NCP1550_06 ONSEMI [ON Semiconductor], NCP1550_06 Datasheet - Page 13

NCP1550_06

Manufacturer Part Number

NCP1550_06

Description

600 kHz PWM/PFM Step−Down DC−DC Controller

Manufacturer

ONSEMI [ON Semiconductor]

Datasheet

1.NCP1550_06.pdf (17 pages)

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Detailed Operating Description

controllers designed primarily for use in portable

applications powered by battery cells. With an appropriate

external P−channel MOSFET connected, the device can

provide up to 2 A loading current with high conversion

efficiency. The NCP1550 series using an unique control

scheme combines the advantages of Pulse−Frequency−

Modulation (PFM) that can provide excellent efficiency

even at light loading conditions and Constant−Frequency

Pulse−Width−Modulation that can achieve high efficiency

and low output voltage ripple at heavy loads. The NCP1550

working at high switching frequency makes it possible to use

small size surface mount inductor and capacitors to reduce

PCB area and provide better interference handling for noise

sensitive applications. The simplified functional blocks of

the device are shown in Figure 1 and descriptions for each

of the functions are given below.

The Internal Oscillator

cycles is required. NCP1550 have an internal Fixed−

Frequency oscillator. The oscillator frequency is trimmed to

600 kHz with an accuracy of ±15%. All other timing signals

needed for operation are derived from this oscillator signal.

Voltage Reference and Soft−Start

NCP1550. This reference voltage is connected to the

inverting input terminal of the error amplifier, A1, which

compared with portion of the output voltage, V

from an integrated voltage divider with precise trimming to

give the required output voltage at ±2% accuracy. NCP1550

also comes with a built−in soft−start circuit that controls the

ramping up of the internal reference voltage during the

power−up of the converter. This function effectively enables

the output voltage to rise gradually over the specified

soft−start time, 8 msec typical. This prevents the output

voltage from overshooting during startup of the converter.

Voltage Mode Pulse−Width−Modulation (PWM)

Control Scheme

Constant−Frequency

Voltage Mode Control. The controller operates with the

internal oscillator, which generates the required ramp

function to compare with the output of the error amplifier, A1.

The error amplifier compares the internally divided−down

output voltage with the voltage reference to produce an error

The NCP1550 series are step−down (Buck) DC−DC

An oscillator that governs the switching of a PWM control

An internal high accuracy voltage reference is included in

For normal operation, NCP1550 is working in

Pulse−Width−Modulation

DETAILED OPERATING DESCRIPTION

OUT

derived

(PWM)

http://onsemi.com

NCP1550

voltage at its output. This error voltage is compared with the

ramp function to generate the control pulse to drive the

external power switch. On a cycle−by−cycle basis, the

greater the error voltage, the longer the switch is held on.

Hence, corresponding corrective action will be made to keep

the output voltage within regulation. Constant−Frequency

PWM reduces output voltage ripple and noise, which is one

of the important characteristics for noise sensitive

communication applications. The high switching frequency

allows small size surface mount components to improve

layout compactness and reduce PC board area, and eliminate

audio and emission interference.

Power−Saving Pulse−Frequency−Modulation (PFM)

Control Scheme

Discontinuous Conduction Mode (DCM) operation, which

means the inductor current will decrease to zero before the

next switching cycle starts. In DCM operation, the ON time

for each switching cycle will decrease significantly when

the output current decreases. In order to maintain a high

conversion efficiency even at light load conditions, the ON

time for each switching cycle is closely monitored and for

any ON time smaller than the preset value, 320 nsec, the

switching pulse will be skipped. As a result, when the

loading current is small, the converter will be operating in a

“Constant ON time (320 nsec nominal), variable OFF time”

Pulse−Frequency Modulation (PFM) mode. This innovative

control scheme improves the conversion efficiency for the

system at light load and standby operating conditions hence

extend the operating life of the battery.

Low Power Shutdown Mode

tied to GND. In shutdown, the internal reference, oscillator,

control circuitry, driver and internal feedback voltage

divider are turned off and the output voltage falls to 0 V.

During the shutdown mode, as most of the internal functions

are stopped and current paths are cut−off, the device

consume extremely small current in this condition.

Under−Voltage Lockout (UVLO)

safe input voltage levels, an Undervoltage Lockout is

incorporated into the NCP1550. When the input supply

voltage drops below approximately 2.2 V, the comparator,

CP1 will turn−off the control circuitry and shut the converter

down.

While the loading is decreasing, the converter enters the

NCP1550 can be disabled whenever the CE pin (Pin 1) is

To prevent operation of the P−Channel MOSFET below

NCP1550_06 ONSEMI [ON Semiconductor], NCP1550_06 Datasheet - Page 13

NCP1550_06

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