lm5575q0 National Semiconductor Corporation, lm5575q0 Datasheet - Page 14

lm5575q0

Manufacturer Part Number

lm5575q0

Description

Simple Switcher 75v, 1.5a Step-down Switching Regulator

Manufacturer

National Semiconductor Corporation

Datasheet

1.LM5575Q0.pdf (20 pages)

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Application Information

EXTERNAL COMPONENTS

The procedure for calculating the external components is il-

lustrated with the following design example. The circuit shown

in Figure 1 is configured for the following specifications:

•

R3 (R

frequency applications are smaller but have higher losses.

Operation at 300kHz was selected for this example as a rea-

sonable compromise for both small size and high efficiency.

The value of R

culated as follows:

The nearest standard value of 21kΩ was chosen for R

The inductor value is determined based on the operating fre-

quency, load current, ripple current, and the minimum and

maximum input voltage (V

To keep the circuit in continuous conduction mode (CCM), the

maximum ripple current I

minimum load current, or 0.4Ap-p. Using this value of ripple

current, the value of inductor (L1) is calculated using the fol-

lowing:

This procedure provides a guide to select the value of L1. The

nearest standard value (47µH) will be used. L1 must be rated

for the peak current (I

loading conditions, the peak current occurs at maximum load

current plus maximum ripple. During an overload condition

the peak current is limited to 2.1A nominal (2.5A maximum).

The selected inductor (see Table 1) has a conservative 3.25

Fs = 300kHz

Minimum load current (for CCM) = 200mA

Maximum load current = 1.5A

sets the oscillator switching frequency. Generally, higher

OUT

)

= 7V to 75V

= 5V

FIGURE 8. Inductor Current Waveform

for 300kHz switching frequency can be cal-

PK+

) to prevent saturation. During normal

RIPPLE

IN(min)

should be less than twice the

, V

IN(max)

30070810

Amp saturation current rating. For this manufacturer, the sat-

uration rating is defined as the current necessary for the

inductance to reduce by 30%, at 20°C.

C3 (C

With the inductor value selected, the value of C3 (C

necessary for the emulation ramp circuit is:

Where L is in Henrys

With L1 selected for 47µH the recommended value for C3 is

470pF.

C9, C10

The output capacitors, C9 and C10, smooth the inductor rip-

ple current and provide a source of charge for transient load-

ing conditions. For this design a 10µF ceramic capacitor and

a 120µF AL organic capacitor were selected. The ceramic

capacitor provides ultra low ESR to reduce the output ripple

voltage and noise spikes, while the AL capacitor provides a

large bulk capacitance in a small volume for transient loading

conditions. An approximation for the output ripple voltage is:

A Schottky type re-circulating diode is required for all

LM5575Q0 applications. Ultra-fast diodes are not recom-

mended and may result in damage to the IC due to reverse

recovery current transients. The near ideal reverse recovery

characteristics and low forward voltage drop are particularly

important diode characteristics for high input voltage and low

output voltage applications common to the LM5575Q0 . The

reverse recovery characteristic determines how long the cur-

rent surge lasts each cycle when the buck switch is turned on.

The reverse recovery characteristics of Schottky diodes min-

imize the peak instantaneous power in the buck switch oc-

curring during turn-on each cycle. The resulting switching

losses of the buck switch are significantly reduced when using

a Schottky diode. The reverse breakdown rating should be

selected for the maximum V

The forward voltage drop has a significant impact on the con-

version efficiency, especially for applications with a low output

voltage. “Rated” current for diodes vary widely from various

manufacturers. The worst case is to assume a short circuit

load condition. In this case the diode will carry the output cur-

rent almost continuously. For the LM5575Q0 this current can

be as high as 2.1A. Assuming a worst case 1V drop across

the diode, the maximum diode power dissipation can be as

high as 2.1W. For the reference design a 100V Schottky in a

SMC package was selected.

C1, C2

The regulator supply voltage has a large source impedance

at the switching frequency. Good quality input capacitors are

necessary to limit the ripple voltage at the VIN pin while sup-

plying most of the switch current during the on-time. When the

buck switch turns on, the current into the VIN pin steps to the

lower peak of the inductor current waveform, ramps up to the

peak value, then drops to zero at turn-off. The average current

into VIN during the on-time is the load current. The input ca-

pacitance should be selected for RMS current rating and

RAMP

)

RAMP

= L x 10

, plus some safety margin.

-5

RAMP

)

lm5575q0 National Semiconductor Corporation, lm5575q0 Datasheet - Page 14

lm5575q0

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