ARD00386 Microchip Technology, ARD00386 Datasheet - Page 18
ARD00386
Manufacturer Part Number
ARD00386
Description
Power Management Modules MCP1640 12V 50mA Boost Converter
Manufacturer
Microchip Technology
Datasheet
1.ARD00386.pdf
(26 pages)
Specifications of ARD00386
Product
DC-DC Converters / Regulators
Input Voltage Max
5 V
Switching Frequency
500 kHz
Output Voltage
12 V
Output Current
50 mA
Input Voltage Min
2 V
Available stocks
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Manufacturer
Quantity
Price
Company:
Part Number:
ARD00386
Manufacturer:
MICROCHIP
Quantity:
12 000
MCP1640 12V/50 mA Two Cells Input Boost Converter Reference Design
DS51999A-page 18
Attention should be paid to the values of the sense resistors. When testing the board
for other output voltage, a potential issue with higher value resistors is environmental
contamination, which can create a leakage current path on the PCB. This will affect the
feedback voltage and the output voltage regulation. Engineers should use resistors that
are larger than 1 MΩ with precaution. In normal humidity conditions, the V
leakage is very low and the resistors’ values will not affect the stability of the system.
When the board is powered up, the internal MCP1640 device’s start-up logic circuitry
turns the internal rectifying switch on until the output capacitor, connected at the V
pin (C L ), is charged to a value close to the input voltage. During start-up, the rectifying
switch limits the maximum current. Because at start-up, the external n-channel MOS
(Q) transistor is OFF, a start-up resistor (R
MCP1640 starts switching, and the external N-MOS is turned on, cascading the
internal N-MOS switch of the MCP1640 to work with high voltage, more than 6V.
Notice that the MCP1640 is working internally as a synchronous rectifier and delivers
on its output (Pin 5) a part of the total output power. This output is unregulated because
the sense resistors, R
MCP1640 gets its start-up bias from V
comes from the output. The C
of MCP1640. This voltage is used to supply the internal blocks after start-up (including
the compensation circuitry). In case of instability, a few mA loads may be required (R
is not populated on the board; for 12V output, use a 2k or 3k resistor). On the output of
MCP1640 (VO test point), a maximum 5 mA load can be connected. Exceeding the
load produces unregulated board V
The board works well in Discontinuous mode. However, once entered into Continuous
mode, V
There is no undervoltage lockout feature for the MCP1640 family of devices. The
device will start up at the lowest voltage possible and run down to the lowest voltage
possible.
Note:
OUT
Because this configuration is an nonsynchronous converter, the MCP1640
device’s features, true disconnect output and short-circuit protection, will be
lost for this reference board. In case of a short circuit, inductor L, and diode
D, can be broken. Notice that the MCP1640 will not be affected.
goes out of regulation.
T
and R
B
L
, are connected to the high output voltage. The
capacitor is mandatory, because it smooths the output
OUT
IN
.
. Once the output exceeds the input, bias
S
) is bypassing it and the C
© 2011 Microchip Technology Inc.
L
cap is supplied.
FB
input
OUT
L
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