ML4880CS データシートの表示（PDF） - Micro Linear Corporation

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ML4880CS

Portable PC/PCMCIA Power Controller

Micro Linear Corporation 

DESIGN CONSIDERATIONS

A typical design can be implemented by using the

following design procedure. Note that this procedure is

not intended to give final values, but to give a good

starting point, and provide the relationships necessary to

make trade-off decisions. Some experimentation will be

necessary to optimize values and to verify that the design

operates over worst case conditions.

DESIGN SPECIFICATIONS

It is important to start with a clear definition of the design

specifications. Make sure the specifications reflect worst

case conditions. Key specifications include the minimum

and maximum input voltage and the output voltage and

load current for each output.

BUCK REGULATORS - INDUCTOR AND SENSE

RESISTOR SELECTION

Figure 6 shows the inductor current of the step down

regulators. The inductor current is made up of two

components: the DC current level set by the

transconductance amplifier, ISENSE, and the inductor ripple

current, ∆IL. The figure also shows that IOUT is the

summation of ISENSE and 1/2 ∆IL:

IOUT

= ISENSE

+

1

2

∆IL

=

VSENSE

RSENSE

+

TON × (VIN − VOUT)

2×L

(3)

Therefore, the selection of the inductance value

determines how much of the output current is made up of

the ripple current. Higher inductor ripple current allows

smaller inductor values, but results in higher peak

currents, lower efficiency, and higher output voltage

ripple.

ML4880

Inductor ripple currents in the range of 30% to 70% of the

maximum output current are typical. As a good starting

point set the inductor ripple current to 50% of the

maximum output current:

∆IL

=

TON

× (VIN

L

−

VOUT )

=

FIRC

× IOUT(MAX)

(4)

where FIRC = ratio of inductor ripple current to the

maximum output current, or:

L = TON × (VIN − VOUT)

0.5 × IOUT(MAX)

(5)

Calculate the inductance using the volt-seconds value

given in Figure 5 at the maximum input voltage. Choose

the nearest standard value, realizing the trade-offs

mentioned before. Then, using the inductance value

chosen, determine the actual inductor ripple current at the

maximum and minimum input voltage using Equation 4

and Figure 5.

The sense resistor value can be determined using the

inductor ripple current value calculated above and

Equation 3 rearranged as follows:

RSENSE

=

VSENSE(MIN)

IOUT(MAX)

−

1

2

∆IL(MIN)

=

0.14

IOUT(MAX)

−

1

2

∆IL(MIN)

(6)

18

5V BUCK

16

14

45

40

12V FLYBACK

35

12

30

10

8

3.3V BUCK

12V FLYBACK

6

25

3.3V BUCK

20

15

4

10

5V BUCK

2

5

0

5

10

15

20

0

5

10

15

20

VIN (V)

VIN (V)

Figure 4. TON vs. VIN

Figure 5. Volt-seconds vs VIN

7

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