KIT33701DWBEVB Freescale Semiconductor, KIT33701DWBEVB Datasheet - Page 32

KIT33701DWBEVB

Manufacturer Part Number

KIT33701DWBEVB

Description

KIT FOR 33701 POWER SUPPLY

Manufacturer

Freescale Semiconductor

Type

LDO Controllers & Regulatorsr

Datasheet

1.MC34701EKR2.pdf (39 pages)

Specifications of KIT33701DWBEVB

Main Purpose

DC/DC, Step Down with LDO

Outputs And Type

2, Non-Isolated

Voltage - Input

2.8 ~ 6V

Regulator Topology

Buck

Frequency - Switching

300kHz

Board Type

Fully Populated

Utilized Ic / Part

MC34701

Product

Power Management Modules

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Voltage - Output

Power - Output

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

For Use With/related Products

34701

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Linear Regulator Current Limit

Description section, the current limit of the linear regulator

can be adjusted by means of an external current sense

resistor R

current flowing through the current sense resistor R

sensed between the LDO and the CS pins. When the sensed

voltage exceeds 50mV (typical), the current limit timer starts

to time out while the control circuit limits the output current. If

the over-current condition lasts for more than 10ms, the linear

regulator is shut off and turned on again after 100ms. This

type of operation provides equivalent protection to the analog

“current foldback” operation.

load which can be supplied by the by the linear regulator is

limited by the setting of the LDO current limit. During the

power-up period, the linear regulator operates in the current

limit, supplying the current into the load of the LDO, which

includes all the capacitors connected to the regulator output.

If the total amount load is so large that the regulator could not

reach its regulation voltage in 10ms during the power-up, it

turns off and tries to power up again after 100ms. This

situation may lead to the power-up oscillations.

Linear Regulator External MOSFET

MOSFET to provide a pass element for the power path. The

selection of the proper type of the external power MOSFET is

critical for optimum performance and safe operation of the

linear regulator.

charge, capacitances and transconductance are important

parameters for the stable operation of the linear regulator

while the package of the power MOSFET determines the

maximum power dissipation, and hence the maximum output

current for the required input-to-output voltage drop. The

power dissipation of the external MOSFET can be calculated

from the simple formula:

for the 34701 linear regulator, their typical power dissipation,

and thermal resistance junction-to-case.

34701

Table 10. Recommended Power MOSFETs

TYPICAL APPLICATIONS

MTD20N03HDL

As described in the Linear Regulator Functional

It is important to keep in mind that the amount of capacitive

The linear regulator uses an external N-channel power

The power MOSFET’s threshold voltage, R

Where P

Table 10

IRL2703S

Part No.

VIN is the LDO input voltage,

VLDO is the LDO output voltage,

ILDO is the LDO output load current.

. The voltage drop caused by the regulator output

D(Q)

shows the recommended power MOSFET types

D Q

is the power MOSFET power dissipation

( )

Package

D2PAK

DPAK

LDO

(

Typ. P

1.75W*

2.0W

–

LDO

)

DS(on)

1.67°C/W

3.3°C/W

thJ-C

, gate

maximum operating junction temperature T

allowed power dissipation in the given application can be

calculated from the following expression:

PCB Layout Considerations

plays a critical role in the overall power regulator

performance. While good careful printed circuit board layout

significantly improves regulation parameters and

electromagnetic compatibility (EMC) performance of the

switching regulator, poor layout practices can lead not only to

significant degradation of regulation and EMC parameters,

but even to total dysfunction of the whole regulator IC.

of the regulator circuit. In order to avoid any inductive or

capacitive coupling of the switching regulator noise into the

sensitive analog control circuits, the noisy power ground and

the clean quiet signal ground should be well separated on the

printed circuit board, and connected only at one connection

point. The power routing should be made by heavy traces or

areas of copper. The power path and its return should be

placed, if possible, atop each other on the different layers or

opposite sides of the PC board. The switching regulator input

and output capacitors should be physically placed very close

to the power pins (VIN2, SW, PGND) of the 34701 switching

regulator; and their ground pins, together with the 34701

power ground pins (PGND), should be connected by a single

island of the power ground copper to create the “single-point”

grounding.

grounding concept. The bootstrap capacitor C

tightly connected to the integrated circuit as well.

*When mounted to an FR4 using 0.5 sq.in. drain pad size

The maximum power dissipation is limited by the

Where P

As with any power application, the proper PCB layout

Extreme care should be taken when laying out the ground

NOTE: Freescale does not assume liability, endorse, or warrant

components from external manufacturers referenced in figures

or tables. Although Freescale offers component

recommendations, it is the customer’s responsibility to validate

their application.

allowed dissipation,

junction temperature,

junction-to-case,

the PC board.

Jmax

thJC

thCB

thBA

Figure 32

D(Q)max

is the ambient temperature,

D Q

is the power MOSFET thermal resistance

is the thermal resistance board-to-ambient of

is the thermal resistance case-to-board,

is the power MOSFET maximum operating

( )max

is the power MOSFET maximum

illustrates the 34701 switching regulator

Analog Integrated Circuit Device Data

≤

-------------------------------------------------------- -

thJC

Jmax

thCB

Freescale Semiconductor

–

thBA

Jmax

should be

. The

KIT33701DWBEVB Freescale Semiconductor, KIT33701DWBEVB Datasheet - Page 32

KIT33701DWBEVB

Specifications of KIT33701DWBEVB

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