LP3964ES-3.3 National Semiconductor, LP3964ES-3.3 Datasheet - Page 13
LP3964ES-3.3
Manufacturer Part Number
LP3964ES-3.3
Description
V REG ULTRA-LDO +3.3V, SMD, 3964
Manufacturer
National Semiconductor
Datasheet
1.LP3964ES-3.3.pdf
(22 pages)
Specifications of LP3964ES-3.3
Primary Input Voltage
4.3V
Output Voltage
3.3V
Dropout Voltage Vdo
240mV
No. Of Pins
5
Output Current
800mA
Voltage Regulator Case Style
TO-263
Operating Temperature Range
-40°C To +125°C
Output Voltage Fixed
3.3V
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Application Hints
the LP396X. Derating must be applied to the manufacturer’s
ESR specification, since it is typically only valid at room
temperature.
Any applications using aluminum electrolytics should be
thoroughly tested at the lowest ambient operating tempera-
ture where ESR is maximum.
PCB LAYOUT
Good PC layout practices must be used or instability can be
induced because of ground loops and voltage drops. The
input and output capacitors must be directly connected to the
input, output, and ground pins of the LP3961/4 using traces
which do not have other currents flowing in them Kelvin
connect).
The best way to do this is to lay out C
device with short traces to the V
The regulator ground pin should be connected to the exter-
nal circuit ground so that the regulator and its capacitors
have a "single point ground".
It should be noted that stability problems have been seen in
applications where "vias" to an internal ground plane were
used at the ground points of the LP3961/4 IC and the input
and output capacitors. This was caused by varying ground
potentials at these nodes resulting from current flowing
through the ground plane. Using a single point ground tech-
nique for the regulator and it’s capacitors fixed the problem.
Since high current flows through the traces going into V
and coming from V
these pins so there is no voltage drop in series with the input
and output capacitors.
RFI/EMI SUSCEPTIBILITY
RFI (radio frequency interference) and EMI (electromagnetic
interference) can degrade any integrated circuit’s perfor-
mance because of the small dimensions of the geometries
inside the device. In applications where circuit sources are
present which generate signals with significant high fre-
quency energy content (
ensure that this does not affect the IC regulator.
If RFI/EMI noise is present on the input side of the LP396X
regulator (such as applications where the input source
comes from the output of a switching regulator), good ce-
ramic bypass capacitors must be used at the input pin of the
LP396X.
If a load is connected to the LP396X output which switches
at high speed (such as a clock), the high-frequency current
pulses required by the load must be supplied by the capaci-
tors on the LP396X output. Since the bandwidth of the
regulator loop is less than 100 kHz, the control circuitry
cannot respond to load changes above that frequency. The
means the effective output impedance of the LP396X at
frequencies above 100 kHz is determined only by the output
capacitor(s).
In applications where the load is switching at high speed, the
output of the LP396X may need RF isolation from the load. It
is recommended that some inductance be placed between
the LP396X output capacitor and the load, and good RF
bypass capacitors be placed directly across the load.
PCB layout is also critical in high noise environments, since
RFI/EMI is easily radiated directly into PC traces. Noisy
circuitry should be isolated from "clean" circuits where pos-
OUT
, Kelvin connect the capacitor leads to
>
1 MHz), care must be taken to
(Continued)
IN
, V
OUT
IN
and C
, and ground pins.
OUT
near the
IN
13
sible, and grounded through a separate path. At MHz fre-
quencies, ground planes begin to look inductive and RFI/
EMI can cause ground bounce across the ground plane.
In multi-layer PCB applications, care should be taken in
layout so that noisy power and ground planes do not radiate
directly into adjacent layers which carry analog power and
ground.
OUTPUT ADJUSTMENT
An adjustable output device has output voltage range of
1.215V to 5.1V. To obtain a desired output voltage, the
following equation can be used with R1 always a 10kΩ
resistor.
For output stability, C
OUTPUT NOISE
Noise is specified in two ways-
Spot Noise or Output noise density is the RMS sum of all
noise sources, measured at the regulator output, at a spe-
cific frequency (measured with a 1Hz bandwidth). This type
of noise is usually plotted on a curve as a function of fre-
quency.
Total output Noise or Broad-band noise is the RMS sum
of spot noise over a specified bandwidth, usually several
decades of frequencies.
Attention should be paid to the units of measurement. Spot
noise is measured in units µV/
noise is measured in µV(rms).
The primary source of noise in low-dropout regulators is the
internal reference. In CMOS regulators, noise has a low
frequency component and a high frequency component,
which depend strongly on the silicon area and quiescent
current. Noise can be reduced in two ways: by increasing the
transistor area or by increasing the current drawn by the
internal reference. Increasing the area will decrease the
chance of fitting the die into a smaller package. Increasing
the current drawn by the internal reference increases the
total supply current (ground pin current). Using an optimized
trade-off of ground pin current and die size, LP3961/LP3964
achieves low noise performance and low quiescent current
operation.
The total output noise specification for LP3961/LP3964 is
presented in the Electrical Characteristics table. The Output
noise density at different frequencies is represented by a
curve under typical performance characteristics.
SHORT-CIRCUIT PROTECTION
The LP3961and LP3964 is short circuit protected and in the
event of a peak over-current condition, the short-circuit con-
trol loop will rapidly drive the output PMOS pass element off.
Once the power pass element shuts down, the control loop
will rapidly cycle the output on and off until the average
power dissipation causes the thermal shutdown circuit to
respond to servo the on/off cycling to a lower frequency.
Please refer to the section on thermal information for power
dissipation calculations.
F
must be between 68pF and 100pF.
√
Hz or nV/
√
Hz and total output
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