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OV10133-C96A
Product Overview
- Category: Image Sensor
- Use: Capturing high-resolution images in digital cameras and other imaging devices
- Characteristics: High sensitivity, low noise, compact size
- Package: Ceramic package
- Essence: Advanced image sensor technology for superior image quality
- Packaging/Quantity: Individual ceramic packaging, quantity varies based on customer requirements
Specifications
- Resolution: 10 megapixels
- Pixel Size: 1.4 µm
- Output Format: RAW, RGB
- Frame Rate: 30 frames per second
- Dynamic Range: 70 dB
- Operating Temperature: -20°C to 85°C
- Power Supply: 3.3V
Detailed Pin Configuration
- Pin 1: VDD
- Pin 2: SCL
- Pin 3: SDA
- Pin 4: GND
- Pin 5: DOUT
- Pin 6: RESET
- Pin 7: VIO
- Pin 8: STANDBY
Functional Features
- High sensitivity for low-light conditions
- Low noise for improved image quality
- On-chip signal processing for enhanced performance
- Compact size for integration into small form factor devices
Advantages
- Superior image quality
- Versatile application in various imaging devices
- Low power consumption
- Compact and lightweight design
Disadvantages
- Higher cost compared to lower resolution sensors
- Limited availability in the market
Working Principles
OV10133-C96A utilizes advanced CMOS technology to capture light and convert it into digital signals. The sensor's high sensitivity and low noise characteristics enable it to produce high-quality images even in challenging lighting conditions.
Detailed Application Field Plans
The OV10133-C96A is suitable for a wide range of applications including: - Digital cameras - Surveillance systems - Medical imaging devices - Automotive cameras - Industrial inspection equipment
Detailed and Complete Alternative Models
- OV10823-C00A: 12 megapixel image sensor with similar characteristics
- OV9715-C00A: 8 megapixel image sensor with lower resolution but cost-effective
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Sebutkan 10 pertanyaan dan jawaban umum terkait penerapan OV10133-C96A dalam solusi teknis
What is OV10133-C96A?
- OV10133-C96A is a high-performance image sensor designed for use in various technical solutions, offering exceptional image quality and low-light performance.
What are the key features of OV10133-C96A?
- The key features of OV10133-C96A include a high-resolution 10-megapixel sensor, advanced pixel technology for improved low-light performance, and support for various output formats.
In what applications can OV10133-C96A be used?
- OV10133-C96A can be used in applications such as security cameras, automotive vision systems, industrial imaging, and other scenarios requiring high-quality image capture.
What is the pixel size of OV10133-C96A?
- The OV10133-C96A has a pixel size of 1.55 µm, which contributes to its excellent low-light performance and overall image quality.
Does OV10133-C96A support HDR (High Dynamic Range) imaging?
- Yes, OV10133-C96A supports HDR imaging, allowing it to capture a wider range of light intensities and produce more detailed images in challenging lighting conditions.
What interfaces does OV10133-C96A support?
- OV10133-C96A supports various interfaces such as MIPI CSI-2, making it compatible with a wide range of image processing and display systems.
Is OV10133-C96A suitable for outdoor applications?
- Yes, OV10133-C96A is suitable for outdoor applications due to its robust design, low-light performance, and ability to handle varying lighting conditions.
What is the power consumption of OV10133-C96A?
- The power consumption of OV10133-C96A is optimized for efficiency, making it suitable for battery-powered devices and energy-conscious applications.
Does OV10133-C96A offer any built-in image processing capabilities?
- OV10133-C96A provides built-in image processing features such as noise reduction, color correction, and lens shading correction, enhancing the overall image quality.
Are there any specific considerations for integrating OV10133-C96A into a technical solution?
- When integrating OV10133-C96A, it's important to consider factors such as lens compatibility, thermal management, and system-level optimization to maximize its performance in the intended application.