參數(shù)資料
型號(hào): LP3999ITL-2.2NOPB
廠商: National Semiconductor Corporation
英文描述: Low Noise 150mA Voltage Regulator for RF/Analog Applications
中文描述: 低噪聲150mA的穩(wěn)壓器的射頻/模擬應(yīng)用
文件頁(yè)數(shù): 10/12頁(yè)
文件大?。?/td> 683K
代理商: LP3999ITL-2.2NOPB
Application Hints
POWER DISSIPATION AND DEVICE OPERATION
The permissible power dissipation for any package is a
measure of the capability of the device to pass heat from the
power source, the junctions of the IC, to the ultimate heat
sink, the ambient environment. Thus the power dissipation is
dependent on the ambient temperature and the thermal
resistance across the various interfaces between the die and
ambient air.
Re-stating the equation given in (Note 7) in the electrical
specification section, the allowable power dissipation for the
device in a given package can be calculated:
With a
θ
JA
= 255C/W, the device in the micro SMD package
returns a value of 392 mW with a maximum junction tem-
perature of 125C.
The actual power dissipation across the device can be rep-
resented by the following equation:
P
D
= (V
IN
V
OUT
) x I
OUT
.
This establishes the relationship between the power dissipa-
tion allowed due to thermal consideration, the voltage drop
across the device, and the continuous current capability of
the device. These two equations should be used to deter-
mine the optimum operating conditions for the device in the
application.
EXTERNAL CAPACITORS
In common with most regulators, the LP3999 requires exter-
nal capacitors to ensure stable operation. The LP3999 is
specifically designed for portable applications requiring mini-
mum board space and smallest components. These capaci-
tors must be correctly selected for good performance.
INPUT CAPACITOR
An input capacitor is required for stability. It is recommended
that a 1.0 μF capacitor be connected between the LP3999
input pin and ground (this capacitance value may be in-
creased without limit).
This capacitor must be located a distance of not more than
1 cm from the input pin and returned to a clean analogue
ground.Any good quality ceramic, tantalum, or film capacitor
may be used at the input.
Important:
Tantalum capacitors can suffer catastrophic fail-
ures due to surge current when connected to a low-
impedance source of power (like a battery or a very large
capacitor). If a tantalum capacitor is used at the input, it must
be guaranteed by the manufacturer to have a surge current
rating sufficient for the application.
There are no requirements for the
ESR
(Equivalent Series
Resistance) on the input capacitor, but tolerance and tem-
perature coefficient must be considered when selecting the
capacitor to ensure the capacitance will remain
1.0 μF over
the entire operating temperature range.
OUTPUT CAPACITOR
The LP3999 is designed specifically to work with very small
ceramic output capacitors. A ceramic capacitor (dielectric
types Z5U, Y5V or X7R) in the 1.0 [to 10 μF] range, and with
ESR between 5 m
to 500 m
, is suitable in the LP3999
application circuit.
For this device the output capacitor should be connected
between the V
OUT
pin and ground.
It may also be possible to use tantalum or film capacitors at
the device output, V
, but these are not as attractive for
reasons of size and cost (see the section Capacitor Charac-
teristics).
The output capacitor must meet the requirement for the
minimum value of capacitance and also have an ESR value
that is within the range 5 m
to 500 m
for stability.
NO-LOAD STABILITY
The LP3999 will remain stable and in regulation with no
external load. This is an important consideration in some
circuits, for example CMOS RAM keep-alive applications.
CAPACITOR CHARACTERISTICS
The LP3999 is designed to work with ceramic capacitors on
the output to take advantage of the benefits they offer. For
capacitance values in the range of 1 μF to 4.7 μF, ceramic
capacitors are the smallest, least expensive and have the
lowest ESR values, thus making them best for eliminating
high frequency noise. The ESR of a typical 1 μF ceramic
capacitor is in the range of 20 m
to 40 m
, which easily
meets the ESR requirement for stability for the LP3999.
The temperature performance of ceramic capacitors varies
by type. Most large value ceramic capacitors (
2.2 μF) are
manufactured with Z5U or Y5V temperature characteristics,
which results in the capacitance dropping by more than 50%
as the temperature goes from 25C to 85C.
A better choice for temperature coefficient in a ceramic
capacitor is X7R. This type of capacitor is the most stable
and holds the capacitance within
±
15% over the tempera-
ture range. Tantalum capacitors are less desirable than ce-
ramic for use as output capacitors because they are more
expensive when comparing equivalent capacitance and volt-
age ratings in the 1 μF to 4.7 μF range.
Another important consideration is that tantalum capacitors
have higher ESR values than equivalent size ceramics. This
means that while it may be possible to find a tantalum
capacitor with an ESR value within the stable range, it would
have to be larger in capacitance (which means bigger and
more costly) than a ceramic capacitor with the same ESR
value. It should also be noted that the ESR of a typical
tantalum will increase about 2:1 as the temperature goes
from 25C down to 40C, so some guard band must be
allowed.
NOISE BYPASS CAPACITOR
A bypass capacitor should be connected between the C
BY-
PASS
pin and ground to significantly reduce the noise at the
regulator output. This device pin connects directly to a high
impedance node within the bandgap reference circuitry. Any
significant loading on this node will cause a change on the
regulated output voltage. For this reason, DC leakage cur-
rent through this pin must be kept as low as possible for best
output voltage accuracy.
The use of a 0.01μF bypass capacitor is strongly recom-
mended to prevent overshoot on the output during start-up.
L
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