ISL6545ACRZ-T (Intersil) PDF资料下载 Datasheet(9/16 页)

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参数资料

型号：	ISL6545ACRZ-T
厂商：	Intersil
文件页数：	9/16页
文件大小：	0K
描述：	IC REG CTRLR BST PWM VM 10-DFN
产品培训模块：	Solutions for Industrial Control Applications
标准包装：	6,000
PWM 型：	电压模式
输出数：	1
频率 - 最大：	660kHz
占空比：	100%
电源电压：	4.5 V ~ 14.4 V
降压：	是
升压：	是
回扫：	无
反相：	无
倍增器：	无
除法器：	无
Cuk：	无
隔离：	无
工作温度：	0°C ~ 70°C
封装/外壳：	10-VFDFN 裸露焊盘
包装：	带卷 (TR)

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ISL6545, ISL6545A

Application” on page 3 for more detail; R S is the upper

resistor; R OFFSET (shortened to R O below) is the lower one.

The recommended value for R S is 1k Ω to 5k Ω (±1% for

open-collector) so as not to interfere with the COMP output.

Q 2 should also be placed near the COMP/SD pin.

V IN V CC

accuracy) and then R OFFSET is chosen according to the

equation below. Since R S is part of the compensation circuit

(see “Feedback Compensation” on page 10), it is often

easier to change R OFFSET to change the output voltage;

that way the compensation calculations do not need to be

repeated. If V OUT = 0.6V, then R OFFSET can be left open.

R 1

R 2

R 3

Q 1

to COMP/SD

Q 2

Output voltages less than 0.6V are not available as shown in

Equation 2.

FIGURE 6. SEQUENCER CIRCUIT

( R S + R O )

V OUT = 0.6V ? ---------------------------

R O = ----------------------------------

R O

R S ? 0.6V

V OUT – 0.6V

(EQ. 2)

The V IN range can be as low as ~1V (for V OUT as low as the

0.6V reference). It can be as high as 20V (for V OUT just

below V IN ). There are some restrictions for running high V IN

voltage.

Input Voltage Considerations

The Typical Application diagram on page 3 shows a

standard configuration where V CC is either 5V (±10%) or

12V (±20%); in each case, the gate drivers use the V CC

voltage for LGATE and BOOT/UGATE. In addition, V CC is

allowed to work anywhere from 6.5V up to the 14.4V

maximum. The V CC range between 5.5V and 6.5V is NOT

allowed for long-term reliability reasons, but transitions

through it to voltages above 6.5V are acceptable.

There is an internal 5V regulator for bias; it turns on between

5.5V and 6.5V; some of the delay after POR is there to allow

a typical power supply to ramp up past 6.5V before the

soft-start ramps begins. This prevents a disturbance on the

output, due to the internal regulator turning on or off. If the

transition is slow (not a step change), the disturbance should

be minimal. So while the recommendation is to not have the

output enabled during the transition through this region, it

may be acceptable. The user should monitor the output for

their application, to see if there is any problem.

The V IN to the upper MOSFET can share the same supply

as V CC , but can also run off a separate supply or other

sources, such as outputs of other regulators. If V CC powers

up first, and the V IN is not present by the time the

initialization is done, then the soft-start will not be able to

ramp the output, and the output will later follow part of the

V IN ramp when it is applied. If this is not desired, then

change the sequencing of the supplies, or use the

COMP/SD pin to disable V OUT until both supplies are ready.

Figure 6 shows a simple sequencer for this situation. If V CC

powers up first, Q 1 will be off, and R 3 pulling to V CC will turn

Q 2 on, keeping the ISL6545x in shut-down. When V IN turns

on, the resistor divider R 1 and R 2 determines when Q 1 turns

on, which will turn off Q 2 , and release the shut-down. If V IN

powers up first, Q 1 will be on, turning Q 2 off; so the

ISL6545x will start-up as soon as V CC comes up. The

V DISABLE trip point is 0.4V nominal, so a wide variety of

NFET’s or NPN’s or even some logic IC’s can be used as Q 1

or Q 2 ; but Q 2 must be low leakage when off (open-drain or

9

The first consideration for high V IN is the maximum BOOT

voltage of 36V. The V IN (as seen on PHASE) plus V CC (boot

voltage - minus the diode drop), plus any ringing (or other

transients) on the BOOT pin must be less than 36V. If V IN is

20V, that limits V CC plus ringing to 16V.

The second consideration for high V IN is the maximum

(BOOT - V CC ) voltage; this must be less than 24V. Since

BOOT = V IN + V CC + ringing, that reduces to (V IN + ringing)

must be <24V. So based on typical circuits, a 20V maximum

V IN is a good starting assumption; the user should verify the

ringing in their particular application.

Another consideration for high V IN is duty cycle. Very low

duty cycles (such as 20V in to 1.0V out, for 5% duty cycle)

require component selection compatible with that choice

(such as low r DS(ON) lower MOSFET, and a good LC output

filter). At the other extreme (for example, 20V in to 12V out),

the upper MOSFET needs to be low r DS(ON) . In addition, if

the duty cycle gets too high, it can affect the overcurrent

sample time. In all cases, the input and output capacitors

and both MOSFETs must be rated for the voltages present.

Switching Frequency

The switching frequency is either a fixed 300kHz or 600kHz,

depending on the part number chosen (ISL6545 is 300kHz;

ISL6545A is 600kHz). However, all of the other timing

mentioned (POR delay, OCP sample, soft-start, etc.) is

independent of the clock frequency, unless otherwise noted.

BOOT Refresh

In the event that the UGATE is on for an extended period of

time, the charge on the boot capacitor can start to sag,

raising the r DS(ON) of the upper MOSFET. The ISL6545x

has a circuit that detects a long UGATE on-time (nominal

100μs), and forces the LGATE to go high for one clock cycle,

which will allow the boot capacitor some time to recharge.

Separately, the OCP circuit has an LGATE pulse stretcher

(to be sure the sample time is long enough), which can also

help refresh the boot. But if OCP is disabled (no current

FN6305.6

March 3, 2011

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