Product details

Rating Catalog Operating temperature range (°C) -40 to 85 Applications Enterprise
Rating Catalog Operating temperature range (°C) -40 to 85 Applications Enterprise
PICOSTAR (YMN) 4 0.9592 mm² 1.09 x 0.88 SOT-5X3 (DTS) 8 2.52 mm² 2.1 x 1.2
  • High precision, high speed light-to-digital conversion over high speed I2C interface in two package variants
  • Precision optical filtering to closely match human eye with excellent near infrared (IR) rejection
  • Semi-logarithmic output with 9 binary logarithmic full-scale light range and highly linear response within each range
  • Built-in automatic full-scale light range selection logic, which switches measurement range based on input light condition with excellent gain matching between ranges
  • 28 bits of effective dynamic range from
    • 312.5 µlux to 83 klux for PicoStar™ package variant
    • 437.5 µlux to 117 klux for SOT-5x3 package variant
  • 12 configurable conversion times from 600 µs to 800 ms is an excellent choice for a wide variety of high speed and high precision applications
  • External pin interrupt for hardware synchronized trigger and interrupts (only on SOT-5X3 package variant)
  • Internal FIFO for output registers with I2C burst readout
  • Low operating current: 30 µAwith ultra-low power standby: 2 µA
  • Operating temperature range: –40°C to +85°C
  • Wide power-supply range: 1.6 V to 3.6 V
  • 5.5 V Tolerant I/O pins
  • Selectable I2C address
  • Small-form factor
    • PicoStar™ package: 0.84 mm x 1.05 mm x 0.226 mm
    • SOT-5X3: 2.1mm x 1.9mm x 0.6mm
  • High precision, high speed light-to-digital conversion over high speed I2C interface in two package variants
  • Precision optical filtering to closely match human eye with excellent near infrared (IR) rejection
  • Semi-logarithmic output with 9 binary logarithmic full-scale light range and highly linear response within each range
  • Built-in automatic full-scale light range selection logic, which switches measurement range based on input light condition with excellent gain matching between ranges
  • 28 bits of effective dynamic range from
    • 312.5 µlux to 83 klux for PicoStar™ package variant
    • 437.5 µlux to 117 klux for SOT-5x3 package variant
  • 12 configurable conversion times from 600 µs to 800 ms is an excellent choice for a wide variety of high speed and high precision applications
  • External pin interrupt for hardware synchronized trigger and interrupts (only on SOT-5X3 package variant)
  • Internal FIFO for output registers with I2C burst readout
  • Low operating current: 30 µAwith ultra-low power standby: 2 µA
  • Operating temperature range: –40°C to +85°C
  • Wide power-supply range: 1.6 V to 3.6 V
  • 5.5 V Tolerant I/O pins
  • Selectable I2C address
  • Small-form factor
    • PicoStar™ package: 0.84 mm x 1.05 mm x 0.226 mm
    • SOT-5X3: 2.1mm x 1.9mm x 0.6mm

The OPT4001 is a light-to-digital sensor (single chip lux meter) that measures the intensity of visible light. The spectral response of the sensor tightly matches the photopic response of the human eye. A specially engineered filter on the device rejects near-infrared component from the common light sources to measure accurate light intensity. Output of OPT4001 is semi-logarithmic with 9 binary logarithmic full-scale light ranges along with highly linear response within each range, bringing capability to measure from 312.5 µlux to 83 klux for PicoStar™ variant and 437.5 µlux to 117 klux for the SOT-5X3 variant. This capability allows light sensor to have 28-bit effective dynamic range. With built-in automatic full-scale range selection, logic users do not have to select appropriate gain settings based on light levels.

The engineered optical filter on OPT4001 provides strong infrared rejection, which aids in maintaining high accuracy, despite placing the sensor under dark glass, which is common requirement from industrial design of end products due to aesthetics.

The OPT4001 is designed for systems that require light level detection to enhance user experience and typically replaces low accuracy photo diodes, photo-resistors and other ambient light sensors with underwhelming human eye matching and near infra-red rejection.

The OPT4001 device can be configured to operate with light conversion times all the way from 600 µs to 800 ms in 12 steps, providing system flexibility based on application need. Conversion time includes the light integration time and ADC conversion time. Resolution of the measurement is determined by a combination of light intensity and the integration time, effectively bringing in capability to measure down to 312.5 µlux of light intensity changes for the PicoStar™ variant and 437.5 µlux for the SOT-5X3 variant.

The digital operation is flexible for system integration. Measurements can be either continuous or triggered in one shots with register writes or hardware pin (only on SOT-5X3 variant). The device features a threshold detection logic, which allows the processor to sleep while the sensor watches for appropriate wake-up event to report via the interrupt pin (only on SOT-5X3 variant).

Digital output, representing the light level is reported over an I2C and SMBus compatible, two-wire serial interface. An internal FIFO on output registers is available to read out the measurements from the sensor at a slower pace while still preserving all the data captured by the device. OPT4001 also supports I2C burst mode helping host read data from FIFO with minimal I2C overhead.

The low power consumption and low power-supply voltage capability of the OPT4001 helps enhance the battery life of battery-powered systems.

The OPT4001 is a light-to-digital sensor (single chip lux meter) that measures the intensity of visible light. The spectral response of the sensor tightly matches the photopic response of the human eye. A specially engineered filter on the device rejects near-infrared component from the common light sources to measure accurate light intensity. Output of OPT4001 is semi-logarithmic with 9 binary logarithmic full-scale light ranges along with highly linear response within each range, bringing capability to measure from 312.5 µlux to 83 klux for PicoStar™ variant and 437.5 µlux to 117 klux for the SOT-5X3 variant. This capability allows light sensor to have 28-bit effective dynamic range. With built-in automatic full-scale range selection, logic users do not have to select appropriate gain settings based on light levels.

The engineered optical filter on OPT4001 provides strong infrared rejection, which aids in maintaining high accuracy, despite placing the sensor under dark glass, which is common requirement from industrial design of end products due to aesthetics.

The OPT4001 is designed for systems that require light level detection to enhance user experience and typically replaces low accuracy photo diodes, photo-resistors and other ambient light sensors with underwhelming human eye matching and near infra-red rejection.

The OPT4001 device can be configured to operate with light conversion times all the way from 600 µs to 800 ms in 12 steps, providing system flexibility based on application need. Conversion time includes the light integration time and ADC conversion time. Resolution of the measurement is determined by a combination of light intensity and the integration time, effectively bringing in capability to measure down to 312.5 µlux of light intensity changes for the PicoStar™ variant and 437.5 µlux for the SOT-5X3 variant.

The digital operation is flexible for system integration. Measurements can be either continuous or triggered in one shots with register writes or hardware pin (only on SOT-5X3 variant). The device features a threshold detection logic, which allows the processor to sleep while the sensor watches for appropriate wake-up event to report via the interrupt pin (only on SOT-5X3 variant).

Digital output, representing the light level is reported over an I2C and SMBus compatible, two-wire serial interface. An internal FIFO on output registers is available to read out the measurements from the sensor at a slower pace while still preserving all the data captured by the device. OPT4001 also supports I2C burst mode helping host read data from FIFO with minimal I2C overhead.

The low power consumption and low power-supply voltage capability of the OPT4001 helps enhance the battery life of battery-powered systems.

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Technical documentation

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Type Title Date
* Data sheet OPT4001 High Speed, High Precision, Digital Ambient Light Sensor datasheet (Rev. A) PDF | HTML 01 Dec 2022
EVM User's guide LIGHTSOURCE01EVM Light Source EVM User's Guide PDF | HTML 11 Sep 2024
Application brief Advantages of Implementing a Light Sensor in TI's Ultra Thin PicoStar Package PDF | HTML 27 Jun 2024
Application brief How to Select a Light Sensor for Your Application (Rev. C) PDF | HTML 19 Jan 2024
Certificate OPT4001DNPQ1EVM EU RoHS Declaration of Conformity (DoC) 18 Apr 2023
Application brief The Value of a High-Speed, High-Resolution Light Sensor PDF | HTML 06 Feb 2023

Design & development

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Evaluation board

OPT4001DTSEVM — OPT4001 evaluation module for high-speed high-precision digital ambient light sensor in DTS package

The OPT4001DTS evaluation module (EVM) is a platform for evaluating the performance of the OPT4001 in the DTS package. OPT4001 is a high-speed, high-precision digital ambient light sensor, and can be used in various lighting conditions as well as behind various cover materials.

OPT4001DTSEVM (...)

User guide: PDF | HTML
Not available on TI.com
Evaluation board

OPT4001EVM — OPT4001 evaluation module for high-speed high-precision digital ambient light sensor (A

The OPT4001 evaluation module (EVM) is a platform for evaluating the OPT4001 under various conditions. OPT4001 is a light-to-digital sensor that measures the intensity of visible light. The spectral response of the sensor tightly matches the photopic response of the human eye.

OPT4001EVM consists (...)

User guide: PDF | HTML
Not available on TI.com
Development kit

LIGHTSOURCE01EVM — Stable light source for calibration of TI ambient light sensors evaluation module

The LIGHTSOURCE01EVM is a stable uniform light source used for the calibration of ambient light sensors (ALS) and color sensors. This light source is designed to be used in production environments to calibrate and test final products containing TI light sensors. This stabilized light source can be (...)

User guide: PDF | HTML
Package Pins CAD symbols, footprints & 3D models
PICOSTAR (YMN) 4 Ultra Librarian
SOT-5X3 (DTS) 8 Ultra Librarian

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