MPS MP2270DH

MP2270
1.8A, 24V, 700kHz
Step-Down Converter
The Future of Analog IC Technology
DESCRIPTION
FEATURES
The MP2270 is a monolithic step-down switch
mode converter with a built-in internal power
MOSFET. It achieves 1.8A continuous output
current over a wide input supply range with
excellent load and line regulation. Current mode
operation provides fast transient response and
eases loop stabilization. Fault condition
protection includes cycle-by-cycle current limiting
and thermal shutdown.
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•
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The MP2270 requires a minimum number of
readily available standard external components.
The MP2270 is available in a 10-pin exposed pad
MSOP package.
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•
•
•
•
•
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1.8A Continuous Output Current
0.3Ω Internal Power MOSFET Switch
Stable with Low ESR Output Ceramic
Capacitors
0.1μA Shutdown Mode
Fixed 700kHz Frequency
Thermal Shutdown
Cycle-by-Cycle Over Current Protection
Wide 4.5V to 24V Operating Input Range
Output Adjustable from 0.81V to 20V
Available in a 10-pin Exposed Pad MSOP
Package
APPLICATIONS
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•
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Broadband Communications Equipment
Digital Entertainment Systems
Distributed Power Systems
Battery Charger
Pre-Regulator for Linear Regulators
“MPS” and “The Future of Analog IC Technology” are Registered Trademarks of
Monolithic Power Systems, Inc.
TYPICAL APPLICATION
VIN
5
IN
BST
MP2270
OFF ON
6
EN
GND
SW
1
3
CB
10nF
D1
B230A
FB
VOUT
3.3V
10
VIN
IOUT_MAX=1.8
8
MP2270 Rev. 1.1
4/16/2010
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1
MP2270 – 1.8A, 24V, 700KHz STEP-DOWN CONVERTER
ORDERING INFORMATION
Part Number*
Package
Top Marking
Free Air Temperature (TA)
MP2270DH
MSOP10w/Exposed Pad
2270D
-40°C to +85°C
* For Tape & Reel, add suffix –Z (e.g. MP2270DH–Z).
For RoHS Compliant packaging, add suffix –LF (e.g. MP2270DH–LF–Z)
PACKAGE REFERENCE
TOP VIEW
BST
1
10
FB
N/C
2
9
N/C
SW
3
8
GND
N/C
4
7
N/C
IN
5
6
EN
EXPOSED PAD
ON BACKSIDE
Connect to GND
ABSOLUTE MAXIMUM RATINGS (1)
Thermal Resistance
Supply Voltage VIN ....................................... 26V
VSW ........................................-0.3V to VIN + 0.3V
VBS ....................................................... VSW + 6V
All Other Pins ..................................-0.3V to +6V
(2)
Continuous Power Dissipation (TA = +25°C)
………………………………………………....2.3W
Junction Temperature ...............................150°C
Lead Temperature ....................................260°C
Storage Temperature............... -65°C to +150°C
MSOP10 w/Exposed Pad .......55 ...... 12 ... °C/W
Recommended Operating Conditions
(3)
Supply Voltage VIN ...........................4.5V to 24V
Operating Junct. Temp (TJ)...... -40°C to +125°C
MP2270 Rev. 1.1
4/16/2010
(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 JESD51-7, 4-layer PCB.
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MP2270 – 1.8A, 24V, 700KHz STEP-DOWN CONVERTER
ELECTRICAL CHARACTERISTICS
VIN = 12V, TA = +25°C, unless otherwise noted.
Parameters
Symbol Condition
Feedback Voltage
Feedback Current
(5)
Switch On-Resistance
Switch Leakage
Current Limit (5)
Oscillator Frequency
Fold-back Frequency
Maximum Duty Cycle
Minimum On-Time (5)
Under-Voltage Lockout Threshold Rising
Under-Voltage Lockout Threshold Hysteresis
EN Input Low Voltage
EN Input High Voltage
EN Input Current
Supply Current (Shutdown)
Supply Current (Quiescent)
Thermal Shutdown (5)
VFB
4.5V ≤ VIN ≤ 24V
IFB
VFB = 0.8V
Min
Typ
Max
Units
0.790
0.810
0.830
V
RDS(ON)
fSW
VEN = 0V, VSW = 0V
Duty Cycle = 40%
VFB = 0.6V
VFB = 0V
VFB = 0.6V
2.0
tON
2.5
10
nA
0.3
0
2.5
700
230
87
100
2.8
150
Ω
μA
A
kHz
kHz
%
ns
V
mV
V
V
10
3.1
0.4
1.5
VEN = 2V
VEN = 0V
VEN = 0V
VEN = 2V, VFB = 1V
2.1
0.01
0.1
0.8
150
μA
1.0
1.0
μA
mA
°C
Note:
5) Guaranteed by design.
MP2270 Rev. 1.1
4/16/2010
www.MonolithicPower.com
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© 2010 MPS. All Rights Reserved.
3
MP2270 – 1.8A, 24V, 700KHz STEP-DOWN CONVERTER
PIN FUNCTIONS
Pin #
2, 4,
9, 7
3
5
6
10
8
1
Name
Description
NC
No Connect.
SW
Switch Output.
Supply Voltage. The MP2270 operates from a +4.5V to +24V unregulated input. C1 is needed
IN
to prevent large voltage spikes from appearing at the input.
EN
On/Off Control Input. Pull above 1.2V to turn the device on.
Feedback. An external resistor divider from the output to GND, tapped to the FB pin sets the
output voltage. To prevent current limit run away during a short circuit fault condition the
FB
frequency foldback comparator lowers the oscillator frequency when the FB voltage is below
250mV.
Ground. This pin is the voltage reference for the regulated output voltage. For this reason
GND,
care must be taken in its layout. This node should be placed outside of the D1 to C1 ground
Exposed
path to prevent switching current spikes from inducing voltage noise into the part. Exposed
pad
pad must be connected to a ground plane for proper thermal operation.
Bootstrap. This capacitor is needed to drive the power switch’s gate above the supply
BST
voltage. It is connected between SW and BST pins to form a floating supply across the power
switch driver.
MP2270 Rev. 1.1
4/16/2010
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MP2270 – 1.8A, 24V, 700KHz STEP-DOWN CONVERTER
TYPICAL PERFORMANCE CHARACTERISTICS
VIN = 12V, VOUT = 1.8V, L=6.8μH, ILOAD=0.5A – 1.8A, TA = +20°C, unless otherwise noted.
900
3.0
880
2.5
860
840
2.0
820
800
1.5
780
1.0
760
740
0.5
720
700
5
10
15
20
0
5
10
15
20
25
0
0
20
40
60
80
100
40
35
30
VOUT_MAX
DMAX Limit
VIN=20V
25
20
VIN=12V
Minimum On Time Limit
15
10
VFB_MIN
5
0
0
MP2270 Rev. 1.1
4/16/2010
0.5
1.0
1.5
2.0
0
5
10
15
20
25
0
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5
MP2270 – 1.8A, 24V, 700KHz STEP-DOWN CONVERTER
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 12V, VOUT = 1.8V, L=6.8μH, ILOAD=0.5A – 1.8A, TA = +20°C, unless otherwise noted.
MP2270 Rev. 1.1
4/16/2010
www.MonolithicPower.com
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© 2010 MPS. All Rights Reserved.
6
MP2270 – 1.8A, 24V, 700KHz STEP-DOWN CONVERTER
OPERATION
The MP2270 is a current mode buck regulator.
That is, the EA output voltage is proportional to
the peak inductor current.
At the beginning of a cycle, M1 is off. The EA
output voltage is higher than the current sense
amplifier output, and the current comparator’s
output is low. The rising edge of the 700KHz
CLK signal sets the RS Flip-Flop. Its output
turns on M1 thus connecting the SW pin and
inductor to the input supply.
The increasing inductor current is sensed and
amplified by the Current Sense Amplifier. Ramp
compensation is summed to Current Sense
Amplifier output and compared to the Error
Amplifier output by the PWM Comparator.
When the sum of the Current Sense Amplifier
output and the Slope Compensation signal
exceeds the EA output voltage, the RS FlipFlop is reset and the M1 is turned off. The
external Schottky rectifier diode (D1) conducts
the inductor current.
If the sum of the Current Sense Amplifier output
and the Slope Compensation signal does not
exceed the EA output for a whole cycle, then
the falling edge of the CLK resets the Flip-Flop.
The output of the Error Amplifier integrates the
voltage difference between the feedback and
the 0.81V bandgap reference. The polarity is
such that a FB pin voltage lower than 0.8V
increases the EA output voltage. Since the EA
output voltage is proportional to the peak
inductor current, an increase in its voltage also
increases current delivered to the output.
IN
x20
CURRENT SENSE
AMPLIFIER
+
--
D
REGULATOR
BST
EN
REGULATOR
OSCILLATOR
700KHz
S
+
-1pF
REFERENCE
FB
Q
DRIVER
M1
R
CURRENT
LIMIT
COMPARATOR
R
SW
27pF
+EA
--
ERROR
AMPLIFIER
+
--
PWM
COMPARATOR
GND
Figure 1—Functional Block Diagram
MP2270 Rev. 1.1
4/16/2010
www.MonolithicPower.com
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© 2010 MPS. All Rights Reserved.
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MP2270 – 1.8A, 24V, 700KHz STEP-DOWN CONVERTER
APPLICATION INFORMATION
Setting Output Voltage
The external resistor divider is used to set the
output voltage (see the schematic on front
page). The feedback resistor R1 also sets the
feedback loop bandwidth with the internal
compensation capacitor (see Figure 1). R2 can
be determined by:
R2 =
R1
VOUT
−1
0.81V
Table 1—Resistor Selection for Common
Output Voltages
VOUT (V)
R1 (kΩ)
R2 (kΩ)
1.8
2.5
3.3
5
80.6 (1%)
49.9 (1%)
49.9 (1%)
49.9 (1%)
64.9 (1%)
23.7 (1%)
16.2 (1%)
9.53 (1%)
Selecting the Inductor
A 1µH to 10µH inductor with a DC current rating
of at least 25% percent higher than the
maximum load current is recommended for
most applications. For highest efficiency, the
inductor’s DC resistance should be less than
200mΩ. For most designs, the required
inductance value can be derived from the
following equation.
L=
Selecting the Input Capacitor
The input capacitor reduces the surge current
drawn from the input and the switching noise from
the device. The input capacitor impedance at the
switching frequency should be less than the input
source impedance to prevent high frequency
switching current from passing through 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 capacitor is sufficient.
Selecting the Output Capacitor
The output capacitor keeps output voltage ripple
small and ensures loop stability. The output
capacitor impedance should be low at the
switching frequency. Ceramic capacitors with
X5R or X7R dielectrics are recommended for their
low ESR characteristics. For most applications, a
22µF ceramic capacitor will be sufficient.
PC Board Layout
The high current paths (GND, IN and SW) should
be placed very close to the device with short,
direct and wide traces. The input capacitor needs
to be as close as possible to the IN and GND pins.
The external feedback resistors should be placed
next to the FB pin. Keep the switch node traces
short and away from the feedback network.
VOUT × ( VIN − VOUT )
VIN × ΔIL × f OSC
Where ΔIL is the inductor ripple current.
Choose an inductor with a rating current of
approximately 30% higher than the maximum
load current if the maximum load current is
≥1.8A. The maximum inductor peak current is
calculated from:
IL(MAX ) = ILOAD +
ΔI L
2
Under light load conditions below 100mA, a
larger inductance is recommended for improved
efficiency. See Table 2 for suggested inductors.
MP2270 Rev. 1.1
4/16/2010
www.MonolithicPower.com
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© 2010 MPS. All Rights Reserved.
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MP2270 – 1.8A, 24V, 700KHz STEP-DOWN CONVERTER
External Bootstrap Diode
An external bootstrap diode may enhance the
efficiency of the regulator, the applicable
conditions of external BST diode are:
z
VOUT=5V or 3.3V; and
z
Duty cycle is high: D=
VOUT
>65%
VIN
In these cases, an external BST diode is
recommended from the output of the voltage
regulator to BST pin, as shown in Fig.2
External BST Diode
IN4148
BST
CBST
MP2270
SW
L
5V or 3.3V
COUT
Figure 2—Add Optional External Bootstrap
Diode to Enhance Efficiency
The recommended external BST diode is IN4148,
and the BST cap is 0.1~1µF.
Table 2—Suggested Surface Mount Inductors
Manufacturer
Part Number
Inductance(µH)
Max DCR(Ω)
Current Rating
(A)
Dimensions
L x W x H (mm3)
Wurth Electronics
Toko
Coiltronics
7447785004
A916CY-4R7M
DR73-4R7
4.7
4.7
4.7
0.060
0.026
0.03
2.5
2.5
3
5.9 x 6.2 x 3.3
6.2 x 6.3 x 3.5
6.0 x 7.6 x 3.5
MP2270 Rev. 1.1
4/16/2010
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© 2010 MPS. All Rights Reserved.
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MP2270 – 1.8A, 24V, 700KHz STEP-DOWN CONVERTER
PACKAGE INFORMATION
MSOP 10 (EXPOSED PAD)
NOTICE: The information in this document is subject to change without notice. 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.
MP2270 Rev. 1.1
4/16/2010
www.MonolithicPower.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited.
© 2010 MPS. All Rights Reserved.
10