NCP1529ASNT1GEVB ON Semiconductor, NCP1529ASNT1GEVB Datasheet - Page 10

NCP1529ASNT1GEVB

Manufacturer Part Number

NCP1529ASNT1GEVB

Description

BOARD EVAL NCP1529

Manufacturer

ON Semiconductor

Datasheets

1.NCP1529MUTBG.pdf (16 pages)

2.NCP1529ASNT1GEVB.pdf (20 pages)

Specifications of NCP1529ASNT1GEVB

Design Resources

NCP1529ASNT1GEVB Schematic NCP1529ASNT1GEVB Gerber Files NCP1529ASNT1GEVB Bill of Materials

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Detailed Description

step−down architecture. Both the main (P−channel

MOSFET) and synchronous (N−channel MOSFET)

switches are internal.

the range of 0.9 V to 3.9 V and can source at least 1A.

PWM/PFM depending on the current required. In PWM

mode, the device can supply voltage with a tolerance of

$3% and 90% efficiency or better. Lighter load currents

cause the device to automatically switch into PFM mode to

reduce current consumption and extended battery life.

protection, current overload protection and thermal

shutdown protection. As shown on Figure 1, only six

external components are required. The part uses an internal

reference voltage of 0.6 V. It is recommended to keep

NCP1529 in shutdown mode until the input voltage is 2.7 V

or higher.

PWM Operating Mode

by modulating the on−time pulse width of the main switch

Q1 at a fixed 1.7 MHz frequency.

driven by the internal oscillator and a comparator that

compares the error signal from an error amplifier with the

sum of the sensed current signal and compensation ramp.

(Q1) while the lower side transistor is switched OFF then

ON.

turned ON by the rising edge of the internal oscillator clock.

The inductor current ramps up until the sum of the current

sense signal and compensation ramp becomes higher than

the error amplifier’s voltage. Once this has occurred, the

PWM comparator resets the flip−flop, Q1 is turned OFF

while the synchronous switch Q2 is turned ON. Q2 replaces

the external Schottky diode to reduce the conduction loss

and improve the efficiency. To avoid overall power loss, a

certain amount of dead time is introduced to ensure Q1 is

completely turned OFF before Q2 is being turned ON.

The NCP1529 uses a constant frequency, current mode

The output voltage is set by an external resistor divider in

The NCP1529 works with two modes of operation;

Additional features include soft−start, undervoltage

In this mode, the output voltage of the device is regulated

The switching of the PMOS Q1 is controlled by a flip−flop

The driver switches ON and OFF the upper side transistor

At the beginning of each cycle, the main switch Q1 is

DC/DC OPERATION DESCRIPTION

http://onsemi.com

PFM Operating Mode

current PFM mode of operation to reduce power

consumption. The output regulation is implemented by

pulse frequency modulation. If the output voltage drops

below the threshold of PFM comparator a new cycle will be

initiated by the PFM comparator to turn on the switch Q1.

Q1 remains ON during the minimum on time of the structure

while Q2 is in its current source mode. The peak inductor

current depends upon the drop between input and output

voltage. After a short dead time delay where Q1 is switched

OFF, Q2 is turned in its ON state. The negative current

detector will detect when the inductor current drops below

zero and sends a signal to turn Q2 to current source mode to

prevent a too large deregulation of the output voltage. When

the output voltage falls below the threshold of the PFM

comparator, a new cycle starts immediately.

Under light load conditions, the NCP1529 enters in low

OUT

Figure 26. PWM Switching Waveforms

Figure 27. PFM Switching Waveforms

OUT

= 3.6 V, V

Temperature = 255C)

OUT

= 1.2 V, I

OUT

= 600 mA,

= 0 mA,

NCP1529ASNT1GEVB ON Semiconductor, NCP1529ASNT1GEVB Datasheet - Page 10

NCP1529ASNT1GEVB

Specifications of NCP1529ASNT1GEVB

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