NSC LP2980AIM5-2.5 Micropower 50 ma ultra low-dropout regulator Datasheet

LP2980
Micropower 50 mA Ultra Low-Dropout Regulator
General Description
Features
The LP2980 is a 50 mA, fixed-output voltage regulator designed specifically to meet the requirements of
battery-powered applications.
Using an optimized VIP™ (Vertically Integrated PNP) process, the LP2980 delivers unequaled performance in all
specifications critical to battery-powered designs:
Dropout Voltage. Typically 120 mV @ 50 mA load, and 7 mV
@ 1 mA load.
Ground Pin Current. Typically 375 µA @ 50 mA load, and 80
µA @ 1 mA load.
Sleep Mode. Less than 1 µA quiescent current when ON/
OFF pin is pulled low.
Smallest Possible Size. SOT-23 and micro SMD packages
use an absolute minimum board space.
Minimum Part Count. Requires only 1 µF of external capacitance on the regulator output.
Precision Output. 0.5% tolerance output voltages available
(A grade).
5.0V, 3.3V, and 3.0V versions available as standard products.
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Ultra low dropout voltage
Output voltage accuracy 0.5% (A Grade)
Guaranteed 50 mA output current
Smallest possible size (SOT-23, micro SMD package)
Requires only 1 µF external capacitance
< 1 µA quiescent current when shutdown
Low ground pin current at all load currents
High peak current capability (150 mA typical)
Wide supply voltage range (16V max)
Fast dynamic response to line and load
Low ZOUT over wide frequency range
Overtemperature/overcurrent protection
−40˚C to +125˚C junction temperature range
Applications
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Cellular Phone
Palmtop/Laptop Computer
Personal Digital Assistant (PDA)
Camcorder, Personal Stereo, Camera
Block Diagram
DS012078-1
Connection Diagram and Ordering Information
5-Lead Small Outline Package (M5)
micro SMD, 5 Bump Package (BPA05)
DS012078-60
DS012078-3
Top View
See NS Package Number MF05A
For ordering information see Table 1
Bottom View
See NS Package Number BPA05
VIP™ is a trademark of National Semiconductor Corporation.
© 2000 National Semiconductor Corporation
DS012078
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LP2980 Micropower 50 mA Ultra Low-Dropout Regulator
April 2000
LP2980
Ordering Information
TABLE 1. Package Marking and Order Information
Output Voltage
(V)
Grade
Order Information
Package
Marking
Supplied as:
5-Lead Small Outline Package (M5)
For output voltages ≤ 2V, refer to LP2980LV datasheet. If a non-standard voltage is required, see LP2980-ADJ.
2.5
A
LP2980AIM5X-2.5
L0NA
3000 Units on Tape and Reel
2.5
A
LP2980AIM5-2.5
L0NA
1000 Units on Tape and Reel
2.5
STD
LP2980IM5X-2.5
L0NB
3000 Units on Tape and Reel
2.5
STD
LP2980IM5-2.5
L0NB
1000 Units on Tape and Reel
2.6
A
LP2980AIM5X-2.6
L48A
3000 Units on Tape and Reel
2.6
A
LP2980AIM5-2.6
L48A
1000 Units on Tape and Reel
2.6
STD
LP2980IM5X-2.6
L48B
3000 Units on Tape and Reel
2.6
STD
LP2980IM5-2.6
L48B
1000 Units on Tape and Reel
2.7
A
LP2980AIM5X-2.7
L26A
3000 Units on Tape and Reel
2.7
A
LP2980AIM5-2.7
L26A
1000 Units on Tape and Reel
2.7
STD
LP2980IM5X-2.7
L26B
3000 Units on Tape and Reel
2.7
STD
LP2980IM5-2.7
L26B
1000 Units on Tape and Reel
2.8
A
LP2980AIM5X-2.8
L13A
3000 Units on Tape and Reel
2.8
A
LP2980AIM5-2.8
L13A
1000 Units on Tape and Reel
2.8
STD
LP2980IM5X-2.8
L13B
3000 Units on Tape and Reel
2.8
STD
LP2980IM5-2.8
L13B
1000 Units on Tape and Reel
2.9
A
LP2980AIM5X-2.9
L12A
3000 Units on Tape and Reel
2.9
A
LP2980AIM5-2.9
L12A
1000 Units on Tape and Reel
2.9
STD
LP2980IM5X-2.9
L12B
3000 Units on Tape and Reel
2.9
STD
LP2980IM5-2.9
L12B
1000 Units on Tape and Reel
3.0
A
LP2980AIM5X-3.0
L02A
3000 Units on Tape and Reel
3.0
A
LP2980AIM5-3.0
L02A
1000 Units on Tape and Reel
3.0
STD
LP2980IM5X-3.0
L02B
3000 Units on Tape and Reel
3.0
STD
LP2980IM5-3.0
L02B
1000 Units on Tape and Reel
3.1
A
LP2980AIM5X-3.1
L30A
3000 Units on Tape and Reel
3.1
A
LP2980AIM5-3.1
L30A
1000 Units on Tape and Reel
3.1
STD
LP2980IM5X-3.1
L30B
3000 Units on Tape and Reel
3.1
STD
LP2980IM5-3.1
L30B
1000 Units on Tape and Reel
3.2
A
LP2980AIM5X-3.2
L31A
3000 Units on Tape and Reel
3.2
A
LP2980AIM5-3.2
L31A
1000 Units on Tape and Reel
3.2
STD
LP2980IM5X-3.2
L31B
3000 Units on Tape and Reel
3.2
STD
LP2980IM5-3.2
L31B
1000 Units on Tape and Reel
3.3
A
LP2980AIM5X-3.3
L00A
3000 Units on Tape and Reel
3.3
A
LP2980AIM5-3.3
L00A
1000 Units on Tape and Reel
3.3
STD
LP2980IM5X-3.3
L00B
3000 Units on Tape and Reel
3.3
STD
LP2980IM5-3.3
L00B
1000 Units on Tape and Reel
3.5
A
LP2980AIM5X-3.5
L27A
3000 Units on Tape and Reel
3.5
A
LP2980AIM5-3.5
L27A
1000 Units on Tape and Reel
3.5
STD
LP2980IM5X-3.5
L27B
3000 Units on Tape and Reel
3.5
STD
LP2980IM5-3.5
L27B
1000 Units on Tape and Reel
3.6
A
LP2980AIM5X-3.6
L28A
3000 Units on Tape and Reel
3.6
A
LP2980AIM5-3.6
L28A
1000 Units on Tape and Reel
3.6
STD
LP2980IM5X-3.6
L28B
3000 Units on Tape and Reel
3.6
STD
LP2980IM5-3.6
L28B
1000 Units on Tape and Reel
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LP2980
Ordering Information
(Continued)
TABLE 1. Package Marking and Order Information (Continued)
Output Voltage
(V)
Grade
Order Information
Package
Marking
Supplied as:
For output voltages ≤ 2V, refer to LP2980LV datasheet. If a non-standard voltage is required, see LP2980-ADJ.
3.8
A
LP2980AIM5X-3.8
L21A
3000 Units on Tape and Reel
3.8
A
LP2980AIM5-3.8
L21A
1000 Units on Tape and Reel
3.8
STD
LP2980IM5X-3.8
L21B
3000 Units on Tape and Reel
3.8
STD
LP2980IM5-3.8
L21B
1000 Units on Tape and Reel
4.0
A
LP2980AIM5X-4.0
L25A
3000 Units on Tape and Reel
4.0
A
LP2980AIM5-4.0
L25A
1000 Units on Tape and Reel
4.0
STD
LP2980IM5X-4.0
L25B
3000 Units on Tape and Reel
4.0
STD
LP2980IM5-4.0
L25B
1000 Units on Tape and Reel
4.5
A
LP2980AIM5X-4.5
L0XA
3000 Units on Tape and Reel
4.5
A
LP2980AIM5-4.5
L0XA
1000 Units on Tape and Reel
4.5
STD
LP2980IM5X-4.5
L0XB
3000 Units on Tape and Reel
4.5
STD
LP2980IM5-4.5
L0XB
1000 Units on Tape and Reel
4.7
A
LP2980AIM5X-4.7
L37A
3000 Units on Tape and Reel
4.7
A
LP2980AIM5-4.7
L37A
1000 Units on Tape and Reel
4.7
STD
LP2980IM5X-4.7
L37B
3000 Units on Tape and Reel
4.7
STD
LP2980IM5-4.7
L37B
1000 Units on Tape and Reel
5.0
A
LP2980AIM5X-5.0
L01A
3000 Units on Tape and Reel
5.0
A
LP2980AIM5-5.0
L01A
1000 Units on Tape and Reel
5.0
STD
LP2980IM5X-5.0
L01B
3000 Units on Tape and Reel
5.0
STD
LP2980IM5-5.0
L01B
1000 Units on Tape and Reel
micro SMD, 5 Bump Package (BPA05)
3.3
A
LP2980AIBP-3.3
250 Units on Tape and Reel
3.3
A
LP2980AIBPX-3.3
3000 Units on Tape and Reel
3.3
STD
LP2980IBP-3.3
250 Units on Tape and Reel
3.3
STD
LP2980IBPX-3.3
3000 Units on Tape and Reel
5.0
A
LP2980AIBP-5.0
250 Units on Tape and Reel
5.0
A
LP2980AIBPX-5.0
3000 Units on Tape and Reel
5.0
STD
LP2980IBP-5.0
250 Units on Tape and Reel
5.0
STD
LP2980IBPX-5.0
3000 Units on Tape and Reel
3
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LP2980
Absolute Maximum Ratings (Note 1)
ESD Rating (Note 2)
Power Dissipation (Note 3)
Input Supply Voltage (Survival)
Input Supply Voltage (Operating)
Shutdown Input Voltage (Survival)
Output Voltage (Survival), (Note 4)
IOUT (Survival)
Input-Output Voltage (Survival),
(Note 5)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
Storage Temperature Range
Operating Junction Temperature
Range
Lead Temperature
(Soldering, 5 sec.)
−65˚C to +150˚C
−40˚C to +125˚C
260˚C
2 kV
Internally Limited
−0.3V to +16V
2.1V to +16V
−0.3V to +16V
−0.3V to +9V
Short Circuit Protected
−0.3V to +16V
Electrical Characteristics
Limits in standard typeface are for TJ = 25˚C, and limits in boldface type apply over the full operating temperature range. Unless otherwise specified: VIN = VO(NOM) + 1V, IL = 1 mA, COUT = 1 µF, VON/OFF = 2V.
Symbol
∆VO
Parameter
Output Voltage
Tolerance
Conditions
Typ
LP2980AI-XX
LP2980I-XX
(Note 6)
(Note 6)
Min
Max
Min
Max
IL = 1 mA
−0.50
0.50
−1.0
1.0
1 mA < IL < 50 mA
−0.75
0.75
−1.5
1.5
2.5
−3.5
−2.5
VIN–VO
Output Voltage
VO(NOM) + 1V
Line Regulation
≤ VIN ≤ 16V
Dropout Voltage
0.007
IL = 0
1
(Note 7)
IGND
Ground Pin Current
IL = 1 mA
7
IL = 10 mA
40
IL = 50 mA
120
IL = 0
65
IL = 1 mA
80
IL = 10 mA
140
IL = 50 mA
375
VON/OFF < 0.18V
VON/OFF
0
%VNOM
3.5
0.014
0.014
0.032
0.032
3
3
5
5
10
10
15
15
60
60
90
90
150
150
225
225
95
95
125
125
110
110
170
170
220
220
460
460
600
600
1200
1200
1
1
mV
µA
ON/OFF Input Voltage
High = O/P ON
1.4
Low = O/P OFF
0.55
0.18
0.18
ION/OFF
ON/OFF Input Current
VON/OFF = 0
0
−1
−1
IO(PK)
Peak Output Current
VOUT ≥ VO(NOM) − 5%
150
en
Output Noise
BW = 300 Hz–50 kHz,
160
µV
Voltage (RMS)
COUT = 10 µF
63
dB
150
mA
Ripple Rejection
5
f = 1 kHz
1.6
%/V
(Note 8)
VON/OFF = 5V
1.6
Units
15
100
V
µA
15
100
mA
COUT = 10 µF
IO(MAX)
Short Circuit Current
RL = 0 (Steady State)
(Note 9)
Note 1: Absolute maximum ratings indicate limits beyond which damage to the component may occur. Electrical specifications do not apply when operating the device outside of its rated operating conditions.
Note 2: The ESD rating of pins 3 and 4 is 1 kV.
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(Continued)
Note 3: The maximum allowable power dissipation is a function of the maximum junction temperature, TJ(MAX), the junction-to-ambient thermal resistance, θJA, and
the ambient temperature, TA. The maximum allowable power dissipation at any ambient temperature is calculated using:
The value of θJA for the SOT-23 package is 220˚C/W and the micro SMD package is 320˚C/W. Exceeding the maximum allowable power dissipation will cause excessive die temperature, and the regulator will go into thermal shutdown.
Note 4: If used in a dual-supply system where the regulator load is returned to a negative supply, the LP2980 output must be diode-clamped to ground.
Note 5: The output PNP structure contains a diode between the VIN and VOUT terminals that is normally reverse-biased. Reversing the polarity from VIN to VOUT
will turn on this diode (see Application Hints).
Note 6: Limits are 100% production tested at 25˚C. Limits over the operating temperature range are guaranteed through correlation using Statistical Quality Control
(SQC) methods. The limits are used to calculate National’s Average Outgoing Quality Level (AOQL).
Note 7: Dropout voltage is defined as the input to output differential at which the output voltage drops 100 mV below the value measured with a 1V differential.
Note 8: The ON/OFF inputs must be properly driven to prevent misoperation. For details, refer to Application Hints.
Note 9: See Typical Performance Characteristics curves.
Basic Application Circuit
DS012078-2
*ON/OFF input must be actively terminated. Tie to VIN if this function is not to be used.
**Minimum Output Capacitance is 1 µF to insure stability over full load current range. More capacitance provides superior dynamic performance and additional
stability margin (see Application Hints).
***Do not make connections to this pin.
5
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LP2980
Electrical Characteristics
LP2980
Typical Performance Characteristics
Unless otherwise specified: TA = 25˚C, VIN = VO(NOM) + 1V,
COUT = 2.2 µF, all voltage options, ON/OFF pin tied to VIN.
Output Voltage vs
Temperature
Output Voltage vs
Temperature
DS012078-9
Output Voltage vs
Temperature
DS012078-39
Dropout Characteristics
DS012078-16
DS012078-40
Dropout Characteristics
Dropout Characteristics
DS012078-14
DS012078-15
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6
Unless otherwise specified: TA = 25˚C, VIN = VO(NOM) + 1V,
COUT = 2.2 µF, all voltage options, ON/OFF pin tied to VIN. (Continued)
Dropout Voltage vs
Temperature
Dropout Voltage vs
Load Current
DS012078-11
Ground Pin Current vs
Temperature
DS012078-20
Ground Pin Current vs
Load Current
DS012078-19
DS012078-10
Input Current vs VIN
Input Current vs VIN
DS012078-18
DS012078-17
7
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LP2980
Typical Performance Characteristics
LP2980
Typical Performance Characteristics
Unless otherwise specified: TA = 25˚C, VIN = VO(NOM) + 1V,
COUT = 2.2 µF, all voltage options, ON/OFF pin tied to VIN. (Continued)
Line Transient Response
Line Transient Response
DS012078-21
Load Transient Response
DS012078-22
Load Transient Response
DS012078-41
Load Transient Response
DS012078-42
Load Transient Response
DS012078-23
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DS012078-24
8
Unless otherwise specified: TA = 25˚C, VIN = VO(NOM) + 1V,
COUT = 2.2 µF, all voltage options, ON/OFF pin tied to VIN. (Continued)
Short Circuit Current
Instantaneous Short Circuit Current
vs Temperature
DS012078-32
DS012078-12
Short Circuit Current
Instantaneous Short Circuit Current
vs Output Voltage
DS012078-33
DS012078-43
Output Impedance vs
Frequency
Output Impedance vs
Frequency
DS012078-44
DS012078-26
9
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LP2980
Typical Performance Characteristics
LP2980
Typical Performance Characteristics
Unless otherwise specified: TA = 25˚C, VIN = VO(NOM) + 1V,
COUT = 2.2 µF, all voltage options, ON/OFF pin tied to VIN. (Continued)
Output Noise Density
Ripple Rejection
DS012078-25
DS012078-27
Input to Output Leakage
vs Temperature
Output Reverse Leakage vs
Temperature
DS012078-28
Turn-On Waveform
DS012078-29
Turn-Off Waveform
DS012078-30
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DS012078-31
10
Unless otherwise specified: TA = 25˚C, VIN = VO(NOM) + 1V,
COUT = 2.2 µF, all voltage options, ON/OFF pin tied to VIN. (Continued)
ON/OFF Pin Current vs VON/OFF
DS012078-45
11
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LP2980
Typical Performance Characteristics
LP2980
times have ESR values lower than the minimum required by
the LP2980, and relatively large capacitance change with
temperature. The manufacturer’s datasheet for the capacitor
should be consulted before selecting a value.
Application Hints
OUTPUT CAPACITOR
Like any low-dropout regulator, the LP2980 requires an output capacitor to maintain regulator loop stability. This capacitor must be selected to meet the requirements of minimum
capacitance and equivalent series resistance (ESR) range. It
is not difficult to find capacitors which meet the criteria of the
LP2980, as the acceptable capacitance and ESR ranges are
wider than for most other LDOs.
In general, the capacitor value must be at least 1 µF (over
the actual ambient operating temperature), and the ESR
must be within the range indicated in Figures 1, 2 and Figure
3. It should be noted that, although a maximum ESR is
shown in these Figures, it is very unlikely to find a capacitor
with ESR that high.
Tantalum Capacitors
Surface-mountable solid tantalum capacitors offer a good
combination of small physical size for the capacitance value,
and ESR in the range needed by the LP2980.
The results of testing the LP2980 stability with
surface-mount solid tantalum capacitors show good stability
with values of at least 1 µF. The value can be increased to
2.2 µF (or more) for even better performance, including transient response and noise.
Small value tantalum capacitors that have been verified as
suitable for use with the LP2980 are shown in Table 2. Capacitance values can be increased without limit.
Aluminum Electrolytic Capacitors
Although probably not a good choice for a production design,
because of relatively large physical size, an aluminum electrolytic capacitor can be used in the design prototype for an
LP2980 regulator. A value of at least 1 µF should be used,
and the ESR must meet the conditions of Figures 1, 2 and
Figure 3. If the operating temperature drops below 0˚C, the
regulator may not remain stable, as the ESR of the aluminum electrolytic capacitor will increase, and may exceed the
limits indicated in the Figures.
Test results of LP2980 stability using multilayer ceramic capacitors show that a minimum value of 2.2 µF is usually
needed for the 5V regulator. For the lower output voltages, or
for better performance, a higher value should be used, such
as 4.7 µF.
Multilayer ceramic capacitors that have been verified as suitable for use with the LP2980 are shown in Table 3.
TABLE 3. Surface-Mount Multilayer Ceramic Capacitor
Selection Guide
2.2 µF Surface-Mount Ceramic
Manufacturer
Tokin
Part Number
1E225ZY5U-C203
Murata
GRM42-6Y5V225Z16
4.7 µF Surface-Mount Ceramic
Manufacturer
Tokin
Part Number
1E475ZY5U-C304
DS012078-48
FIGURE 1. 1 µF ESR Range
TABLE 2. Surface-Mount Tantalum Capacitor
Selection Guide
1 µF Surface-Mount Tantalums
Manufacturer
Part Number
Kemet
T491A105M010AS
NEC
NRU105M10
Siemens
B45196-E3105-K
Nichicon
F931C105MA
Sprague
293D105X0016A2T
2.2 µF Surface-Mount Tantalums
Manufacturer
Part Number
Kemet
T491A225M010AS
NEC
NRU225M06
Siemens
B45196/2.2/10/10
Nichicon
F930J225MA
Sprague
293D225X0010A2T
DS012078-49
FIGURE 2. 2.2 µF ESR Range
Multilayer Ceramic Capacitors
Surface-mountable multilayer ceramic capacitors may be an
attractive choice because of their relatively small physical
size and excellent RF characteristics. However, they some-
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12
Technology (SMT) Assembly Considerations, it should be
noted that the pad style which must be used with the 5-pin
package is the NSMD (non-solder mask defined) type.
(Continued)
For best results during assembly, alignment ordinals on the
PC board may be used to facilitate placement of the micro
SMD device.
Micro SMD Light Sensitivity
Exposing the micro SMD device to direct sunlight will cause
misoperation of the device. Light sources such as Halogen
lamps can also affect electrical performance if brought near
to the device.
The wavelenghts which have the most detrimental effect are
reds and infra-reds, which means that the fluorescent lighting used inside most buildings has very little effect on performance. A micro SMD test board was brought to within 1 cm
of a fluorescent desk lamp and the effect on the regulated
output voltage was negligible, showing a deviation of less
than 0.1% from nominal.
DS012078-50
FIGURE 3. 10 µF ESR Range
REVERSE CURRENT PATH
The power transistor used in the LP2980 has an inherent diode connected between the regulator input and output (see
below).
DS012078-34
FIGURE 4. LP2980 Reverse Current Path
If the output is forced above the input by more than a VBE,
this diode will become forward biased and current will flow
from the VOUT terminal to VIN. No damage to the LP2980 will
occur under these conditions as long as the current flowing
into the output pin does not exceed 100 mA.
ON/OFF INPUT OPERATION
The LP2980 is shut off by pulling the ON/OFF input low, and
turned on by driving the input high. If this feature is not to be
used, the ON/OFF input should be tied to VIN to keep the
regulator on at all times (the ON/OFF input must not be left
floating).
To ensure proper operation, the signal source used to drive
the ON/OFF input must be able to swing above and below
the specified turn-on/turn-off voltage thresholds which guarantee an ON or OFF state (see Electrical Characteristics).
The ON/OFF signal may come from either a totem-pole output, or an open-collector output with pull-up resistor to the
LP2980 input voltage or another logic supply. The high-level
voltage may exceed the LP2980 input voltage, but must remain within the Absolute Maximum Ratings for the ON/OFF
pin.
It is also important that the turn-on/turn-off voltage signals
applied to the ON/OFF input have a slew rate which is
greater than 40 mV/µs.
Important: the regulator shutdown function will operate incorrectly if a slow-moving signal is applied to the ON/OFF input.
Micro SMD Mounting
The micro SMD package requires specific mounting techniques which are detailed in National Semiconductor Application Note # 1112. Referring to the section Surface Mount
13
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LP2980
Application Hints
LP2980
Typical Applications
DS012078-51
FIGURE 5. 5V/400mA Regulator
Assuming a maximum allowable junction temperature of
150˚C for the MPS2907A device, the following curves show
the maximum VIN and IL values that may be safely used for
several ambient temperatures.
The LP2980 can be used to control higher-current regulators, by adding an external PNP pass device. With the PNP
transistors shown in , the output current can be as high as
400 mA, as long as the input voltage is held within the Safe
Operation Boundary Curves shown below in.
To ensure regulation, the minimum input voltage of this regulator is 6V. This “headroom” is the sum of the VBE of the external transistor and the dropout voltage of the LP2980.
Notes:
A. Drive this input with a logic signal (see Application Hints).
If the shutdown function is not to be used, tie the ON/OFF
pin directly to the VIN pin.
B. Recommended devices (other PNP transistors can be
used if the current gain and voltage ratings are similar).
C. Capacitor is required for regulator stability. Minimum size
is shown, and may be increased without limit.
D. Increasing the output capacitance improves transient response and increases phase margin.
E. Maximum safe input voltage and load current are limited
by power dissipation in the PNP pass transistor and the
maximum ambient temperature for the specific application. If
a TO-92 transistor such as the MPS2907A is used, the thermal resistance from junction-to-ambient is 180˚C/W in still
air.
DS012078-52
FIGURE 6. Safe Operation Boundary Curves for Figure
5
DS012078-53
FIGURE 7. 5V to 3.3V @ 3A Converter
below. For best load regulation at the high load current, the
LP2980 output voltage connection should be made as close
to the load as possible.
Although this regulator can handle a much higher load current than can the LP2980 alone, it can be shut down in the
same manner as the LP2980. When the ON/OFF control is
With limited input voltage range, the LP2980 can control a
3.3V, 3A regulator with the use of a high current-gain external PNP pass transistorias shown in . If the regulator is to be
loaded with the full 3A, heat sinking will be required on the
pass transistor to keep it within its rated temperature range.
Refer to the Heatsink Thermal Resistance Requirements,
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14
tachment thermal resistance is assumed to be 1.5˚C/W. All
calculations are for 5.5V input voltage (which is worst-case
for power dissipation).
(Continued)
brought low, the converter will be in shutdown, and will draw
less than 1 µA from the source.
Notes:
A. Drive this input with a logic signal (see Application Hints).
If the shutdown function is not to be used, tie the ON/OFF
pin directly to the VIN pin.
B. Capacitor is required for regulator stability. Minimum size
is shown, and may be increased without limit.
C. Increasing the output capacitance improves transient response and increases phase margin.
D. A heatsink may be required for this transistor. The maximum allowable value for thermal resistance of the heatsink
is dependent on ambient temperature and load current (see
curves in ). Once the value is obtained from the graph, a
heatsink must be selected which has a thermal resistance
equal to or lower than this value. If the value is above
60˚C/W, no heatsink is required (the TO-220 package alone
will safely dissipate this).
For these curves, a maximum junction temperature of 150˚C
is assumed for the pass transistor. The case-to-heatsink at-
DS012078-54
FIGURE 8. Heatsink Thermal Resistance Requirements
for Figure 7
15
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LP2980
Typical Applications
LP2980
Physical Dimensions
inches (millimeters) unless otherwise noted
5-Lead Small Outline Package (M5)
NS Package Number MA05B
For Order Numbers, refer to Table 1 in the “Order Information” section of this document.
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16
LP2980
Physical Dimensions
inches (millimeters) unless otherwise noted (Continued)
NOTES: UNLESS OTHERWISE SPECIFIED
1. EPOXY COATING
2. 63Sn/37Pb EUTECTIC BUMP
3. RECOMMEND NON-SOLDER MASK DEFINED LANDING PAD.
4. PIN 1 IS ESTABLISHED BY LOWER LEFT CORNER WITH RESPECT TO TEXT ORIENTATION. REMAINING PINS ARE
NUMBERED COUNTER CLOCKWISE.
5. XXX IN DRAWING NUMBER REPRESENTS PACKAGE SIZE VARIATION WHERE X1 IS PACKAGE WIDTH, X2 IS PACKAGE LENGTH AND X3 IS PACKAGE HEIGHT.
6.NO JEDEC REGISTRATION AS OF AUG.1999.
micro SMD, 5 Bump Package (BPA05)
NS Package Number BPA05A
For Order Numbers, refer to Table 1 in the “Order Information” section of this document.
The dimensions for X1, X2 and X3 are as given:
X1 = 0.930 +/− 0.030mm
X2 = 1.107 +/− 0.030mm
X3 = 0.850 +/− 0.050mm
17
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LP2980 Micropower 50 mA Ultra Low-Dropout Regulator
Notes
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Français Tel: +33 (0) 1 41 91 8790
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