ltc1753csw-trpbf Linear Technology Corporation, ltc1753csw-trpbf Datasheet - Page 11

ltc1753csw-trpbf

Manufacturer Part Number

ltc1753csw-trpbf

Description

5-bit Programmable Synchronous Switching Regulator Controller For Pentium Ii Processor

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC1753CSW-TRPBF.pdf (24 pages)

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APPLICATIO S I FOR ATIO

conventional TTL enable signal. The free-running 300kHz

PWM frequency can be synchronized to a faster external

clock connected to OUTEN. Adjusting the oscillator fre-

quency can add flexibility in the external component

selection. See the Clock Synchronization section.

Output regulation can be monitored with the PWRGD pin

which in turn monitors the internal MIN and MAX com-

parators. If the output is 3% beyond the selected value

for more than 500 s, the PWRGD output will be pulled

low. Once the output has settled within 3% of the se-

lected value for more than 1ms, PWRGD will return high.

THEORY OF OPERATION

Primary Feedback Loop

The regulator output voltage at the SENSE pin is divided

down internally by a resistor divider with a total resistance

of approximately 108k. This divided down voltage is

subtracted from a reference voltage supplied by the DAC

output. The resulting error voltage is amplified by the error

amplifier and the output is compared to the oscillator ramp

waveform by the PWM comparator. This PWM signal

controls the external MOSFETs through G1 and G2. The

resulting chopped waveform is filtered by L

closing the loop. Loop frequency compensation is achieved

with an external RC + C network at the COMP pin, which is

connected to the output node of the transconductance

amplifier. In low output ripple voltage applications, low

ESR output capacitors are typically used. Under this

condition, a capacitor between the SENSE and V

helps compensate the switching loop. For heavy transient

output loading applications, a small capacitor between the

SENSE and V

reduce the transient recovery time.

MIN, MAX Feedback Loops

Two additional comparators in the feedback loop provide

high speed fault correction in situations where the ERR

amplifier may not respond quickly enough. MIN compares

the feedback signal V

reference. If V

parator, the MIN comparator overrides the ERR

amplifier and forces the loop to 100% duty cycle.

pin acts as a feedforward path and helps

is lower than the threshold of this com-

to a voltage 3% below the internal

and C

pins

OUT

Similarly, the MAX comparator forces the output to 0%

duty cycle if V

reference. To prevent these two comparators from trig-

gering due to noise, output voltage ripple must be controlled

with sufficient output bypassing to prevent jitter. In addi-

tion, the MIN and MAX comparators’ response times are

deliberately controlled so that they take about one micro-

second to respond. These two comparators help prevent

extreme output perturbations with fast output transients,

while allowing the main feedback loop to be optimally

compensated for stability.

Soft-Start and Current Limit

The LTC1753 includes a soft-start circuit which is used for

initial start-up and during current limit operation. The SS

pin requires an external capacitor to GND with the value

determined by the required soft-start time. An internal

12 A current source is included to charge the external SS

capacitor. During start-up, the COMP pin is clamped to a

diode drop above the voltage at the SS pin. This prevents

the error amplifier, ERR, from forcing the loop to 100%

duty cycle. The LTC1753 will begin to operate at low duty

cycle as the SS pin rises above about 1.2V (V

As SS continues to rise, Q

amplifier begins to regulate the output. The MIN compara-

tor is disabled when soft-start is active to prevent it from

overriding the soft-start function.

The LTC1753 includes yet another feedback loop to con-

trol operation in current limit. Just before every falling

edge of G1, the current comparator, CC, samples and

holds the voltage drop measured across the external

MOSFET, Q1, at the I

to the voltage at the I

measured voltage across Q1 increases due to the drop

across the R

below I

ceeded the maximum level, CC starts to pull current out of

the external soft-start capacitor, cutting the duty cycle and

controlling the output current level. The CC comparator

pulls current out of the SS pin in proportion to the voltage

difference between I

conditions, the SS pin will fall gradually, creating a time

delay before current limit takes effect. Very short, mild

MAX

, indicating that Q1’s drain current has ex-

DS(ON)

is more than 3% above the internal

of Q1. When the voltage at I

MAX

pin. CC compares the voltage at I

and I

pin. As the peak current rises, the

MAX

turns off and the error

. Under minor overload

LTC1753

COMP

1.8V).

drops

1753fa

ltc1753csw-trpbf Linear Technology Corporation, ltc1753csw-trpbf Datasheet - Page 11

ltc1753csw-trpbf

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