Thermal Dissipation - Quectel RM520N-GL Hardware Design

6.5. Thermal Dissipation

Figure 33: Thermal Dissipation Area Inside and on Bottom Side of the Module
The module offers the best performance when all internal IC chips are working within their operating
temperatures. When the IC chip reaches or exceeds the maximum junction temperature, the module may
still work but the performance and function (such as RF output power, data rate, etc.) will be affected to a
certain extent. Therefore, the thermal design should be maximally optimized to ensure all internal IC chips
always work within the recommended operating temperature range.
The following principles for thermal consideration are provided for reference:
⚫
Keep the module away from heat sources on your PCB, especially high-power components such as
processor, power amplifier, and power supply.
⚫
Maintain the integrity of the PCB copper layer and drill as many thermal vias as possible.
⚫
Expose the copper in the PCB area where module is mounted.
⚫
Apply a soft thermal pad with appropriate thickness and high thermal conductivity between the
module and the PCB to conduct heat.
⚫
Follow the principles below when the heatsink is necessary:
-
Do not place large size components in the area where the module is mounted on your PCB to
reserve enough place for heatsink installation.
-
Attach the heatsink to the shielding cover of the module; In general, the base plate area of the
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