Desktop Models
We listed in the table below all Pentium (Pentium Dual Core) models for desktop computers released to date.
Model | sSpec | Internal Clock | Extrernal Clock |
Tech. |
L2 Cache | TDP | Voltage | Max. Temp. (° C) |
E6500K | SLGYP | 2.93 GHz | 1,066 MHz | 45 nm | 2 MB | 65 W | 0.85 V – 1.3625 V | 74.1 |
E6500 | SLGUH | 2.93 GHz | 1,066 MHz | 45 nm | 2 MB | 65 W | 0.85 V – 1.3625 V | 71.4 |
E6300 | SLGU9 | 2.8 GHz | 1,066 MHz | 45 nm | 2 MB | 65 W | 0.85 V – 1.3625 V | 74.1 |
E5400 | SLB9V | 2.7 GHz | 800 MHz | 45 nm | 2 MB | 65 W | 0.85 V – 1.3625 V | 74.1 |
E5300 | SLGTL | 2.6 GHz | 800 MHz | 45 nm | 2 MB | 65 W | 0.85 V – 1.3625 V | 74.1 |
E5300 | SLB9U | 2.6 GHz | 800 MHz | 45 nm | 2 MB | 65 W | 0.85 V – 1.3625 V | 74.1 |
E5300 | SLGQ6 | 2.6 GHz | 800 MHz | 45 nm | 2 MB | 65 W | 0.85 V – 1.3625 V | 74.1 |
E5200 | SLB9T | 2.5 GHz | 800 MHz | 45 nm | 2 MB | 65 W | 0.85 V – 1.3625 V | 74.1 |
E5200 |
SLAY7 |
2.5 GHz |
800 MHz |
45 nm |
2 MB |
65 W |
0.85 V – 1.3625 V |
74.1 |
E2220 |
SLA8W |
2.4 GHz |
800 MHz |
65 nm |
1 MB |
65 W |
0.85 V – 1.5 V |
73.3 |
E2210 | SLB7N | 2.2 GHz | 800 MHz | 45 nm | 1 MB | 65 W | 0.85 V – 1.3625 V | 74.1 |
E2210 | SLB9R | 2.2 GHz | 800 MHz | 45 nm | 1 MB | 65 W | 0.85 V – 1.3625 V | 74.1 |
E2200 |
SLA8X |
2.2 GHz |
800 MHz |
65 nm |
1 MB |
65 W |
1.162 V – 1.312 V |
73.3 |
E2180 |
SLA8Y |
2.0 GHz |
800 MHz |
65 nm |
1 MB | 65 W | 1.162 V – 1.312 V | 73.2 |
E2160 |
SLA9Z |
1.8 GHz |
800 MHz |
65 nm |
1 MB |
65 W |
0.85 V – 1.5 V
|
73.2 |
E2160 | SLA8Z | 1.8 GHz | 800 MHz |
65 nm |
1 MB | 65 W | 1.162 V – 1.312 V | 73.2 |
E2160 | SLA3H | 1.8 GHz | 800 MHz |
65 nm |
1 MB | 65 W | 1.162 V – 1.312 V | 61.4 |
E2140 |
SLALS |
1.6 GHz |
800 MHz |
65 nm |
1 MB |
65 W |
0.85 V – 1.5 V |
73.2 |
E2140 | SLA3J | 1.6 GHz | 800 MHz |
65 nm |
1 MB | 65 W | 1.162 V – 1.312 V | 61.4 |
E2140 | SLA93 | 1.6 GHz | 800 MHz |
65 nm |
1 MB | 65 W | 1.162 V – 1.312 V | 61.4 |
TDP stands for Thermal Design Power and indicates the CPU thermal dissipation, i.e., the CPU cooler must be capable of dissipating at least this amount of heat.
Continue: Mobile Models
- Contents
- 1. Introduction
- 2. Desktop Models
- 3. Mobile Models