2 Loop Response of Peak Current Mode Converter

Figure 2-1 shows the schematic of a PCM buck converter. A type 2 compensation is used to ensure the stability of the converter.

The loop response model of PCM buck converters is introduced in the application report⁽²⁾. Figure 2-2 shows the bode plot.

In the loop response of PCM converters, the DC gain is affected by output current.

• f_{P1_EA}, f_{P2_EA} and f_{Z_EA} are the frequencies of poles and zero generated by the type2 compensation
• f_{P1_EA} is the initial pole at low frequency to boost DC gain for improving output voltage accuracy
• f_{Z_EA} is a zero to enlarge bandwidth and boost phase margin
• f_{P2_EA} is a high-frequency pole to increase gain margin and attenuate high frequency noise

In TPS62933, the DC gain, f_{P1_EA}, f_{P2_EA}, and f_{Z_EA} are all determined by the device internal compensation circuit, which is expressed as Equation 1 and Equation 2.

where

• I_OUT is the output current of the converter

• f_{Z_OUT} and f_{P_OUT} are zero and pole introduced by the output capacitor and load

For the application with all MLCC or small ESR output capacitors, f_{Z_OUT} is at high-frequency range and has limited effects on converter stability.

where

• C_O is the output capacitance
• R_ESR is the ESR of output capacitors
• R_O is the output resistor, which equals to V_OUT / I_OUT.

f_{P_ci} is a pole introduced by the inside current loop and related with device slope compensation. Its expression for TPS62933 is shown as Equation 5.