Camera Modules

Part Number	Description / PDF	Quantity
14192 Allied Vision	CAMERA MONO S-MOUNT USB90	0
13885 Allied Vision	CAMERA COLOR CMOUNT USB AR0521	0
14620 Allied Vision	CAMERA MONO NIR C-MOUNT USB90	0
14613 Allied Vision	CAMERA MONO NIR C-MOUNT	1
14696 Allied Vision	CAMERA MONO BAREBOARD	1
15100 Allied Vision	CAMERA MONO S-MOUNT	1
15499 Allied Vision	CAMERA 1800 C-508M MONO C-MOUNT	1
14151 Allied Vision	CAMERA COLOR C-MOUNT PYTHON480	0
12901 Allied Vision	CAMERA COLR SMNT OPEN USB AR0521	0
11915 Allied Vision	CAMERA COLOR S-MNT OPEN AR0135CS	0
13883 Allied Vision	CAMERA COLOR SMOUNT USB AR0521	0
14167 Allied Vision	CAMERA COLOR C-MOUNT USB90	0
14164 Allied Vision	CAMERA MONO C-MOUNT USB90	0
14177 Allied Vision	CAMERA MONO CS-MOUNT OPEN USB90	0
15103 Allied Vision	CAMERA COLOR S-MOUNT	4
14174 Allied Vision	CAMERA COLOR S-MOUNT OPEN	0
14622 Allied Vision	CAMERA MONO NIR S-MOUNT USB90	0
14182 Allied Vision	CAMERA COLOR S-MOUNT OPEN USB90	0
14180 Allied Vision	CAMERA COLOR C-MOUNT OPEN USB90	0
11941 Allied Vision	CAMERA 1800 C-319M MONO C-MOUNT	1

Camera Modules

1. Overview

Camera modules are integrated optoelectronic devices that convert optical images into digital signals. As critical components in sensors and transducers systems, they combine image sensors, lenses, and signal processing circuits to enable visual data acquisition in modern electronics. Their miniaturization, high performance, and cost-effectiveness have driven advancements in automation, healthcare, security, and consumer electronics.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
CMOS Image Sensors	Low power consumption, high integration, cost-effective	Smartphones, webcams
CCD Sensors	Superior image quality, high light sensitivity	Industrial inspection, astronomy
Infrared Cameras	Capture non-visible infrared spectrum	Night vision, thermal monitoring
3D Depth Sensors	Generate spatial depth information	AR/VR, robotics
Global Shutter Modules	Eliminate motion distortion	High-speed industrial imaging
Low-light Cameras	Enhanced sensitivity in dark environments	Surveillance, autonomous vehicles

3. Structure and Components

A typical camera module consists of: - Optical Lens System: Focuses light onto the sensor - Image Sensor (CMOS/CCD): Converts photons to electrical signals - Image Signal Processor (ISP): Performs color correction and noise reduction - Interface Circuitry: Supports data transmission (MIPI, USB, etc.) - Mechanical Housing: Protects components and ensures optical alignment Advanced modules may integrate autofocus actuators, IR filters, or AI acceleration cores.

4. Key Technical Specifications

Parameter	Description	Importance
Resolution	Pixel count (e.g., 1920 1080)	Determines image detail level
Frame Rate	Images per second (fps)	Critical for motion capture
Sensor Size	Physical dimensions (inches)	Affects light gathering capability
Dynamic Range	Light-to-dark ratio (dB)	Measures detail retention in extremes
Signal-to-Noise Ratio	Image clarity vs. noise	Impacts low-light performance
Interface Type	MIPI CSI-2, USB 3.0, etc.	Dictates system compatibility
Power Consumption	Operating current (mA)	Battery life consideration
Operating Temperature	Functional range ( C)	Environment suitability

5. Application Fields

Consumer Electronics: Smartphone cameras, action cameras
Security Systems: IP cameras, doorbell cameras
Medical Imaging: Endoscopes, dermatology scanners
Automotive: ADAS vision systems, dash cams
Industrial Automation: Machine vision inspection systems

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Sony Semiconductor	IMX586	48MP CMOS sensor with 0.8 m pixels
onsemi	AR0234CS	2.3MP automotive image sensor
Microsoft	Kinect Azure	3D depth sensing with time-of-flight
Intel RealSense	D455	HD depth camera with RGB sensor
Himax Technologies	HX-6320	Low-power driver IC for camera modules

7. Selection Recommendations

Key considerations include: - Match resolution/frame rate to application needs - Evaluate environmental requirements (temperature, vibration) - Verify interface compatibility with host system - Balance cost with required image quality - Assess long-term supply stability - Consider additional features (autofocus, EIS support) - Test under actual lighting conditions

Industry Trends Analysis

Emerging trends include: - Stacked CMOS sensors with AI processing cores - Multi-spectral imaging integration - Event-based vision sensors with microsecond response - Wafer-level optics for further miniaturization - Increased adoption of computational photography - Automotive-grade modules with ASIL-D functional safety