In response to elevated summer temperatures, the outdoor server cabinet experiences a rise in temperature, causing the module to surpass its designated operating temperature and leading to frequent system alarm activations.
Using the adapter to optimize heat dissipation capability.
Lower the operating temperature of the module rising in the heat.
Extend the lifespan of the module.
Thermal flow meter to simulate ambient temperature (45℃).
Heating plate to simulate equipment temperature (80℃).
Check the temperature: module, equipment, and ambient environment.
Continuously record temperature fluctuations.
Observe the temperature difference of the module before and after improvement.
The adapter effectively reduces the temperature rise on the module by at least 10℃.
Verify the heat dissipation capacity of the adapter mechanism.
Integrating the adapter to enhance heat dissipation capacity aims to mitigate the module's temperature elevation in high-temperature environments.
Unit:(mm)
Control group vs Experimental group
a.10G SFP+ DWDM
| Equipment | Function |
|---|---|
| Thermometer | Measure the temperature of the equipment. |
| Heating plate | Simulate the operating temperature of a server. |
| Thermal flow meter | Simulate the ambient temperature during operation. |
| Computer | Monitor and record the temperature of the samples. |
| Cardboard box | Working environment space. |
| Power supply | Power the module |
b.10G SFP+ DWDM with Adapter
a.Equipment wiring scheme
b.Overview
c.View inside the operation environment
d.Heating plate set up
Heating plate set to 80℃
Thermal flow meter 45℃
Experimental conditions:
Heating plate set to 80℃
Thermal flow meter 45℃
Following 8 hours of testing, the adapter has demonstrated its efficacy by reducing the temperature increase on the module by more than 10.79°C, thus confirming its effectiveness.
Experimental conditions:
Heating plate set to 95℃
Thermal flow meter 45℃
Following 8 hours of testing, the adapter has demonstrated its efficacy by reducing the temperature increase on the module by more than 27.36°C, thus confirming its effectiveness.
