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參數(shù)資料

型號(hào)：	TC126301ECT
元件分類：	穩(wěn)壓器
英文描述：	0.4 A SWITCHING REGULATOR, 115 kHz SWITCHING FREQ-MAX, PDSO5
封裝：	EIAJ, SC-74A, SOT-23A, 5 PIN
文件頁數(shù)：	8/12頁
文件大小：	524K
代理商：	TC126301ECT

第1頁第2頁第3頁第4頁第5頁第6頁第7頁當(dāng)前第8頁第9頁第10頁第11頁第12頁

2007 Microchip Technology Inc.

DS21372D-page 5

TC125/TC126

4.0

APPLICATIONS

4.1

Input Bypass Capacitors

Adding an input bypass capacitor reduces peak current

transients drawn from the input supply and reduces the

switching noise generated by the regulator. The source

impedance of the input supply determines the size of

the capacitor that should be used.

4.2

Inductor Selection

Selecting the proper inductor value is a trade-off

between physical size and power conversion require-

ments. Lower value inductors cost less, but result in

higher ripple current and core losses. They are also

more prone to saturate since the coil current ramps to

a higher value. Larger inductor values reduce both

ripple current and core losses, but are larger in physical

size and tend to increase the start-up time slightly. The

recommended inductor value for use with the TC125/

126 is 100

μH. Inductors with a ferrite core (or equiva-

lent) are recommended. For highest efficiency, use an

inductor with a series resistance less than 20 m

Ω.

4.3

Internal Transistor Switch Current

Limiting

The peak switch current is equal to the input voltage

divided by the RDSON of the internal switch. The

internal transistor has absolute maximum current rating

of 400 mA with a design limit of 350 mA. A built-in

oscillator frequency doubling circuit guards against

high switching currents. Should the voltage on the LX

pin rise above 1.1V, max while the internal N-channel

switch is ON, the oscillator frequency automatically

doubles to minimize ON time. Although reduced, switch

current still flows because the regulator remains in

operation. Therefore, the LX input is not internally

current limited and care must be taken never to exceed

the 350 mA maximum limit. Failure to observe this will

result in damage to the regulator.

4.4

Output Diode

For best results, use a Schottky diode such as the

MA735, 1N5817, MBR0520L or equivalent. Connect

the diode between the PS and LX pins (TC125) or

SENSE and LX pins (TC126) as close to the IC as

possible. (Do not use ordinary rectifier diodes since the

higher threshold voltages reduce efficiency.)

4.5

Output Capacitor

The effective series resistance of the output capacitor

directly affects the amplitude of the output voltage

ripple. (The product of the peak inductor current and

the ESR determines output ripple amplitude.) There-

fore, a capacitor with the lowest possible ESR should

be selected. Smaller capacitors are acceptable for light

loads or in applications where ripple is not a concern.

The Sprague 595D series of tantalum capacitors are

among the smallest of all low ESR surface mount

capacitors

available.

Table 4-1

lists

suggested

components and suppliers.

4.6

Board Layout Guidelines

As with all inductive switching regulators, the TC125/

126 generate fast switching waveforms that radiate

noise. Interconnecting lead lengths should be

minimized to keep stray capacitance, trace resistance,

and radiated noise as low as possible. In addition, the

GND pin, input bypass capacitor, and output filter

capacitor ground leads should be connected to a single

point. The input capacitor should be placed as close to

power and ground pins of the TC125/126 as possible.

TABLE 4-1:

SUGGESTED COMPONENTS AND SUPPLIERS

Type

Inductors

Capacitors

Diodes

Surface Mount

Sumida

CD54 Series

CDR125 Series

Coiltronics

CTX Series

Murata

LQN6C Series

Matsuo

267 Series

Murata

GRM200 Series

Sprague

595D Series

Nichicon

F93 Series

Nihon

EC10 Series

Matsushita

MA735 Series

Through-Hole

Sumida

RCH855 Series

RCH110 Series

Renco

RL1284-12

Sanyo

OS-CON Series

Nichicon

PL Series

ON Semiconductor

1N5817-1N5822

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