Optical Sensors - Ambient Light, IR, UV Sensors

Image	Part Number	Description / PDF	Quantity	Rfq
	APDS-9009 Broadcom	SENSOR OPT 500NM AMBIENT 8ODFN	0
	APDS-9003-020 Broadcom	SENSOR OPT 620NM AMB 6CHIPLED	0
	APDS-9004-020 Broadcom	SENSOR OPT 620NM AMB 4CHIPLED	0
	ADNS-3050 Broadcom	SENSOR OPT GAMING IC 8DIP	0
	ADNS-3080 Broadcom	SENSOR OPT MOUSE 8DIP	0
	ADNS-3550 Broadcom	SLIM MOUSE SENSOR LED LP 16-SMD	0
	ADNS-5700-H4NB Broadcom	IC USB OPT MOUSE SENSOR 18-DIP	0
	APDS-9200 Broadcom	SENSOR OPT 290NM-320NM AMB 6SMD	0
	APDS-9003-022 Broadcom	SENSOR OPT 620NM AMB 6CHIPLED	0
	ADNS-5700-H3NB Broadcom	IC USB OPT MOUSE SENSOR 18-DIP	0
	ADNS-5000 Broadcom	IC USB OPT MOUSE SENSOR 18-DIP	0
	ADNS-5700-H4PB Broadcom	IC USB OPT MOUSE SENSOR 18-DIP	0
	ADNS-7530 Broadcom	IC SENSOR MOLDED LEAD 3V 16DIP	0
	ADNS-2120-001 Broadcom	SOLID STATE OPTICAL MOUSE SENSOR	0
	ADNS-5060 Broadcom	IC USB OPT MOUSE SENSOR HS 8-DIP	0
	ADNS-2030 Broadcom	SENSOR OPTICAL MOUSE LP 16-DIP	0
	ADNS-3530 Broadcom	SLIM MOUSE SENSOR LED LP 16-SMD	0
	ADNS-5090 Broadcom	IC USB OPT MOUSE SENSOR LP 8-DIP	0
	ADNS-5700-H5ND Broadcom	IC USB OPT MOUSE SENSOR 18-DIP	0
	APDS-9930-130 Broadcom	MODULE AMBIENT SENSOR OPT 625NM	0

Optical Sensors - Ambient Light, IR, UV Sensors

1. Overview

Optical sensors are devices that detect and measure light intensity, wavelength, or presence. Ambient light sensors (ALS), infrared (IR) sensors, and ultraviolet (UV) sensors are critical subcategories that enable machines to perceive and respond to optical environmental changes. These sensors play vital roles in consumer electronics, industrial automation, automotive systems, and environmental monitoring by enabling adaptive control, safety features, and data acquisition.

2. Main Types and Functional Classification

Type	Functional Features	Application Examples
Ambient Light Sensor (ALS)	Measures visible light intensity, automatic brightness adjustment	Smartphone displays, smart lighting systems
Infrared Sensor (IR)	Passive/active detection of IR radiation, proximity sensing	Remote controls, occupancy detection systems
UV Sensor	Measures UV-A/UV-B/UV-C radiation intensity	Sunlight exposure monitors, sterilization equipment

3. Structure and Components

Typical optical sensors consist of:

Photosensitive element (photodiode, phototransistor, or CMOS sensor)
Optical filter (to isolate specific wavelength ranges)
Signal conditioning circuitry (amplifiers, ADCs)
Protective packaging (glass or polymer encapsulation)

Advanced devices integrate microcontrollers for onboard signal processing.

4. Key Technical Specifications

Parameter	Description	Importance
Spectral Response Range	Detected wavelength range (e.g., 300-1100nm for ALS)	Determines application compatibility
Sensitivity	Current/voltage output per unit irradiance (nA/W or V/W)	Affects measurement accuracy
Dark Current	Residual current without illumination	Impacts low-light performance
Field of View (FOV)	Angular detection range (e.g., 60 for IR sensors)	Defines spatial detection capability
Power Consumption	Operating current/voltage requirements	Critical for battery-powered devices

5. Application Fields

Major application areas include:

Consumer Electronics: Display backlight control, gesture recognition
Industrial: Non-contact temperature measurement, process automation
Medical: Pulse oximetry, UV disinfection monitoring
Automotive: Rainlight detection, driver monitoring systems
Environmental: UV index monitoring, smart agriculture

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
ams OSRAM	AS7618	Integrated ALS, RGB, and IR sensor
Vishay Semiconductor	VCNL4040	Proximity + IR sensor with I2C interface
TAOS (Texas Instruments)	BH1750	Digital ambient light sensor
ROHM Semiconductor	RPR-0521RS	ALS + proximity sensor for mobile devices

7. Selection Recommendations

Key selection factors:

Spectral matching to target light source
Required detection distance and angular coverage
Operating environment (temperature, humidity, EMI)
Interface requirements (analog/digital, I2C/SPI)
Power budget and packaging constraints

Case Study: Smartphone display optimization requires ALS with human eye response curve matching (18-22 lux accuracy) and compact 2x2mm LGA packaging.

Industry Trends

Emerging trends include:

Miniaturization (chip-scale packaging for wearables)
Multi-sensor integration (e.g., ALS + proximity + color in single package)
AI-enhanced signal processing for ambient light compensation
Increased UV-C sensitivity for germicidal applications
Energy harvesting capabilities for IoT deployments

The global optical sensor market is projected to reach $32.7B by 2027, driven by automotive LiDAR and smart building automation demands.