ZL2106ALCFTK Intersil, ZL2106ALCFTK Datasheet - Page 24

ZL2106ALCFTK

Manufacturer Part Number

ZL2106ALCFTK

Description

6A Digital DC-DC Converter W/ DDC - TR1K

Manufacturer

Intersil

Series

-r

Type

Step-Down (Buck), PWM - Voltage Moder

Datasheet

1.ZL2106ALCN.pdf (30 pages)

Specifications of ZL2106ALCFTK

Internal Switch(s)

Yes

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.54 V ~ 5.5 V

Current - Output

Frequency - Switching

200kHz ~ 1MHz

Voltage - Input

4.5 V ~ 14 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

36-VFQFN Exposed Pad

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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Company:

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Part Number:

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Manufacturer:

INTERSIL

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Phase Spreading

When multiple point of load converters share a common DC

input supply, it is desirable to adjust the clock phase offset of

each device such that not all devices start to switch

simultaneously. Setting each converter to start its switching cycle

at a different point in time can dramatically reduce input

capacitance requirements and efficiency losses. Since the peak

current drawn from the input supply is effectively spread out over

a period of time, the peak current drawn at any given moment is

reduced and the power losses proportional to the I

reduced dramatically.

In order to enable phase spreading, all converters must be

synchronized to the same switching clock. The CFG pin is used to

set the configuration of the SYNC pin for each device as

described in “Switching Frequency and PLL” on page 15.

Selecting the phase offset for the device is accomplished by

selecting a device address according to the following equation:

Phase offset = device address x 45°

For example:

• A device address of 0x00 or 0x20 would configure no phase

• A device address of 0x01 or 0x21 would configure 45° of

• A device address of 0x02 or 0x22 would configure 90° of

The phase offset of each device may also be set to any value

between 0° and 360° in 22.5° increments via the I

interface. Refer to Application Note AN2033 for further details.

Output Sequencing

A group of Zilker Labs devices may be configured to power up in

a predetermined sequence. This feature is especially useful when

powering advanced processors, FPGAs, and ASICs that require

one supply to reach its operating voltage prior to another supply

reaching its operating voltage in order to avoid latch-up from

occurring. Multi-device sequencing can be achieved by

configuring each device through the I

using Zilker Labs patented autonomous sequencing mode.

Autonomous sequencing mode configures sequencing by using

events transmitted between devices over the DDC bus.

The sequencing order is determined using each device’s SMBus

address. Using autonomous sequencing mode (configured using

the CFG pin), the devices must be assigned sequential SMBus

addresses with no missing addresses in the chain. This mode will

also constrain each device to have a phase offset according to its

SMBus address as described in section “Phase Spreading” on

page 24.

offset

phase offset

C/SMBus interface or by

RMS

C/SMBus

are

ZL2106

The sequencing group will turn on in order starting with the

device with the lowest SMBus address and will continue through

to turn on each device in the address chain until all devices

connected have been turned on. When turning off, the device

with the highest SMBus address will turn off first followed in

reverse order by the other devices in the group.

Sequencing is configured by connecting a resistor from the CFG

pin to ground as described in Table 16. The CFG pin is also used

to set the configuration of the SYNC pin as well as to determine

the sequencing method and order. Please refer to section

“Switching Frequency and PLL” on page 15 for more details on

the operating parameters of the SYNC pin.

Multiple device sequencing may also be achieved by issuing

PMBus commands to assign the preceding device in the

sequencing chain as well as the device that will follow in the

sequencing chain. This method places fewer restrictions on the

SMBus address (no need of sequential address) and also allows

the user to assign any phase offset to any device irrespective of

its SMBus device address.

The Enable pins of all devices in a sequencing group must be tied

together and driven high to initiate a sequenced turn-on of the

group. Enable must be driven low to initiate a sequenced turnoff

of the group. Please refer to Application Note

on sequencing via the I

TABLE 16. CFG PIN CONFIGURATIONS FOR SEQUENCING AND

12.1kΩ

14.7kΩ

16.2kΩ

17.8kΩ

21.5kΩ

23.7kΩ

26.1kΩ

31.6kΩ

34.8kΩ

38.3kΩ

46.4kΩ

51.1kΩ

56.2kΩ

10kΩ

11kΩ

Open

High

Low

CFG

TRACKING

CONFIGURATION

Auto detect

SYNC PIN

Output

Input

C/SMBus interface.

Sequencing and Tracking are

disabled.

Sequencing and Tracking are

disabled.

Device is FIRST in nested

sequence. Tracking disabled.

Device is LAST in nested

sequence. Tracking disabled.

Device is MIDDLE in nested

sequence. Tracking disabled.

Sequence disabled. Tracking

enabled as defined in Table 13.

SEQUENCING CONFIGURATION

AN2033

for details

FN6852.4

ZL2106ALCFTK Intersil, ZL2106ALCFTK Datasheet - Page 24

ZL2106ALCFTK

Specifications of ZL2106ALCFTK

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