Description
102352 - Acer Packard bell 2.80GHz 400MHz FSB 128KB L2 Cache Socket PPGA478 Intel Celeron 1-Core Processor
The Acer 102352 represents a 2nd Gen Single-core (1 Core) processor designed for maintaining and repairing older computer systems. Operating at 2.80 GHz with a 400 MHz Front Side Bus this 32-bit processor delivers basic computing power through its 128 KB L2 cache architecture. Manufactured using 90 nm lithography technology it fits standard Socket P PGA-478 motherboards and operates within a 73 Watts thermal design power (TDP) cover. With a maximum current specification of 67 °C and weighing just 2, this eco-friendly component provides a reliable solution for keeping legacy systems operational.
Key Features
- 2.80 GHz processor for basic computing tasks
- Socket P PGA-478compatibility for legacy motherboards
- Energy-conscious design with eco-friendly materials
- Reliable thermal performance 67 °C
- Acer-quality component for system repairs
Compatibility and Use Cases
The Acer102352 processor is exactly designed for systems using Socket P PGA-478 motherboards. This component serves mainly as a maintenance or repair solution for older Acer desktop systems still in service. Typical applications include protective business systems where upgrades are unreasonable, maintaining specialized equipment with branded crossing point, educational demonstrations of historical computing architecture or completing correct system repairs. Its capabilities are best suited for basic output tasks, simple data entry operations or as part of a complete system safety effort.
Why Choose This Processor
For experts and system upholders working with older Acer equipment, the 102352 offers some different advantages. As a reliable Acer component, it guarantees compatibility that aftermarket replacements cannot match. The processor provides reliable performance within its specified limits, confirming continued operation of older systems where upgrading is not possible. Its availability helps extend the service life of specialized equipment that would otherwise become outdated. For educational institutions or technology historians, it serves as an authentic representation of early 2000s computing technology. While not suitable for modern computing demands it remains a valuable solution for exact maintenance setups.
