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부품번호 NCP146 기능
기능 300 mA CMOS Low Dropout Regulator
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NCP146 데이터시트, 핀배열, 회로
NCP146
Product Preview
300 mA CMOS Low Dropout
Regulator
The NCP146 is 300 mA LDO that provides the engineer with a very
stable, accurate voltage with low noise suitable for space constrained,
noise sensitive applications. In order to optimize performance for
battery operated portable applications, the NCP146 employs the
dynamic quiescent current adjustment for very low IQ consumption at
no−load.
Features
Operating Input Voltage Range: 1.7 V to 5.5 V
Available in Fixed Voltage Options: 1.8 V
Very Low Quiescent Current of Typ. 50 mA
Low Dropout: 280 mV Typical at 300 mA
±1% Accuracy at Room Temperature
High Power Supply Ripple Rejection: 75 dB at 1 kHz
Thermal Shutdown and Current Limit Protections
Stable with a 1 mF Ceramic Output Capacitor
Available in SOIC−8 Package
These Devices are Pb−Free, Halogen Free/BFR Free and are RoHS
Compliant
Typical Applicaitons
PDAs, Mobile phones, GPS, Smartphones
Wireless Handsets, Wireless LAN, Bluetooth®, Zigbee®
Portable Medical Equipment
Other Battery Powered Applications
VIN
CIN
IN OUT
NCP146
GND
VOUT
COUT
1 mF
Ceramic
www.onsemi.com
8
1
A
L
Y
W
G
SOIC−8
CASE 751
MARKING
DIAGRAM
8
XXXXX
ALYW
G
1
= Assembly Location
= Wafer Lot
= Year
= Work Week
= Pb−Free Package
PIN CONNECTIONS
OUT
GND
GND
N/C
18
27
36
45
SOIC−8
(Top View)
IN
GND
GND
N/C
ORDERING INFORMATION
See detailed ordering, marking and shipping information on
page 5 of this data sheet.
Figure 1. Typical Application Schematic
This document contains information on a product under development. ON Semiconductor
reserves the right to change or discontinue this product without notice.
© Semiconductor Components Industries, LLC, 2016
January, 2016 − Rev. P0
1
Publication Order Number:
NCP146/D




NCP146 pdf, 반도체, 판매, 대치품
NCP146
APPLICATIONS INFORMATION
General
The NCP146 is a high performance 300 mA Low Dropout
Linear Regulator. This device delivers very high PSRR
(over 75 dB at 1 kHz) and excellent dynamic performance
as load/line transients. In connection with very low
quiescent current this device is very suitable for various
battery powered applications such as tablets, cellular
phones, wireless and many others. The device is fully
protected in case of output overload, output short circuit
condition and overheating, assuring a very robust design.
Input Capacitor Selection (CIN)
It is recommended to connect at least a 1 mF Ceramic X5R
or X7R capacitor as close as possible to the IN pin of the
device. This capacitor will provide a low impedance path for
unwanted AC signals or noise modulated onto constant
input voltage. There is no requirement for the min. /max.
ESR of the input capacitor but it is recommended to use
ceramic capacitors for their low ESR and ESL. A good input
capacitor will limit the influence of input trace inductance
and source resistance during sudden load current changes.
Larger input capacitor may be necessary if fast and large
load transients are encountered in the application.
Output Decoupling (COUT)
The NCP146 requires an output capacitor connected as
close as possible to the output pin of the regulator. The
recommended capacitor value is 1 mF and X7R or X5R
dielectric due to its low capacitance variations over the
specified temperature range. The NCP146 is designed to
remain stable with minimum effective capacitance of
0.22mF to account for changes with temperature, DC bias
and package size. Especially for small package size
capacitors such as 0402 the effective capacitance drops
rapidly with the applied DC bias.
There is no requirement for the minimum value of
Equivalent Series Resistance (ESR) for the COUT but the
maximum value of ESR should be less than 2 W. Larger
output capacitors and lower ESR could improve the load
transient response or high frequency PSRR. It is not
recommended to use tantalum capacitors on the output due
to their large ESR. The equivalent series resistance of
tantalum capacitors is also strongly dependent on the
temperature, increasing at low temperature.
Output Current Limit
Output Current is internally limited within the IC to a
typical 600 mA. The NCP146 will source this amount of
current measured with a voltage drops on the 90% of the
nominal VOUT. If the Output Voltage is directly shorted to
ground (VOUT = 0 V), the short circuit protection will limit
the output current to 630 mA (typ). The current limit and
short circuit protection will work properly over whole
temperature range and also input voltage range. There is no
limitation for the short circuit duration.
Thermal Shutdown
When the die temperature exceeds the Thermal Shutdown
threshold (TSD − 160°C typical), Thermal Shutdown event
is detected and the device is disabled. The IC will remain in
this state until the die temperature decreases below the
Thermal Shutdown Reset threshold (TSDU − 140°C typical).
Once the IC temperature falls below the 140°C the LDO is
enabled again. The thermal shutdown feature provides the
protection from a catastrophic device failure due to
accidental overheating. This protection is not intended to be
used as a substitute for proper heat sinking.
Power Dissipation
As power dissipated in the NCP146 increases, it might
become necessary to provide some thermal relief. The
maximum power dissipation supported by the device is
dependent upon board design and layout. Mounting pad
configuration on the PCB, the board material, and the
ambient temperature affect the rate of junction temperature
rise for the part. For reliable operation junction temperature
should be limited to +125°C
The maximum power dissipation the NCP146 can handle
is given by:
ƪ125° C * TAƫ
PD(MAX) +
qJA
(eq. 1)
The power dissipated by the NCP146 for given
application conditions can be calculated from the following
equations:
PD [ VINǒIGND@IOUTǓ ) IOUTǒVIN * VOUTǓ (eq. 2)
Reverse Current
The PMOS pass transistor has an inherent body diode
which will be forward biased in the case that VOUT > VIN.
Due to this fact in cases, where the extended reverse current
condition can be anticipated the device may require
additional external protection.
Power Supply Rejection Ratio
The NCP146 features very good Power Supply Rejection
ratio. If desired the PSRR at higher frequencies in the range
100 kHz − 10 MHz can be tuned by the selection of COUT
capacitor and proper PCB layout.
PCB Layout Recommendations
To obtain good transient performance and good regulation
characteristics place CIN and COUT capacitors close to the
device pins and make the PCB traces wide. In order to
minimize the solution size, use 0402 capacitors. Larger
copper area connected to the pins will also improve the
device thermal resistance. The actual power dissipation can
be calculated from the equation above (Equation 2). Expose
pad should be tied the shortest path to the GND pin.
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