ams OSRAM Ambient Light Sensor 850 nm ODFN 6
- RS Stock No.:
- 232-9762
- Mfr. Part No.:
- TSL25911FN
- Brand:
- ams OSRAM
Currently unavailable
We don't know if this item will be back in stock, RS intend to remove it from our range soon.
- RS Stock No.:
- 232-9762
- Mfr. Part No.:
- TSL25911FN
- Brand:
- ams OSRAM
Specifications
Technical Reference
Legislation and Compliance
Product Details
Find similar products by selecting one or more attributes.
Select all | Attribute | Value |
|---|---|---|
| Brand | ams OSRAM | |
| Product Type | Ambient Light Sensor | |
| Typical Rise Time | 300ns | |
| Typical Fall Time | 300ns | |
| Mount Type | Surface | |
| Package Type | ODFN | |
| Maximum Wavelength Detected | 850nm | |
| Minimum Supply Voltage | 2.7V | |
| Application | Commercial | |
| Maximum Supply Voltage | 3.6V | |
| Number of Pins | 6 | |
| Minimum Operating Temperature | -40°C | |
| Output Signal Type | I2C | |
| Series | TSL | |
| Width | 2.4mm | |
| Standards/Approvals | No | |
| Height | 650μm | |
| Length | 2mm | |
| Maximum Operating Temperature | 85°C | |
| Automotive Standard | No | |
| Select all | ||
|---|---|---|
Brand ams OSRAM | ||
Product Type Ambient Light Sensor | ||
Typical Rise Time 300ns | ||
Typical Fall Time 300ns | ||
Mount Type Surface | ||
Package Type ODFN | ||
Maximum Wavelength Detected 850nm | ||
Minimum Supply Voltage 2.7V | ||
Application Commercial | ||
Maximum Supply Voltage 3.6V | ||
Number of Pins 6 | ||
Minimum Operating Temperature -40°C | ||
Output Signal Type I2C | ||
Series TSL | ||
Width 2.4mm | ||
Standards/Approvals No | ||
Height 650μm | ||
Length 2mm | ||
Maximum Operating Temperature 85°C | ||
Automotive Standard No | ||
- COO (Country of Origin):
- TH
The ams TSL2591 series is a very high sensitivity light-to-digital converter that transforms light intensity into a digital signal output capable of direct I2C interface. The device combines one broadband photodiode and one infrared-responding photodiode on a single CMOS integrated circuit. Two integrating ADCs convert the photodiode currents into a digital output that represents the irradiance measured on each channel. This digital output can be input to a microprocessor where illuminance in lux is derived using an empirical formula to approximate the human eye response. It supports a traditional level style interrupt that remains asserted until the firmware clears it.
Design flexibility for dark glass and placement
Enables operation in IR light environments
Enables dark room to sunlight operation
Reduces microprocessor interrupt overhead
Improves lux accuracy across various light sources
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