LTC3589-2_15 Datasheet, PDF(17/50 Page) Linear Technology – 8-Output Regulator with Sequencing and I2C

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LTC3589-2_15 Datasheet, PDF (17/50 Pages) Linear Technology – 8-Output Regulator with Sequencing and I2C

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LTC3589/LTC3589-1/

LTC3589-2

OPERATION

The LTC3589 has flexible options for enabling and

sequencing the regulator enables. The regulators are

enabled using input pins or the I2C serial port. To define

a power-on sequence tie the enable of the first regulator

to be powered up to the WAKE pin. Connect the first

regulators output to the enable pin of the second regulator,

and so on. One or more regulators may be started in any

sequence. Each enable pin has a 200Âµs (typical) delay

between the pin and the internal enable of the regulator.

When the system controllers are satisfied that power rails

are up, the controller must drive PWR_ON HIGH to keep

WAKE active. To ensure correct start-up sequencing, the

regulators outputs are monitored by voltage comparators

which require each output to discharge below 300mV before

re-enabling. A software control command register function

is available which sets the regulators to effectively ignore

their enable pins but respond to I2C register enables. This

function enables software-only control of any combination

of pin-strapped regulators and is useful for implementing

system power saving modes. Keep-alive mode exempts

selected regulators from turning off during normal

shutdown. In keep-alive mode, the LTC3589 powers down

normally and is ready for the next start-up sequence, but

selected regulators are kept on to power memory or other

functions during system standby modes.

The LTC3589 will shut down all regulators and pull down

the WAKE pin under high temperature, VIN undervoltage,

and extended low regulator output voltage conditions.

Status of a hard shutdown is reported by the IRQ status

pin and the IRQSTAT status register.

The I2C serial port on the LTC3589 contains 13 command

registers for controlling each of the regulators, one read-

only register for monitoring each regulators power good

status, one read-only register for reading the cause of

an IRQ event, and one clear IRQ command register. The

LTC3589 I2C supports random addressing of any register.

LTC3589, LTC3589-1, and LTC3589-2 Functional

Comparison

Table 1. summarizes the functional differences between

the LTC3589, LTC3589-1, and LTC3589-2.

Table 1. LTC3589, LTC3589-1, and LTC3589-2 Functional

Differences

LTC3589

LTC3589-1

LTC3589-2

Power-On Inhibit 1 second

Enable Delay

<2ms

Buck2 Current

Output

1.2A

Buck3 Current

Output

1.2A

PGOOD Fault

Timeout

Enabled by

Default. I2C

Disable.

Disabled by

Default. I2C

Enable.

Disabled by

Default. I2C

Enable.

PWR_ON to WAKE 50ms

2ms

Delay

LDO3 VOUT

1.8V

2.8V

LDO4 VOUT

* Indicates Default

VOUT

Default LDO4

Enable

1.8V, 2.5V,

2.8V*, 3.3V

LDO34_EN Pin

1.2V*, 1.8V,

2.5V, 3.2V

I2C

1.2V*, 1.8V,

2.5V, 3.2V

I2C

Wait to Enable Until Yes by Default. Yes by Default. No by Default.

Output < 300mV I2C Select.

I2C Select.

Insert 2k Discharge Yes if Start-Up Yes if Start-Up Always

Resistor When is Wait to Enable is Wait to Enable

Disabled

Until Output < Until Output <

300mV

Details of the operation of the LTC3589 are found in the

following sections.

Always-On LDO

The LTC3589 includes a low quiescent current low dropout

regulator that remains powered whenever a valid supply

is present on VIN. The always-on LDO will remain active

until VIN drops below 2.0V (typical). This is below the 2.5V

For more information www.linear.com/LTC3589

3589fg

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