MCP1640 Microchip Technology Inc., MCP1640 Datasheet - Page 12

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MCP1640

Manufacturer Part Number
MCP1640
Description
0.65v Start-up Synchronous Boost Regulator With True Output Disconnect Or Input/output Bypass Option
Manufacturer
Microchip Technology Inc.
Datasheet

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MCP1640/B/C/D
4.2
The MCP1640/B/C/D is a compact, high-efficiency,
fixed frequency, step-up DC-DC converter that
provides an easy-to-use power supply solution for
applications powered by either one-cell, two-cell, or
three-cell alkaline, NiCd, or NiMH, or one-cell Li-Ion or
Li-Polymer batteries.
FIGURE 4-1:
4.2.1
The MCP1640/B/C/D is capable of starting from a low
input voltage. Start-up voltage is typically 0.65V for a
3.3V output and 1 mA resistive load.
When enabled, the internal start-up logic turns the
rectifying P-Channel switch on until the output
capacitor is charged to a value close to the input
voltage. The rectifying switch is current limited during
this time. After charging the output capacitor to the
input voltage, the device starts switching. If the input
voltage is below 1.6V, the device runs open-loop with a
fixed duty cycle of 70% until the output reaches 1.6V.
During this time, the boost switch current is limited to
DS22234A-page 12
SW
EN
GND
Functional Description
V IN
LOW-VOLTAGE START-UP
MCP1640/B/C/D Block Diagram.
GATE DRIVE
SHUTDOWN
OSCILLATOR
CONTROL
INTERNAL
PWM/PFM
LOGIC
LOGIC
AND
BIAS
V OUT
.3V
0V
DIRECTION
CONTROL
SLOPE
COMP.
SOFT-START
Figure 4-1 depicts the functional block diagram of the
MCP1640/B/C/D.
50% of its nominal value. Once the output voltage
reaches 1.6V, normal closed-loop PWM operation is
initiated.
The MCP1640/B/C/D charges an internal capacitor
with a very weak current source. The voltage on this
capacitor, in turn, slowly ramps the current limit of the
boost switch to its nominal value. The soft-start
capacitor is completely discharged in the event of a
commanded shutdown or a thermal shutdown.
There is no undervoltage lockout feature for the
MCP1640/B/C/D. The device will start up at the lowest
possible voltage and run down to the lowest possible
voltage. For typical battery applications, this may result
in “motor-boating” for deeply discharged batteries.
EA
I
I LIMIT
I SENSE
ZERO
1.21V
 2010 Microchip Technology Inc.
FB

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