MCP1650DM-DDSC1 Microchip Technology, MCP1650DM-DDSC1 Datasheet - Page 16
MCP1650DM-DDSC1
Manufacturer Part Number
MCP1650DM-DDSC1
Description
BOARD DEMO FOR MCP1650 SEPIC
Manufacturer
Microchip Technology
Type
DC/DC Switching Converters, Regulators & Controllersr
Specifications of MCP1650DM-DDSC1
Main Purpose
DC/DC, Step Up or Down
Outputs And Type
1, Non-Isolated
Voltage - Output
5V
Current - Output
160mA
Voltage - Input
3 ~ 7V
Regulator Topology
Boost
Frequency - Switching
750kHz
Board Type
Fully Populated
Utilized Ic / Part
MCP1650
Input Voltage
3 V to 7 V
Output Voltage
5 V
Product
Power Management Modules
For Use With/related Products
MCP1650R-E/MS
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Power - Output
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
MCP1650/51/52/53
5.1.2
For bootstrap configurations, the higher-regulated
boost output voltage is used to power the MCP1650/
51/52/53. This provides a constant higher voltage used
to drive the external MOSFET. The R-option devices
(UVLO < 2.0V) can be used for applications that need
FIGURE 5-2:
5.1.3
In many applications, the input voltage can vary above
and below the regulated output voltage. A standard
boost converter cannot be used when the output volt-
age is below the input voltage. In this case, the
MCP1650/51/52/53 can be used as a SEPIC controller.
A SEPIC requires 2 inductors or a single coupled
inductor, in addition to an AC coupling capacitor. As
FIGURE 5-3:
DS21876A-page 16
2.8V to 4.2V
2.8V to 4.2V
Voltage
Voltage
Input
Input
BOOTSTRAP BOOST
APPLICATIONS
Li-Ion Input to 5.0V 1A Regulated Output (Bootstrap) with MCP1652 Power Good Output
SEPIC CONVERTER
APPLICATIONS
47 µF
47 µF
C
C
IN
Dimming Capability
in
Bootstrap Application Circuit MCP1650/51/52/53.
SEPIC Converter Application Circuit MCP1650/51/52/53.
10
0.1 µF
off
Shutdown
10
0.1 µF
on
off
Li-Ion Input to 3.6V 3W LED Driver (SEPIC Converter)
on
SHDN
GND
V
NC
IN
SHDN
GND
8
6
V
NC
2
5
IN
MCP1651
8
2
5
6
MCP1652
3
1
4
7
CS
EXT
FB
PG
4
7
3
1
Power Good Output
3.3 µH
CS
EXT
FB
PG
to start up with the input voltage below 2.7V. For this
type of application, the MCP1650/51/52/53 will start off
of the lower 2.0V input and begin to boost the output up
to its regulated value. As the output rises, so does the
input voltage of the MCP1650/51/52/53. This provides
a solution for 2-cell alkaline inputs for output voltages
that are less than 6V.
with the previous boost-converter applications, the
SEPIC converter can be used in either a bootstrap or
non-bootstrap configuration. The SEPIC converter can
be a very popular topology for driving high-power
LEDs. For many LEDs, the forward voltage drop is
approximately 3.6V, which is between the maximum
and minimum voltage range of a single-cell Li-Ion
battery, as well as 3 alkaline or nickel metal batteries.
3.3 µH
Power Good Output
N-Channel
MOSFET
4.7 µF
3.3 µH
N-Channel
MOSFET
Schottky Diode
Schottky Diode
2.49 k
1 k
2004 Microchip Technology Inc.
3.09 k
1 k
0.2
3W
LED
I
OUT
Vout = 5V
Iout = 1A
= 1A
0.1
C
47 µF
Ceramic
0.1
out
C
47 µF
Ceramic
OUT
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