JAJSOI0B april 2022 – june 2023 TPSI2140-Q1
PRODUCTION DATA
Component placement:
Decoupling capacitors for the primary side VDD supply must be placed as close as possible to the device pins.
EMI considerations:
The TPSI2140-Q1 employs spread spectrum modulation (SSM) and in some systems, no additional system design considerations are required to meet the EMI performance needs.
However, the system designer may choose to take additional measures to minimize EMI depending on the system requirements and safety preferences of the system designer. The measures listed below reduce emissions by providing a capacitive return path from the secondary side to the primary side or by increasing the common mode loop impedance with an inductive component on the primary side.
High-voltage considerations:
The creepage from the primary side to the secondary side and from the creepage from the S1 pin to S2 pin of the TPSI2140-Q1 should be maintained according to system requirements. It is most likely that the system designer will avoid any top layer PCB routing underneath the body of the package or between the S1 and S2 pins.
Thermal considerations:
If the system designer plans to use the TPSI2140-Q1 in avalanche mode, it is important for the PCB layout to be designed with thermal performance in mind. Proper PCB layout can help dissipate heat from the device to the PCB and keep the junction temperature (TJ) under the absolute maximum rating. Floating inner layer planes or the planes used to implement a stitch capacitor can be drawn beneath the secondary side pins or directly beneath the TPSI2140-Q1 for improved heat dissipation. An example of this can be seen in the Layout Example.