TPS54560_15 Datasheet, PDF(18/46 Page) Texas Instruments – TPS54560 4.5 V to 60 V Input, 5 A, Step Down DC-DC Converter with Eco-mode

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TPS54560_15 Datasheet, PDF (18/46 Pages) Texas Instruments – TPS54560 4.5 V to 60 V Input, 5 A, Step Down DC-DC Converter with Eco-mode

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TPS54560

SLVSBN0A â MARCH 2013 â REVISED MARCH 2014

www.ti.com

Feature Description (continued)

8.3.12 Overvoltage Protection

The TPS54560 incorporates an output overvoltage protection (OVP) circuit to minimize voltage overshoot when

recovering from output fault conditions or strong unload transients in designs with low output capacitance. For

example, when the power supply output is overloaded the error amplifier compares the actual output voltage to

the internal reference voltage. If the FB terminal voltage is lower than the internal reference voltage for a

considerable time, the output of the error amplifier will increase to a maximum voltage corresponding to the peak

current limit threshold. When the overload condition is removed, the regulator output rises and the error amplifier

output transitions to the normal operating level. In some applications, the power supply output voltage can

increase faster than the response of the error amplifier output resulting in an output overshoot.

The OVP feature minimizes output overshoot when using a low value output capacitor by comparing the FB

terminal voltage to the rising OVP threshold which is nominally 109% of the internal voltage reference. If the FB

terminal voltage is greater than the rising OVP threshold, the high side MOSFET is immediately disabled to

minimize output overshoot. When the FB voltage drops below the falling OVP threshold which is nominally 106%

of the internal voltage reference, the high side MOSFET resumes normal operation.

8.3.13 Thermal Shutdown

The TPS54560 provides an internal thermal shutdown to protect the device when the junction temperature

exceeds 176Â°C. The high side MOSFET stops switching when the junction temperature exceeds the thermal trip

threshold. Once the die temperature falls below 164Â°C, the device reinitiates the power up sequence controlled

by the internal soft-start circuitry.

8.3.14 Small Signal Model for Loop Response

Figure 31 shows an equivalent model for the TPS54560 control loop which can be simulated to check the

frequency response and dynamic load response. The error amplifier is a transconductance amplifier with a gmEA

of 350 Î¼A/V. The error amplifier can be modeled using an ideal voltage controlled current source. The resistor Ro

and capacitor Co model the open loop gain and frequency response of the amplifier. The 1mV ac voltage source

between the nodes a and b effectively breaks the control loop for the frequency response measurements.

Plotting c/a provides the small signal response of the frequency compensation. Plotting a/b provides the small

signal response of the overall loop. The dynamic loop response can be evaluated by replacing RL with a current

source with the appropriate load step amplitude and step rate in a time domain analysis. This equivalent model is

only valid for continuous conduction mode (CCM) operation.

COMP

Power Stage

gmps 17 A/V

RESR

CO RO

0.8 V

gmea

350 mA/V

COUT

Figure 31. Small Signal Model for Loop Response

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