NSC LP3878SD-ADJ

LP3878-ADJ
Micropower 800mA Low Noise "Ceramic Stable"
Adjustable Voltage Regulator for 1V to 5V Applications
General Description
Features
The LP3878-ADJ is an 800 mA adjustable output voltage
regulator designed to provide high performance and low
noise in applications requiring output voltages as low as
1.0V.
Using an optimized VIP™ (Vertically Integrated PNP) process, the LP3878-ADJ delivers superior performance:
Ground Pin Current: Typically 5.5 mA @ 800 mA load, and
180 µA @ 100 µA load.
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Low Power Shutdown: The LP3878-ADJ draws less than
10 µA quiescent current when shutdown pin is pulled low.
Precision Output: Guaranteed output voltage accuracy is
1% at room temperature.
Low Noise: Broadband output noise is only 18 µV (typical)
with 10 nF bypass capacitor.
1.0V to 5.5V output
Designed for use with low ESR ceramic capacitors
Very low output noise
8 Lead PSOP and LLP surface mount package
< 10 µA quiescent current in shutdown
Low ground pin current at all loads
Over-temperature/over-current protection
-40˚C to +125˚C operating junction temperature range
Applications
n ASIC Power Supplies In:
- Desktops, Notebooks and Graphic Cards
- Set Top Boxes, Printers and Copiers
n DSP and FPGA Power Supplies
n SMPS Post-Regulator
n Medical Instrumentation
Basic Application Circuit
20120903
*Capacitance values shown are minimum required to assure stability. Larger output capacitor provides improved dynamic response. Output capacitor must
meet ESR requirements (see Application Information).
**The Shutdown pin must be actively terminated (see Application Information). Tie to INPUT (Pin 4) if not used.
VIP™ is a trademark of National Semiconductor Corporation.
© 2005 National Semiconductor Corporation
DS201209
www.national.com
LP3878-ADJ Micropower 800mA Low Noise "Ceramic Stable" Adjustable Voltage Regulator for 1V
to 5V Applications
May 2005
LP3878-ADJ
Connection Diagrams
8 Lead PSOP Package (MRA)
8 Lead LLP Surface Mount Package (SD)
20120930
Top View
See NS Package Number MRA08A
20120950
Top View
See NS Package Number SDC08A
Ordering Information
TABLE 1. Package Marking and Ordering Information
Output Voltage
Grade
Order Information
ADJ
STD
LP3878MR-ADJ
Supplied as:
ADJ
STD
LP3878MRX-ADJ
2500 Units on Tape and Reel
ADJ
STD
LP3878SD-ADJ
1000 Units on Tape and Reel
ADJ
STD
LP3878SDX-ADJ
4500 Units on Tape and Reel
95 Units per Rail
Pin Description
PIN
NAME
1
BYPASS
2
N/C
3
GROUND
4
INPUT
5
OUTPUT
6
ADJ
FUNCTION
The capacitor connected between BYPASS and GROUND lowers
output noise voltage level and is required for loop stability.
DO NOT CONNECT. This pin is used for post package test and must
be left floating.
Device ground.
Input source voltage.
Regulated output voltage.
Provides feedback to error amplifier from the resistive divider that sets
the output voltage.
7
N/C
8
SHUTDOWN
Output is enabled above turn-on threshold voltage. Pull down to turn off
regulator output.
PSOP, LLP
DAP
SUBSTRATE
GROUND
The exposed die attach pad should be connected to a thermal pad at
ground potential. For additional information on using National
Semiconductor’s Non Pull Back LLP package, please refer to LLP
application note AN-1187
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No internal connection.
2
Power Dissipation (Note 3)
If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.
Input Supply Voltage (Survival)
Storage Temperature Range
−65˚C to +150˚C
Operating Junction
Range
Temperature
-40˚C to +125˚C
Lead Temperature
seconds)
(Soldering, 5
2.5V to +16V
ADJ Pin
−0.3V to +6V
Output Voltage (Survival) (Note 4)
−0.3V to +6V
Short Circuit
Protected
Input-Output Voltage (Survival)
(Note 5)
2 kV
Shutdown Pin
−0.3V to +16V
Input Supply Voltage (Typical
Operating)
IOUT (Survival)
260˚C
ESD Rating (Note 2)
Internally Limited
−0.3V to +16V
1kV
Electrical Characteristics
Limits in standard typeface are for TJ = 25˚C, and limits in boldface type apply over the temperature range of -40˚C to 125˚C.
Limits are guaranteed through design, testing, or correlation. The limits are used to calculate National’s Average Outgoing
Quality Level (AOQL). Unless otherwise specified: VIN = 3.0V, VOUT = 1V, IL = 1 mA, COUT = 10 µF, CIN = 4.7 µF, VS/D = 2V,
CBYPASS = 10 nF.
Symbol
VADJ
Parameter
Conditions
Adjust Pin Voltage
1 mA ≤ IL ≤ 800 mA
3.0V ≤ VIN ≤ 6V
Output Voltage Line
Regulation
VIN (min)
VDO
IGND
Minimum Input
Voltage Required
To Maintain Output
Regulation
Dropout Voltage
(Note 6)
VOUT = 3.8V
Ground Pin Current
Max
1.00
1.01
0.98
0.97
1.00
1.02
1.03
Units
V
0.014
0.007
0.032
IL = 800 mA
VOUT ≥ VOUT(NOM) - 1%
2.5
3.1
IL = 800 mA
VOUT ≥ VOUT(NOM) - 1%
0 ≤ TJ ≤ 125˚C
2.5
2.8
IL = 750 mA
VOUT ≥ VOUT(NOM) - 1%
2.5
3.0
IL = 100 µA
1
2
3
IL = 200 mA
150
200
300
IL = 800 mA
475
600
1100
IL = 100 µA
180
1.5
IL = 800 mA
5.5
IO(PK)
Peak Output
Current
VOUT ≥ VOUT(NOM) − 5%
IO(MAX)
Short Circuit
Current
RL = 0 (Steady State)
en
Output Noise
Voltage (RMS)
BW = 100 Hz to 100 kHz
CBYPASS = 10 nF
Ripple Rejection
f = 1 kHz
ADJ Pin Bias
Current (Sourcing)
Typical
3.0V ≤ VIN ≤ 16V
IL = 200 mA
IADJ
Min
0.99
200
225
%/V
V
mV
µA
2
3.5
8.5
mA
15
1200
mA
1300
IL = 800 mA
3
18
µV(RMS)
60
dB
200
nA
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LP3878-ADJ
Absolute Maximum Ratings (Note 1)
LP3878-ADJ
Electrical Characteristics
(Continued)
Limits in standard typeface are for TJ = 25˚C, and limits in boldface type apply over the temperature range of -40˚C to 125˚C.
Limits are guaranteed through design, testing, or correlation. The limits are used to calculate National’s Average Outgoing
Quality Level (AOQL). Unless otherwise specified: VIN = 3.0V, VOUT = 1V, IL = 1 mA, COUT = 10 µF, CIN = 4.7 µF, VS/D = 2V,
CBYPASS = 10 nF.
Symbol
Parameter
Conditions
Min
Typical
Max
1.4
1.6
Units
SHUTDOWN INPUT
VS/D
S/D Input Voltage
VH = Output ON
VL = Output OFF
IIN ≤ 10 µA
IS/D
S/D Input Current
0.04
0.20
V
VOUT ≤ 10 mV
IIN ≤ 50 µA
0.6
VS/D = 0
0.02
−1
5
15
VS/D = 5V
µA
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: ESD testing was performed using Human Body Model, a 100 pF capacitor discharged through a 1.5 kΩ resistor.
Note 3: The maximum allowable power dissipation is a function of the maximum junction temperature, TJ(MAX), the junction-to-ambient thermal resistance, θJ−A,
and the ambient temperature, TA. The maximum allowable power dissipation at any ambient temperature is calculated using:
The value of θJ−A for the LLP (SD) and PSOP (MRA) packages are specifically dependent on PCB trace area, trace material, and the number of layers and thermal
vias. If a four layer board is used with maximum vias from the IC center to the heat dissipating copper layers, values of θJ−A which can be obtained are approximately
60˚C/W for the PSOP-8 and 40˚C/W for the LLP-8 package. For improved thermal resistance and power dissipation for the LLP package, refer to Application Note
AN-1187. 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 LP3878-ADJ 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. Forcing the output above the input will turn
on this diode and may induce a latch-up mode which can damage the part (see Application Hints).
Note 6: Dropout voltage spec applies only if VIN is sufficient so that it does not limit regulator operation.
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IGND vs Temperature
Minimum VIN Over Temperature
20120921
20120920
IGND vs ILoad
VOUT vs Temperature
20120959
20120922
Minimum VIN vs VOUT
Minimum VIN vs VOUT
20120952
20120951
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LP3878-ADJ
Typical Performance Characteristics Unless otherwise specified: VIN = 3.3V, VOUT = 1V, IL = 1 mA,
CIN = 4.7 µF, COUT = 10 µF, VS/D = 2V, CBYP = 10 nF, TJ = 25˚C.
LP3878-ADJ
Typical Performance Characteristics Unless otherwise specified: VIN = 3.3V, VOUT = 1V, IL = 1 mA,
CIN = 4.7 µF, COUT = 10 µF, VS/D = 2V, CBYP = 10 nF, TJ = 25˚C. (Continued)
Minimum VIN vs VOUT
Ripple Rejection
20120953
20120954
Ripple Rejection
Line Transient Response
20120931
20120958
Line Transient Response
Line Transient Response
20120932
20120933
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Line Transient Response
Line Transient Response
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20120936
Line Transient Response
Line Transient Response
20120934
20120937
Line Transient Response
Line Transient Response
20120939
20120940
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LP3878-ADJ
Typical Performance Characteristics Unless otherwise specified: VIN = 3.3V, VOUT = 1V, IL = 1 mA,
CIN = 4.7 µF, COUT = 10 µF, VS/D = 2V, CBYP = 10 nF, TJ = 25˚C. (Continued)
LP3878-ADJ
Typical Performance Characteristics Unless otherwise specified: VIN = 3.3V, VOUT = 1V, IL = 1 mA,
CIN = 4.7 µF, COUT = 10 µF, VS/D = 2V, CBYP = 10 nF, TJ = 25˚C. (Continued)
Line Transient Response
Line Transient Response
20120941
20120942
Load Transient Response
Load Transient Response
20120945
20120943
Load Transient Response
Load Transient Response
20120946
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20120944
8
Turn-On Characteristics
Turn-Off Characteristics
20120956
20120955
9
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LP3878-ADJ
Typical Performance Characteristics Unless otherwise specified: VIN = 3.3V, VOUT = 1V, IL = 1 mA,
CIN = 4.7 µF, COUT = 10 µF, VS/D = 2V, CBYP = 10 nF, TJ = 25˚C. (Continued)
LP3878-ADJ
Block Diagram
20120901
Application Information
PACKAGE INFORMATION
The LP3878-ADJ is offered in the 8 lead PSOP or LLP
surface mount packages to allow for increased power dissipation compared to the SO-8 and Mini SO-8. For details on
thermal performance as well as mounting and soldering
specifications, refer to Application Note AN-1187.
EXTERNAL CAPACITORS
Like any low-dropout regulator, the LP3878-ADJ requires
external capacitors for regulator stability. These capacitors
must be correctly selected for good performance.
INPUT CAPACITOR: A capacitor whose value is at least 4.7
µF ( ± 20%) is required between the LP3878-ADJ input and
ground. A good quality X5R / X7R ceramic capacitor should
be used.
Capacitor tolerance and temperature variation must be considered when selecting a capacitor (see Capacitor Characteristics section) to assure the minimum requirement of
input capacitance is met over all operating conditions.
The input capacitor must be located not more than 0.5" from
the input pin and returned to a clean analog ground. Any
good quality ceramic or tantalum capacitor may be used,
assuming the minimum input capacitance requirement is
met.
OUTPUT CAPACITOR: The LP3878-ADJ requires a ceramic output capacitor whose size is at least 10 µF ( ± 20%).
A good quality X5R / X7R ceramic capacitor should be used.
Capacitance tolerance and temperature characteristics must
be considered when selecting an output capacitor.
The LP3878-ADJ is designed specifically to work with ceramic output capacitors, utilizing circuitry which allows the
regulator to be stable across the entire range of output
current with an ultra low ESR output capacitor.
The output capacitor selected must meet the requirement for
minimum amount of capacitance and also have an ESR
(equivalent series resistance) value which is within the
stable range. A curve is provided which shows the stable
ESR range as a function of load current (see Figure 1).
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20120938
FIGURE 1. Stable Region For Output Capacitor ESR
Important: The output capacitor must maintain its ESR
within the stable region over the full operating temperature
range of the application to assure stability.
The output capacitor ESR forms a zero which is required to
add phase lead near the loop gain crossover frequency,
typically in the range of 50kHz to 200 kHz. The ESR at lower
frequencies is of no importance. Some capacitor manufacturers list ESR at low frequencies only, and some give a
formula for Dissipation Factor which can be used to calculate
a value for a term referred to as ESR. However, since the DF
formula is usually at a much lower frequency than the range
listed above, it will give an unrealistically high value. If good
quality X5R or X7R ceramic capacitors are used, the actual
ESR in the 50 kHz to 200 kHz range will not exceed 25 milli
Ohms. If these are used as output capacitors for the
LP3878-ADJ, the regulator stability requirements are satisfied.
10
CAPACITOR CHARACTERISTICS
(Continued)
CERAMIC: The LP3878-ADJ was designed to work with
ceramic capacitors on the output to take advantage of the
benefits they offer: for capacitance values in the 10 µF
range, ceramics are the least expensive and also have the
lowest ESR values (which makes them best for eliminating
high-frequency noise). The ESR of a typical 10 µF ceramic
capacitor is in the range of 5 mΩ to 10 mΩ, which meets the
ESR limits required for stability by the LP3878-ADJ.
It is important to remember that capacitor tolerance and
variation with temperature must be taken into consideration
when selecting an output capacitor so that the minimum
required amount of output capacitance is provided over the
full operating temperature range. (See Capacitor Characteristics section).
The output capacitor must be located not more than 0.5"
from the output pin and returned to a clean analog ground.
One disadvantage of ceramic capacitors is that their capacitance can vary with temperature. Many large value ceramic
capacitors (≥ 2.2 µF) are manufactured with the Z5U or Y5V
temperature characteristic, which results in the capacitance
dropping by more than 50% as the temperature goes from
25˚C to 85˚C.
Another significant problem with Z5U and Y5V dielectric
devices is that the capacitance drops severely with applied
voltage. A typical Z5U or Y5V capacitor can lose 60% of its
rated capacitance with half of the rated voltage applied to it.
NOISE BYPASS CAPACITOR: The 10 nF capacitor on the
Bypass pin significantly reduces noise on the regulator output and is required for loop stability. However, the capacitor
is connected directly to a high-impedance circuit in the bandgap reference.
Because this circuit has only a few microamperes flowing in
it, any significant loading on this node will cause a change in
the regulated output voltage. For this reason, DC leakage
current through the noise bypass capacitor must never exceed 100 nA, and should be kept as low as possible for best
output voltage accuracy.
For these reasons, X7R and X5R type ceramic capacitors must be used on the input and output of the
LP3878-ADJ.
The types of capacitors best suited for the noise bypass
capacitor are ceramic and film. High-quality ceramic capacitors with either NPO or COG dielectric typically have very
low leakage. 10 nF polypropolene and polycarbonate film
capacitors are available in small surface-mount packages
and typically have extremely low leakage current.
SHUTDOWN INPUT OPERATION
The LP3878-ADJ is shut off by pulling the Shutdown input
low, and turned on by pulling it high. If this feature is not to be
used, the Shutdown input should be tied to VIN to keep the
regulator output on at all times.
FEEDFORWARD CAPACITOR
The feedforward capacitor designated CFF in the Basic Application circuit is required to increase phase margin and
assure loop stability. Improved phase margin also gives
better transient response to changes in load or input voltage,
and faster settling time on the output voltage when transients
occur. CFF forms both a pole and zero in the loop gain, the
zero providing beneficial phase lead (which increases phase
margin) and the pole adding undesirable phase lag (which
should be minimized). The zero frequency is determined
both by the value of CFF and R1:
fz = 1 / (2 x π x CFF x R1)
The pole frequency resulting from CFF is determined by the
value of CFF and the parallel combination of R1 and R2:
fp = 1 / (2 x π x CFF x (R1 // R2))
At higher output voltages where R1 is much greater than R2,
the value of R2 primarily determines the value of the parallel
combination of R1 // R2. This puts the pole at a much higher
frequency than the zero. As the regulated output voltage is
reduced (and the value of R1 decreases), the parallel effect
of R2 diminishes and the two equations become equal (at
which point the pole and zero cancel out). Because the pole
frequency gets closer to the zero at lower output voltages,
the beneficial effects of CFF are increased if the frequency
range of the zero is shifted slightly higher for applications
with low Vout (because then the pole adds less phase lag at
the loop’s crossover frequency).
CFF should be selected to place the pole zero pair at a
frequency where the net phase lead added to the loop at the
crossover frequency is maximized. The following design
guidelines were obtained from bench testing to optimize
phase margin, transient response, and settling time:
For Vout ≤ 2.5V: CFF should be selected to set the zero
frequency in the range of about 50 kHz to 200 kHz.
For Vout > 2.5V: CFF should be selected to set the zero
frequency in the range of about 20 kHz to 100 kHz.
To assure proper operation, the signal source used to drive
the Shutdown input must be able to swing above and below
the specified turn-on/turn-off voltage thresholds listed in the
Electrical Characteristics section under VON/OFF.
REVERSE INPUT-OUTPUT VOLTAGE
The PNP power transistor used as the pass element in the
LP3878-ADJ has an inherent diode connected between the
regulator output and input.
During normal operation (where the input voltage is higher
than the output) this diode is reverse-biased.
However, if the output is pulled above the input, this diode
will turn ON and current will flow into the regulator output.
In such cases, a parasitic SCR can latch which will allow a
high current to flow into VIN (and out the ground pin), which
can damage the part.
In any application where the output may be pulled above the
input, an external Schottky diode must be connected from
VIN to VOUT (cathode on VIN, anode on VOUT), to limit the
reverse voltage across the LP3878-ADJ to 0.3V (see Absolute Maximum Ratings).
SETTING THE OUTPUT VOLTAGE
The output voltage is set using resistors R1 and R2 (see
Basic Application Circuit).
The formula for output voltage is:
VOUT = VADJ x (1 + (R1 / R2))
R2 must be less than 5 kΩ to ensure loop stability.
To prevent voltage errors, R1 and R2 must be located near
the LP3878-ADJ and connected via traces with no other
currents flowing in them (Kelvin connect). The bottom of the
R1/R2 divider must be connected directly to the LP3878ADJ ground pin.
11
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LP3878-ADJ
Application Information
LP3878-ADJ
Physical Dimensions
inches (millimeters)
unless otherwise noted
8 Lead LLP Surface Mount PackagePackage
NS Package Number SDC08A
8-Lead PSOP Package (PSOP-8)
NS Package Number MRA08A
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12
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the right at any time without notice to change said circuitry and specifications.
For the most current product information visit us at www.national.com.
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LP3878-ADJ Micropower 800mA Low Noise "Ceramic Stable" Adjustable Voltage Regulator for 1V
to 5V Applications
Notes