Special Contents for Automotive Applications
The reason RICOH power management IC has been chosen for more than 20 years
Special Contents for IoT Devices
Ultra-low supply current / Low noise / Low electromotive force / Battery monitoring
Special Contents for Industrial Applications
Long term supply / Flexible quantity purchase / High quality and reliability
Application Note : LDO Regulators (Linear Regulators)
The Reverse Current Protection Circuit stops the reverse current from VOUT pin to VDD pin when VOUT becomes higher than VIN.
Usually, the LDO regulator using Pch output transistor contains a parasitic diode between VDD pin and VOUT pin.
Therefore, if VOUT is higher than VIN, the parasitic diode conducts in forward direction.
As a result, the current flows from VOUT pin to VDD pin.
RP173 Series switches to the reverse current protection mode before VIN becomes lower than VOUT by connecting the parasitic diode of Pch output transistor to the backward direction, and connecting the gate to VOUT pin.
As a result, the Pch output transistor is turned off and the current path from VOUT pin to GND pin is disconnected. (Except RP115)
When using a backup circuit, a protection schottky diode is required with the LDO regulator in case of using the LDO regulator that does not have a Reverse Current Protection Circuit as shown in the next page left figure.
Please note that a schottky diode causes a dropout of about 0.3 V and leakage current of a few µA to 50 µA.
When using a LDO regulator including the Reverse Current Protection Circuit such as RP173, the protection diode is not needed as shown in the next page right figure. Therefore, it can prevent the voltage drop and the leakage current.
Without Reverse Current Protection Circuit
With Reverse Current Protection Circuit