PICSEMI PS0020-2.8

PS0020
Low Iq Synchronous Boost
Converter with Output Disconnect
FEATURES
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Up to 92% Efficiency.
Low Start-Up Voltage: 0.8V
Internal Synchronous Rectifier
Up to 100KHz Switching Allows Tiny
External Components
2.5V to 5V Output Range (Note 3)
Fully Discharged Shutdown Output Voltage
Logic Controlled Shutdown (<1μA)
Pulse Skipping at Light Load for Extended
Battery Life
Generates 3.3V at 20mA from Single AA
Cell
Stable with Ceramic Output Capacitor
6L SOT-26 Package
APPLICATIONS
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DESCRIPTION
MP3 / MP4 players
PDAs and Organizers
Digital Cameras
Wireless Mice / Keyboards
Portable Medical Equipments
GPS Receivers
Remote controls
Wireless Headsets
The PS0020 is a synchronous, step-up DC/DC
converter delivering high efficiency in a 6-leads
SOT-26 package. The device having an internal
NMOS switch and PMOS synchronous rectifier has
the capacity of supplying 3.3V at 20mA from a
single AA cell input.
A high frequency switching minimizes board area
by allowing the use of tiny, low profile inductors
and ceramic capacitors.
The PS0020 provides automatic pulse skipping at
light loads reducing supply current for extended
battery life. At shutdown the PS0020 fully
discharges the output to ground and takes very low
supply current.
The PS0020 is available in small SOT26 package
with both fixed and adjustable output voltage
versions.
TYPICAL APPLICATION
Version 1.1
July 6, 2007
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PS0020
MARKING DIAGRAMS
PIN CONFIGURATION
XX: PS0020
Y:
Adjustable/fixed voltage
version,
refer to ordering information
M: Mask Version
W: Week code
A~Z=W1~W26
A~Z=W27~W52
Lead Free Package
PIN DESCRIPTION
Function
Name
Pin
Type
SW
GND
FB
SHUTB
VOUT
VIN
1
2
3
4
5
6
Switch
Ground
Feedback
Shutdown input.
Analog output.
Battery input.
Connect inductor between SW and Vin.
Ground pin
Adjustable feedback input, connect to resistor voltage divider.
SHUTB=High: normal operation. (Supports both TTL and CMOS Logic).
Boost regulator output.
Boost regulator input.
ORDERING INFORMATION
Part Number
Voltage
Marking
PS0020A
PS0020 – 2.5
PS0020 – 2.8
PS0020 – 3.0
PS0020 – 3.3
Adj.
2.5
2.8
3.0
3.3
N/A
Junction Temp. Range
-40°C
-40°C
-40°C
-40°C
-40°C
to
to
to
to
to
85°C
85°C
85°C
85°C
85°C
Package
SOT-26
SOT-26
SOT-26
SOT-26
SOT-26
Note 1 : Contact the factory for other output voltages that are not in the above table
Version 1.1
July 6, 2007
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PS0020
BLOCK DIAGRAM
SW
VIN
Discharge Switch
Body Manage Switch
VOUT
Bias
Select
Bias to all
Circuitry
Zero-Current
Ref
+
Thermal
Sensor
Current Sense
Amplifier
+
-
-
ZeroCrossing
Comparator
+
-
Gate Control
Logic
Program Voltage
Fixed TON
+ Over-Current
Limiter
Time Control
Logic
Start-up
Oscillator
Minimum
TOFF
UVLOB
Under Voltage
Lockout
REFERENCE
SHUTB
Shut-Down
Circuitry
REF
+
FB
Shut Down
GND
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PS0020
ABSOLUTE MAXIMUM RATINGS
Symbol
Parameter
Value
Unit
VIN
VSW
DC Supply Voltage at Pin 1
SW Voltage – DC
SW Voltage – Pulsed (<100nS)
SHUTB Voltage
FB Voltage
Output Voltage
Switch Current
Storage Temperature Range
Thermal Resistance, Junction-To-Air
Operating Temperature Range (Note 4)
Lead Temperature (Soldering, 10sec)
ESD Capability, HBM model
-0.3V to 6V
-0.3V to 6V
-0.3V to 7V
-0.3V to 6V
-0.3V to 6V
-0.3V to 6V
0 to 1A
-65 to +125
N/A
-40 to +85
260
3.0
V
V
V
V
V
V
A
°c
°c/w
°c
°c
kV
VSHUT
VFB
VOUT
ISW, IOUT, IGND
TSTG
RθJA
TA, MAX
TL
ESD
ELECTRICAL CHARACTERISTICS
TA = 25°C. VIN = 1.5V, VOUT = 3.3V, VSHUTB = 1.5V (unless otherwise noted).
Parameter
Conditions
Min start-up Voltage
Min Operating Voltage
Maximum Input Operating Voltage
Output Voltage Adjust Range
Feedback Voltage
Feedback Input Current
Load Regulation
Quiescent Current (No-switching)
Quiescent Current (Shut-down)
No load
Note 1
Note 2
Note 3
TA = -40°C to 85°C (Note 4)
VFB = 1.2V
ILOAD = 1mA to 20mA
VFB = 1.2V, Measured at VOUT
VSHUTB = 0V, VOUT = 0V, Including
Switch Leakage
VOUT = 3.3V
VOUT = 3.3V
NMOS Switch On Resistance
PMOS Switch On Resistance
NMOS Current Limit
PMOS Turn-Off Current
Current Limit Delay to Output
Minimum Off-Time
Maximum On-Time
Maximum On-Time to Minimum OffTime Ratio
Version 1.1
July 6, 2007
VIN = 0.5V
VFB = 0.95V, VIN = 0.5V,
TA = -40°C to 85°C (Note 4)
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Min
2.5
0.95
Typ
Max
Unit
0.8
0.5
4.4
0.95
V
V
V
V
1.0
1
2.2
35
0.01
0.45
0.6
300
0
100
1.2
5
4
5.0
1.05
1
nA
%
μA
μA
Ω
Ω
mA
mA
nS
μS
μS
4
PS0020
ELECTRICAL CHARACTERISTICS ( continued )
TA = 25°C. VIN = 1.5V, VOUT = 3.3V, VSHUTB = 1.5V (UNLESS OTHERWISE NOTED).
Parameter
SHUTB Input High
SHUTB Input Low
SHUTB Input Current
Frequency in Start-up
Thermal Shutdown
Conditions
Min
Typ
Max
0.95
0.35
10
15°C Hysteresis
100
145
Unit
V
V
μA
kHz
°C
Note 1: Minimum operating input voltage is fixed by the battery’s ability to provide necessary power at that (terminal)
voltage. Below this voltage, the battery fails to deliver required power as it enters into deeply discharged state. This voltage
can be lower if the required duty cycle is less.
Note 2: When input voltage is greater than output voltage regulation point, the part is in track mode (see Track Mode).
Note 3: For applications where VOUT > 4.3V, an external Schottky diode is required.
Note 4: Limits are 100% production tested at TA = 25°C. Limits over the operating temperature range are guaranteed by
design.
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PS0020
TYPICAL OPERATING CHARACTERISTICS
(VIN = 1.5V, Circuit of Typical Application Circuit, TA = +25°C, unless otherwise noted.)
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PS0020
OPERATION DESCRIPTION
The PS0020 is a compact, high-efficiency,
synchronous boost converter in a 6-leads SOT-26
package designed for space-restricted applications.
The parts are available with adjustable output
voltages ranging from 2.5V to 5.0V. They are able
to start up with input voltages as low as 0.8V and
operate with input voltages down to 0.5V. With its
internal synchronous rectifier and low on-resistance
of the internal NMOS switch, the devices maintain
high efficiency over a wide range of load current.
As shown in the Block Diagram, the PS0020
consists of accurate band gap core, error amplifier,
start-up oscillator and control logic unit along with
PMOS and NMOS switches. With current mode PWM
control, the PS0020 has ultra-fast line and improved
load regulation. Moreover, the PS0020 provides real
shutdown circuitry, which disconnects the output
from the input in shutdown and results in discharge
of the output to ground.
Start-Up Mode:
The PS0020 will start up typically at 0.8V. When it
is turned-on, the device gets its start up bias from
Vin. A start-up oscillator, which runs typically at 100
KHz, brings the output voltage high enough so that
Vout exceeds Vin. Once Vout exceeds Vin, internal
bias switches from Vin to Vout by an internal biasselect circuit. Thus, once started (i.e. Vout exceeds
Vin), internal circuit bias is completely independent
of Vin. The start-up oscillator runs at 66% duty
cycle around 100KHz. Once Vout exceeds Vin
(typically 1.9V), the start-up oscillator is disabled
and the normal fixed Ton PWM operation takes
over.
Internal PMOS and NMOS switches
The PS0020 features a 0.45Ω NMOS switch and a
0.6Ω PMOS switch. In normal operation these
switches are alternatively turned-on and thus
initiate charging of the inductor from Vin and then
discharging of it to the output capacitor and the
load. However, between the event of one switch
turning-off and the other turning-on, a dead time is
provided to avoid huge in-rush current from output
to ground via switches. In the dead time, both
switches remain off and the inductor discharges via
body diode of the PMOS switch to the output.
Version 1.1
July 6, 2007
True Shutdown Mode
The PS0020 is designed to allow the true shutdown
by managing the body diode of the PMOS switch.
As the PMOS switch is turned off and there is no
conductive path through the body of the PMOS, the
output is allowed to go to zero during shutdown,
drawing zero current from the input.
Output Voltage Selection
The PS0020A features a user-adjustable output
through an external feedback network. A voltage
divider from Vout to ground programs the output
voltage via FB from 2.5V to 5V using the following
equation:
Vout=Vref*[1+(R1/R2)]
Where, Vref=1V
Thermal Overload Protection
Thermal-overload protection limits total power
dissipation in the PS0020. When the junction
temperature exceeds TJ = +145°C, the thermal
sensor signals the shutdown logic and turns off
most of the internal circuitry. The thermal sensor
turns internal circuitry on again after the IC’s
junction temperature drops by 15°C.
Thermal-Overload protection is designed to protect
the PS0020 in the event of a fault condition. For
continual operation, do not exceed the absolute
maximum junction temperature rating of TJ =
+125°C.
Current Limit and Short Circuit Protection
The PS0020 includes a current limiter that monitors
the peak inductor current through the NMOS switch
and turns the NOMS switch off when the inductor
peak current exceeds 300mA. Because of its true
shutdown feature, the IC is allowed to be shortcircuited. The thermal shutdown turns off the
regulator in case of excessive heating, when the die
temperature reaches 145°C.
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PS0020
Light Load Operation
The PS0020 provides improved light load efficiency.
The internal zero current comparator monitors the
inductor current to the load and shuts off the PMOS
switch once this current reduces to some low value
(50mA, typically). This prevents the inductor
current from reversing its polarity, avoiding backcharging and thus improving efficiency at light load.
At that time, both the NMOS and PMOS switches
remain off. However, normal operation starts again
when the output voltage falls below the regulation
point. The IC automatically skips pulses at light
load, providing better efficiency.
Anti-ringing Control
When inductor current goes to zero, there arises a
high frequency ringing of SW pin. To prevent this
phenomenon, a 100Ω discharge switch is provided
between SW and VIN, so that this high frequency
ringing is damped out.
Under Voltage Lockout
When the supply goes too low (below 1.8V typ),
the PS0020 produces an internal UVLO (under
voltage lockout) signal that disables the normal
PWM operation and enables the start-up oscillator
to run at a fixed frequency. At that time, very few
circuits are operational. When the oscillator raises
the supply above 1.9V, UVLO signal is disabled and
the normal PWM mode takes over the start-up
oscillator operation. This mechanism protects the
chip from producing false logic due to low input
supply.
Version 1.1
July 6, 2007
Enable Input
The PS0020 features an active-high CMOS input
enable pin (SHUTB) that allows on/off control of the
regulator. When SHUTB=Low, shutdown of the chip
occurs and at that time almost no quiescent current
(<1μA) flows. Output capacitor can be completely
discharged through the load or the feedback
resistors for real output shut down. A discharge
switch is internally connected between Vin and SW.
The Enable (SHUTB) input threshold is TTL/CMOS
compatible. Connect SHUTB to Vin for normal
operation.
Track Mode
The PS0020 is in track mode when Vin is greater
than the output voltage regulation point (in
abnormal boost converter operation). In track
mode, the regulator runs at fixed start-up oscillator
frequency. The start-up oscillator runs freely until
Vout exceeds Vin. When Vout falls below Vin, the
start-up oscillator is enabled again. Thus in track
mode, normal loop control of PWM operation
remains off, rather the regulator runs by
intermittent oscillator operation.
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PS0020
PACKAGE INFORMATION
Version 1.1
July 6, 2007
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PS0020
DISCLAIMERS
LIFE SUPPORT
Power IC’s products are not designed to be used as components in devices intended to support or sustain
human life. Use of Power IC’s products in components intended for surgical implant into the body, or other
applications in which failure of Power IC’s products could create a situation where personal death or injury may
occur, is not authorized without the express written approval of Power IC’s Chief Executive Officer. Power IC
will not be held liable for any damages or claims resulting from the use of its products in medical applications.
MILITARY
Power IC's products are not designed for use in military applications. Use of Power IC’s products in military
applications is not authorized without the express written approval of Power IC’s Chief Executive Officer. Power
IC will not be held liable for any damages or claims resulting from the use of its products in military
applications.
RIGHT TO MAKE CHANGES
Power IC reserves the right to change this document and/or this product without notice. Customers are
advised to consult their Power IC sales representative before ordering.
Version 1.1
July 6, 2007
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© 2007 Power IC. All Rights Reserved.
10