SP6134H Datasheet, PDF(7/15 Page) Sipex Corporation – High Voltage, 600 KHz Synchronous PWM Controller

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SP6134H Datasheet, PDF (7/15 Pages) Sipex Corporation – High Voltage, 600 KHz Synchronous PWM Controller

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SP6134H

High Voltage, 600kHz Synchronous PWM Step Down

Controller

monitors the positive and negative terminals

of the error amplifier, and if the VFB pin ever

falls more than 250mV (typical) below the

positive reference, a short-circuit fault is set.

Because the SS pin overrides the internal 0.8V

reference during soft start, the SP6134H is

capable of detecting short-circuit faults

throughout the duration of soft start as well as

in regular operation.

HANDLING OF FAULTS

Upon the detection of power (UVLO), thermal,

or short-circuit faults, the SP6134H is forced

into an idle state where the SS and COMP pins

are pulled low and the gate drivers are held

off. In the event of UVLO fault, the SP6134H

remains in this idle state until the UVLO fault

is removed. Upon the detection of a thermal or

short-circuit fault, an internal 200ms (typical)

timer is activated. In the event of a short-

circuit fault, a restart is attempted

immediately after the 200ms timeout expires.

Whereas, when a thermal fault is detected the

200ms delay continuously recycles and a

restart cannot be attempted until the thermal

fault is removed and the timer expires.

ERROR AMPLIFIER AND VOLTAGE LOOP

As stated before, the heart of the SP6134H

voltage error loop is a high performance, wide

bandwidth transconductance amplifier.

Because of the amplifierâs current limited

(Â±150Î¼A) transconductance, there are many

ways to compensate the voltage loop or to

control the COMP pin externally. A simple,

single pole, single zero compensation can be a

RC to ground. However Exar recommends a

Type II or Type III compensation which

eliminates the gm of the amplifier from the

control loop equations. The amplifier has

enough bandwidth (45Â° at 4 MHz) and enough

gain (60dB) to run Type III compensation

schemes with adequate gain and phase

margins at cross over frequencies greater than

50kHz.

The common mode output of the error

amplifier is 0.9V to 2.2V. Therefore, the PWM

voltage ramp has been set between 1.1V and

2.2V to ensure proper 0% to 100% duty cycle

capability. The voltage loop also includes two

other very important features. One is an Non-

synchronous start up mode. Basically, the GL

driver can not turn on unless the GH driver

has attempted to turn on or the SS pin has

exceeded 1.7V. This feature prevents the

controller from âdragging downâ the output

voltage during startup or in fault modes. The

second feature is a 100% duty cycle timeout

that ensures synchronized refreshing of the

BST capacitor at very high duty ratios. In the

event that the GH driver is on for 20

continuous clock cycles, a reset is given to the

PWM flip flop half way through the 21st cycle.

This forces GL to rise for the remainder of the

cycle, in turn refreshing the BST capacitor.

GATE DRIVERS

The SP6134H contains a pair of powerful 2Î©

SOURCE and 1.5Î© SINK drivers. These state

of the art drivers are designed to drive

external NFETs capable of handling up to 30A.

Rise, fall, and non-overlap times have all been

minimized to achieve maximum efficiency. All

drive pins GH, GL & SWN are monitored

continuously to ensure that only one external

NFET is ever on at any given time.

Â© 2008 Exar Corporation

7/15

Rev. 2.0.0

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