Image Sensors, Camera

Image	Part Number	Description / PDF	Quantity	Rfq
	OV07690-EAAA-AA0A OmniVision Technologies	PROTOTYPING MODULE FOR VGA CSP S	0
	OV08865-G04A OmniVision Technologies	IC IMAGE SENSOR 8MP RW	0
	OV02770-EAAG-AA0A OmniVision Technologies	PROTOTYPING MODULE FOR 1080P 1/3	0
	OV07959-C48A OmniVision Technologies	IC IMAGE SENSOR NTSC/PAL 48-CLCC	0
	OV07960-E62N OmniVision Technologies	IC IMAGE SENSOR NTSC 62-CSP4	0
	OV13853-GA4A OmniVision Technologies	IC IMAGE SENSOR 13MP MOBILE RW	0
	OV10635-EAAE-AA02 OmniVision Technologies	PROTOTYPING MODULE WITH SUNEX DS	0
	OV02735-H66A-1B OmniVision Technologies	HD CAMERA CHIP SENSOR 66-CSP5	0
	OV02724-G04A OmniVision Technologies	IC IMAGE SENSOR 1080P RW	0
	OV07962-E62Y-PF OmniVision Technologies	IC IMAGE SENSOR VGA 62-ACSP	0
	OV06948-A04A-1C OmniVision Technologies	IC IMAGE SENSOR HALF VGA	0
	OV08835-MYSL-22-A00T OmniVision Technologies	8MP AUTO FOCUS RIGID MODULE, LAR	0
	OV10640-N79Y-PE-Z OmniVision Technologies	SENSOR IMAGE QVGA 78-ACSP	0
	OV06946-A04A OmniVision Technologies	SENSOR IMAGE CMOS 4-CSP3	0
	OV13870-EAAC-AA0A OmniVision Technologies	PROTOTYPING MODULE FOR 13MP CLGA	0
	OVP2200 + OVP0921-A44G OmniVision Technologies	DISPLAY LCOS 0.27" PANEL&DRIVER	0
	OV07690-A20A OmniVision Technologies	SENSOR IMAGE CMOS VGA 20-CSP3	0
	OV07692-A25A OmniVision Technologies	IC IMAGE SENSOR VGA 25-CSP3	0
	OV00491-B69G-1C OmniVision Technologies	HDR SENSOR 169 BGA	0
	OV07960-C48P OmniVision Technologies	IC IMAGE SENSOR PAL 48-CLCC	0

Image Sensors, Camera

1. Overview

Image sensors and cameras are optoelectronic devices that convert optical images into electrical signals. They form the core of modern imaging systems, enabling applications from consumer electronics to industrial automation. These sensors capture light intensity and wavelength information through semiconductor materials, primarily CMOS (Complementary Metal-Oxide-Semiconductor) or CCD (Charge-Coupled Device) technologies. Their importance spans machine vision, medical imaging, autonomous vehicles, and IoT devices, driving advancements in AI-powered visual data processing.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
CMOS Sensors	Low power consumption, high integration, cost-effective	Smartphones, DSLR cameras, drones
CCD Sensors	Superior light sensitivity, lower noise	Scientific imaging, medical endoscopes
CMOS Image Sensors (CIS)	Backside illumination, stacked architecture	High-end smartphones, AR/VR devices
Infrared Sensors	Near-infrared (NIR) to long-wave IR detection	Thermal imaging, night vision
Time-of-Flight (ToF) Sensors	3D depth sensing via light pulse timing	Autonomous vehicles, gesture recognition

3. Structure and Components

A typical image sensor consists of: - Photosensitive Array: Photodiodes or photogates for light-to-charge conversion - Micro-lens Array: Focuses light onto photodiodes - Color Filter Array (CFA): Bayer pattern for color separation - Signal Processing Circuitry: ADC (Analog-to-Digital Converter), amplifiers - Packaging: Ceramic or plastic encapsulation with optical window Modern CIS uses stacked die architecture with through-silicon vias (TSVs) for compact integration.

4. Key Technical Specifications

Parameter	Description	Importance
Resolution	Pixel count (e.g., 12MP, 48MP)	Determines image detail level
Dynamic Range	Ratio of max/min detectable light (dB)	Low-light performance
Quantum Efficiency	Photon-to-electron conversion rate (%)	Sensitivity metric
Frame Rate	Images per second (fps)	High-speed motion capture
Pixel Size	Physical photodiode dimension ( m)	Tradeoff between sensitivity and resolution
Power Consumption	Operating current/voltage (mW)	Battery-powered device longevity

5. Application Fields

Consumer Electronics: Smartphones, action cameras, smart home devices
Industrial: Machine vision systems, robotic guidance
Medical: Endoscopes, OCT (Optical Coherence Tomography)
Security: Surveillance cameras, biometric scanners
Automotive: ADAS, surround-view systems
Scientific: Astronomical telescopes, microscopy

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Sony Semiconductor	IMX700	50MP CMOS with RYYB color filter
Samsung ISOCELL	HM3	108MP sensor with 9-in-1 pixel binning
OmniVision	OV64C	64MP sensor for AR/VR applications
ON Semiconductor	AR0234CS	2.3MP automotive image sensor
Teledyne e2v	Emerald series	High-speed industrial CMOS sensors

7. Selection Recommendations

Key considerations:

Determine resolution requirements vs. frame rate needs
Assess operating environment (lighting, temperature)
Evaluate interface compatibility (MIPI, LVDS)
Consider power budget and thermal management
Analyze required dynamic range and low-light performance
Factor in optical format and lens compatibility

Example: Select Sony IMX586 for smartphones requiring 48MP resolution with 4-cell output.

8. Industry Trends

Emerging trends include: - Development of 8K-resolution sensors with stacked DRAM - Event-based vision sensors mimicking biological retinas - Multi-spectral/hyperspectral imaging integration - AI co-processing in sensor nodes (smart cameras) - MicroLED-based image sensors for AR/VR - Advancements in quantum dot sensors for improved low-light performance