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CSD87351ZQ5D: What is the junction temperature with ambient of 85degC?

Part Number: CSD87351ZQ5D
Other Parts Discussed in Thread: TPS53119,

Hi,

The customer will be using TPS53119 and CSD87351ZQ5D for 12Vin to 5Vout/10A. Webench simulation result shows that the power dissipation for CSD87351ZQ5D is 1.21W with ambient temperature of 85degC.

May I know what is the junction temperature for CSD87351ZQ5D?

If we use Tj = Ta + Pd*Rthja = 85 + 62*1.21 = 160 degC. This exceed the junction temperature of 125degC.

Any concern to use this device for 12Vin to 5Vout/10A?

Thanks.

Gim Song

  • Hi Gim,

    Thanks for the inquiry. I had typed out a response earlier today but I guess I did not submit it. The thermal impedances specified in the datasheet are determined by testing on a standard PCB and may not reflect the customer's application. I cannot tell you the junction temperature. The thermal performance and effective RthetaJA in the customer's application is highly dependent on the PCB design and stack-up of the customer's board. The datasheet provides power loss data and normalizing factors with the power block operating in a synchronous buck converter. This information can be used to calculate the actual power loss and determine SOA in the customer's application. Please refer to the application information section of the datasheet. If you need help with the calculations, please email me at my TI.com email address.

    It is possible to achieve effective thermal impedance much less (<20C/W) than 62C/W specified in the power block datasheet with proper PCB design and stackup. You can see the recommended PCB layout in the datasheet.

    Please refer to the blogs below for more information.

    Discrete FETs vs. power blocks - how to choose the right SOA for your design

    TI E2E support forums
    Other Parts Discussed in Post: CSD19536KTT , CSD87353Q5D In power semiconductors, design engineers use the safe operating area (SOA) to determine whether it’s possible to safely operate a device such as a power metal-oxide semiconductor field-effect...

    Discrete FETs vs. power blocks - how to choose the right SOA for your design

    TI E2E support forums
    Other Parts Discussed in Post: CSD19536KTT , CSD87353Q5D In power semiconductors, design engineers use the safe operating area (SOA) to determine whether it’s possible to safely operate a device such as a power metal-oxide semiconductor field-effect...

    Understanding MOSFET data sheets, part 6 – thermal impedance

    TI E2E support forums
    It’ s been a while since posting entries 1 through 5 in this series , but I find myself still fielding several questions about FET datasheets, particularly those parameters found in the thermal information table. That’s why today, I want to address the...

  • Looks like I repeated the same blog twice. Try the one below instead. Dissipated 1.21W in this package should be OK with proper PCB design.

    How to choose the right power MOSFET or power block package for your application

    TI E2E support forums
    Other Parts Discussed in Post: CSD17581Q5A When starting a new design, engineers are often overwhelmed by the number of package options for power metal-oxide semiconductor field-effect transistors ( MOSFET s) and power blocks . For example, TI offers...

  • Hi John,

    Appreciate your response and sharing these technical notes as reference. Will work with customer on their PCB layout to improve thermal dissipation.

    Thanks.

    Gim Song