ISL6505CB-T Intersil, ISL6505CB-T Datasheet - Page 14

ISL6505CB-T

Manufacturer Part Number

ISL6505CB-T

Description

IC MULTIPLE POWER CTRLR 20-SOIC

Manufacturer

Intersil

Datasheet

1.ISL6505CRZ.pdf (17 pages)

Specifications of ISL6505CB-T

Applications

Power Supply Controller/Monitor

Voltage - Supply

4.75 V ~ 5.25 V

Current - Supply

6mA

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

20-SOIC (7.5mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Voltage - Input

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The output voltage drop is heavily dependent on the ESR

(equivalent series resistance) of the output capacitor bank,

the choice of capacitors should be such as to maintain the

output voltage above the lowest allowable regulation level.

Input Capacitors Selection

The input capacitors for an ISL6505 application must have a

sufficiently low ESR so as not to allow the input voltage to

dip excessively when energy is transferred to the output

capacitors. If the ATX supply does not meet the

specifications, certain imbalances between the ATX’s

outputs and the ISL6505’s regulation levels could have as a

result a brisk transfer of energy from the input capacitors to

the supplied outputs. At the transition between active and

sleep states, such phenomena could be responsible for the

regulation. The solution to such a potential problem is using

larger input capacitors with a lower total combined ESR.

Transistor Selection/Considerations

The ISL6505 usually requires one P-Channel (or bipolar

PNP), three N-Channel MOSFETs, and one bipolar NPN

transistors. Note there is no Q1 listed below.

One important criteria for selection of transistors for all the

linear regulators/switching elements is package selection for

efficient removal of heat.

The power dissipated in a linear regulator or an ON/OFF

switching element is

Select a package and heatsink that maintains the junction

temperature below the rating with the maximum expected

ambient temperature.

The NPN transistor used as sleep state pass element on the

3.3V

at 1.5V V

operating temperature range. For larger current ratings on

the 3.3V

is equally extended), selection criteria for Q2 include an

appropriate current gain (h

Q3, Q5

These NMOS FETs are used to switch the 3.3V and 5V inputs

provided by the ATX supply into the 3.3V

criteria for the selection of these transistors is output voltage

budgeting. The maximum r

temperature can be expressed with the following equation:

OUTmax

DS ON

OUTmin

INmin

LINEAR

DUAL

(

DUAL

voltage drooping excessively and affecting the output

)max

- minimum input voltage

DUAL

outputs while in active (S0, S1) state. The main

- maximum output current

- minimum output voltage allowed

output has to have a minimum current gain of 100

and 650mA I

output (providing the ATX 5V

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

INmin

(

OUTmax

–

OUT

OUTmin

DS(ON)

)

) and saturation characteristics.

throughout the in-circuit

, where

allowed at highest junction

DUAL

/3.3V

output rating

and

ISL6505

If a PMOS FET is used to switch the 5V

supply into the 5V

selection criteria of this device is proper voltage budgeting.

The maximum r

only 4.5V of gate-to-source voltage, so a logic level

MOSFET needs to be selected. If a PNP device is chosen to

perform this function, it has to have a low- saturation voltage

while providing the maximum sleep current and have a

current gain sufficiently high to be saturated using the

minimum drive current (typically 20mA).

This NMOS FET acts as the pass transistor for the V

output. The input voltage to the source comes from

3.3V

1.5V range, depending upon the external resistor divider.

The power dissipation will (3.3V - VOUT1) * IOUT1, so the

FET selection and mounting technique must be sufficient for

that case.

In addition, Q6 must have a sufficiently low gate threshold

voltage. The DR1 gate driver maximum voltage is limited to a

low as 4.5V. So the maximum driver voltage can be 3.8V (or

even a few tenths of a volt lower, considering temperature

effects of the V

only 2.3V is available for the gate threshold, plus any

overdrive needed to get the required output current out while

close to the threshold. So a FET gate threshold voltage well

below 2V is recommended.

Although the design intended to use a low threshold voltage

FET for Q6, it is possible to use an NPN. The DR1 driver is

rated at 10mA nominal, but the driver will only supply the

current that is needed, up to 50mA; in that sense, it is more

of a maximum spec. That means an NPN with a gain of 100

could deliver up to 1.0A, for example. The additional base

current will come from the 5VSB pin, which adds some IC

power dissipation, and may take away current needed

elsewhere; it may also draw the extra current during sleep

modes. But the NPN can be used, and it should be stable,

using the same considerations for a FET.

The LAN pin determines the timing and the on state of the

regulator; when LAN is high (5V) or open, V

of the time. The input current comes from 3.3V

which indirectly comes from 3V3 during active modes, and

from the 3.3V

whatever current the 5V

are accounted for. The current in active mode can be higher,

limited mainly by the dissipation of the FET.

When the LAN pin is low, then V

active states, where the input voltage is ultimately 3V3. So

again, the current is limited mainly by the dissipation of the

FET.

DUAL

below the 5V supply (5VSB pin), which itself can be as

); thus, the V

/3.3V

DS(ON)

regulator (which ultimately comes from

DUAL

; the output is expected to be in the 1.2V to

OUT1

drop). If the output voltage is 1.5V, then

, however, has to be achieved with

output during sleep states, then the

current is limited in sleep mode to

has left, after all other currents

OUT1

is on only during

output of the ATX

OUT1

DUAL

stays on all

/3.3V

OUT1

ISL6505CB-T Intersil, ISL6505CB-T Datasheet - Page 14

ISL6505CB-T

Specifications of ISL6505CB-T

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