HUAWEI ME909u-521 LTE LGA Module
Hardware Guide
Issue 05 (2017-12-15)
Huawei Proprietary and Confidential
Copyright © Huawei Technologies Co., Ltd.
75
Figure 6-4
PCB Layout (Unit: mm)
6.8 Thermal Design Solution
When the module works in the maximum power condition, the module has high power
consumption (for details, see Power Consumption). To improve the module reliability
and stability, focus on the thermal design of the device to speed up heat dissipation.
For thermal characteristics of the ME909u-521 module, you can refer to Operating
and Storage Temperatures.
Take the following heat dissipation measures:
The copper size on the PCB should be 70 mm x 70 mm or larger.
All copper ground layers of the PCB must be connected to each other through
via-holes.
Increase the quantity of the PCB ground planes.
The ground planes should be as continuous as possible.
If a fan is deployed, place the module at the cold air inlet.
Use heat sink, thermal conductive material and product enclosure to enhance the
heat dissipation of the module.
−
Use anodized heat sink on the shielding case or the customer PCB on bottom
side for optimal heat dissipation. The recommended heat sink dimensions are
70 mm x 70 mm x1 mm or larger.
−
The material of the heat sink should adopt the higher thermal conductivity
metallic materials, e.g. Al or Cu.
−
The recommended thermal conductivity of the thermal conductive material is
1.0 W/m-k or higher (recommended manufacturers: Laird or Bergquist).
−
Conductive material should obey the following rule: after the heat sink is
fastened to the shielding case, the compression amount of the thermal
conductive material accounts for 15% to 30% of the thermal conductive
material size.