PAM PAM2301CAAB180

PAM2301
800mA Step-Down DC-DC Converters
Features
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General Description
The PAM2301 is a step-down current-mode, DCDC converter. At heavy load, the constantfrequency PWM control performs excellent
stability and transient response. To ensure the
longest battery life in portable applications, the
PA M 2 3 0 1 p r o v i d e s a p o w e r - s a v i n g P u l s e Skipping Modulation (PSM) mode to reduce
quiescent current under light load operation to
save power.
Efficiency up to 96%
Only 40μA(TYP.) Quiescent Current
Output Current: Up to 800mA
Internal Synchronous Rectifier
1.5MHz Switching Frequency
Soft Start
Under-Voltage Lockout
Short Circuit Protection
Thermal Shutdown
5-pin Small SOT23-5 Package
Pb-Free Package
The PAM2301 supports a range of input voltages
from 2.5V to 5.5V, allowing the use of a single
Li+/Li-polymer cell, multiple Alkaline/NiMH cell,
USB, and other standard power sources. The
output voltage is adjustable from 0.6V to the input
voltage, while the part number suffix PAM2301XX indicates pre-set output voltage of 3.3V, 2.8V,
2.5V, 1.8V, 1.5V, 1.2V or adjustable. All versions
employ internal power switch and synchronous
rectifierfor to minimize external part count and
realize high efficiency. During shutdown, the input
is disconnected from the output and the shutdown
current is less than 0.1 μ A. Other key features
include under-voltage lockout to prevent deep
battery discharge.
Applications
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Cellular Phone
Portable Electronics
Wireless Devices
Cordless Phone
Computer Peripherals
Battery Powered Widgets
Electronic Scales
Digital Frame
The PAM2301 is available in SOT23-5 package.
Typical Application
Fixed Output Voltage
V IN
C IN
10μF
4
VIN
SW
1 EN VOUT
3 4 . 7μH
5
Adjustable Output Voltage
Vo
V IN
Co
10μF
C IN
10μF
4
VIN
SW
3 4 . 7μH
R1
1 EN
FB
5
Vo
20pF
Co
10μF
R2
GND
GND
2
2
R1 ö
æ
VO = 0.6 ´ ç1 +
÷
è R2 ø
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09/2008 Rev 1.3
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PAM2301
800mA Step-Down DC-DC Converters
Block Diagram
1.5M
OSC
+
IAMP
-
VIN
+ - +
SLOPE
COMP
PWM
COMP
FB
FREQ
SHIFT
OSC
S Q
R1
R Q
RS LATCH
R2
EA
+
VIN
MAIN
SWITCH ( PCH )
SWITCHING
LOGIC
AND
BLANKING
CIRCUIT
ANTI SHOOT THRU
COMP
0.6VREF
EN
SW
SYNCHRONOUS
RECTIFIER ( NCH )
+
IRCMP
-
SHUTDOWN
GND
Pin Configuration& Marking Information
Top View
SOT23 - 5
VIN
VOUT/FB
5
4
BA V Y W
1
2
3
EN
GND
SW
BA: Product Code of PAM2301
V: Output Voltage
Y: Year
W: Week
Pin Number
Name
Function
1
EN
2
GND
3
SW
The drains of the internal main and synchronous power MOSFET.
4
VIN
Chip main power supply pin
Enable control input. Force this pin voltage above 1.5V, enables the chip, and
below 0.3V shuts down the device.
Ground
VOUT: Output voltage feedback pin, an internal resistive divider divides the
5
VOUT/FB
output voltage down for comparison to the internal reference voltage.
FB: Feedback voltage to internal error amplifier, the threshold voltage is 0.6V.
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PAM2301
800mA Step-Down DC-DC Converters
Absolute Maximum Ratings
These are stress ratings only and functional operation is not implied . Exposure to absolute
maximum ratings for prolonged time periods may affect device reliability . All voltages are with
respect to ground .
Junction Temperature................................125 OC
Storage Temperature Range........-65 OC to 150 OC
Soldering Temperature......................300 OC, 5sec
Input Voltage..................................-0.3V to 6.6V
EN, FB Pin Voltage.............................- 0.3V to V IN
SW Pi n Voltage.....................- 0.3V to ( V IN+0.3V )
Recommended Operating Conditions
Ambient Temperature Range..........-40 OC to 85 OC
Supply Voltage................................2.5V to 5.5V
Max. Supply Voltage (for Max. duration of
30 minutes)................................................6.0V
Thermal Information
Parameter
Thermal Resistance
(Junction to Case)
Thermal Resistance
(Junction to Ambient)
Internal Power Dissipation
Package
Symbol
Maximum
SOT23-5
θJC
130
Unit
°C/W
SOT23-5
θJA
250
SOT23-5
PD
400
mW
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09/2008 Rev 1.3
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PAM2301
800mA Step-Down DC-DC Converters
Electrical Characteristic
T A=25 OC, V IN=3.6V, V O=1.8V, C IN=10μF, C O=10μF,L=4.7μH, unless otherwise noted.
PARAMETER
SYMBOL
Test Conditions
MIN
Input Voltage Range
VIN
2.5
Regulated Feedback Voltage
VFB
0.588
Reference Voltage Line Regulation
ΔV FB
Regulated Output Voltage Accuary
VO
Peak Inductor Current
IPK
TYP
0.6
MAX
UNITS
5.5
V
0.612
V
0.3
IO = 100mA
-3
VIN=3V,VFB = 0.5V or
%/V
+3
1.2
VO=90%
%
A
Output Voltage Line Regulation
LNR
VIN = 2.5V to 5V, IO=10mA
0.2
0.5
%/V
Output Voltage Load Regulation
LDR
IO=1mA to 800mA
0.5
1.5
%
Quiescent Current
IQ
No load
40
70
μA
Shutdown Current
ISD
VEN = 0V
0.1
1
μA
Oscillator Frequency
fOSC
1.5
1.8
MHz
Drain-Source On-State Resistance
SW Leakage Current
High Efficiency
VO = 100%
1.2
VFB = 0V or VO = 0V
500
kHz
P MOSFET
0.3
0.45
Ω
N MOSFET
0.35
0.5
Ω
ILSW
±0.01
1
μA
η
96
RDS(ON)
IDS =100mA
%
EN Threshold High
VE H
1.5
V
EN Threshold Low
VEL
EN Leakage Current
IEN
±0.01
μA
Over Temperature Protection
OTP
150
°C
OTP Hysteresis
OTH
30
°C
0.3
V
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PAM2301
800mA Step-Down DC-DC Converters
Typical Performance Characteristics
O
Efficiency VS Output Current (Vo=1.2V)
100
90
80
70
60
50
40
30
20
10
0
Efficiency VS Output Current (Vo=1.5V)
100
90
Efficiency(%)
Eifficiency(%)
T A=25 C, C IN=10 μ F, C O=10uF,L=4.7 μ H, unless otherwise noted.
80
70
60
50
40
Vin=2.7V
Vin=3.6V
2.5V
3.6V
30
Vin=4.2V
4.2V
20
1
10
100
1
1000
90
90
80
80
70
60
50
70
60
50
40
2.5V
3.6V
3V
3.6V
30
4.2V
20
4.2V
20
1
10
100
Output Current(mA)
1
1000
80
70
Eifficiency(%)
80
70
60
50
3V
3.6V
60
50
40
30
20
Vin=3.6V
Vin=4.2V
Vin=5.0V
10
4.2V
20
1000
Eifficiency VS Output Current (Vo=3.3V)
90
30
100
100
90
40
10
Output Current(mA)
Efficiency VS Output Current (Vo=2.8V)
100
Efficiency(%)
1000
Efficiency VS Output Current ( Vo=2.5V )
100
Efficiency(%)
Efficiency(%)
Efficiency VS Output Current ( Vo=1.8V )
100
30
100
Output Current(mA)
Output Current(m A)
40
10
0
1
10
100
1
1000
10
100
1000
Output Current(mA)
Output Current(mA)
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PAM2301
800mA Step-Down DC-DC Converters
Typical Performance Characteristics
O
T A=25 C, C IN=10 μ F, C O=10uF,L=4.7 μ H, unless otherwise noted.
100
90
90
80
70
80
Efficiency(%)
Eifficiency (%)
Efficiency VS Input Voltage ( Vo=1.2V )
100
60
50
40
Efficiency VS Input Voltage ( Vo=1.5V )
70
60
50
30
20
10mA
40
Io=10mA
800mA
Io=100mA
10
0
30
Io=800mA
2.5
100mA
2.5
3.5
4.5
Input Voltage(V)
3.5
5.5
100
90
90
80
80
Efficiency(%)
100
70
60
4.5
5
Efficiency VS Input Voltage ( Vo=2.5V )
70
60
50
50
10mA
10mA
40
40
100mA
100mA
800mA
800mA
30
30
2.5
3
3.5
4
4.5
3
5
3.5
4
5
5.5
Eifficiency VS Input Voltage (Vo=3.3V)
Efficiency VS Input Voltage ( Vo=2.8V )
100
4.5
Input Voltage(V)
Input Voltage(V)
100
90
90
80
Eifficiency(%)
Efficiency(%)
4
Input Voltage(V)
Efficiency VS Input Voltage ( Vo=1.8V )
Efficiency(%)
3
70
60
50
10mA
40
100mA
80
70
60
50
40
30
20
Io=10mA
Io=100mA
10
800mA
Io=800mA
30
0
3
3.5
4
4.5
5
3.5
5.5
3.75
4
4.25
4.5
4.75
5
5.25
5.5
Input Voltage(V)
Input Voltage(V)
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PAM2301
800mA Step-Down DC-DC Converters
Typical Performance Characteristics
O
T A=25 C, C IN=10 μ F, C O=10uF,L=4.7 μ H, unless otherwise noted.
Output Voltage VS Load Current
Reference Voltage VS Input Voltage
1.215
0.602
Vin=3.6V
0.600
1.210
Output Voltage(V)
0.598
0.596
Vfb
0.594
0.592
0.590
0.588
I=100mA
I=600mA
0.586
1.200
1.195
1.190
1.185
Vo=1.2V
1.180
Vin=3.6V
I=800mA
0.584
1.175
2
3
4
Input Voltage
5
6
0
200
400
Load Current(mA)
600
800
Output Voltage VS Temperature
Reference Voltage VS Temperature
0.620
1.194
1.193
0.615
Output Voltage(V)
Reference Voltage(V)
1.205
0.610
0.605
0.600
1.192
1.191
Vin=3.6V
0.595
1.189
0.590
1.188
0
50
100
Vo=1.2V
1.19
Io=100mA
20
150
40
60
80
100
120
140
Temperature(℃）
Tem perature(℃）
Output Voltage VS Output Current
Reference Voltage VS Load Current
1.205
0.604
Vo=1.2V
1.203
0.6
Output Voltage(V)
1.201
Vfb
0.596
0.592
0.588
1.199
1.197
1.195
1.193
2.5V
1.191
4.2V
3.6V
Vin=2.7V
0.584
Vin=3.6V
5V
Vin=4.2V
1.189
0.58
0
200
400
600
10
800
Load Current
110
210
310
410
510
610
710
810
Output Current(mA)
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PAM2301
800mA Step-Down DC-DC Converters
Typical Performance Characteristics
O
T A=25 C, C IN=10 μ F, C O=10 μ F,L=4.7 μ H, unless otherwise noted.
Dynamic Supply Current VS Input Voltage
Dynamic Supply Current VS Temperature
60
Vo=1.2V
45
Dynamic Supply Current(uA)
Dynamic Supply Current(uA)
50
ILoad=0A
40
35
30
25
20
15
10
50
40
30
Vo=1.2V
20
Vin=3.6V
ILoad=0A
10
5
0
0
2.5
3
3.5
4
4.5
Input Voltage(V)
5
40
5.5
60
100
120
140
Rdson VS Temperature
R dson VS Input Voltage
0.6
0.4
Vin=3.6V
Vin=3.6V
0.35
0.5
0.3
0.4
Rds(on)
RDS(ON)
80
Temperature(℃）
0.25
0.3
0.2
0.2
0.15
0.1
0.1
0
Vin=4.2V
Vin=3.6V
Vin=2.7V
2
3
4
Input Voltage
5
20
6
120
Oscillator Frequency VS Temperature
Oscillator Frequency VS Supply Voltage
1.58
1.8
Vin=3.6V
Vin=3.6V
Oscillator Frequency(MHz)
Oscillator Frequency(MHz)
70
Temperature(℃)
1.7
1.6
1.5
1.4
1.3
1.2
1.56
1.54
1.52
1.50
2
3
4
5
Supply Voltage(V)
6
7
20
40
60
80
100
120
140
Temperature(℃）
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PAM2301
800mA Step-Down DC-DC Converters
Typical Performance Characteristics
O
T A=25 C,C IN=10 μ F, C O=10 μ F,L=4.7 μ H, unless otherwise noted.
Load Transient
Io=0-800mA Vo=1.8V Vin=3.6V
Load Transient
Io=50-800mA Vo=1.8V Vin=3.6V
Voltage
Output
Voltage
Output
Inductor
Current
Inductor
Current
Output
Current
Output
Current
Start-up from Shutdown
Vo=1.8V,Vin=3.6V
Load Transient
Io=200-800mA Vo=1.8V Vin=3.6V
Voltage
Output
Voltage
Output
Inductor
Current
Enable
Output
Current
Inductor
Current
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PAM2301
800mA Step-Down DC-DC Converters
Application Information
The basic PAM2301 application circuit is shown
in Page 1. External component selection is
determined by the load requirement, selecting L
first and then Cin and Cout.
Typically, once the ESR requirement for Cout
has been met, the RMS current rating generally
far exceeds the I RIPPLE(P-P) requirement. The
output ripple △Vout is determined by:
1 ö
æ
VVOUT @VIL ç ESR+
÷
8fCOUT ø
è
Inductor Selection
For most applications, the value of the inductor
will fall in the range of 1μH to 4.7μH. Its value is
chosen based on the desired ripple current.
Large value inductors lower ripple current and
small value inductors result in higher ripple
currents. Higher V IN or Vout also increases the
ripple current as shown in equation 1. A
reasonable starting point for setting ripple
current is △I L = 320mA (40% of 800mA).
DIL =
æ VOUT ö
VOUT ç 1÷
f
L
VIN ø
( )( )
è
1
Where f = operating frequency, C OUT =output
capacitance and Δ I L = ripple current in the
inductor. For a fixed output voltage, the output
ripple is highest at maximum input voltage since
Δ I L increases with input voltage.
Using Ceramic Input and Output Capacitors
Higher values, lower cost ceramic capacitors are
now becoming available in smaller case sizes.
Their high ripple current, high voltage rating and
low ESR make them ideal for switching regulator
applications. Using ceramic capacitors can
achieve very low output ripple and small circuit
size.
(1)
The DC current rating of the inductor should be
at least equal to the maximum load current plus
half the ripple current to prevent core saturation.
Thus, a 1120mA rated inductor should be enough
for most applications (800mA + 320mA). For
better efficiency, choose a low DC-resis tance
inductor.
When choosing the input and output ceramic
capacitors, choose the X5R or X7R dielectric
formulations. These dielectrics have the best
temperature and voltage charac teristics of all
the ceramics for a given value and size.
C IN and Cout Selection
In continuous mode, the source current of the top
MOSFET is a square wave of duty cycle
Vout/Vin. To prevent large voltage transients, a
low ESR input capacitor sized for the maximum
RMS current must be used. The maximum RMS
capacitor current is given by:
é VOUT (VIN - VOUT )ùû
CIN required IRMS @ IOMAX ë
VIN
Setting the Output Voltage
The internal reference is 0.6V (Typical). The
output voltage is calculated as below:
R1 ö
æ
VO = 0.6 ´ ç1 +
÷
è R2 ø
1
2
The output voltage is given by Table 1.
Table 1: Resistor selection for output voltage
setting
This formula has a maximum at VIN =2Vout,
where I R M S =Iout/2. This simple worst-case
condition is com monly used for design because
even significant deviations do not offer much
relief. Note that the capacitor manufacturer's
ripple current ratings are often based on 2000
hours of life. This makes it advisable to further
derate the capacitor, or choose a capacitor rated
at a higher temperature than required. Consult
the manufac turer if there is any question.
The selection of Cout is driven by the required
effective series resistance (ESR).
Vo
R1
R2
1.2V
100k
100k
1.5V
150k
100k
1.8V
200k
100k
2.5V
380k
120k
3.3V
540k
120k
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PAM2301
800mA Step-Down DC-DC Converters
100% Duty Cycle Operation
PCB Layout Check List
As the input voltage approaches the output
voltage, the converter turns the P-chan nel
transistor continuously on. In this mode the
output voltage is equal to the input voltage minus
the voltage drop across the P - channel
transistor:
When laying out the printed circuit board, the
following checklist should be used to ensure
proper operation of the PAM2301. These items
are also illustrated graphically in Figure 1. Check
the following in your layout:
1. The power traces, consisting of the GND
trace, the SW trace and the VIN trace should be
kept short, direct and wide.
2. Does the V FB pin connect directly to the
feedback resistors? The resistive divider R1/R2
must be con nected between the (+) plate of C OUT
and ground.
3. Does the (+) plate of CIN connect to VIN as
closely as possible? This capacitor provides the
AC current to the internal power MOSFETs.
4. Keep the switching node, SW, away from the
sensitive VFB node.
5. Keep the (–) plates of C IN and C OUT as close
as possible.
V OUT = V IN – I LOAD × (R dson + R L)
where R dson = P-channel switch ON resistance,
I L O A D = Output current, R L = Inductor DC
resistance
UVLO and Soft-Start
The reference and the circuit remain reset until
the VIN crosses its UVLO threshold.
The PAM2301 has an internal soft-start circuit
that limits the in-rush current during start-up.
This prevents possible voltage drops of the input
voltage and eliminates the output voltage
overshoot. The soft-start acts as a digital circuit
to increase the switch current in several steps to
the P-channel current limit (1500mA).
Short Circuit Protection
The switch peak current is limited cycle-by-cycle
to a typical value of 1500mA. In the event of an
output voltage short circuit, the device operates
with a frequency of 400kHz and minimum duty
cycle, therefore the average input current is
typically 200mA.
Thermal Shutdown
When the die temperature exceeds 150°C, a
reset occurs and the reset remains until the
temperature decrease to 120°C, at which time
the circuit can be restarted.
Figure 1 :PAM2301 Suggested Layout
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PAM2301
800mA Step-Down DC-DC Converters
Ordering Information
PAM 2301 X X X X xxx
Output Voltage
Number of Pins
Package Type
Pin Configuration
Output Current
Output Current
C: 800mA
Pin Configuration
Package Type
Number of Pins
A: SOT-23
B: 5
A Type
Output Voltage
330: 3.3V
1. EN
280: 2.8V
2. GND
250: 2.5V
3. SW
180: 1.8V
4. VIN
150: 1.5V
5. VOUT/FB
120: 1.2V
ADJ: Adj
Part Number
Output Voltage
Marking
Package Type
Standard Package
PAM2301CAAB330
3.3V
BAKYW
SOT23-5
3,000Units/Tape&Reel
PAM2301CAAB280
2.8V
BAHYW
SOT23-5
3,000Units/Tape&Reel
PAM2301CAAB250
2.5V
BAGYW
SOT23-5
3,000Units/Tape&Reel
PAM2301CAAB180
1.8V
BAEYW
SOT23-5
3,000Units/Tape&Reel
PAM2301CAAB150
1.5V
BACYW
SOT23-5
3,000Units/Tape&Reel
PAM2301CAAB120
1.2V
BABYW
SOT23-5
3,000Units/Tape&Reel
PAM2301CAABADJ
ADJ
BAAYW
SOT-23-5
3,000Units/Tape&Reel
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PAM2301
800mA Step-Down DC-DC Converters
Outline Dimensions
c (REF.)
SOT23-5
0.25
D
e1
θ
L1 (REF.)
A2
A1
A
E1
E
L REF.
REF.
A
A1
A2
c
D
E
E1
L
L1
θ
b
e
e1
Min
0
0.70
2.70
2.60
1.40
0º
0.30
Millimeter
Nom
1.10MAX
0.05
1.00
0.12REF.
2.90
2.80
1.60
0.45REF.
0.60REF.
5º
0.40
0.95REF.
1.90REF.
Max
0.10
1.295
3.10
3.00
1.80
10º
0.50
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