ISL8225MIRZ-T Intersil, ISL8225MIRZ-T Datasheet - Page 19

ISL8225MIRZ-T

Manufacturer Part Number

ISL8225MIRZ-T

Description

ISL8225M Series 20 Vin 1.5 Mhz Dual 15 A Single 30 A Step-Down Power Module

Manufacturer

Intersil

Datasheet

1.ISL8225MIRZ.pdf (28 pages)

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Application Information

Programming the Output Voltage

The ISL8225M has an internal 0.6V ±0.7% reference voltage.

Programming the output voltage requires a resistor divider (R1

and R2) between the VOUT, VSEN+, and VSEN- pins, as shown in

Figure 18. Please note that the output voltage accuracy is also

dependent on the resistor accuracy of R1 and R2. The user needs

to select a high accuracy resistor (i.e. 0.5%) in order to achieve

the overall output accuracy. The output voltage can be calculated

as shown in Equation 1:

Note: It is recommended to use a 1kΩ value for the top resistor,

R1. The value of the bottom resistor for different output voltages

is shown in Table 4.

Due to the minimum off-time limit of 410ns, the module has a

maximum output voltage, depending on input voltage. Refer to

Figure 25 for the 5V input voltage limitation.

OUT

TABLE 4. VALUE OF BOTTOM RESISTOR FOR DIFFERENT OUTPUT

1100

1000

900

800

700

600

500

FIGURE 25. RECOMMENDED FREQUENCY vs V

0.6

(Ω)

VOLTAGES (V

⎛

⎝

------- -

⎞

⎠

OUT

vs R2)

0.6

0.8

1.0

1.2

1.5

1.8

2.0

2.5

3.3

5.0

6.0

(V)

OUT

12V

OUT

(V)

10V

3.01k

1.50k

1.00k

AT V

Open

665

422

110

491

316

221

137

(Ω)

OUT

15V

ISL8225M

20V

(EQ. 1)

At higher output voltage, the inductor ripple increases, which makes

both output ripple and inductor power loss higher. Therefore, it is

recommended to increase the frequency to lower the inductor

ripple. Please refer to Figure 25 for frequency selection at different

operating conditions, then refer to Figure 31 to choose R

Selection of Input Capacitor

Selection of the input filter capacitor is based on how much

ripple the supply can tolerate on the DC input line. The larger the

capacitor, the less ripple expected, however, consideration

should be given to the higher surge current during power-up. The

ISL8225M provides a soft-start function that controls and limits

the current surge. The value of the input capacitor can be

calculated as shown in Equation 2:

where:

• C

• I

• D is the duty cycle

• V

In addition to the bulk capacitance, some low Equivalent Series

Resistance (ESR) ceramic capacitance is recommended to

decouple between the VIN and PGND of each channel. See Table 2

for some recommended capacitors. This capacitance reduces

voltage ringing created by the switching current across parasitic

circuit elements. All these ceramic capacitors should be placed as

closely as possible to the module pins. The estimated RMS current

should be considered in choosing ceramic capacitors.

Each 10µF X5R or X7R ceramic capacitor is typically good for 2A

to 3A of RMS ripple current. Refer to the capacitor vendor to

check the RMS current ratings. In a typical 15A output

application for one channel, if the duty cycle is 0.5, it needs at

least three 10µF X5R or X7R ceramic input capacitors.

Selection of Output Capacitors

The ISL8225M is designed for low-output voltage ripple. The

output voltage ripple and transient requirements can be met with

bulk output capacitors (COUT) that have adequately low ESR.

COUT can be a low ESR tantalum capacitor, a low ESR polymer

capacitor, or a ceramic capacitor. The typical capacitance is

330µF, and decoupled ceramic output capacitors are used for

each phase. See Table 1 and Table 2 for more capacitor

information. Internally optimized loop compensation provides

sufficient stability margins for all ceramic capacitor applications,

with a recommended total value of 300µF per phase. Additional

output filtering may be needed if further reduction of output

ripple or dynamic transient spike is required.

EN/FF Turn ON/OFF

Each output of the ISL8225M can be turned on/off independently

through the EN/FF pins. For parallel use, tie all EN/FF pins together.

Since this pin has the feed-forward function, the voltage on this pin

can actively adjust the loop gain to be constant for variable input

IN RMS

IN MIN

(

P-P

IN(MIN)

(

is the output current (A)

is the allowable peak-to-peak voltage (V)

)

is the minimum required input capacitance (µF)

Io D 1 D

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

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

•

D 1 D

(

P-P

(

–

)

December 3, 2012

SYNC

FN7822.0

(EQ. 2)

(EQ. 3)

ISL8225MIRZ-T Intersil, ISL8225MIRZ-T Datasheet - Page 19

ISL8225MIRZ-T

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