STMicroelectronics LD49300PT10R 3 a very low drop-out voltage regulator Datasheet

LD49300XX08
LD49300XX10, LD49300XX12
3 A very low drop-out voltage regulator
Features
■
Input voltage range:
– VI = 1.4 V to 5.5 V
– VBIAS = 3 V to 6 V
■
Stable with ceramic capacitor
■
±1.5 % initial tolerance
■
Maximum dropout voltage (VI - VO) of 400 mV
over temperature
■
Adjustable output voltage down to 0.8 V
■
Ultra fast transient response (up to 10 MHz
bandwidth)
■
Excellent line and load regulation
specifications
■
Logic controlled shutdown option
■
Thermal shutdown and current limit protection
■
Junction temperature range: - 25 °C to 125 °C
Applications
■
Graphics processors
■
PC add-in cards
■
Microprocessor core voltage supply
■
Low voltage digital ICs
■
High efficiency linear power supplies
■
SMPS post regulators
Table 1.
PPAK
Description
The LD49300xx is a high-bandwidth, low dropout, 3.0 A voltage regulator, ideal for powering
core voltages of low-power microprocessors. The
LD49300xx implements a dual supply
configuration allowing for very low output
impedance and very fast transient response. The
LD49300xx requires a bias input supply and a
main input supply, allowing for ultra-low input
voltages on the main supply rail. The input supply
operates from 1.4 V to 5.5 V and the bias supply
requires between 3 V and 6 V for proper
operation. The LD49300xx offers fixed output
voltages from 0.8 V to 1.8 V and adjustable output
voltages down to 0.8 V. The LD49300xx requires a
minimum output capacitance for stability, and
works optimally with small ceramic capacitors.
Device summary
Order codes
Package
Packaging
LD49300PT08R (1)
PPAK (Tape and reel)
2500 parts per reel
LD49300PT10R
PPAK (Tape and reel)
2500 parts per reel
LD49300PT12R
PPAK (Tape and reel)
2500 parts per reel
1. Adjustable version.
June 2010
Doc ID 12861 Rev 3
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www.st.com
20
Contents
LD49300XX08, LD49300XX10, LD49300XX12
Contents
1
Typical application circuits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
2
Alternative application circuits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
3
Pin configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
4
Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
5
Maximum ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
6
Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
7
Typical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
8
Application hints . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
8.1
Input supply voltage (VIN) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
8.2
Bias supply voltage (VBIAS) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
8.3
External capacitors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
8.4
Output capacitor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
8.5
Minimum load current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
8.6
Power sequencing recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
8.7
Power dissipation/heatsinking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
8.8
Heatsinking PPAK package . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
8.9
Adjustable regulator design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
8.10
Enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
9
Package mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
10
Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
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1
Typical application circuits
Figure 1.
Adjustable version
Figure 2.
Fixed version with enable
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Typical application circuits
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Alternative application circuits
LD49300XX08, LD49300XX10, LD49300XX12
2
Alternative application circuits
Figure 3.
Single supply voltage solution
Figure 4.
LD49300xx plus DC-DC pre-regulator to reduce power dissipation
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LD49300XX08, LD49300XX10, LD49300XX12
3
Pin configuration
Figure 5.
Pin connections (top view)
Table 2.
Pin description
Pin n°
Symbol
Pin configuration
Note
EN
Enable (Input): Logic High = Enable, Logic Low = Shutdown.
ADJ
Adjustable regulator feedback input. Connect to resistor voltage divider.
2
VIN
Input voltage which supplies current to the output power device.
3
GND
Ground (TAB is connected to ground).
4
VOUT
Regulator output.
5
VBIAS
Input bias voltage for powering all circuitry on the regulator with the exception of the output
power device.
1
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Diagram
LD49300XX08, LD49300XX10, LD49300XX12
4
Diagram
Figure 6.
Block diagram
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LD49300XX08, LD49300XX10, LD49300XX12
5
Maximum ratings
Table 3.
Absolute maximum ratings
Symbol
Parameter
Maximum ratings
Value
Unit
VIN
Supply voltage
-0.3 to 7
V
VOUT
Output voltage
-0.3 to VIN + 0.3
-0.3 to VBIAS + 0.3
V
VBIAS
BIAS Supply voltage
-0.3 to 7
V
VEN
Enable input voltage
-0.3 to 7
V
PD
Power dissipation
TSTG
Note:
Internally Limited
Storage temperature range
-50 to 150
°C
1
Absolute maximum ratings are those values beyond which damage to the device may occur.
Functional operation under these conditions is not implied.
2
All the values are referred to ground.
Table 4.
Operating ratings
Symbol
Parameter
Value
Unit
VIN
Supply voltage
1.4 to 5.5
V
VOUT
Output voltage
0.8 to 4.5
V
VBIAS
BIAS Supply voltage
3 to 6
V
VEN
Enable input voltage
0 to VBIAS
V
Junction temperature range
- 25 to 125
°C
TJ
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Electrical characteristics
6
LD49300XX08, LD49300XX10, LD49300XX12
Electrical characteristics
(TJ = - 25 °C to 125 °C, VBIAS = VO + 2.1 V (1); VI = VO + 1 V; VEN = VBIAS (2), IO = 10 mA;
CI = 1 µF; CO = 10 µF; CBIAS = 1 µF; unless otherwise specified. Typical values are referred
to TJ = 25 °C).
Table 5.
Electrical characteristics
Symbol
VO
Parameter
Output voltage accuracy
Test conditions
Min.
TJ = 25 °C, fixed voltage options
-1.5
1.5
-3
3
-0.1
0.1
%/V
1
%
Over temperature range
VLINE
Line regulation
VI = VO + 1 V to 5.5 V
VLOAD
Load regulation
IL = 0 mA to 3 A, VBIAS ≥ 3 V
VDROP
Dropout voltage (VI - VO)
VDROP
Dropout voltage (VBIAS- VO)
IGND
IGND_SHD
IVBIAS
IL
Ground pin current
Ground pin current in shutdown
Current through VBIAS
Current limit
Typ.
Max.
Unit
%
IL = 1.5 A
200
IL = 3 A
400
mV
IL = 3 A (1)
1.5
2.1
IL = 0 mA
4
6
IL = 3 A
4
6
V
mA
VEN ≤ 0.4 V (2)
5
IL = 0 mA
3
5
IL = 3 A
3
5
µA
mA
VO = 0 V
4.5
Regulator Enable
1.4
A
Enable input (2)
VEN
Enable input threshold (fixed
voltage only)
IEN
Enable pin input current
V
Regulator Shutdown
0.4
0.1
1
µA
Reference
VREF
Reference voltage
SVR
Supply voltage rejection
TJ = 25 °C
0.788
0.8
0.812
Over temperature range
0.776
0.8
0.824
V
VI = 2.5 V ± 0.5 V, VO = 1 V,
F = 120 Hz, VBIAS = 3.3 V
1. For VO ≤ 1 V, VBIAS dropout specification does not apply due to a minimum 3 V VBIAS input.
2. Fixed output voltage version only.
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dB
LD49300XX08, LD49300XX10, LD49300XX12
Typical characteristics
7
Typical characteristics
Figure 7.
Reference voltage vs. temperature
Figure 8.
Figure 9.
Load regulation vs. temperature
Figure 10. Line regulation vs. temperature
Figure 11. Output voltage vs. input voltage
Output voltage vs. temperature
Figure 12. Dropout voltage (VIN-VOUT) vs.
temperature
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Typical characteristics
LD49300XX08, LD49300XX10, LD49300XX12
Figure 13. Dropout voltage (VIN-VOUT) vs.
temperature
Figure 14. VBIAS pin current vs. temperature
Figure 15. Noise vs. frequency
Figure 16. Quiescent current vs. temperature
Figure 17. Supply voltage rejection vs. output Figure 18. Stability region vs. COUT & high
current
ESR
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LD49300XX08, LD49300XX10, LD49300XX12
Typical characteristics
Figure 19. Stability region vs. COUT & low ESR Figure 20. VBIAS & VIN start up transient
response (VIN and VBIAS start up at
the same time)
VIN=VBIAS=VINH=3.1V, VOUT=1V, COUT=1µF
Figure 21. VIN start up transient response
(VBIAS start up before VIN)
Figure 22. VIN start up transient response
(VBIAS start up before VIN)
VIN=2.5V, VBIAS=VINH=3.1V, VOUT=1V, COUT=1µF
VIN=2.5V, VBIAS=VINH=3.1V, VOUT=1V, COUT=1µF
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Typical characteristics
LD49300XX08, LD49300XX10, LD49300XX12
Figure 23. VIN start up transient response
(VBIAS start up before VIN and
VINH = VIN)
Figure 24. Load transient response
VIN=VINH=2.5V, VBIAS=3.1V, VOUT=1V, COUT=1µF
VIN=2.5V, VBIAS=5V, VOUT=1.8V, IOUT=10mA to 3A,
COUT = 10 µF
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8
Application hints
Application hints
The LD49300xx is an ultra-high performance, low dropout linear regulator, designed for high
current application that requires fast transient response. The LD49300xx operates from two
input voltages, to reduce dropout voltage. The LD49300xx is designed so that a minimum of
external component are necessary.
8.1
Input supply voltage (VIN)
VIN provides the power input current to the LD49300xx. The minimum input voltage can be
as low as 1.4 V, allowing conversion from very low voltage supplies to achieve low output
voltage levels with very low power dissipation.
8.2
Bias supply voltage (VBIAS)
The LD49300xx control circuitry is supplied the VBIAS pin which requires a very low bias
current (3 mA typ.) even at the maximum output current level (3 A). A bypass capacitor on
the bias pin is recommended to improve the performance of the LD49300xx during line and
load transient. The small ceramic capacitor from VBIAS to ground reduces high frequency
noise that could be injected into the control circuitry from the bias rail. In typical applications
a 1 µF ceramic chip capacitor may be used. The VBIAS input voltage must be 2.1 V above
the output voltage, with a minimum VBIAS input voltage of 3 V.
8.3
External capacitors
To assure regulator stability, input and output capacitors are required as shown in the typical
application circuit.
8.4
Output capacitor
The LD49300xx requires a minimum output capacitance to maintain stability. A ceramic chip
capacitor of at least 1 µF is required. However, specific capacitor selection could be needed
to ensure the transient response. A 1 µF ceramic chip capacitor satisfies most applications
but 10 µF is recommended to ensure better transient performances. In applications where
the VIN level is close to the maximum operating voltage (VIN > 4 V), it is strongly
recommended to use an output capacitors of, at least, 10 µF in order to avoid over-voltage
stress on the Input/output power pins during short circuit conditions due to parasitic
inductive effect. The output capacitor must be located as close as possible to the output pin
of the LD49300xx. The ESR (equivalent series resistance) of the output capacitor must be
within the "STABLE" region as shown in the typical characteristics figures. Both ceramic and
tantalum capacitors are suitable.
8.5
Minimum load current
The LD49300xx does not require a minimum load to maintain output voltage regulation.
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Application hints
8.6
LD49300XX08, LD49300XX10, LD49300XX12
Power sequencing recommendations
In order to ensure the correct biasing and settling of the regulator internal circuitry during the
startup phase, as well as to avoid overvoltage spikes at the output, it is recommended to
provide for the correct power sequencing.
As a general rule the VIN and VINH signals timings at startup should be chosen properly, so
that they are applied to the device after the VBIAS voltage is already settled at its minimum
operative value (see paragraph 8.2: Bias supply voltage (VBIAS)). This can be achieved, for
instance, by avoiding too slow VBIAS rising edges (Tr > 10 ms).
Provided that the above condition is satisfied, when fast VIN transient input (Tr < 100 µs) is
present, a smooth startup, with limited overvoltage on the output, can be obtained by
applying VIN voltage at the same time as the VBIAS voltage (refer to Figure 20, Figure 21
and Figure 22 on page 11).
In the fixed voltage versions it is possible to reduce overvoltage spikes during very fast
startup (Tr << 100 µs) by pulling the VINH pin up to VIN voltage (see Figure 23 on page 12).
8.7
Power dissipation/heatsinking
A heatsink may be required depending on the maximum power dissipation and maximum
ambient temperature of the application. Under all possible conditions, the junction
temperature must be within the range specified under operating conditions. The total power
dissipation of the device is given by:
PD = VIN x IIN + VBIAS x IBIAS - VOUT x IOUT
Where:
●
VIN, Input supply voltage
●
VBIAS, Bias supply voltage
●
VOUT, Output voltage
●
IOUT, Load current
From this data, we can calculate the thermal resistance (θSA) required for the heat sink
using the following formula:
θSA = (TJ - TA/PD) - (θJC + θCS)
The maximum allowed temperature rise (TRmax) depends on the maximum ambient
temperature (TAmax) of the application, and the maximum allowable junction temperature
(TJmax):
TRmax = TJmax - TAmax
The maximum allowable value for junction to ambient thermal resistance, θJA, can be
calculated using the formula:
θJAmax = TRmax / PD
This part is available for the PPAK package.
The thermal resistance depends on the amount of copper area or heat sink, and on air flow.
If the maximum allowable value of θJA calculated above is ≥100 °C/W for the PPAK
package, no heatsink is needed since the package can dissipate enough heat to satisfy
these requirements. If the value for allowable θJA falls below these limits, a heat sink is
required as described below.
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LD49300XX08, LD49300XX10, LD49300XX12
8.8
Application hints
Heatsinking PPAK package
The PPAK package uses the copper plane on the PCB as a heatsink. The tab of these
packages is soldered to the copper plane for heat sinking. It is also possible to use the PCB
ground plane a heatsink. This area can be the inner GND layer of a multi-layer PCB, or, in a
dual layer PCB, it can be an unbroken GND area on the opposite side where the IC is
situated with a dissipating area thermally connected through vias holes, filled by solder.
Figure 25 shows a curve for θJA of the PPAK package for different copper area sizes, using
a typical PCB with 1/16 in thick G10/FR4.
Figure 25.
θJA vs. Copper Area for PPAK package
8.9
Adjustable regulator design
The LD49300xx adjustable version allows fixing output voltage anywhere between 0.8 V and
4.5 V using two resistors as shown in the typical application circuit. For example, to fix the
R1 resistor value between VOUT and the ADJ pin, the resistor value between ADJ and GND
(R2) is calculated by:
R2 = R1 [0.8 / (VOUT - 0.8)]
Where VOUT is the desired output voltage.
It is suggested to use R1 values lower than 10 kΩ to obtain better load transient
performances. Even, higher values up to 100 kΩ are suitable.
8.10
Enable
The fixed output voltage versions of LD49300xx feature an active high enable input (EN)
that allows on-off control of the regulator. The EN input threshold is guaranteed between 0.4
V and 1.4 V, for simple logic interfacing. The regulator is set in shut down mode when VEN <
0.4 V and it is in operating mode (VOUT activated) when VEN > 1.4 V. If not in use, the EN pin
must be tied directly to the VIN to keep the regulator continuously activated. The En pin must
not be left at high impedance.
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Package mechanical data
9
LD49300XX08, LD49300XX10, LD49300XX12
Package mechanical data
In order to meet environmental requirements, ST offers these devices in different grades of
ECOPACK® packages, depending on their level of environmental compliance. ECOPACK®
specifications, grade definitions and product status are available at: www.st.com.
ECOPACK® is an ST trademark.
16/20
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LD49300XX08, LD49300XX10, LD49300XX12
Package mechanical data
PPAK mechanical data
mm.
inch.
Dim.
Min.
Typ.
Max.
Min.
Typ.
Max.
A
2.2
2.4
0.086
0.094
A1
0.9
1.1
0.035
0.043
A2
0.03
0.23
0.001
0.009
B
0.4
0.6
0.015
0.023
B2
5.2
5.4
0.204
0.212
C
0.45
0.6
0.017
0.023
C2
0.48
0.6
0.019
0.023
D
6
6.2
0.236
D1
E
5.1
6.4
6.6
E1
4.7
e
1.27
G
4.9
0.244
0.201
0.252
0.260
0.185
0.050
5.25
0.193
0.206
G1
2.38
2.7
0.093
0.106
H
9.35
10.1
0.368
0.397
0.039
L2
0.8
L4
0.6
L5
1
L6
1
1
2.8
0.031
0.023
0.039
0.039
0.110
0078180-E
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Package mechanical data
LD49300XX08, LD49300XX10, LD49300XX12
Tape & reel DPAK-PPAK mechanical data
mm.
inch.
Dim.
Min.
Typ.
A
Min.
Typ.
330
13.0
13.2
Max.
12.992
C
12.8
D
20.2
0.795
N
60
2.362
T
18/20
Max.
0.504
0.512
22.4
0.519
0.882
Ao
6.80
6.90
7.00
0.268
0.272
0.2.76
Bo
10.40
10.50
10.60
0.409
0.413
0.417
Ko
2.55
2.65
2.75
0.100
0.104
0.105
Po
3.9
4.0
4.1
0.153
0.157
0.161
P
7.9
8.0
8.1
0.311
0.315
0.319
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10
Revision history
Table 6.
Document revision history
Revision history
Date
Revision
Changes
20-Nov-2006
1
Initial release.
01-Dec-2006
2
Add note in cover page.
30-Jun-2010
3
Modified Section 8.6: Power sequencing recommendations on page 14.
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LD49300XX08, LD49300XX10, LD49300XX12
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