MPS MP2116 2a, 6v, 100% duty cycle synchronous step-down converter with 0.5a ldo Datasheet

MP2116
2A, 6V, 100% Duty Cycle Synchronous
Step-Down Converter with 0.5A LDO
The Future of Analog IC Technology
DESCRIPTION
FEATURES
The MP2116 is an internally compensated
1.25MHz, 2A synchronous step-down switching
DC-DC converter plus a standalone low-input
voltage, 0.5A low dropout (LDO) linear regulator.
It is ideal for powering portable equipment that
operates from a single cell Lithium-Ion (Li+)
Battery. The MP2116 can provide up to 2A to
the switcher output, and 0.5A load current to
the LDO output from a 2.5V to 6V input voltage.
Both output voltages can be regulated as low
as 0.6V.
•
The 2A Synchronous switcher features
integrated high-side and low-side switch for
high efficiency and small footprint. With peak
current mode control and internal compensation,
the MP2116 is stable with ceramic capacitors.
Fault condition protection includes cycle-bycycle current limiting and thermal shutdown.
The standalone low-input voltage 0.5A LDO is
used to power noise sensitive circuitry. The
LDO’s separate input supply pin (IN2) can be
connected to the switcher output to reduce
power dissipation and noise from the main
switcher.
MP2116 is available in the small 10-pin
3mmx3mm QFN package.
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
100% Duty Cycle Low Dropout Operation
(High-Side PFET)
2A Switcher Output Current at VIN=3V
Internal Power MOSFET Switches
Stable with Ceramic Capacitors
Up to 95% Efficiency for Switcher
1.25MHz Switching Frequency
Internal Soft-start for Switcher
2.5V to 6V Input Range, for Switcher
1V to VIN1 Input Range, for LDO
0.5A LDO Output Current
1μA Shutdown Current
Thermal Shutdown
Cycle-by-Cycle Over Current Protection
Short Circuit Protection
Power OK Output
Available in 10-Pin QFN Package
APPLICATIONS
•
•
•
•
•
DVD+/-RW Drives
Smart Phones
PDAs
Digital Cameras
Portable Instruments
All MPS parts are lead-free and adhere to the RoHS directive. For MPS green
status, please visit MPS website under Products, Quality Assurance page.
“MPS” and “The Future of Analog IC Technology” are registered trademarks of
Monolithic Power Systems, Inc.
TYPICAL APPLICATION
Efficiency vs
Load Current
R5
500kΩ
100
VIN=3.3V
OFF ON
VIN
2.5V - 6V
*OUT1
1.8V @ 1.5A
CO1
22μF
3
L
4
6
R1
499kΩ
CIN2
R2 2.2μF
249kΩ
* IOUT1+IOUT2=2A
1
EN1
IN1
EN2
PWROK
SW1 MP2116 OUT2
IN2
FB1
CIN1
10μF
FB2
GND
POWER OK
9
8
7
10
5
R3
60kΩ
R4
60kΩ
OUT2
1.2V @ 0.5A
CO2
4.7μF
EFFICIENCY (%)
90
2
80
VIN=4.0V
70
60
50
VIN=5.0V
40
30
20
10
VOUT=1.8V
0
10
100
1000
10000
LOAD CURRENT (mA)
MP2116 Rev.1.0
1/17/2013
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1
MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
ORDERING INFORMATION
Part Number*
MP2116DQ
Package
QFN10
(3mm x 3mm)
Top Marking
Temperature
P4
–40°C to +85°C
For Tape & Reel, add suffix –Z (eg. MP2116DQ–Z)
For Lead Free, add suffix –LF (EG. MP2116DQ–LF–Z)
PACKAGE REFERENCE
1
10
2
9
3
8
4
7
5
6
ABSOLUTE MAXIMUM RATINGS (1)
Thermal Resistance
IN1, OUT1/2 to GND..................–0.3V to + 6.5V
IN2 to GND .........................–0.3V to VIN1 + 0.3V
SW1 to GND .......................–0.3V to VIN1 + 0.3V
...........(-2.5V<VSW1<+8.5V Transient <50ns)
PWROK to GND .........................–0.3V to +6.5V
FB1/2, EN1/2 to GND .................–0.3V to +6.5V
Operating Temperature............. –40°C to +85°C
Continuous Power Dissipation
(TA = +25°C)(2)
……………………………………………….2.5W
Junction Temperature ...............................150°C
Lead Temperature ....................................260°C
Storage Temperature ............. –65°C to +150°C
QFN10 (3mm x 3mm) .............50 ...... 12 ... °C/W
Recommended Operating Conditions
(4)
θJA
θJC
Notes:
1) Exceeding these ratings may damage the device.
2) The maximum allowable power dissipation is a function of the
maximum junction temperature TJ(MAX), the junction-toambient thermal resistance θJA, and the ambient temperature
TA. The maximum allowable continuous power dissipation at
any ambient temperature is calculated by PD(MAX)=(TJ(MAX)TA)/ θJA. Exceeding the maximum allowable power dissipation
will cause excessive die temperature, and the regulator will go
into thermal shutdown. Internal thermal shutdown circuitry
protects the device from permanent damage.
3) The device is not guaranteed to function outside of its
operating conditions.
4) Measured on approximately 1” square of 1 oz copper.
(3)
Supply Voltage VIN1 ............................2.5V to 6V
Supply Voltage VIN2 .......................... 1.0V to VIN1
Output Voltage VOUT__ ........................0.6V to 6V
Operating Temperature............. –40°C to +85°C
MP2116 Rev.1.0
1/17/2013
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MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
ELECTRICAL CHARACTERISTICS (5)
VIN1/2 = VEN1/2 = 3.6V, TA = +25°C, unless otherwise noted.
Parameters
Condition
No Load Supply Current
Shutdown Current
Thermal Shutdown Trip Threshold
PWROK Upper Trip Threshold
PWROK Lower Trip Threshold
VIN1/2 = 3.6V, VEN1=3.6V, VEN2=0V
VFB1 = 0.58V
VIN1/2 = 3.6V, VEN1=0V, VEN2=3.6V
VFB2 = 0.62V
VEN1/2 = 0V, VIN1/2 = 6V
Hysteresis = 20°C
FB1/2 with respect to the Nominal
Value
FB1/2 with respect to the Nominal
Value
ISINK = 5mA
Switching Regulator
LDO
–40°C ≤ TA ≤ +85°C
PWROK Output Lower Voltage
PWROK Deglitch Timer (FB1)
PWROK Deglitch Timer (FB2)
EN1/2 Trip Threshold
EN1/2 Pull Down Resistor
Switching Regulator
IN1 Under Voltage Lockout Threshold Rising Edge, Hysteresis=0.3V
TA = +25°C
Regulated FB1Voltage
–40°C ≤ TA ≤ +85°C
FB1 Input Bias Current
VFB1 = 0.62V
SW1 PFET On Resistance
ISW1 = 100mA
SW1 NFET On Resistance
ISW1 = –100mA
VEN = 0V, VIN = 6V
SW1 Leakage Current
VSW = 0V or 6V
Duty Cycle = 100%,
SW1 PFET Peak Current Limit
Current Pulse Width < 1ms
Oscillator Frequency
Linear Regulator LDO
IN2 Input Range
Regulated FB2 Voltage
FB2 Input Bias Current
OUT2 Maximum Output Current
OUT2 Current Limit
Dropout Voltage
ILOAD2 = 10mA, VOUT2=VFB2
TA = +25°C
–40°C ≤ TA ≤ +85°C
VFB2 = 0.6V
VOUT2 = 1.2V
VOUT2 = 0V
ILOAD = 0.15A, VOUT2 = 1.2V
Min
Typ
Max
300
500
Units
μA
70
120
0.01
150
1
10
%
–10
%
0.3
0.3
1.90
0.588
0.582
–50
μA
°C
50
150
0.96
1
2.15
0.600
0.600
–2
0.20
0.15
V
μs
1.5
V
MΩ
2.40
0.612
0.618
+50
V
–5
V
nA
Ω
Ω
+5
μA
2.2
3.1
4.0
A
1.00
1.25
1.50
MHz
VIN1
0.612
0.618
+50
V
1
0.588
0.582
–50
500
0.600
0.600
–2
-
600
700
mA
100
mV
V
nA
mA
Notes:
5) Production test at +25°C. Specifications over the temperature range are guaranteed by design and characterization.
MP2116 Rev.1.0
1/17/2013
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MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
PIN FUNCTIONS
Pin #
Name
1
2
FB1
EN1
3
IN1
4
5
6
7
Description
Feedback Input for the switcher output VOUT1.
Enable Input for the switcher.
Main Input Supply Pin. Input supply for both the switcher and the low dropout (LDO)
linear regulator, except the LDO output power device.
Switch node of the switcher.
SW1
GND
Ground. Exposed pad must be connected to GND pin.
(Exposed Pad)
Input Supply for the linear regulator LDO output power device. Bypass with a 2.2uF
IN2
from IN2 to GND.
Output of the 500mA LDO. The LDO is designed to be stable with an external 4.7µF
OUT2
ceramic capacitor (minimum).
8
PWROK
9
10
EN2
FB2
MP2116 Rev.1.0
1/17/2013
Power OK Open Drain Output. HIGH output indicates that both outputs are within ±10%
of the regulation value. LOW output indicates that the output is out of ±10% window.
PWROK is pulled down in shutdown. The PWROK window comparators have 50μs
deglitch timer for the switcher and 150µs deglitch timer for the linear regulator LDO to
avoid false trigger during load transient.
Enable Input for the low-dropout LDO
Feedback Input for the LDO output VOUT2.
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MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
TYPICAL PERFORMANCE CHARACTERISTICS
VIN=3.6V, VOUT1=1.8V, VOUT2=1.2V, CIN1=10uF, CO1=22uF, CIN2=2.2uF, CO2=4.7uF, L=1uH, TA=25ºC,
unless otherwise noted.
Switcher Efficiency vs
Load Current
VIN=2.5V
VIN=3.3V
Switcher Efficiency vs
Load Current
VIN=4.0V
VIN=3.3V
VIN=4.0V
VIN=4.0V
VIN=5.0V
Switcher Efficiency vs
Load Current
VIN=5.0V
VIN=5.0V
VOUT1=1.2V
VOUT1=1.8V
Switcher Output Voltage vs
Load Current
VOUT1=3.3V
Switcher Output Voltage vs
Load Current
VIN=5.0V
VIN=5.0V
VIN=5.0V
VIN=3.3V
VIN=3.3V
VIN=2.5V
VIN=3.3V
VIN=4.0V
VIN=4.0V
Switcher Output Voltage vs
Input Voltage
Switcher Output Voltage vs
Input Voltage
IOUT=0mA
IOUT=0mA
IOUT=0.1A
IOUT=0.1A
MP2116 Rev.1.0
1/17/2013
IOUT=0.1A
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MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
TYPICAL PERFORMANCE CHARACTERISTICS
VIN=3.6V, VOUT1=1.8V, VOUT2=1.2V, CIN1=10uF, CO1=22uF, CIN2=2.2uF, CO2=4.7uF, L=1uH, TA=25ºC,
unless otherwise noted.
Peak Current vs
Duty Cycle
Enable Turn On
PWROK 2V/div
V OUT1 2V/div
VOUT1 2V/div
V OUT2 2V/div
VOUT2 2V/div
V EN 2V/div
V EN 2V/div
1.203
1.22
1.202
1.21
VIN2=2V
1.20
VIN2=3V
VOUT2 (V)
1.201
1.200
1.19
1.199
1.18
1.198
1.802
0.40
1.801
VIN2=3.0V
VOUT2 (V)
1.23
1.800
IOUT=0.2A
1.799
IOUT=0.1A
1.798
1.797
LDO DROPOUT (V)
VOUT2 (V)
PWROK 2V/div
VIN2=2.5V
MP2116 Rev.1.0
1/17/2013
Enable Turn Off
IOUT=0.2A
IOUT=0.1A
0.35
0.30
0.25
0.20
0.15
0.10
0.05
0
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MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
TYPICAL PERFORMANCE CHARACTERISTICS
VIN=3.6V, VOUT1=1.8V, VOUT2=1.2V, CIN1=10uF, CO1=22uF, CIN2=2.2uF, CO2=4.7uF, L=1uH, TA=25ºC,
unless otherwise noted.
MP2116 Rev.1.0
1/17/2013
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MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
TYPICAL PERFORMANCE CHARACTERISTICS
VFB1
VFB2
-50
-10
30
70
110
150
1.5
2.5
1.4
2.3
UVLO (V)
FREQUENCY (MHz)
VIN=3.6V, VOUT1=1.8V, VOUT2=1.2V, CIN1=10uF, CO1=22uF, CIN2=2.2uF, CO2=4.7uF, L=1uH, TA=25ºC,
unless otherwise noted.
1.3
1.2
1.1
1
-50
2.1
1.9
1.7
-10
30
70
110
150
1.5
-50
-10
30
70
110
150
D=100%
MP2116 Rev.1.0
1/17/2013
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MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
OPERATION
IN1
+
IAMP
10X
-CURRENT
SENSE
AMP
BIAS
&
VOLTAGE
REFERENCE
ICS
FB1
+
+
+ PWMCMP
EAMP1
--
PWM
DH
MAIN
SWITCH
(PCH)
--
SW1
1.25MHz
OSCILLATOR
SYNCHRONOUS
RECTIFIER
(NCH)
OSC
DL
GND
IN2
+
FB2
EAO2
0.6V
FB1/2
--
+
0.66V
OUT2
OUT_Hi
PWROK
-POWER ON RESET
WINDOW
COMPARATORS
0.54V
+
NO
GOOD
OUT_Lo
--
Figure1―MP2116 Functional Block Diagramm
The MP2116 is a 1.25MHz current mode 2A
synchronous step-down switcher plus a low input
0.5A low dropout (LDO) linear regulator (see
Figure1). The MP2116 is optimized for low
voltage, Li-Ion battery powered applications
where high efficiency and small size are critical.
The MP2116 uses an external resistor divider to
set both the switcher and LDO output voltage
from 0.6V to 6V.
2A Synchronous Step-Down Switcher
The switcher integrates both a main switch and a
synchronous rectifier, which provides high
efficiency and eliminates an external Schottky
diode.
The duty cycle D of a step-down switcher is
defined as:
D = TON × fOSC × 100% ≈
VOUT
× 100%
VIN
Where TON is the main switch on time and fOSC is
the oscillator frequency (1.25MHz).
MP2116 Rev.1.0
1/17/2013
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MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
Current Mode PWM Control
Slope compensated current mode PWM control
provides stable switching and cycle-by-cycle
current limiting for superior load and line
response in addition to protection of the internal
main switch and synchronous rectifier. The
MP2116 switches at a constant frequency
(1.25MHz) and regulates the output voltage.
During each cycle the PWM comparator
modulates the power transferred to the load by
changing the inductor peak current based on the
feedback error voltage. During normal operation,
the main switch is turned on for a certain time to
ramp the inductor current at each rising edge of
the internal oscillator, and switched off when the
peak inductor current is above the error voltage.
When the main switch is off, the synchronous
rectifier will be turned on immediately and stay on
until the next cycle starts.
Dropout Operation
The MP2116 allows the main switch to remain on
for more than one switching cycle and increases
the duty cycle while the input voltage is dropping
close to the output voltage. When the duty cycle
reaches 100%, the main switch is held on
continuously to deliver current to the output up to
the PFET current limit. The output voltage then
becomes the input voltage minus the voltage
drop across the main switch and the inductor.
Power OK
The MP2116 provides an open-drain PWROK
output that goes high after both channels reach
regulation during startup. PWROK goes low after
one of the output channels goes out of regulation
by ±10% or when device enters shutdown. There
are deglitch timers built in to avoid PWROK false
triggered during load transient: 50µS for the
switcher and 150µS for the LDO.
Low Input 0.5A Linear Regulator
The low input 0.5A low dropout (LDO) linear
regulator has separate input IN2 and output
OUT2 pins for the internal power PNP device.
The control circuitry of the LDO takes power from
the main input supply IN1. Both IN1 and IN2
input supplies must be presented for the LDO
working properly. The LDO power device input
IN2 can be connected to the switcher output
(Figure1) or directly to the main supply IN1
(Figure3). If the IN2 tied to the IN1, it is optional
to insert a RC filter between IN1 and IN2. The
RC filter will reduce switching noise coupling
from IN1 to IN2 and power dissipation inside the
MP2116
Short Circuit Protection
When the output is shorted to ground, the
oscillator frequency is reduced to prevent the
inductor current from increasing beyond the
PFET current limit. The PFET current limit is also
reduced to lower the short circuit current. The
frequency and current limit will return to the
normal values once the short circuit condition is
removed and the feedback voltage reaches 0.6V.
Maximum Switcher Output Current
The MP2116 switcher can provide up to 2A
output current, and operate down to 3V input
voltage; however the maximum output current
decreases at lower input voltage due to a large
IR drop on the main switch and synchronous
rectifier. The slope compensation signal reduces
the peak inductor current as a function of the
duty cycle to prevent sub-harmonic oscillations at
duty cycles greater than 50%. Conversely, the
current limit increases as the duty cycle
decreases
MP2116 Rev.1.0
1/17/2013
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MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
APPLICATION INFORMATION
Output Voltage Setting
The external resistor divider sets the output
voltage. The feedback resistor R1 of the switcher
also sets the feedback loop bandwidth with the
internal compensation capacitor (see Figure1).
Choose R1 feedback resistor of the switcher
between 450kΩ and 800kΩ for optimal transient
response. R2 is then given by:
R2 =
R1
VOUT1
−1
0.6V
See Table1 for recommended R1 & R2 resistor
values.
Choose R4 of the LDO between 10kΩ and
100kΩ. R3 is then given by:
V
R3 = R4 × ( OUT2 − 1)
0.6V
Table 1—Resistor Selection vs. Output
Voltage Setting
VOUT
R1
R2
1.2V
1.5V
1.8V
2.5V
499kΩ (1%)
499kΩ (1%)
499kΩ (1%)
332kΩ (1%)
499kΩ (1%)
249kΩ (1%)
499kΩ (1%)
158kΩ (1%)
Inductor Selection
A 1μH to 10μH inductor with DC current rating
at least 25% higher than the maximum load
current is recommended for most applications.
For best efficiency, the inductor DC resistance
shall be <100mΩ. See Table 2 for
recommended inductors and manufacturers.
For most designs, the inductance value can be
derived from the following equation:
L=
VOUT × (VIN − VOUT )
VIN × ΔIL × fOSC
Where ΔIL is inductor ripple current. Choose
inductor ripple current approximately 30% of the
maximum load current, up to 2A.
The maximum inductor peak current is:
ΔI
IL(MAX) = ILOAD(MAX) + L
2
Switcher Input Capacitor CIN1 Selection
The input capacitor reduces the surge current
drawn from the input and switching noise from
the device. The input capacitor impedance at
the switching frequency shall be less than input
source impedance to prevent high frequency
switching current passing to the input. Ceramic
capacitors with X5R or X7R dielectrics are
highly recommended because of their low ESR
and small temperature coefficients. For most
applications, a 10μF~22μF capacitor is
sufficient.
Switcher Output Capacitor CO1 Selection
The output capacitor keeps output voltage
ripple small and ensures regulation loop stable.
The output capacitor impedance shall be low at
the switching frequency. Ceramic capacitors
with X5R or X7R dielectrics are recommended.
For most applications, a 22μF~47μF capacitor
is sufficient.
The output ripple ΔVOUT is approximately:
ΔVOUT1 ≤
VOUT1 × ( VIN1 − VOUT1 ) ⎛
⎞
1
× ⎜ ESR +
⎟
VIN1 × fOSC × L
8
×
f
×
C
OSC
O1 ⎠
⎝
Table 2—Suggested Surface Mount Inductors
Manufacturer
Part Number
Inductance (uH)
TOKO
SUMIDA
DELTA
D62LCB
CDRH4D28C
SIL525-1R0
1.0
1.0
1.0
MP2116 Rev.1.0
1/17/2013
Max DCR
(mΩ)
17
17.5
38
Saturation
Current (A)
3.5
3.0
3.2
Dimensions
L x W x H (mm3)
6.2 X6.3 X 2.0
5.1 X 5.1 X 3
5.0 X 5.0 X 2.5
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11
MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
Thermal Dissipation
Power dissipation shall be considered when
both channels of the MP2116 provide maximum
2A switcher output current and 0.5A LDO
output current to the loads at high ambient
temperature. If the junction temperature rises
above 150°C, the MP2116 two channels will be
shut down.
PC Board Layout
The high current paths (GND, IN1/IN2 and SW1)
should be placed very close to the device with
short, direct and wide traces. Input capacitors
should be placed as close as possible to the
respective IN and GND pins. The external
feedback resistors shall be placed next to the
FB pins. Keep the switching nodes SW1 short
and away from the feedback network
The junction-to-ambient thermal resistance of
the 10-pin QFN (3mm x 3mm) RΘJA is 50°C/W.
The maximum power dissipation is about 1.6W
when the MP2116 is operating in a 70°C
ambient temperature environment.
PD MAX =
150 o C − 70 o C
50 o C / W
= 1 .6 W
TYPICAL APPLICATION CIRCUITS
OPTIONAL
2
3
4
6
1
MP2116 Rev.1.0
1/17/2013
EN1
IN1
SW1
EN2
PWROK
MP2116
OUT2
IN2
FB2
FB1
GND
9
POWER OK
8
7
OUT2
10
5
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12
MP2116 –2A, 6V, 100% DUTY CYCLE SYNCHROOUS STEP-DOWN CONVERTER WITH 0.5A LDO
PACKAGE INFORMATION
(3mmx3mm) QFN10
NOTICE: The information in this document is subject to change without notice. Please contact MPS for current specifications.
Users should warrant and guarantee that third party Intellectual Property rights are not infringed upon when integrating MPS
products into any application. MPS will not assume any legal responsibility for any said applications.
MP2116 Rev.1.0
1/17/2013
www.MonolithicPower.com
MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication
© 2013 MPS. All Rights Reserved.
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