CC109155314 Lineage Power, CC109155314 Datasheet - Page 11

CC109155314

Manufacturer Part Number

CC109155314

Description

Module DC-DC 1-OUT 0.7V to 2V 50A 14-Pin SMT T/R

Manufacturer

Lineage Power

Type

Step Downr

Datasheets

1.APTS050A0X3-SRPHZ.pdf (20 pages)

2.CC109155314.pdf (19 pages)

Specifications of CC109155314

Package

14SMT

Output Current

50 A

Output Voltage

0.7 to 2 V

Input Voltage

4.5 to 14 V

Number Of Outputs

Switching Regulator

Yes

Lead Free Status / Rohs Status

Supplier Unconfirmed

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Data Sheet

March 30, 2011

output reaches the set-point voltage. To initiate

simultaneous shutdown of the modules, the SEQ pin

voltage is lowered in a controlled manner. The output

voltage of the modules tracks the voltages below their

set-point voltages on a one-to-one basis. A valid input

voltage must be maintained until the tracking and output

voltages reach ground potential.

When using the EZ-SEQUENCE

start-up of the module, pre-bias immunity during start-up

is disabled. The pre-bias immunity feature of the module

relies on the module being in the diode-mode during

start-up. When using the EZ-SEQUENCE

modules goes through an internal set-up time of 10msec,

and will be in synchronous rectification mode when the

voltage at the SEQ pin is applied. This will result in the

module sinking current if a pre-bias voltage is present at

the output of the module. When pre-bias immunity during

start-up is required, the EZ-SEQUENCE

be disabled. For additional guidelines on using the EZ-

SEQUENCE

technical representative for additional information.

Active Load Sharing (-P Option)

For additional power requirements, the Giga TLynx

power module is also available with a parallel option. Up

to five modules can be configured, in parallel, with active

load sharing.

Good layout techniques should be observed when using

multiple units in parallel. To implement forced load

sharing, the following connections should be made:

•

Some special considerations apply for design of

converters in parallel operation:

•

LINEAGE

The share pins of all units in parallel must be

connected together. The path of these connections

should be as direct as possible.

All remote-sense pins should be connected to the

power bus at the same point, i.e., connect all the

SENSE

proximity and directness are necessary for good

noise immunity

When sizing the number of modules required for

parallel operation, take note of the fact that current

sharing has some tolerance. In addition, under

transient conditions such as a dynamic load change

and during startup, all converter output currents will

not be equal. To allow for such variation and avoid

the likelihood of a converter shutting off due to a

current overload, the total capacity of the paralleled

system should be no more than 75% of the sum of

the individual converters. As an example, for a

system of four Giga TLynx

the total current drawn should be less that 75% of (4

x 50A) , i.e. less than 150A.

All modules should be turned on and off together.

This is so that all modules come up at the same time

avoiding the problem of one converter sourcing

current into the other leading to an overcurrent trip

POWER

(+)

pins to the

feature please contact the Lineage Power

(+)

side of the bus. Close

converters in parallel,

feature to control

feature must

feature,

GigaTLynx

4.5 – 14Vdc input; 0.7Vdc to 2.0Vdc, 50A Output

•

When not using the active load share feature, share pins

should be left unconnected.

Power Good

The Giga TLynx

(PGOOD) signal to indicate that the output voltage is

within the regulation limits of the power module. The

PGOOD signal will be de-asserted to a low state if any

condition such as overtemperature, overcurrent or loss of

regulation occurs that would result in the output voltage

going ±12.5% outside the setpoint value. The PGOOD

terminal is internally pulled-up and provides a voltage of

~5V, when asserted, thus eliminating the need for an

external source and pull-up resistor.

Tunable Loop

The Giga TLynx

optimizes transient response of the module called

Tunable Loop

External capacitors are usually added to the output of the

module for two reasons: to reduce output ripple and

noise (see Fig. 23) and to reduce output voltage

deviations from the steady-state value in the presence of

dynamic load current changes. Adding external

capacitance however affects the voltage control loop of

the module, typically causing the loop to slow down with

sluggish response. Larger values of external capacitance

could also cause the module to become unstable.

The Tunable Loop

the voltage control loop to match the filter network

connected to the output of the module. The Tunable

Loop

between the SENSE and TRIM+ pins of the module, as

shown in Fig. 28. This R-C allows the user to externally

adjust the voltage loop feedback compensation of the

module.

condition. To ensure that all modules come up

simultaneously, the on/off pins of all paralleled

converters should be tied together and the

converters enabled and disabled using the on/off pin.

The share bus is not designed for redundant

operation and the system will be non-functional upon

failure of one of the unit when multiple units are in

parallel. In particular, if one of the converters shuts

down during operation, the other converters may

also shut down due to their outputs hitting current

limit. In such a situation, unless a coordinated restart

is ensured, the system may never properly restart

since different converters will try to restart at different

times causing an overload condition and subsequent

shutdown. This situation can be avoided by having

an external output voltage monitor circuit that detects

a shutdown condition and forces all converters to

shut down and restart together.

is implemented by connecting a series R-C

SMT Non-isolated Power Modules:

modules provide a Power Good

modules have a new feature that

allows the user to externally adjust

CC109155314 Lineage Power, CC109155314 Datasheet - Page 11

CC109155314

Specifications of CC109155314

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