4 Fast Load Transient Response with D-CAP3™ and D-CAP2™ Control

Since the load profile can change dramatically in industrial PC applications, it is important to consider AC transient performance. Choosing a DC/DC converter with a fast transient response using non-linear control techniques, such as adaptive on-time or D-CAP3, allows a fast transient response with minimal output capacitance. A converter using D-CAP3 control mode has three primary considerations for deciding the value of the output capacitance: transient (which includes load step and slew rate of the load step), output ripple, and stability. In applications where the load transient is stringent, the output capacitance is predominantly driven by the transient requirement. For a D-CAP3 based design, there is a minimum capacitance requirement in terms of small signal stability. This requirement prevents subharmonic, multiple-pulsing behavior in the modulator. Figure 2 shows the transient performance of the 8-A TPS51395 with a 5-V output, less than 100mV overshoot, and less than a 30µs recovery with output capacitance of 0.1 µF and 4x22 µF. The TPS51395 transient waveform conditions are 0.8-A to 7.2-A load step with 2.5A/µs slew rate.

The TPS51215A for the V_{CCIN_AUX} rail features adaptive on-time D-CAP2 control allowing ceramic output capacitors and acheives a fast load transient response shown inFigure 3 under the noted conditions below the waveform. The over-voltage and under-voltage test results also meet the target design specification, and the results are shown in Table 2 under the same conditions as the TPS51215A load transient waveform. The TPS51215A transient waveform conditions are V_IN=12.6V, Slew rate=12A/µs, F_SW =600kΩ, L=-.22µh, and C_OUT=220µF + 22*12µF.