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TPS7A20C25PYCKR中文资料德州仪器数据手册PDF规格书
TPS7A20C25PYCKR规格书详情
1 Features
• Fast settling when used with low output
capacitance and inductance
• Low output voltage noise: 7μVRMS
– No noise-bypass capacitor required
• High PSRR: 58dB at 100kHz, 20mA
• Very low IQ: 11μA
• Input voltage range: 1.6V to 6.0V
• Output voltage range: 0.8V to 5.5V
• Output voltage tolerance: ±1.5% (max)
• Very low dropout:
– 140mV (max) at 300mA (VOUT = 3.3V)
• Low inrush current
• Smart enable pulldown
• Stable with 0.47μF minimum output capacitance
• Package:
– 0.616mm × 0.616mm DSBGA
2 Applications
• Image sensors
• Smartphones and tablets
• IP network cameras
• Portable medical equipment
• Smart meters and field transmitters
• Motor drives
• Wearables
3 Description
The TPS7A20C is an ultra-small, low-dropout (LDO)
linear regulator that sources 300mA of output
current. This LDO is designed to power sensitive
loads such as image sensors. When used with
low output capacitance and inductance, the device
provides low noise, high PSRR, and excellent load
and line transient performance. Using innovative
design techniques, the TPS7A20C offers ultra-low
noise performance without the addition of a noisebypass
capacitor. The TPS7A20C also provides the
advantage of low quiescent current, which is useful
in battery-powered applications. The 1.6V to 6.0V
input voltage range and 0.8V to 5.5V output range
are appropriate for a wide variety of applications. The
device uses a precision reference circuit to provide
a maximum accuracy of 1.5% over load, line, and
temperature variations.
The TPS7A20C features an internal soft-start circuit
to lower the inrush current, thus minimizing the input
voltage drop during start-up. The device is stable with
small ceramic capacitors, allowing for a small overall
solution size.
The TPS7A20C has a smart enable input circuit with
an internally controlled pulldown resistor. This resistor
keeps the LDO disabled and helps eliminate the
external components used to pulldown the EN pin.
The LDO remains disabled even when the EN pin is
left floating.
