SLVSE57C June 2017 – April 2018 TPS2595
PRODUCTION DATA.
When the load draws current during the turnon sequence, there is additional power dissipated. Considering a resistive load during start-up R_{L(SU)}, load current ramps up proportionally with increase in output voltage during T_{dVdT} time. Equation 10 to Equation 13 show the average power dissipation in the internal FET during charging time due to resistive load.
Total power dissipated in the device during start-up is Equation 11.
Total current during start-up is given by Equation 12.
If I_{STARTUP}> I_{LIMIT}, the device limits the current to I_{LIMIT} and the current-limited charging time is determined by Equation 13.
The power dissipation, with and without load, for selected start-up time must not exceed the shutdown limits as shown in Figure 59.
For the design example under discussion, select ramp-up capacitor C_{dVdt} = OPEN. The default slew rate for C_{dVdt} = OPEN is 38.2 mV/µs. With slew rate of 38.2 mV/µs, the ramp-up time T_{dVdt} for 12 V input is 248 µs.
The inrush current drawn by the load capacitance C_{OUT} during ramp-up using Equation 14.
The inrush power dissipation is calculated using Equation 15.
For 229.2 mW of power loss, the thermal shutdown time of the device must not be less than the ramp-up time T_{dVdt} to avoid the false trip at the maximum operating temperature. Figure 59 shows the thermal shutdown limit at T_{A} = 85°C, for 229.2 mW of power, the shutdown time is infinite. Therefore, it is safe to use 248 µs as the start-up time without any load on the output.
The additional power dissipation when a 4 Ω load is present during start-up is calculated using Equation 10.
The total device power dissipation during start-up is given in Equation 17.
The Figure 59 shows T_{A} = 85°C and the thermal shutdown time for 6.229 W is more than 10 ms, which is well within the acceptable limits to not use an external capacitor C_{dVdt} with a start-up load of 4 Ω.
When C_{OUT} is large, there is a need to decrease the power dissipation during start-up. This can be done by increasing the value of the C_{dVdt} capacitor.