| Size | Customization |
| Material | Vehicle-grade Optical Glass |
| Product Name | Vehicle Camera Lenses |
| Payment Terms | T/T,L/C |
| Application | In-Cabin Vision Systems |
| Delivery Time | 3-30days after order |
| Supply Ability | 1000K /Per Month |
| Feature | Vehicle-grade |
| Packaging Details | EVA+Vacuum |
| Customized Support | OEM, ODM |
| Certification | ROHS\Reach |
| Place of Origin | China |
| Brand Name | Advance |
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Product Specification
| Size | Customization | Material | Vehicle-grade Optical Glass |
| Product Name | Vehicle Camera Lenses | Payment Terms | T/T,L/C |
| Application | In-Cabin Vision Systems | Delivery Time | 3-30days after order |
| Supply Ability | 1000K /Per Month | Feature | Vehicle-grade |
| Packaging Details | EVA+Vacuum | Customized Support | OEM, ODM |
| Certification | ROHS\Reach | Place of Origin | China |
| Brand Name | Advance | ||
| High Light | Driver Monitoring Vehicle Camera Lens ,In-Cabin Vision Vehicle Camera Lens ,Driver Monitoring In-Cabin Lens | ||
In driver monitoring systems (DMS) and in-cabin vision applications, performance issues are frequently attributed to AI recognition models or ISP tuning. However, in real automotive validation and mass production, many failures originate from the optical lens system used in the cabin camera module.
Common field issues observed in OEM in-cabin programs include:
These issues are particularly critical in safety-related driver monitoring systems, where detection reliability directly impacts regulatory compliance and functional safety performance.
Our automotive camera lenses for driver monitoring and in-cabin vision systems are designed for OEM and Tier-1 suppliers who require stable optical performance, consistent batch output, and reliable imaging under real vehicle cabin conditions.
From automotive procurement and system integration experience, in-cabin camera systems rarely fail at prototype stage. Failures typically appear after SOP (Start of Production), when production scaling and vehicle integration introduce variability.
Suppliers are commonly replaced when:
In these cases, the issue is not software-related. It is caused by insufficient optical stability and environmental adaptation of the lens system.
Driver monitoring and in-cabin vision systems require a different optical design philosophy compared to external automotive cameras.
In-cabin systems operate in short-distance imaging environments where small optical deviations significantly affect recognition accuracy.
We optimize:
This ensures stable driver identification and monitoring performance.
Cabin lighting conditions vary significantly across real driving scenarios, including nighttime driving, tunnel transitions, and mixed interior lighting environments.
Our optical system ensures:
This improves detection reliability during night driving and fatigue monitoring scenarios.
In-cabin cameras are exposed to complex optical interference sources such as windshield reflection, dashboard lighting, and external headlights.
We address this through:
This improves AI recognition stability in real-world driving environments.
In driver monitoring systems, optical material consistency directly impacts AI model stability and detection reliability.
We provide controlled optical material systems with:
This ensures stable performance across prototype, validation, and SOP mass production phases.
Driver monitoring systems are increasingly subject to functional safety and regulatory requirements, making production consistency critical.
Our manufacturing control system includes:
This reduces calibration load and improves system-level deployment reliability.
| Parameter | Automotive Engineering Specification Focus |
|---|---|
| Lens Type | Automotive Driver Monitoring / In-Cabin Lens |
| Application | DMS / In-Cabin Vision Systems |
| Sensor Compatibility | Automotive CMOS (1/4" - 1/2.7") |
| Field of View (FOV) | 40° - 120° (custom wide / standard cabin view) |
| Focus Range | Near-field optimized (0.3m - 2.5m typical) |
| Spectral Range | Visible + optional IR (850nm / 940nm support) |
| Low-Light Optimization | High transmission / low noise optical design |
| Distortion Control | Controlled (<1.5% typical design target) |
| Thermal Range | -40°C to automotive cabin high-temperature range |
| Coating | AR / IR-enhanced / anti-glare coatings |
| Surface Quality | High precision optical polishing (automotive grade) |
| Production Role | OEM / Tier-1 DMS supply chain |
These automotive in-cabin camera lenses are widely used in:
Company Details
Business Type:
Manufacturer
Year Established:
2009
Total Annual:
8000000-10000000
Employee Number:
65~100
Ecer Certification:
Verified Supplier
1. We possess comprehensive capabilities in design, production and sales, providing customers with one-stop convenient procurement services and saving a great deal of time and cost for both new and existing projects. 2. We have tens of thousands of optical molds and samples, offering customers low-... 1. We possess comprehensive capabilities in design, production and sales, providing customers with one-stop convenient procurement services and saving a great deal of time and cost for both new and existing projects. 2. We have tens of thousands of optical molds and samples, offering customers low-...
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