Technology, Process and Cost
Microchip LAN8670 Ethernet PHY transceiver
By Yole SystemPlus —
Microchip’s Ethernet transceiver powering automotive and industrial applications.
SPR23787
Overview
- Executive Summary
- Product Specification- Datasheet
- Reverse Costing Methodology
- Glossary
Physical Analysis
- Summary of the physical analysis
- Packaging – Overview, X-Ray Images, Opening, Cross Section
- IC Die – Overview, Delayering, Cross section
- Process Characteristics
Manufacturing Process Flow Analysis
- Global Overview
- IC Die Front-End Process
- IC Die Front-End Wafer Fabrication Unit
- Assembly & Final Test
Cost Analysis
- Cost Summary
- Yields Explanation & Hypotheses
- IC Die Front-End Wafer Cost
- IC Die Cost
- Packaging Cost
- Component Cost
Selling Price
- Definitions of Price
- Manufacturer Financials
- Estimated Selling Price
Feedbacks
Related Products
About Yole Group
Microchip’s LAN8670 is a high performing Ethernet transceiver designed to power vehicle network and automotive applications, including industrial control and building automation.
It features enhanced electromagnetic compatibility with low RF emissions. The LAN8670 component provides 10 Mbit/s half‑duplex transmit with an ability to connect multiple PHYs onto a common mixing segment to further save on implementation costs by reducing cabling and various switching ports.
This full reverse costing study has been conducted to provide insight on technology data, manufacturing cost and selling price of the LAN8670 Ethernet transceiver.
- Microchip
Key Features
- Detailed photos
- Precise measurements
- Materials analysis
- Manufacturing process flow
- Supply chain evaluation
- Manufacturing cost analysis