Optical Sensors - Photo Detectors

Optical Sensors - Photo Detectors - Remote Receiver

Part Number	Description / PDF	Quantity
TSOP59556TR1 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 56.0KHZ 40M	0
TSOP32530 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 30.0KHZ 45M	0
TSOP75530WTR Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 30.0KHZ 30M	0
TSOP38338 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 38.0KHZ 45M	2221
TSOP59256TR Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 56.0KHZ 40M	0
TSOP31130 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 30.0KHZ 45M	2092
TSOP57438TT1 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 38.0KHZ 40M	4252
TSOP33538 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 38.0KHZ 45M	307
TSOP32340 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 40.0KHZ 45M	0
TSOP34533 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 33.0KHZ 45M	0
TSOP59236TR Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 36.0KHZ 40M	0
TSOP75540WTT Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 40.0KHZ 30M	0
TSOP38230 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 30.0KHZ 45M	0
TSOP6138TT Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 38.0KHZ 40M	2120
TSOP98638 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 38.0KHZ 24M	2528
TSOP94636 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 36.0KHZ 35M	45
TSOP38336 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 36.0KHZ 45M	893
TSMP58138 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 38.0KHZ 20M	26948
TSOP18256 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 56.0KHZ 24M	1487
TSOP39536TR1 Vishay / Semiconductor - Opto Division	SENSOR REMOTE REC 36.0KHZ 45M	0

Optical Sensors - Photo Detectors - Remote Receiver

1. Overview

Optical sensors are devices that convert light signals into electrical signals through photoelectric conversion. Photo detectors, a critical category of optical sensors, specifically refer to semiconductor devices that detect light intensity, wavelength, or presence. Remote receivers are specialized photo detectors designed to capture modulated light signals (typically infrared or visible spectrum) for wireless communication or control applications. These components form the foundation of modern optoelectronic systems, enabling contactless sensing, data transmission, and automation across diverse industries.

2. Major Types and Functional Classification

Type	Functional Characteristics	Application Examples
Photodiodes	High-speed response, linear output, low capacitance	Infrared remote control receivers, optical communication
Phototransistors	High sensitivity, integrated amplification	Light barriers, proximity sensors
Photovoltaic Cells	Self-powered operation, energy harvesting	Solar-powered remote sensors, light intensity meters
CMOS Image Sensors	2D array detection, digital output	Smartphone camera receivers, industrial vision systems
Avalanche Photodiodes	Single-photon detection capability	LIDAR systems, quantum communication

3. Structure and Components

Typical remote receiver architecture includes:

Optical Window: Anti-reflective coated glass/plastic filter for wavelength selectivity
Photo-sensitive Element: Silicon/InGaAs PIN diode or phototransistor with active area (1-100 mm )
Signal Conditioning Circuitry: Integrated transimpedance amplifier and bandpass filter
Modulation Decoder: IR carrier frequency demodulation (30-60 kHz typical)
Package: TO-5/TO-18 metal can, surface-mount (SMD), or lens-integrated housing

4. Key Technical Specifications

Parameter	Description	Importance
Responsivity (A/W)	Current output per watt of incident light	Defines detection sensitivity
Response Time (ns)	Rise/fall time for signal transition	Determines maximum data rate
Spectral Range (nm)	Operating wavelength detection window	Matches light source characteristics
Dark Current (nA)	Leakage current without illumination	Impacts signal-to-noise ratio
Field of View ( )	Acceptance angle for incident light	Defines spatial detection coverage
Modulation Depth	Signal amplitude variation capability	Enables noise-resistant communication

5. Application Fields

Major industry sectors include:

Consumer Electronics: TV remote receivers (VS1838B), smart home sensors
Industrial Automation: Non-contact position detection in conveyor systems
Medical Devices: Pulse oximetry sensors, blood analyzers
Telecommunications: Fiber optic network transceivers (PIN-FET modules)
Automotive: Driver monitoring systems, LiDAR for autonomous vehicles

Case Study: Automotive keyless entry systems use IR receivers with 940nm spectral sensitivity to decode 38kHz modulated signals with 10m transmission range.

6. Leading Manufacturers and Products

Manufacturer	Key Products	Technical Highlights
Vishay Semiconductor	VEMD8081	Ultra-thin IR sensor with 0.1-100 klux detection range
Everlight Electronics	IRM-2638	Integrated IR receiver with built-in demodulator
OSRAM Opto	BPS1.3	High-speed PIN diode for data rates up to 200Mbps
Hamamatsu Photonics	G12118	Linear image sensor for spectrometry applications
STMicroelectronics	VL53L3CX	Time-of-Flight sensor with integrated VCSEL

7. Selection Guidelines

Key consideration factors:

Spectral Matching: Choose detector with peak sensitivity matching light source wavelength
Speed Requirements: Response time must exceed system bandwidth needs
Environmental Factors: Consider temperature range (-40 C to 85 C standard) and ambient light interference
Package Constraints: Through-hole vs surface-mount based on PCB design
Cost vs Performance: Balance sensitivity requirements with budget limitations

Recommended testing protocol: Verify performance under actual operating conditions with calibrated light sources.

8. Industry Trends

Emerging development directions:

Miniaturization: Wafer-level packaging enabling 0.5mm form factors
Smart Integration: Embedded signal processing (AI-based ambient light compensation)
Multi-spectral Detection: Broadband sensors covering UV to near-IR (200-1100nm)
Quantum Efficiency: New materials (perovskite, graphene) pushing responsivity beyond 1.5A/W
Standardization: Adoption of IEC 61853-1 for medical photodetector testing

Market forecasts indicate 12% CAGR for remote photodetectors driven by IoT and autonomous systems adoption.