specification table, the reverse bias should not exceed 30 volts. Higher bias voltages will result in permanent damage to the detector. Since a reverse bias generates additional dark current, the noise in the device will also increase with applied bias. For lower noise detectors, the Photovoltaic Series should be considered. Refer to the Photoconductive Mode (PC) paragraph in the "Photodiode Characteristics" section of this catalog for detailed information on electronics set up.

The Photoconductive Detector Series are suitable for high speed and high sensitivity applications. The spectral range extends from 350 to 1100 nm, making these photodiodes ideal for visible and near IR applications, including such AC applications as detection of pulsed LASER sources, LEDs, or chopped light. To achieve high speeds, these detectors should be reverse biased. Typical response times from 10 ns can be achieved with a 10V reverse bias, for example. When a reverse bias is applied, capacitance decreases ( as seen in the figure below) corresponding directly to an increase in speed. As indicated in the specification table, the reverse bias should not exceed 30 volts. Higher bias voltages will result in permanent damage to the detector. Since a reverse bias generates additional dark current, the noise in the device will also increase with applied bias. For lower noise detectors, the Photovoltaic Series should be considered. Refer to the Photoconductive Mode (PC) paragraph in the "Photodiode Characteristics" section of this catalog for detailed information on electronics set up.

Supplier's Site Datasheet

Technical Specifications

  OSI Optoelectronics
Product Category Photodiodes
Product Number PIN-3CD
Product Name D Series, Metal Package
Photodiode Type PIN Photodiode
Photodiode Spectral Response Visible; IR
Spectral Response Range 350 to 1100 nm (3500 to 11000 Å)
Peak Sensitivity Wavelength 970 nm (9700 Å)
Photodiode Material Silicon
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