Using the TPS6284x in an Inverting Buck-Boost Topology

Abstract

The TPS6284x family is a high-efficiency step-down converter with ultra-low operating quiescent current of typically 60nA. The device contains special circuitry to achieve just 120nA IQ in 100% mode to further extend battery life near the end of discharge. With an input voltage of 1.8V to 6.5V, the device supports multiple power sources such as 2S to 4S Alkaline, 1S to 2S Li-MnO2, or 1S Li-Ion/Li-SOCl2. These devices are well-designed for many battery powered applications, such as smart meters, medical sensor patches, industrial IoT (smart sensors) and other test and measurement equipment. The analog signal chain in such applications often requires symmetrical supply voltage or negative voltage biasing. The TPS6284x can be configured in an inverting buck-boost topology, where the output voltage is inverted or negative with respect to ground. This application report describes the inverting buck-boost topology in detail for the TPS6284x family.

Note: Precautions need to be taken when using these devices in an inverting buck-boost topology. Please review section Section 2 to understand and robustly eliminate known risk.

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1 Inverting Buck-Boost Topology

1.1 Concept

The inverting buck-boost topology is very similar to the buck topology. In a standard buck configuration, shown in Figure 1-1, the positive connection (V_OUT) is connected to the inductor and the return connection is connected to the device ground.

Figure 1-1 Buck Topology

However, in the inverting buck-boost configuration illustrated in Figure 1-2, the device ground is used as the negative output voltage pin (labeled as V_OUT). What was previously the positive output in the buck configuration is now used as the ground (GND). This shift in topology allows the output voltage to be inverted and always remain lower than the ground.

Figure 1-2 Inverting Buck-Boost Topology

The circuit operation in the inverting buck-boost topology differs from that in the buck topology. Though the components are connected the same as with a buck converter, the output voltage terminals are reversed, as Figure 1-3 shows. During the on time of the control MOSFET, shown in Figure 1-4, the inductor is charged with current, while the output capacitor supplies the load current. The inductor does not provide current to the load during that time. During the off time of the control MOSFET and the on time of the synchronous MOSFET, shown in Figure 1-5, the inductor provides current to the load and the output capacitor. These changes affect many parameters, as discussed in the Design Considerations section.

Figure 1-3 Buck-Boost Configuration

Figure 1-5 Buck-Boost Off Time

Figure 1-4 Buck-Boost On Time