ISL6565ACBZ Intersil, ISL6565ACBZ Datasheet - Page 24

ISL6565ACBZ

Manufacturer Part Number

ISL6565ACBZ

Description

IC CTRLR PWM MULTIPHASE 28-SOIC

Manufacturer

Intersil

Datasheet

1.ISL6565ACBZ.pdf (28 pages)

Specifications of ISL6565ACBZ

Pwm Type

Voltage Mode

Number Of Outputs

Frequency - Max

1.5MHz

Duty Cycle

66.7%

Voltage - Supply

4.75 V ~ 5.25 V

Buck

Yes

Boost

Flyback

Inverting

Doubler

Divider

Cuk

Isolated

Operating Temperature

0°C ~ 105°C

Package / Case

28-SOIC (7.5mm Width)

Frequency-max

1.5MHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 24 of 28
Download datasheet (728Kb)

have sufficiently low ESL and ESR so that the total output-

voltage deviation is less than the allowable maximum.

Neglecting the contribution of inductor current and regulator

response, the output voltage initially deviates by an amount

The filter capacitor must have sufficiently low ESL and ESR

so that ∆V < ∆V

Most capacitor solutions rely on a mixture of high-frequency

capacitors with relatively low capacitance in combination

with bulk capacitors having high capacitance but limited

high-frequency performance. Minimizing the ESL of the

high-frequency capacitors allows them to support the output

voltage as the current increases. Minimizing the ESR of the

bulk capacitors allows them to supply the increased current

with less output voltage deviation.

The ESR of the bulk capacitors also creates the majority of

the output-voltage ripple. As the bulk capacitors sink and

source the inductor AC ripple current (see Interleaving and

Equation 2), a voltage develops across the bulk-capacitor

ESR equal to I

are selected, the maximum allowable ripple voltage,

Since the capacitors are supplying a decreasing portion of

the load current while the regulator recovers from the

transient, the capacitor voltage becomes slightly depleted.

The output inductors must be capable of assuming the entire

load current before the output voltage decreases more than

∆V

Equation 43 gives the upper limit on L for the cases when

the trailing edge of the current transient causes a greater

output-voltage deviation than the leading edge. Equation 44

addresses the leading edge. Normally, the trailing edge

dictates the selection of L because duty cycles are usually

less than 50%. Nevertheless, both inequalities should be

evaluated, and L should be selected based on the lower of

the two results. In each equation, L is the per-channel

inductance, C is the total output capacitance, and N is the

number of active channels.

∆V

PP(MAX)

≤

≥

MAX

≈

2NCV

-------------------- - ∆V

(

------------------------- - ∆V

(

1.25

(

ESR

∆I

(

ESL

∆I

. This places an upper limit on inductance.

)

) NC

)

, determines the lower limit on the inductance.

)





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

---- -

C,PP

MAX

(

MAX

–

ESR

MAX

N V

–

(ESR). Thus, once the output capacitors

OUT

PP MAX

) ∆I

∆I ESR

–

∆I ESR

(

 V



(

OUT

)





–





ISL6565A, ISL6565B

(EQ. 43)

(EQ. 44)

(EQ. 41)

(EQ. 42)

Input Supply Voltage Selection

The VCC input of the ISL6565 can be connected either

directly to a +5V supply or through a current limiting resistor to

a +12V supply. An integrated 5.8V shunt regulator maintains

the voltage on the VCC pin when a +12V supply is used. A

300Ω resistor is suggested for limiting the current into the

VCC pin to a worst-case maximum of approximately 25mA.

Switching Frequency

There are a number of variables to consider when choosing

the switching frequency, as there are considerable effects on

the upper-MOSFET loss calculation. These effects are

outlined in MOSFETs, and they establish the upper limit for

the switching frequency. The lower limit is established by the

requirement for fast transient response and small output-

voltage ripple as outlined in Output Filter Design. Choose the

lowest switching frequency that allows the regulator to meet

the transient-response requirements.

Switching frequency is determined by the selection of the

frequency-setting resistor, R

Typical Application on pages 5 and 6). Figure 18 and

Equation 45 are provided to assist in selecting the correct

value for R

Input Capacitor Selection

The input capacitors are responsible for sourcing the AC

component of the input current flowing into the upper

MOSFETs. Their RMS current capacity must be sufficient to

handle the AC component of the current drawn by the upper

MOSFETs which is related to duty cycle and the number of

active phases.

1000

100

[

10.7 1.045

FIGURE 18. R

–

log

SWITCHING FREQUENCY (kHz)

( )

100

]

vs SWITCHING FREQUENCY

(see the figures labeled

1000

December 1, 2005

(EQ. 45)

FN9135.4

10000

ISL6565ACBZ Intersil, ISL6565ACBZ Datasheet - Page 24

ISL6565ACBZ

Specifications of ISL6565ACBZ

Related parts for ISL6565ACBZ