Jou Jye A 2535 - All-in-one liquid cooler - 12 cm - 88.93 cfm
Бестселлер
- Артикул:
- 53515041
42 871 AMD
Характеристики
Specifications
- Тип сокета процессора
- AMD Socket AM2; AMD Socket AM3 (Ph. II / Ath. II); AMD socket FM1; AMD Socket FM2; Intel Socket 1150 (Core i); Intel Socket 1155 (Core i); Intel Socket 1156 (Core i); Intel Socket 1366 (Core i); Intel Socket R / 2011 (Xeon MP)
Вес и размеры
- Вес
- 1.694 кг
Дизайн
- Цвет
- Черный
Общие характеристики
- Модель
- L5
- Код товара
- A 2535
Производительность
- Тип
- Кулер
Прочие свойства
- EAN
- 0855700015027
- Бренд
- Jou Jye Computer
Описание
Support CPU Overclocking Power Mode up to 200W Heat Dissipation
For Desktop Tower Chassis
Desktop Liquid Cooling Solution Recommended for :
- IntelProcessor, SocketLGA2011, Square ILM Mounting
- Intel® Processor, Socket LGA2011, Narrow ILM Mounting
- Intel® Processor, Socket LGA1365, 1366
- Intel® Processor, Socket LGA1150, 1155, 1156
- AMD® Processor, Socket AM2, AM2+, AM3, FM1, FM2
Cold Plate Module with Copper Base
Space Saver Light Weight Radiator
12cm Cooling Fans with 4-Pin PWM Connector
Stand-alone Water Pump with Powerful Flow Rate 0.84 Litter Per Minute
30cm Black Pair EPDM Tube Assembled
Mounting Accessories are included
Shin-Etsu Series Thermal Compound Pre-Printed on Base
Support CPU Overclocking Power Mode up to 200Watts Heat Dissipation
For Desktop Tower Chassis
Desktop Liquid Cooling Solution Recommended for :
- IntelProcessor, SocketLGA2011, Square ILM Mounting
- Intel® Processor, Socket LGA2011, Narrow ILM Mounting
- Intel® Processor, Socket LGA1365, 1366
- Intel® Processor, Socket LGA1150, 1155, 1156
- AMD® Processor, Socket AM2, AM2+, AM3, FM1, FM2
Cold Plate Module with Copper Base
Space Saver Light Weight Radiator
12cm Cooling Fans with 4-Pin PWM Connector
Stand-alone Water Pump with Powerful Flow Rate 0.84 Litter Per Minute
30cm Black Pair EPDM Tube Assembled
Mounting Accessories are included
Shin-Etsu Series Thermal Compound Pre-Printed on Base
Support CPU Overclocking Power Mode up to 200Watts Heat Dissipation