DIODES AP133-SN

AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Description
Features
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The AP133 is a 300mA, adjustable output voltage, low dropout
linear regulator. The device included pass element, error
amplifier, band-gap, current limit and thermal shutdown circuitry.
The device is turned on when EN pin is set to logic high level.
300mA Low Dropout Regulator with EN
Very low IQ: 40µA
Wide input voltage range: 2V – 6V
Adjustable output: 1V – 5V
High PSRR: 65dB at 1kHz
Ultra-fast start-up time: 25µs
Stable with low ESR, 1µF ceramic output capacitor
Excellent Load/Line Transient Response
Low dropout: 350mV at 300mA
Current limit protection
Short circuit protection
Thermal shutdown protection
Ambient temperature range: -40ºC to 85°C
SOT25 and DFN2020-6 (Preview): Available in
“Green” Molding Compound (No Br, Sb)
The characteristics of low dropout voltage and less quiescent
current make it good for low power applications, for example,
battery powered devices. The typical quiescent current is
approximately 40μA from zero to maximum load.
Built-in current-limit and thermal-shutdown functions prevent IC
from damage in fault conditions.
The AP133 is available in SOT25 and DFN2020-6 (preview)
package.
Applications
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Cellular Phones
Smart Phones, PDAs
MP3/MP4
Bluetooth head set
Low power application
Ordering Information
AP133-XX X
Note:
Note:
Package
Lead Free
Packing
W : SOT25
SN : DFN2020-6
G : Green
-7 : Taping
1. RoHS revision 13.2.2003. Glass and High Temperature Solder Exemptions Applied, see EU Directive Annex Notes 5 and 7.
Device
Package Code
Packaging
(Note 2)
AP133-W
AP133-SN
W
SN
SOT25
DFN2020-6
7” Tape and Reel
Quantity
Part Number Suffix
3000/Tape & Reel
3000/Tape & Reel
-7
-7
2. Pad layout as shown on Diodes Inc. suggested pad layout document AP02001, which can be found on our website at
http://www.diodes.com/datasheets/ap02001.pdf.
AP133 Rev. 2
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© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Pin Assignment
(Top View)
IN 1
(Top View)
5 OUT
6 ADJ
EN 1
GND 2
GND 2
EN 3
5 NC
IN 3
4 ADJ
4 OUT
DFN2020-6 (Preview)
SOT25
Pin Descriptions
Name
IN
GND
EN
ADJ
NC
OUT
Pin Number
SOT25 DFN2020-6
1
3
2
2
3
1
4
6
5
5
4
Description
Voltage input pin. Bypass to ground through at least 0.1µF capacitor
Ground
Enable input, active high
Output feedback pin
No connection
Voltage output pin. Bypass to ground through 1µF ceramic capacitor
Functional Block Diagram
IN
EN
OUT
Gate
Driver
Current Limit
and Thermal
Shutdown
FB
0.8V
GND
AP133 Rev. 2
2 of 14
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© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Typical Application Circuit
VIN
VOUT
IN
OUT
AP133
1uF
Enable
R1
1uF
ADJ
EN
GND
R2
⎛
R ⎞
VOUT = VREF ⎜⎜1 + 1 ⎟⎟
⎝ R2 ⎠
Absolute Maximum Ratings
Symbol
VIN
TOP
TST
PD
TJ
Note:
Parameter
Input Voltage
OUT, ADJ, EN Voltage
Continuous Load Current
Operating Junction Temperature Range
Storage Temperature Range
SOT25
Power Dissipation (Note 3)
DFN2020-6
Maximum Junction Temperature
Ratings
7
VIN + 0.3
Internal Limited
-40 ~ 125
-65 ~150
610
880
150
Units
V
V
°C
°C
mW
mW
°C
3. Ratings apply to ambient temperature at 25°C.
Recommended Operating Conditions
Symbol
Parameter
Input voltage
VIN
Output Current
IOUT
Operating Ambient Temperature
TA
AP133 Rev. 2
Min
2
0
-40
3 of 14
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Max
6
300
85
Unit
V
mA
°C
MAY 2007
© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Electrical Characteristics
o
(TA = 25 C, VIN = VOUT +1V, CIN = 1uF, COUT = 1uF, VEN = 2V, unless otherwise stated)
Symbol
IQ
ISHDN
ILEAK
VDropout
VREF
IADJ
VOUT
Parameter
Input Quiescent Current
Input Shutdown Current
Input Leakage Current
Dropout Voltage
ADJ reference voltage
ADJ leakage
Output Voltage Accuracy
Test Conditions
IOUT = 0~300mA
VEN = 0V, IOUT = 0
VEN = 0V, OUT grounded
VOUT ≥ 1.5V, IOUT = 300mA
IOUT= 0
ΔVOUT /ΔVIN/V Line Regulation
ΔVOUT /VOUT
tST
PSRR
ISHORT
ILIMIT
VIL
VIH
IEN
TSHDN
THYS
θJA
θJC
AP133 Rev. 2
Load Regulation
Start-up Time
PSRR
Short-circuit Current
Current limit
EN Input Logic Low Voltage
EN Input Logic High Voltage
EN Input leakage
Thermal shutdown threshold
Thermal shutdown hysteresis
Thermal
SOT25
Resistance
Junction-toDFN2020-6
Ambient
SOT25
Thermal
Resistance
DFN2020-6
Junction-to-Case
Min Typ
40
⎯
⎯
⎯
350
0.8
⎯
-2
Max Unit
60
μA
1
μA
1
μA
450 mV
V
1
μA
2
%
0.05
%/V
VIN = VOUT +1V to 5.5V,
IOUT = 1mA
IOUT from 1mA to 300mA
VEN = 0V to 2.0V, IOUT = 300mA
1kHz, IOUT = 0mA
VIN = 5.0V, VOUT < 0.2V
VOUT = 3V, ROUT = 3Ω
400
VEN = 0V or 5.5V
1.4
-1
-1
1
%
μs
dB
mA
mA
V
V
μA
°C
°C
25
65
120
600
0.4
1
145
20
197
o
Device mounted on FR-4
substrate, 1"x1" 1oz copper,
single-sided PCB board
4 of 14
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136
45
102
C/W
o
C/W
MAY 2007
© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Typical Performance Characteristics
Output Voltage vs. Temperature
Output Voltage vs. Temperature
3.3100
1.8200
VIN=3.3V, Vout=1.8V
Output Voltage (V)
Output Voltage (V)
VIN=5V, Vout=3.3V
3.3050
3.3000
3.2950
3.2900
1.8150
1.8100
1.8050
1.8000
-50.0
-25.0
0.0
25.0
50.0
75.0
100.0
125.0
-50.0
-25.0
0.0
Temperature (°C)
Output Voltage vs. Input Voltage
Quiescent Current (uA)
Output Voltage (V)
1.6
1.4
1.2
1.0
0.8
0.6
IOUT=0mA
IOUT=150mA
2.0
3.0
4.0
125.0
IOUT=300mA
50
45
40
35
30
2.0
1.0
100.0
IOUT=0mA
55
0.0
0.0
75.0
VOUT=1.2V
60
1.8
0.2
50.0
Quiescent Current vs. Input Voltage
2.0
0.4
25.0
Temperature (°C)
5.0
3.0
6.0
4.0
5.0
6.0
Input Voltage (V)
Input Voltage (V)
Quiescent Current vs. IOUT
Quiescent Current vs. Temperature
VOUT=2.8V
50
Vin=3.3V
Quiescent Current (uA)
Quiescent Current (uA)
60.00
Vin=5V
55.00
50.00
45.00
40.00
35.00
30.00
0.00
50.00
100.00
150.00
200.00
250.00
300.00
45
40
35
VOUT=3.3V VIN=5.0V
30
-50.0
IOUT (mA)
VOUT=1.2V VIN=3.3V
-25.0
0.0
25.0
50.0
75.0
100.0
125.0
Temperature (°C)
AP133 Rev. 2
5 of 14
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© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Typical Performance Characteristics
(Continued)
Dropout Voltage vs. IOUT
ADJ Pin Voltage vs. Input Voltage
VOUT=3.3V
450
Dropout Voltage (mV)
ADJ Pin Voltage (V)
0.8020
0.8015
0.8010
0.8005
0.8000
0.7995
400
350
300
250
200
150
25°C
100
90°C
50
-45°C
0
0.7990
2.0
3.0
4.0
5.0
0.0
6.0
50.0
100.0
150.0
200.0
250.0
300.0
IOUT (mA)
Input Voltage (V)
Current Limit Protection
Current Limit vs. Temperature
800
Current Limit (mA)
Vin=3.3V, Vout=1.2V
750
Vin=5.0V, Vout=3.3V
700
650
600
550
500
-50
-30
-10
10
30
50
70
90
Temperature (°C)
Time (50us/div)
AP133 Rev. 1
Short Circuit Protection
Short Circuit Protection
Time (1ms/div)
Time (2ms/div)
6 of 14
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© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Typical Performance Characteristics
(Continued)
Short Circuit Current vs. Input Voltage
Short Circuit Current (mA)
Short Circuit Current vs. Temperature
Short Circuit Current
(uA)
150
140
130
120
110
100
90
80
70
2.0
3.0
4.0
5.0
6.0
150
Vin=3.3V, Vout=1.2V
140
Vin=3.3V, Vout=1.8V
Vin=5.0V, Vout=3.3V
130
120
110
100
90
80
-50
Input Voltage (V)
-30
-10
10
30
50
70
90
Temperature (°C)
Thermal Shutdown Protection
PSRR
-20.00
PSRR (dB)
-30.00
-40.00
-50.00
-60.00
-70.00
-80.00
-90.00
100
1000
10000
100000
Frequency (Hz)
Time (20ms/div)
AP133 Rev. 2
Line Transient Response
Line Transient Response
Time (20us/div)
Time (20us/div)
7 of 14
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© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Typical Performance Characteristics
AP133 Rev. 2
(Continued)
Line Transient Response
Line Transient Response
Time (20us/div)
Time (20us/div)
Load Transient Response
Load Transient Response
Time (100us/div)
Time (100us/div)
Load Transient Response
Load Transient Response
Time (20us/div)
Time (100us/div)
8 of 14
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MAY 2007
© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Typical Performance Characteristics
AP133 Rev. 2
(Continued)
Start-up Time
Start-up Time
Time (5us/div)
Time (5us/div)
Start-up Time
Start-up Time
Time (5us/div)
Time (5us/div)
9 of 14
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© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Application Note
Input Capacitor
ON/OFF Input Operation
A1μF ceramic capacitor is recommended to connect between
VIN and GND pins to decouple input power supply glitch and
noise. The amount of the capacitance may be increased
without limit. This input capacitor must be located as close as
possible to the device to assure input stability and less noise.
For PCB layout, a wide copper trace is required for both VIN and
GND. A lower ESR capacitor allows the use of less
capacitance, while higher ESR type require more capacitance.
The AP133 is turned on by setting the EN pin high, and is
turned off by pulling it low. If this feature is not used, the EN pin
should be tied to IN pin to keep the regulator output on at all
time. To ensure proper operation, the signal source used to
drive the EN pin must be able to swing above and below the
specified turn-on/off voltage thresholds listed in the Electrical
Characteristics section under VIL and VIH.
Output Capacitor
Current Limit Protection
The output capacitor is required to stabilize and help transient
response for LDO. The AP133 is stable with very small ceramic
output capacitors. The recommended capacitance is from 1μF
to 4.7μF, Equivalent Series Resistance (ESR) is from 10mΩ to
100mΩ, and temperature characteristics is X7R or X5R. Higher
capacitance values help to improve load/line transient
response. The output capacitance may be increased to keep
low undershoot/overshoot. Place output capacitor as close as
possible to OUT and GND pins, and keep the leads as short as
possible.
Adjustable Operation
The AP133 provides output voltage from 1.0V to 5.0V through
external resistor divider as shown below.
V IN
V OUT
AP 133
IN
OUT
C IN
R1
E nable
COUT
ADJ
EN
GN
D
R2
Short Circuit Protection
When OUT pin is short-circuit to GND or OUT pin voltage is
less than 200mV, short circuit protection will be triggered and
clamp the output current to approximately 120mA. This feature
protects the regulator from over-current and damage due to
overheating.
Thermal Shutdown Protection
Thermal protection disables the output when the junction
temperature rises to approximately +145°C, allowing the device
to cool down. When the junction temperature reduces to
approximately +125°C the output circuitry is enabled again.
Depending on power dissipation, thermal resistance, and
ambient temperature, the thermal protection circuit may cycle
on and off. This cycling limits the heat dissipation of the
regulator, protecting it from damage due to overheating.
Ultra Fast Start-up
After enabled, the AP133 is able to provide full power in as little
as tens of microseconds, typically 25µs, without sacrificing low
ground current. This feature will help load circuitry move in and
out of standby mode in real time, eventually extend battery life
for mobile phones and other portable devices.
The output voltage is calculated by:
⎛
R ⎞
VOUT = VREF ⎜⎜1 + 1 ⎟⎟
⎝ R2 ⎠
Fast Transient Response
Where VREF=0.8V (the internal reference voltage)
Rearranging the equation will give the following that is used for
adjusting the output to a particular voltage:
⎞
⎛V
R1 = R2 ⎜⎜ OUT − 1⎟⎟
⎠
⎝ VREF
To maintain the stability of the internal reference voltage, R2
need to be kept smaller than 250kΩ.
No Load Stability
Other than external resistor divider, no minimum load is
required to keep the device stable. The device will remain
stable and regulated in no load condition.
AP133 Rev. 2
When output current at OUT pin is higher than current limit
threshold, the current limit protection will be triggered and
clamp the output current to approximately 600mA to prevent
over-current and to protect the regulator from damage due to
overheating.
Fast transient response LDOs can also extend battery life.
TDMA-based cell phone protocols such as Global System for
Mobile Communications (GSM) have a transmit/receive duty
factor of only 12.5 percent, enabling power savings by putting
much of the baseband circuitry into standby mode in between
transmit cycles. In baseband circuits, the load often transitions
virtually instantaneously from 100µA to 100mA. To meet this
load requirement, the LDO must react very quickly without a
large voltage droop or overshoot — a requirement that cannot
be met with conventional, general-purpose LDOs.
The AP133’s fast transient response from 0 to 300mA provides
stable voltage supply for fast DSP and GSM chipset with fast
changing load.
Small Overshoot and Undershoot
The AP133 has small and controlled overshoot and undershoot
in load and line transitions. This helps to protect supplied circuit
from damage and operation error caused by glitches. This
feather also permits the usage of small value output decoupling
capacitor with AP133.
10 of 14
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© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Low Quiescent Current
Cellular phone baseband internal digital circuits typically
operate from 1.8V to 2.6V. When the Li+ battery voltage falls to
3.2-3.3V, most phones shut off, giving at least 500-600mV of
headroom for the baseband digital LDO, so dropout is not
critical. Output noise and the PSRR are not critical specs for
the digital circuits. Nonetheless, this supply requires low
quiescent current at light loads because this LDO stays on at
all times. Figure below shows how the digital supply current of
a representative GSM chipset core varies as a function of time.
In the standby mode, the microprocessor consumes only
around 200µA. Since the phone stays in standby for the
longest percentage of time, using a 40µA quiescent current
LDO, instead of 140µA, saves 100µA and extends the standby
time by 340µA/240µA, or 1.417 times.
The baseband internal analog circuit is typically 2.4V-3.0V, and
it requires 200-600mV dropout. This LDO is on all the time, so it
requires low quiescent current as well. The cellular phone
real-time clock LDO needs a very low quiescent current, since
this LDO is on all the time even though the handset is powered
off.
The AP133, consuming only around 40µA for all input range
and output loading, provides great power saving in portable
and low power applications.
Wide Output Range
The AP133, with a wide output range of 1.0V to 5.0V, provides
a versatile LDO solution for many portable applications.
High PSRR
The RF circuit consists of receive and transmit sections, which
typically require 2.6V-3.0V supply voltage. The RF circuits such
as LNA (low-noise amplifier), up/down-converter, mixer, PLL,
VCO, and IF stage, require low noise and high PSRR LDOs.
The temperature-compensated crystal oscillator circuit requires
very high PSRR at RF power amplifier burst frequency. For
instance, minimum 65dB PSRR at 217Hz is recommended for
the GSM handsets.
In order to provide good audio quality, the audio power supply
for hand-free, game, MP3, and multimedia applications in
cellular phones, require low-noise and high PSRR at audio
frequency range (20Hz-20kHz).
The AP133, with PSRR of 70dB at 1kHz in best case, is
suitable for some of these applications that require high PSRR.
AP133 Rev. 2
11 of 14
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© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Marking Information
(1) SOT25
(Top View)
4
7
5
XX Y M X
NB:AP133
Y : Year: 0~9
M :Month A~L
X: G : Green
1
2
3
(2) DFN2020-6 (Preview)
(Top View)
.
XX
YM X
XX : NB : AP133
Y : Year 0~9
M : Month A~L
X : Internal code A~Z: Green
AP133 Rev. 2
12 of 14
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© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
Package Information
(All Dimensions in mm)
(1) Package Type: SOT25
0.43mon.
0.57/0.63
(2) Package Type: DFN2020-6 (Preview)
Marking
0.05 C
2x
0/0.05
0.15max.
0.15 C
0.08 C
0.30/0.40
1.95/2.075
0.76/0.96
1
0.15 C
0.65nom.
0.2/0.3
Bottom View
AP133 Rev. 2
A
1.45/1.65
.
R0
2x-
Seating plane
C
1.95/2.075
B
(Active area depth)
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0.05 M C A B
Pin#1 ID
MAY 2007
© Diodes Incorporated
AP133
300mA, LOW QUIESCENT CURRENT, FAST TRANSIENT
LOW DROPOUT LINEAR REGULATOR
IMPORTANT NOTICE
Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further
notice to any product herein. Diodes Incorporated does not assume any liability arising out of the application or use of any product described herein; neither
does it convey any license under its patent rights, nor the rights of others. The user of products in such applications shall assume all risks of such use and will
agree to hold Diodes Incorporated and all the companies whose products are represented on our website, harmless against all damages.
LIFE SUPPORT
Diodes Incorporated products are not authorized for use as critical components in life support devices or systems without the expressed written approval of the
President of Diodes Incorporated.
AP133 Rev. 2
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