PICSEMI PS0021

PS0021
High Efficiency PFM Step-up
DC/DC Converter
FEATURES
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PFM control Asynchronous Booster
Up to 90% Efficiency
Quiescent Supply Current: 5µA
Zero Shutdown current
Output Voltage Accuracy: ±1%
Fixed Output Voltage
Provides 20mA from single AAA cell
Input Voltage Range: 0.8V to 5.5V
Startup Voltage : 0.9V
3L SOT-23 and 6L SOT-26 Package
APPLICATIONS
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Wireless mice, keyboard
Pagers
Remote Controls
Wireless Headsets
Wireless Transmitters
Personal Medical Devices
Digital Still Cameras
MP3/MP4 Players
Single-Cell Battery-Powered Devices
Low-Power Hand-Held Instruments
DESCRIPTION
The PS0021 compact, high-efficiency, step-up DCDC converters are available in tiny, 3-pin thin
SOT23 and 6-pin thin SOT26 packages. They
feature an extremely low 5µA quiescent supply
current to ensure the highest possible light-load
efficiency. Optimized for operation from one to two
alkaline or nickel-metal-hydride (NiMH) cells, or a
single Li+ cell, these devices are ideal for
applications where extremely low quiescent current
and ultra-small size are critical.
The PS0021 also feature proprietary noisereduction
circuitry,
which
suppresses
electromagnetic interference (EMI) caused by the
inductor in many step-up applications. The family
offers different combinations of fixed outputs,
shutdown, and EMI reduction (see Selector Guide).
Its unique design is optimized for high efficiency at
light load condition.
TYPICAL APPLICATION CIRCUIT
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PS0021
PIN CONFIGURATION
PIN DESIGNATOR
Name
SW
Pin
1
LBI
2
EN
3
LBO
4
GND
VOUT
5
6
Type
Switch
Low–Battery
Detector Input.
Enable
Low Battery
Detector Output
Ground
IC Power Supply
Function
Connect inductor between SW and Battery.
Connect a resistive divider from Battery to LBI to ground.
EN=High: normal operation. (Supports both TTL and CMOS Logic).
Open–Drain Output. Low–Battery Detector Output is LOW when
VLBI is less than 0.6 V.
Power Ground
VOUT supplies power to Step-up converter.
Note 1: Limits are 100% production tested at TA = +25°C. Limits over the operating temperature range are guaranteed
by design.
Note 2: Guaranteed with the addition of a Schottky MBR0520L external diode between LX and OUT when using the
PS0021 with only one cell, and assumes a 0.3V voltage drop across the Schottky diode (see Figure 3).
Note 3: Supply current is measured with an ammeter between the output and OUT pin. This current correlates directly
with actual battery supply current, but is reduced in value according to the step-up ratio and efficiency.
Note 4: VOUT forced to the following conditions to inhibit switching: VOUT = 1.05 ✕ VOUT (NOM)
VOUT = 3.465V
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PS0021
BLOCK DIAGRAM
ABSOLUTE MAXIMUM RATINGS
OUT, SHDN, BATT, SW to GND ………………………………………………………………………..................... -0.3V to +6V
FB to GND ……………………………………………………………………………………………………….. -0.3V to (VOUT + 0.3V)
OUT, SW Current ………………………………………………………........................................................................1A
Continuous Power Dissipation (TA = +70°C)
6-Pin Thin SOT26 (derate 7.1mW/°C above +70°C) ……………………………………………………….……….....571mW
Operating Temperature Range …………………………………………………………….............................-40°C to +85°C
Junction Temperature …………………………………………………………........................................................+150°C
Storage Temperature Range ………………………………………………………….................................-65°C to +150°C
Lead Temperature (soldering, 10s) ……………………………………………………………………………………………. +300°C
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PS0021
ELECTRICAL CHARACTERISTICS
( VBATT = 1.2V, VOUT = 3.3V, VOUT = VOUT (NOM), SHDN = OUT, RL = ∞, TA = 0°C to +85°C, unless otherwise
noted. Typical values are at TA = +25°C.)
Parameter
Operating Input
Voltage
Output Voltage
variation
Symbol
VIN
Conditions
( Note 2 )
VOUT
Min
Typ
Max
5.5
Unit
V
3.2
3.3
3.4
V
Minimum Startup
Input Voltage
RL= 30kΩ
0.9
V
Hold on Voltage
Switch leakage
N-Channel
On-Resistance
Maximum
oscillating freq
Duty ratio
Efficiency
Quiescent
Current into OUT
(no switching)
Quiescent
Current into OUT
Shutdown
Current into OUT
SHDN Voltage
Threshold
SHDN Input Bias
current
1 mA load
0.7
5
1.4
V
nA
Ω
RDS(ON)
FOSC
DMAX
Eff
Measured from SW pin voltage and
inductor current during SW on time
VOUT forced = VOUT (NOM) * 0.95
80
100
120
KHz
VOUT forced = VOUT (NOM) * 0.95
65
75
85
5
85
%
%
µA
VIN= VOUT +0.5V measurement of the IC
input current(VOUT pin) (Notes 3, 4)
VOUT forced = VOUT (NOM) * 0.95
(Notes 4) En= 0V
25
µA
1
µA
1.2
VIL
VIH
0.4
VSHDN = 5.5V
1.1
mV
nA
Low Battery Detector
LBI voltage threshold
LBI input hysteresis
LBI input current
LBO output low voltage
LBO output leakage current
July 2007
VOUT forced = VOUT (NOM)*1.05
VOUT forced = VOUT (NOM)*1.05
VOUT forced = VOUT (NOM)*1.05
Force 20mA into LBO
LBO= 6.0V
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665
15
0.45
670
18
0.02
0.50
0.1
675
22
0.6
mV
mV
nA
V
µA
4
PS0021
TYPICAL OPERATING CHARACTERISTICS
(All specifications are at TA =+25°C, VIN = 1.5V, circuit of typical application circuit, unless otherwise specified.)
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PS0021
TYPICAL OPERATING CHARACTERISTICS (continued)
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PS0021
TYPICAL OPERATING CHARACTERISTICS (continued)
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PS0021
TYPICAL OPERATING CHARACTERISTICS (continued)
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PS0021
OPERATION
The PS0021 is a compact, high-efficiency, synchronous
boost converter in a SOT-26 package designed for spacerestricted applications. The part is available with
adjustable output voltages ranging from 2.5V to 5.0V. It
is 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 device maintains high
efficiency over a wide range of load current. As shown in
the Block Diagram, the PS0021 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 PS0021 has ultra-fast line
and improved load regulation. Moreover, the PS0021
provides real shutdown circuitry which disconnects the
output from the input during shutdown and results in the
discharge of the output to ground.
Start-Up Mode
The PS0021 starts 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 650 KHz, takes the
output voltage high enough so that VOUT exceeds VIN.
Once VOUT exceeds VIN, the internal bias switches from
VIN to VOUT by an internal bias-select circuit. Thus, once
started (i.e. VOUT exceeds VIN), the internal circuit bias is
completely independent of VIN. The start-up oscillator
runs at 66% duty cycle at around 650KHz. 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
Thermal Overload Protection
Thermal overload protection limits the total power
dissipation in the PS0021. 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 the internal circuitry
on again after the IC’s junction temperature drops by
15°C.
Thermal overload protection is designed to protect the
PS0021 in the event of a fault condition. For continuous
operation, do not exceed the absolute maximum junction
temperature rating of TJ = +125°C.
Current Limit Protection
The PS0021 includes a current limiter that monitors the
peak inductor current through the NMOS switch and
turns the NMOS switch off when the inductor peak
current exceeds 150mA.
Light Load Operation
The PS0021 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 (typically 50mA).
This prevents the inductor current from reversing its
polarity, avoiding back-charging and thus improving the
efficiency at light loads. 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, thus providing better efficiency.
The PS0021 features a 0.45Ω NMOS switch and a 0.6Ω
PMOS switch. In normal operation, these switches are
alternatively turned on and thus initiate the 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 a huge in-rush current
from the output to ground via switches. During the dead
time, both switches remain off and the inductor
discharges via the body diode of the PMOS switch to the
output.
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PS0021
Under Voltage Lockout
Enable Input
When the supply becomes too low (typically below 1.8V),
the PS0021 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 this stage, very few circuits are operational.
When the oscillator raises the supply to above 1.9V, the
UVLO signal is disabled and the normal PWM mode takes
over the operation of the start-up oscillator. This
mechanism protects the chip from producing false logic
due to low input supply.
The PS0021 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. The
output capacitor can be completely discharged through
the load or the feedback resistors for real output shutdown. A discharge switch is internally connected between
VIN and SW. The Enable (SHUTB) input is TTL/CMOS
compatible. Connect SHUTB to VIN for normal operation.
Track Mode
In track mode Vout follows Vin. Difference between Vout
and Vin is determined by the load current and the
schottky forward voltage drop at that current.
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PS0021
PACKAGE INFORMATION
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PS0021
DISCLAIMERS
LIFE SUPPORT
Power IC’s products are NOT designed to be used as components in devices intended to support or sustain
human life. The use of Power IC’s products in components intended for surgical implants 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. The 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.
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