MCP1624T-I View Datasheet(PDF) - Microchip Technology

Part Name

Description

MFG CO.

MCP1624T-I

Low-Voltage Input Boost Regulator for PIC® Microcontrollers

Microchip Technology 

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MCP1623/24

5.5 Inductor Selection

The MCP1623/24 is designed to be used with small

surface-mount inductors; the inductance value can

range from 2.2 µH to 10 µH. An inductance value of

4.7 µH is recommended to achieve a good balance

between inductor size, converter load transient

response and minimized noise.

TABLE 5-2: MCP1623/24

RECOMMENDED INDUCTORS

Part Number

Size

WxLxH

(mm)

Coilcraft

ME3220

4.7

LPS3015

4.7

EPL3012

4.7

XPL2010

4.7

Coiltronics®

SD3110

4.7

SD3112

4.7

SD3114

4.7

Wurth Elektronik®

WE-TPC Type TH 4.7

WE-TPC Type S

4.7

WE-TPC Type M

4.7

Sumida Corporation

CMH23

4.7

CMD4D06

4.7

CDRH4D

4.7

TDK Corporation

B82462A2472M000 4.7

B82462G4472M

4.7

0.190 1.5

0.200 1.2

0.165 1.0

0.336 0.75

2.5x3.2x2.0

3.0x3.0x1.5

3.0x3.0x1.3

1.9x2.0x1.0

0.285 0.68

0.246 0.80

0.251 1.14

3.1x3.1x1.0

3.1x3.1x1.2

3.1x3.1x1.4

0.200

0.105

0.082

0.8

0.90

1.65

2.8x2.8x1.35

3.8x3.8x1.65

4.8x4.8x1.8

0.537 0.70 2.3x2.3x1.0

0.216 0.75 3.5x4.3x0.8

0.09 0.800 4.6x4.6x1.5

0.084 2.00 6.0x6.0x2.5

0.04 1.8 6.3x6.3x3.0

Several parameters are used to select the correct

inductor: maximum rated current, saturation current

and copper resistance (ESR). For boost converters, the

inductor current can be much higher than the output

current. The lower the inductor ESR, the higher the

efficiency of the converter, a common trade-off in size

versus efficiency.

Peak current is the maximum or limit, and saturation

current typically specifies a point at which the

inductance has rolled off a percentage of the rated

value. This can range from a 20% to 40% reduction in

inductance. As inductance rolls off, the inductor ripple

current increases as does the peak switch current. It is

important to keep the inductance from rolling off too

much, causing switch current to reach the peak limit.

5.6 Thermal Calculations

By calculating the power dissipation and applying the

package thermal resistance, (JA), the junction

temperature is estimated. The maximum continuous

junction temperature rating for the MCP1623/24 is

+125oC.

To quickly estimate the internal power dissipation for

the switching boost regulator, an empirical calculation

using measured efficiency can be used. Given the

measured efficiency, the internal power dissipation is

estimated by Equation 5-3.

EQUATION 5-3:





V---E-O---f-U-f--iT--c---i--e--I-n-O--c--U-y--T-

– VOUT  IOUT

=

PDis

The difference between the first term, input power, and

the second term, power delivered, is the internal

MCP1623/24 power dissipation. This is an estimate

assuming that most of the power lost is internal to the

MCP1623/24 and not CIN, COUT and the inductor.

There is some percentage of power lost in the boost

inductor, with very little loss in the input and output

capacitors. For a more accurate estimation of internal

power dissipation, subtract the IINRMS2 x LESR power

dissipation.

DS40001420D-page 16

 2010-2016 Microchip Technology Inc.

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