TIN Photodiodes 8

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Part RoHS Manufacturer Optoelectronic Type Mounting Feature Terminal Finish Configuration Size Maximum Dark Current Maximum Supply Voltage No. of Functions Infrared (IR) Range Peak Wavelength (nm) Packing Method Maximum Response Time Sub-Category Maximum Reverse Voltage Semiconductor Material Maximum Operating Temperature Minimum Reverse Breakdown Voltage Shape Minimum Operating Temperature Additional Features Nominal Light Current JESD-609 Code

QSB34GR

Onsemi

PIN PHOTODIODE

SURFACE MOUNT

TIN

SINGLE

4.4 mm

30 nA

1

YES

940

Photo Diodes

32 V

Silicon

85 Cel

32 V

RECTANGULAR

-25 Cel

DAYLIGHT FILTER

.037 mA

e3

QSB34CGR

Onsemi

PIN PHOTODIODE

SURFACE MOUNT

TIN

SINGLE

4.4 mm

30 nA

1

YES

940

Photo Diodes

32 V

Silicon

85 Cel

32 V

RECTANGULAR

-25 Cel

DAYLIGHT FILTER

.037 mA

e3

SFH2430-Z

Osram Opto Semiconductors

AVALANCHE PHOTODIODE

TIN

e3

QSB34CZR

Onsemi

PIN PHOTODIODE

SURFACE MOUNT

TIN

SINGLE

4.4 mm

30 nA

1

YES

940

Photo Diodes

32 V

Silicon

85 Cel

32 V

RECTANGULAR

-25 Cel

DAYLIGHT FILTER

.037 mA

e3

TEFD4300

Vishay Intertechnology

PIN PHOTODIODE

THROUGH HOLE MOUNT

TIN

SINGLE

3 mm

3 nA

1

YES

950

Photo Diodes

60 V

Silicon

100 Cel

60 V

ROUND

-40 Cel

HIGH SENSITIVITY

.027 mA

e3

QSE773E3R0

Onsemi

PIN PHOTODIODE

THROUGH HOLE MOUNT

TIN

SINGLE

5.26 mm

30 nA

1

YES

920

.00000005 s

Photo Diodes

32 V

85 Cel

32 V

RECTANGULAR

-40 Cel

DAYLIGHT FILTER

.03 mA

e3

QSB34ZR

Onsemi

PIN PHOTODIODE

SURFACE MOUNT

TIN

SINGLE

4.4 mm

30 nA

1

YES

940

Photo Diodes

32 V

Silicon

85 Cel

32 V

RECTANGULAR

-25 Cel

DAYLIGHT FILTER

.037 mA

e3

QSE773

Onsemi

PIN PHOTODIODE

THROUGH HOLE MOUNT

TIN

SINGLE

7.6 mm

30 nA

1

YES

940

.00000005 s

Photo Diodes

32 V

85 Cel

32 V

RECTANGULAR

-40 Cel

DAYLIGHT FILTER

.03 mA

e3

Photodiodes

A photodiode is a type of electronic component that uses light to generate an electric current. It is a semiconductor device that is designed to respond to the presence of light by producing a flow of electrons. Photodiodes are widely used in a variety of applications, including in cameras, optical communication systems, and medical equipment.

Photodiodes work by converting light energy into electrical energy. When light hits the photodiode, it creates an electric current that is proportional to the intensity of the light. This current can be measured and used to determine the presence, intensity, and wavelength of the light.

Photodiodes are available in different types, each with their own characteristics and applications. The most common types of photodiodes are PIN photodiodes, avalanche photodiodes, and Schottky photodiodes.

PIN photodiodes are widely used in optical communication systems and are designed for high-speed and low-noise applications. They have a wide spectral response range and are able to detect both visible and infrared light.

Avalanche photodiodes are used in applications that require high sensitivity and low noise, such as in low-light-level imaging and spectroscopy. They are able to generate high gain and high-speed signals, making them ideal for use in low-light-level applications.

Schottky photodiodes are used in applications that require high-speed and high-frequency response, such as in microwave and millimeter-wave detection. They have a low junction capacitance and are able to detect fast-changing signals.