MPS MP3216DJ 36v, 1.3mhz, 0.75a step-up converter with output disconnect Datasheet

MP3216
36V, 1.3MHz, 0.75A Step-up Converter
With Output Disconnect
The Future of Analog IC Technology
DESCRIPTION
FEATURES
The MP3216 is a monolithic step up converter
integrating a 0.75A, 0.6Ω internal switch. The
MP3216 uses current mode, fixed frequency
architecture to regulate the output voltage,
providing fast transient response and cycle by
cycle current limit.
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•
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•
•
•
•
•
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The MP3216 includes under-voltage lockout, over
voltage protection and thermal overload
protection preventing damage in the event of an
output overload.
In addition, the MP3216 can disconnect all loads
from input DC power supply. The output short
circuit protection prevents the Schottky diode and
IC from damage.
The MP3216 is available in small 6-pin TSOT23
package.
Internal 0.6Ω Power MOSFET
Up to 36V Output Voltage
1.3MHz Fixed Switching Frequency
42V Over Voltage Shutdown
Cycle-by-Cycle Over Current Protection
UVLO, Thermal Shutdown
Output Disconnection
Output Short Protection
Available in TSOT23-6 Packages
APPLICATIONS
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Portable Applications
Handheld Computers and PDAs
Digital Still Cameras
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are Registered Trademarks of Monolithic Power Systems, Inc.
TYPICAL APPLICATION
90
Efficiency vs.
Output Current
EFFICIENCY (%)
80
70
60
50
40
30
20
MP3216 Rev. 0.92
12/25/2013
0
2
4 6 8 10 12 14 16 18 20
OUTPUT CURRENT (mA)
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1
MP3216 –36V, 1.3MHz STEP-UP CONVERTER WITH A 0.75A SWITCH
ORDERING INFORMATION
Part Number*
Package
Top Marking
Free Air Temperature (TA)
MP3216DJ
TSOT23-6
6H
-40°C to +85°C
* For Tape & Reel, add suffix –Z (e.g. MP3216DJ–Z);
For RoHS Compliant Packaging, add suffix –LF (e.g. MP3216DJ–LF–Z)
PACKAGE REFERENCE
TOP VIEW
SW
1
6
L
GND
2
5
IN
FB
3
4
EN
ABSOLUTE MAXIMUM RATINGS (1)
Thermal Resistance
SW Pin..........................................-0.5V to +40V
All Other Pins ...............................-0.3V to +6.5V
(2)
Continuous Power Dissipation (TA = +25°C)
.......................................................... 0.56 W
Junction Temperature ...............................150°C
Lead Temperature ....................................260°C
Storage Temperature............... -55°C to +150°C
TSOT23-6 ..............................220 .... 110 .. °C/W
Recommended Operating Conditions
(3)
IN Supply Voltage ..............................2.5V to 6V
SW Pin ................................................VIN to 36V
Maximum Junction Temp. (TJ) ................+125°C
MP3216 Rev. 0.92
12/25/2013
(4)
θJA
θ JC
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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2
MP3216 –36V, 1.3MHz STEP-UP CONVERTER WITH A 0.75A SWITCH
ELECTRICAL CHARACTERISTICS
VIN = VEN = 5V, TA = +25°C, unless otherwise noted.
Parameters
Symbol
Operating Input Voltage
Supply Current (Shutdown)
Supply Current (Quiescent)
Switching Frequency
Maximum Duty Cycle
Under Voltage Lockout
IN Under Voltage Lockout
Under Voltage Lockout
Hysteresis
Over Voltage Shutdown
Threshold
Enable
EN OFF Threshold
EN ON Threshold
Feedback
FB Voltage
FB Input Bias Current
Output Switch
SW On-Resistance
SW Current Limit
Condition
VIN
Min
fSW
VFB = 0V
VOV
Max
Units
550
1.3
6
10
650
1.5
V
µA
µA
MHz
%
2.25
2.45
V
2.5
VEN = 0V
VFB = 0.15V
UVLO
Typ
1.0
92
VIN Rising
VOV Rising
VEN Falling
VEN Rising
mV
42
V
0.8
2
1.20
VFB = 1.2V
Duty Cycle = 60%
600
0.75
mΩ
A
Thermal Shutdown
150
°C
Output Disconnect Switch
N-CH On-Resistance
Inrush Current Limit
300
0.21
mΩ
A
RON
VL<(VIN-0.3V)
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1.28
V
V
1.24
70
MP3216 Rev. 0.92
12/25/2013
VFB
92
V
nA
3
MP3216 –36V, 1.3MHz STEP-UP CONVERTER WITH A 0.75A SWITCH
PIN FUNCTIONS
Pin #
Name
1
SW
2
GND
3
FB
Feedback Input. Reference voltage is 1.24V, Connect a resistor divider from the
output to this pin.
4
EN
ON/OFF Control Input. A voltage greater than 2V will turn the part on and less than
0.8V will turn the part off. When not used, tie EN to the input source for automatic
startup.
5
IN
Input Supply Pin. IN is the drain of the internal disconnecting N-channel MOSFET.
Must be locally bypassed.
6
L
Inductor Output Pin. L is the source/body of the internal disconnecting N-channel
MOSFET. Connect the inductor to this pin.
MP3216 Rev. 0.92
12/25/2013
Pin Function
Power Switch Output. SW is the drain of the internal MOSFET switch. Connect the
power inductor and output rectifier to SW.
Ground.
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MP3216 –36V, 1.3MHz STEP-UP CONVERTER WITH A 0.75A SWITCH
TYPICAL PERFORMANCE CHARACTERISTICS
Circuit on page 9, VIN=5V, VOUT=33V, TA=+25˚C, unless otherwise noted.
MP3216 Rev. 0.92
12/25/2013
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5
MP3216 –36V, 1.3MHz STEP-UP CONVERTER WITH A 0.75A SWITCH
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
Circuit on page 9, VIN=5V, VOUT=33V, TA=+25˚C, unless otherwise noted.
MP3216 Rev. 0.92
12/25/2013
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© 2013 MPS. All Rights Reserved.
6
MP3216 –36V, 1.3MHz STEP-UP CONVERTER WITH A 0.75A SWITCH
OPERATION
The MP3216 uses a constant frequency, peak
current mode boost regulator architecture to
regulate the output voltage. The operation of
the MP3216 can be understood by referring to
the block diagram of Figure 1.
If the feedback voltage starts to drop, the output
of the error amplifier increases. This results in
more current flowing through the power FET,
thus increasing the power delivered to the
output.
At the start of each oscillator cycle the FET is
turned on through the control circuitry. To
prevent sub-harmonic oscillations at duty cycles
greater than 50 percent, a stabilizing ramp is
added to the output of the current sense
amplifier and the result is fed into the positive
input of the PWM comparator. When this
voltage equals the output voltage of the error
amplifier the power FET is turned off.
Over voltage protection shuts off the MP3216 if
the output voltage goes too high. In some cases,
loose high side resistor or improper divided
resistor; this results in the feedback voltage is
always below reference. The part runs at
maximum duty cycle boosting the output
voltage higher and higher. If the output ever
exceeds 42V, the part shuts down. And It does
not switch again until the power is recycled.
The voltage at the output of the error amplifier
is an amplified version of the difference
between the 1.24V reference voltage and the
feedback voltage. In this way the peak current
level keeps the output in regulation.
The MP3216 also has output short protection
function. When short condition occurs,
switching stops and internal disconnecting NMOSFET limits the inductor current to 210mA,
which prevents the freewheel diode and IC from
damaging. Once short condition is released, the
system returns to normal operation.
IN
L
M2
INTERNAL
REGULATOR
CP
ENABLE&
REFERENCE
CONTROL
Figure 1—Functional Block Diagram
MP3216 Rev. 0.92
12/25/2013
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7
MP3216 –36V, 1.3MHz STEP-UP CONVERTER WITH A 0.75A SWITCH
APPLICATION INFORMATION
Components referenced below apply to
Typical Application Circuit on page 9.
−
)
B
VF
×
T
U
1
R
B
F
=
V OV
(
2
R
Setting the Output Voltage
Set the output voltage by selecting the resistive
voltage divider ratio. Use 5.1kΩ for the low-side
resistor R2 of the voltage divider. Determine the
high-side resistor R1 by the equation:
Where, VOUT is the output voltage, VFB = 1.24V.
For R2 = 5.1kΩ and VOUT = 33V, then
R1 = 130.6kΩ. There choose a 133kΩ standard
1% value.
Selecting the Input Capacitor
An input capacitor is required to supply the AC
ripple current to the inductor, while limiting noise
at the input source. This capacitor must have low
ESR, so ceramic is the best choice. Use an input
capacitor value of 4.7µF or greater. This
capacitor must be placed physically close to the
IN pin. Since it reduces the voltage ripple seen at
IN, it also reduces the amount of EMI passed
back along that line to the other circuitry.
To minimize the ripple to the inductor, use a
smaller ceramic capacitor value of 0.1µF placed
physically close to the L pin.
⎞
⎟×
⎠
D
A
O
E
L
P
P
I
VR
MP3216 Rev. 0.92
12/25/2013
⎛
⎜
≈⎝
IL
W
fS
T
N U
2
V IV OC
1
Selecting the Output Capacitor
The output capacitor is required to maintain the
DC output voltage. Low ESR capacitors are
preferred to keep the output voltage ripple to a
minimum. The characteristic of the output
capacitor also affects the stability of the
regulation control system. Ceramic, tantalum, or
low
ESR
electrolytic
capacitors
are
recommended. In the case of ceramic capacitors,
the impedance of the capacitor at the switching
frequency is dominated by the capacitance, and
so the output voltage ripple is mostly
independent of the ESR. The output voltage
ripple is estimated to be:
Where VRIPPLE is the output ripple voltage, VIN and
VOUT are the DC input and output voltages
respectively, ILOAD is the load current, fSW is the
switching frequency, and C2 is the capacitance
of the output capacitor.
Selecting the Inductor
The inductor is required to force the higher output
voltage while being driven by the lower input
voltage. A larger value inductor results in less
ripple current that results in lower peak inductor
current, reducing stress on the internal power
switch. However, the larger value inductor has a
larger physical size, higher series resistance,
and/or lower saturation current.
Inductance from 2.2µH to 33µH is a good choice
for high efficiency and small size. To prevent
saturation, use an inductor with a saturation
current rating that is higher than the device
current limit.
Selecting the Diode
The output rectifier diode supplies current to the
inductor when the internal power MOSFET is off.
To reduce losses due to diode forward voltage
and recovery time, use a Schottky diode with the
MP3216. The diode should be rated for a reverse
voltage equal to or greater than the output
voltage used. The average current rating must be
greater than the maximum load current
expected, and the peak current rating must be
greater than the peak inductor current.
Layout Consideration
High frequency switching regulators require very
careful layout for stable operation and low noise. All
components must be placed as close to the IC as
possible. Keep the path between the SW pin,
output diode, output capacitor and GND pin
extremely short for minimal noise and ringing. The
input capacitor must be placed close to the IN pin
for best decoupling. All feedback components must
be kept close to the FB pin to prevent noise
injection on the FB pin trace. The ground return of
the input and output capacitors should be tied close
to the GND pin. See the MP3216 demo board
layout for reference.
×
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8
MP3216 –36V, 1.3MHz STEP-UP CONVERTER WITH A 0.75A SWITCH
TYPICAL APPLICATION CIRCUIT
VIN
5V
c5
NC
c1
4.7uF/16V
c3
0.1uF
5 IN
GND
R5
NC
EN
R6
51k
D1
B0540
c2
L
6
1
SW
MP3216
4 EN
GND
2
R4
NC
FB
R1
133k
3
R3
30k
0.47uF/50V
c6
NC
c4
NC
Vout
33V/10mA
GND
R2
5.1k
Figure 2—VIN=5V VOUT=33V IOUT=10mA Boost Circuit
MP3216 Rev. 0.92
12/25/2013
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9
MP3216 –36V, 1.3MHz STEP-UP CONVERTER WITH A 0.75A SWITCH
PACKAGE INFORMATION
TSOT23-6
0.95
BSC
0.60
TYP
2.80
3.00
6
4
1.20
TYP
1.50
1.70
1
2.60
3.00
2.60
TYP
3
TOP VIEW
RECOMMENDED LAND PATTERN
0.84
0.90
1.00 MAX
0.09
0.20
SEATING PLANE
0.30
0.50
0.95 BSC
0.00
0.10
SEE DETAIL "A"
FRONT VIEW
SIDE VIEW
NOTE:
GAUGE PLANE
0.25 BSC
0o-8o
DETAIL
揂
0.30
0.50
1) ALL DIMENSIONS ARE IN MILLIMETERS.
2) PACKAGE LENGTH DOES NOT INCLUDE MOLD FLASH
,
PROTRUSION OR GATE BURR.
3) PACKAGE WIDTH DOES NOT INCLUDE INTERLEAD FLASH
OR PROTRUSION.
4) LEAD COPLANARITY(BOTTOM OF LEADS AFTER FORMING)
SHALL BE 0.10 MILLIMETERS MAX.
5) DRAWING CONFORMS TO JEDEC MO-193, VARIATION AA.
6) DRAWING IS NOT TO SCALE.
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.
MP3216 Rev. 0.92
12/25/2013
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10