How to manage the power supply of mobile devices with high accuracy

The load current connected to the output of the LDO regulator may increase or decrease suddenly. At this time, the output voltage may also fluctuate temporarily, and when the fluctuation is large, it may cause adverse effects such as malfunction or stop of the equipment. The load transient response is represented by the peak value of the fluctuation appearing in the output voltage for a stepwise change in the output current, indicating that the smaller the value, the more stable the voltage can be supplied.
The power supply line also has voltage fluctuations with various frequency components due to the operation of the various devices connected to the line. For power supply ICs, voltage fluctuations superimposed on the input power line become a problem. These fluctuations are called the ripple voltage, and the LDO regulator is characterized by suppressing the propagation of the ripple voltage superimposed on the input voltage to the output side. The ripple rejection ratio is the value that represents this characteristic.
TCR5BM/8BM series has improved load transient response and ripple rejection ratio. It has excellent response performance against sudden current changes and provides stable constant voltage operation with minimal voltage fluctuation. In addition, excellent ripple rejection ratio is achieved in a wide frequency range by optimizing the gain of each frequency band, etc.
With these features, TCR5BM/8BM can minimize the effects of load current fluctuations and input noise on the output, and provides a stable output voltage as the load side power supply.

Refer to following link for the details of load transient response and ripple rejection ratio.

• Detail of load transient response is here
• Detail of ripple rejection ratio is here

TCR5BM/8BM series also improves dropout voltages, in addition to load transient response and ripple rejection ratio.
A voltage higher than the input voltage is applied to the bias terminal separated from the input terminal, and drives the gate of the built-in output MOSFET so that the difference between the input voltage and the output voltage can be reduced.
The LDO regulator is buck-type, so normally set the input voltage higher than the output. Since the dropout voltage is also a limit value at which the drop in the input voltage does not affect the output voltage, it can be said that the output voltage is configured to be less susceptible to input fluctuations.
The power consumption of the regulator itself is the difference between the input and output voltages multiplied by the output current. Reducing the difference between the input and output voltages also reduces power consumption that causes heat generation. This can reduce or eliminate heat generation measures such as securing space and attaching a heat sink, and helps reduce the size and weight of the mounting set.

Refer to following link for the details of dropout voltage and power consumption.

• Detail of dropout voltage and power consumption is here