SCAS877F May 2009 – January 2016 CDCLVP1216
PRODUCTION DATA.
Power consumption of the CDCLVP1216 can be high enough to require attention to thermal management. For reliability and performance reasons, the die temperature must be limited to a maximum of 125°C. That is, as an estimate, ambient temperature (TA) plus device power consumption times RθJA should not exceed 125°C.
The device package has an exposed pad that provides the primary heat removal path to the printed circuit board (PCB). To maximize the heat dissipation from the package, a thermal landing pattern including multiple vias to a ground plane must be incorporated into the PCB within the footprint of the package. The exposed pad must be soldered down to ensure adequate heat conduction out of the package. Figure 24 shows a recommended land and via pattern.
The CDCLVP1216 supports high temperatures on the printed circuit board (PCB) measured at the thermal pad. The system designer needs to ensure that the maximum junction temperature is not exceeded. ΨJB can allow the system designer to measure the board temperature with a fine gauge thermocouple and back calculate the junction temperature using Equation 1. Note that ΨJB is close to RθJB because 75% to 95% of the heat of a device is dissipated by the PCB. For further information, refer to SPRA953 and SLUA566.
Example:
Calculation of the junction-lead temperature with a 4-layer JEDEC test board using four thermal vias:
TPCB = 105°C
ΨJB = 8.3°C/W
PowerinclTerm = Imax × Vmax = 675 mA × 3.6 V = 2430 mW (maximum power consumption including termination resistors)
PowerexclTerm = 1826 mW (maximum power consumption excluding termination resistors; see SLYT127 for further details)
ΔTJunction = Ψjb × PowerexclTerm = 8.3°C/W × 1826 mW = 15.16°C
TJunction = ΔTJunction + TChassis = 15.16°C + 105°C = 120.16°C (the maximum junction temperature of 125°C is not violated)