FAN53540 Fairchild Semiconductor, FAN53540 Datasheet - Page 10

FAN53540

Manufacturer Part Number

FAN53540

Description

The FAN53540 is a step-down switching voltage regulator that delivers an adjustable output from an input voltage supply of 2

Manufacturer

Fairchild Semiconductor

Datasheet

1.FAN53540.pdf (15 pages)

Current page: 10 of 15
Download datasheet (850Kb)

FAN53540 • Rev. 1.0.2

Operation Description

The FAN53540 is a step-down switching voltage regulator

that delivers an adjustable output from an input voltage

supply of 2.7V to 5.5V. Using a proprietary architecture with

synchronous rectification, the FAN53540 is capable of

delivering up to 5A at over 90% efficiency. The regulator

operates at a nominal frequency of 2.4MHz at full load,

which reduces the value of the external components to

470nH for the output inductor and 20µF for the output

capacitor. High efficiency is maintained at light load with

single-pulse PFM Mode.

Control Scheme

The FAN53540 uses a proprietary non-linear, fixed-

frequency PWM modulator to deliver very fast load transient

response, while maintaining a constant switching frequency

over a wide range of operating conditions.

Regulator performance is independent of the output

capacitor ESR, allowing for the use of ceramic output

capacitors. Although this type of operation normally results in

a switching frequency that varies with input voltage and load

current, an internal frequency loop holds the switching

frequency constant over a large range of input voltages and

load currents.

For

Discontinuous Current (DCM) single-pulse PFM Mode, which

produces low output ripple compared with other PFM

architectures. Transition between PWM and PFM is

seamless, with a glitch of less than 3% of V

transition between DCM and CCM Modes.

PFM Mode is disabled by holding the MODE pin HIGH. The

IC synchronizes to the MODE pin frequency. When

synchronizing to the MODE pin, PFM Mode is disabled.

Setting Output Voltage

The output voltage is set by the R1, R2, and V

R1 must be set at or below 100KΩ; therefore:

For example, for V

Enable and Soft-Start

When the EN pin is LOW, the IC is shut down, all internal

circuits are off, and the part draws very little current. Raising

EN above its threshold voltage activates the part and starts

the soft-start cycle. During soft-start, the modulator’s internal

reference is ramped slowly to minimize surge currents on the

input and prevents overshoot of the output voltage.

If large values of output capacitance are used, the regulator

may fail to start. If V

1.2ms from the beginning of soft-start, the regulator shuts

down and waits 1.6ms before attempting a restart. If the

regulator is in current limit for 16 consecutive PWM cycles,

the regulator shuts down before restarting 1.6ms later. This

very





OUT

light

OUT



REF



OUT

8 .

loads,

REF

8 .

=1.2V, R1=100KΩ, R2=200KΩ.

OUT



fails to achieve regulation within

the

FAN53540

REF

OUT

operates

(0.8V):

during the

(1)

(2)

limits the C

applied during the startup.

The maximum C

a heavy constant-current load is approximately:

Diode Emulation Mode is employed during soft-start,

allowing the IC to start into a pre-charged output. Diode

emulation prohibits reverse inductor current from flowing

through the synchronous rectifier.

When EN is LOW, a 150 resistor discharges V

Under-Voltage Lockout (UVLO)

When EN is HIGH, the under-voltage lockout keeps the part

from operating until the input supply voltage rises high

enough to operate properly. This ensures no misbehavior of

the regulator during startup or shutdown.

Input Over-Voltage Protection (OVP)

When V

switching to protect the circuitry from excessive internal

voltage spikes. An internal filter prevents the circuit from

shutting down due to V

Current Limiting

A heavy load or short circuit on the output causes the current

in the inductor to increase until a maximum current threshold

is reached in the high-side switch. Upon reaching this point,

the high-side switch turns off, preventing high currents from

causing damage. 16 consecutive PWM cycles in current limit

cause the regulator to shut down and stay off for about

1.6ms before attempting a restart.

In the event of a short circuit, the soft-start circuit attempts to

restart and produces an over-current fault after 16

consecutive cycles in current limit, which results in a duty

cycle of less than 5%, providing current into a short circuit.

External Frequency Synchronization

Logic 1 on the MODE pin forces the IC to stay in PWM

Mode. Logic 0 allows the IC to automatically switch to PFM

during light loads. If the MODE pin is toggled, the converter

synchronizes its switching frequency to four times the

frequency on the mode pin (f

The MODE pin is internally buffered with a Schmitt trigger,

which allows the MODE pin to be driven with slow rise and

fall times. An asymmetric duty cycle for frequency

synchronization is permitted, provided it is consistent with

parametric table limits.

where C

the load current during soft-start, expressed in A.

OUT

MAX

OUTMAX

OUT



exceeds V



capacitance when a heavy load ( I

8 .

OUT



is expressed in F and I

LOAD

capacitance for successful starting with

SDWN

noise spikes.





MODE

800

OUT

(about 6.1V), the IC stops

www.fairchildsemi.com

LOAD

OUT

LOAD(SS)

) is

(3)

FAN53540 Fairchild Semiconductor, FAN53540 Datasheet - Page 10

FAN53540

Related parts for FAN53540