sc120skevb Semtech Corporation, sc120skevb Datasheet - Page 21

sc120skevb

Manufacturer Part Number

sc120skevb

Description

Low Voltage Synchronous Boost Regulator

Manufacturer

Semtech Corporation

Datasheet

1.SC120SKEVB.pdf (31 pages)

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Applications Information (continued)

PWM Operation

The PWM cycle runs at a fi xed frequency (f

with a variable duty cycle (D). PWM operation continually

draws current from the input supply (except for discon-

tinuous mode, described subsequently). During the on-

state of the PWM cycle, the n-channel FET is turned on,

grounding the inductor at the LX pin. This causes the

current fl owing from the input supply through the induc-

tor to ground to ramp up. During the off -state, the n-

channel FET is turned off and the p-channel FET

(synchronous rectifier) is turned on. This causes the

inductor current to fl ow from the input supply through

the inductor into the output capacitor and load, boosting

the output voltage above the input voltage. The cycle

then repeats to re-energize the inductor.

Ideally, the steady state (constant load) duty cycle is

determined by D = 1 – (V

practice to overcome dissipative losses. The SC120 PWM

controller constrains the value of D such that 0.15 < D < 0.90

(approximately).

The average inductor current during the off -state multi-

plied by (1-D) is equal to the average load current. The

inductor current is alternately ramping up (on-state) and

down (off -state) at a rate and amplitude determined by

the inductance value, the input voltage, and the on-time

tor current will be alternately larger and smaller than the

average. If the average output current is suffi ciently small,

the minimum inductor current can reach zero during the

off -state. If the energy stored in the inductor is depleted

(the inductor current decreases to zero) during the off -

state, both FETs turn off for the remainder of the off -state.

If this discontinuous mode (DM) operation persists, the

SC120 transitions to PSAVE operation.

PSAVE Operation

At light loads, the SC120 will operate in PSAVE mode. At

low output load, PSAVE mode will operate more effi ciently

than PWM mode. PSAVE mode also ensures regulation

while the output load is too small to keep the PWM mode

duty cycle above its minimum value, especially when V

is close to V

secutive cycles of DM operation in PWM mode, when the

= D×T, T = 1/f

OUT

. PSAVE operation is triggered by 256 con-

OSC

). Therefore, the instantaneous induc-

OUT

), but must be greater in

osc

= 1.2MHz),

output of the P

due to low load current.

PSAVE mode requires fewer circuit resources than PWM

mode. All unused circuitry is disabled to reduce quies-

cent power dissipation. In PSAVE mode, the OUT pin

voltage monitoring circuit remains active and the output

voltage error amplifi er operates as a comparator. PSAVE

regulation is shown in Figure 2. When V

where V

fi xed-period switching occurs to boost the output voltage.

The n-channel FET turns on (on-state) until the inductor

current rises to approximately 240mA. The n-channel FET

then turns off and the p-channel FET turns on to transfer

the inductor energy to the output capacitor and load for

the duration of the off-state. This cycle repeats until

The output capacitor then discharges into the load until

When the output current increases above a predeter-

mined level, either of two PSAVE exit conditions will force

the resumption of PWM operation. The fi rst PSAVE exit

criterion is shown in Figure 2. If the PSAVE burst cycle

cannot provide sufficient current to the output, the

output voltage will decrease during the burst. If

PSAVE exit criterion, illustrated in Figure 3, depends on

the rate of discharge of the output capacitor between

PSAVE bursts. If the time between bursts is less than 5μs,

then PWM operation resumes. The output capacitance

value will aff ect the second criterion, but not the fi rst.

Reducing the output capacitor will reduce the output

load at which PSAVE mode exits to PWM mode.

Within each on/off cycle of a PSAVE burst, the rate of

decrease of the inductor current during the off -state is

proportional to (V

overcome the increase in current during the minimum

on-time of the on-state, approximately 100ns. This can

result in the peak inductor current rising above the PSAVE

mode n-channel FET current limit. (Normally, when the

n-channel FET current limit is reached, the on-state ends

immediately and the off -state begins. This sets the duty

cycle on a cycle-by-cycle basis.) This inductor current rise

OUT

, the decrease in current during the off -state may not

> 1.018×V

< 0.98 × V

< 1.008×V

REG

is the programmed output voltage, a burst of

REG

LIM

, PWM operation will resume. The second

, at which point both FETs are turned off .

, and the burst cycle repeats.

amplifi er falls to 0V during the off -state

OUT

− V

). If V

is suffi ciently close to

OUT

< 1.008xV

SC120

REG

sc120skevb Semtech Corporation, sc120skevb Datasheet - Page 21

sc120skevb

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