LM3478EVAL National Semiconductor, LM3478EVAL Datasheet - Page 12

LM3478EVAL

Manufacturer Part Number

LM3478EVAL

Description

BOARD EVALUATION LM3478

Manufacturer

National Semiconductor

Datasheets

1.LM3478MMNOPB.pdf (24 pages)

2.LM3478EVAL.pdf (4 pages)

Specifications of LM3478EVAL

Main Purpose

DC/DC, Step Up

Outputs And Type

1, Non-Isolated

Voltage - Output

12V

Current - Output

1.5A

Voltage - Input

4.5 ~ 5.5V

Regulator Topology

Boost

Board Type

Fully Populated

Utilized Ic / Part

LM3478

Lead Free Status / RoHS Status

Not applicable / Not applicable

Power - Output

Frequency - Switching

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Sub-harmonic Oscillation can be easily understood as a ge-

ometric problem. If the control signal does not have slope, the

slope representing the inductor current ramps up until the

control signal is reached and then slopes down again. If the

duty cycle is above 50%, any perturbation will not converge

but diverge from cycle to cycle and causes sub-harmonic os-

cillation.

It is apparent that the difference in the inductor current from

one cycle to the next is a function of S

Hence, if the quantity (S

inductor current diverges and subharmonic oscillation results.

This counts for all current mode topologies. The LM3478 has

some internal slope compensation V

many applications above 50% duty cycle to avoid subhar-

monic oscillation .

For boost applications, the slopes S

culated with the formulas below:

When S

harmonic oscillation will occur decreases. When the duty

cycle is greater than 50%, and the inductance becomes less,

the factor increases.

For more flexibility slope compensation can be increased by

adding one external resistor, R

shows the setup. The externally generated slope compensa-

tion is then added to the internal slope compensation of the

LM3478. When using external slope compensation, the for-

mula for S

A typical value for factor K is 40 µA.

The factor changes with switching frequency. Figure 5 is used

to determine the factor K for individual applications and the

formula below gives the factor K.

increases then the factor which determines if sub-

becomes:

= R

= (V

K = ΔV

sen

= V

- S

= V

x (V

+ (K x R

)/(S

x R

OUT

/ R

, in the Isens path. Figure 4

x f

sen

+ S

- V

, S

)) x f

) is greater than 1, the

, S

)/L

which is enough for

and S

can be cal-

as follows:

It is a good design practice to only add as much slope com-

pensation as needed to avoid subharmonic oscillation. Addi-

tional slope compensation minimizes the influence of the

sensed current in the control loop. With very large slope com-

pensation the control loop characteristics are similar to a

voltage mode regulator which compares the error voltage to

a saw tooth waveform rather than the inductor current.

FREQUENCY ADJUST/SHUTDOWN

The switching frequency of the LM3478 can be adjusted be-

tween 100kHz and 1MHz using a single external resistor. This

resistor must be connected between FA/SD pin and ground,

as shown in Figure 6. To determine the value of the resistor

required for a desired switching frequency refer to the typical

performance characteristics or use the following equation:

FIGURE 4. Adding External Slope Compensation

FIGURE 5. External Slope Compensation

= 4.503 x 10

ΔV

vs R

x f

- 1.26

10135513

10135595

LM3478EVAL National Semiconductor, LM3478EVAL Datasheet - Page 12

LM3478EVAL

Specifications of LM3478EVAL

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