- Uses ceramic pyroelectric sensor array
- Low resolution at low cost to make thermal imaging a common tool
This rugged product is meant to bring thermal imaging tools to everyone in the field. Its low-cost, when compared with microbolometer-based cameras, is coming with the low thermal resolution of its 15x15 pixel array. However the possibility to blend the thermal array with a visual image enhances its usage.
The thermal sensor used in this camera is a ceramic pyroelectric array. A camera module, an infrared optical lens, a 2.2” display are packed in a compact housing. The system with its accessories is supplied in a rigid transport case.
Based on a complete teardown analysis, the report provides an estimation of the production cost as well as the selling price of the product.
The Reverse Costing of the IRISYS pyroelectric array is available in a separate report.
Company Profile : FLUKE Corporation
VT02 Main Characteristics
2. Physical Analysis
Packaging Transport Case
Housing Global External View
Housing External Views
LCD Display Board
IR Lens and Camera Module
IRISYS REDEYE-6A Analysis
3. Cost Analysis
Accessing the BOM
Estimation of the cost of the PCB
BOM Cost – Main Board
BOM Cost – Display Board
BOM Cost – Detection and Motor Board
Estimation of the cost of the Housing Parts
Material Cost Breakdown
Accessing the Added Value (AV) cost
Main Board Manufacturing Flow
Details of the Main Board AV Cost
Display Board Manufacturing Flow and AV Cost
Details of the Housing AV Cost
Details of the Packaging AV Cost
Added Value Cost Breakdown
Manufacturing Cost Breakdown
4. Estimated Price Analysis
Estimation of the Selling Price