Hamamatsu, S5973 IR + Visible Light Si PIN Photodiode, Through Hole TO-18
- RS Stock No.:
- 1247160
- Mfr. Prt No.:
- S5973
- Brand:
- Hamamatsu Photonics
Legislation and Compliance
RoHS Status: Not Applicable
Statement of Conformity
This statement confirms that the product detailed below complies with the specifications currently published in the RS media and has been subject to the strict quality conditions imposed by RS Components’ internal management systems. Furthermore and where applicable, it confirms that all relevant semiconductor devices have been handled and packed under conditions that meet the administrative and technical requirements of ANSI/ESD S20.20 and EN61340-5-1 electrostatics control standards.
RS stock number | 1247160 |
Product description | Hamamatsu, S5973 IR + Visible Light Si PIN Photodiode, Through Hole TO-18 |
Manufacturer / Brand | Hamamatsu Photonics |
Manufacturer part number | S5973 |
The foregoing information relates to product sold on, or after, the date shown below.
RS COMPONENTS
Date | Nov 8, 2024 |
RS Components Pte Ltd Robinson Road, P.O. Box 1582, Singapore 903132
Country of Origin: JP
Product Details
S5971, S5972 and S5973 Series Si PIN Photodiodes
The S5971, S5972 and S5973 series or Si PIN photodiodes from Hamamatsu are for applications such as optical fibre communication and high speed photometry.
These photodiodes are designed to detect visible to near IR (infrared) light, providing wideband detection properties.
Photodiodes, Hamamatsu Photonics
Features and Benefits
Visible to near IR detection
High speed response
High reliability
TO-18 metal package
Specifications
Attribute | Value |
Brand | Hamamatsu Photonics |
Spectrums Detected | Infrared, Visible Light |
Wavelength of Peak Sensitivity | 760 nm |
Package Type | TO-18 |
Mounting Type | Through Hole |
Number of Pins | 3 |
Diode Material | Si |
Minimum Wavelength Detected | 320 nm |
Maximum Wavelength Detected | 1000 nm |
Height | 3.6 mm |
Series | S5973 |
Diameter | 5.4 mm |
Short Circuit Current | 0.09 μA |
Polarity | Positive |
Peak Photo Sensitivity | 0.52 A/W |