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RT2519W Datasheet(PDF) 3 Page - Richtek Technology Corporation
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RICHTEK [Richtek Technology Corporation]
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RT2519W Datasheet(HTML) 3 Page - Richtek Technology Corporation
/ 13 page
DS2519W-00 May 2019
Copyright 2019 Richtek Technology Corporation. All rights reserved.
is a registered trademark of Richtek Technology Corporation.
The RT2519W is a low noise, high PSRR LDO which
supports very low dropout operation. The operating input
range from 2.2V to 6V and the output voltage is
programmable as low to 0.8V and the output current can
be up to 1A. The internal compensation network is well
designed to achieve fast transient response with good
In steady-state operation, the feedback voltage is
regulated to the reference voltage by the internal regulator.
When the feedback voltage signal is less than the
reference, the output current passes through the power
MOSFET will be increased. The extra amount of the
current is sent to the output until the voltage level of FB
pin returns to the reference.
On the other hand, if the feedback voltage is higher than
the reference, the power MOSFET current is decreased.
The excess charge at the output can be released by the
The RT2519W has a quick-start circuit to charge the noise
reduction capacitor (C
). The switch of the quick-start
circuit is closed at start up.
To reduce the noise from bandgap, there is a low-pass
(RC) filter consist of the C
and the resistance which is
connected with bandgap, as Functional Block Diagrams
At the start-up, the quick-start switch is closed, with only
Ω resistance between bandgap and NR pin. The quick-
start switch opens approximate 2ms after the device is
enabled, the resistance between NR and bandgap is about
Ω to form a very good low pass filter and with great
noise reduction performance.
Ω resistance is used to slow down the reference
voltage ramp to avoid inrush current at chip start-up, and
the start-up time can be calculated as :
(sec) = 160000 x C
It is recommend the C
value larger than 0.01
μF to reduce
noise, and low leakage ceramic capacitors are suitable.
However, with too large C
will extend the start-up time
very long if the C
is not fully charged during 2ms and
opens the quick-start switch, the C
will be charged
through higher resistance 224k
Ω and takes much longer
time to finish the start up process.
Enable and Shutdown Operation
The RT2519W goes into sleep mode when the EN pin is
in a logic low condition. In this condition, the pass transistor,
error amplifier, and bandgap are all turned off, reducing the
supply current to only 2
μA (max.). If the shutdown mode
is not required, the EN pin can be directly tied to VIN pin
to keep the LDO on.
The RT2519W continuously monitors the output current
to protect the pass transistor against abnormal operations.
When an overload or short circuit is encountered, the
current limit circuitry controls the pass transistor's gate
voltage to limit the output within the predefined range. By
reason of the build-in body diode, the pass transistor
conducts current when the output voltage exceeds input
voltage. Since the current is not limited, external current
protection should be added if device may work at reverse
Over-Temperature Protection (OTP)
The RT2519W has an over-temperature protection. When
the device triggers the OTP, the device shuts down until
the temperature back to normal state.
Under Voltage Lock-Out (UVLO)
The RT2519W utilizes an under voltage lock-out circuit to
keep the output shut off until the internal circuitry is
operating properly. The UVLO circuit has a de-glitch feature
so that it typically ignores undershoot transients on the
input if they are less than 30
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