NCP1422 ON Semiconductor, NCP1422 Datasheet - Page 9

NCP1422

Manufacturer Part Number

NCP1422

Description

Sync-Rect PFM Step-Up DC-DC Converter

Manufacturer

ON Semiconductor

Datasheet

1.NCP1422.pdf (14 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

NCP1422MNR2G

Manufacturer:

ON/安森美

Quantity:

20 000

Company:

H&T Electronics

Part Number:

NCP1422MNR2G

Quantity:

5 000

Current page: 9 of 14
Download datasheet (161Kb)

transfer from the inductor to the output capacitor. If the

regulator is operating in Continuous Conduction Mode

(CCM), M2 is turned OFF just before M1 is supposed to be

ON again. If the regulator is operating in Discontinuous

Conduction Mode (DCM), which means the coil current

will decrease to zero before the new cycle starts, M1 is

turned OFF as the coil current is almost reaching zero. The

comparator (ZLC) with fixed offset is dedicated to sense

the voltage drop across M2 as it is conducting; when the

voltage drop is below the offset, the ZLC comparator

output goes HIGH and M2 is turned OFF. Negative

feedback of closed−loop operation regulates voltage at

pin1 (FB) equal to the internal reference voltage (1.20 V).

Synchronous Rectification

Schottky Diode to reduce the conduction loss contributed

by the forward voltage of the Schottky Diode. The

Synchronous Rectifier is normally realized by powerFET

with gate control circuitry that incorporates relatively

complicated timing concerns.

synchronous switch M2 is just turned ON with M1 not

being completely turned OFF, current is shunt from the

output bulk capacitor through M2 and M1 to ground. This

power loss lowers overall efficiency and possibly damages

the switching FETs. As a general practice, a certain amount

of dead time is introduced to make sure M1 is completely

turned OFF before M2 is turned ON.

regulator is operating in CCM, M2 is turned OFF, M1 is just

turned ON, and M2 is not completely turned OFF. A dead

time is also needed to make sure M2 is completely turned

OFF before M1 is turned ON.

operating in DCM, M2 should be OFF. If this does not

occur, the reverse current flows from the output bulk

capacitor through M2 and the inductor to the battery input,

causing damage to the battery. The ZLC comparator comes

with fixed offset voltage to switch M2 OFF before any

reverse current builds up. However, if M2 is switched OFF

too early, large residue coil current flows through the body

diode of M2 and increases conduction loss. Therefore,

determination of the offset voltage is essential for optimum

performance. With the implementation of the synchronous

rectification scheme, efficiency can be as high as 94% with

this device.

The Synchronous Rectifier is used to replace the

As the main switch (M1) is being turned OFF and the

The previously mentioned situation occurs when the

As coil current is dropped to zero when the regulator is

http://onsemi.com

NCP1422

Cycle−by−Cycle Current Limit

current as M1 is ON. With that sample current flowing

through a sense resistor, a sense−voltage is developed. The

threshold

sense−voltage is higher than the preset level. If the sense

voltage is higher than the present level, the detector output

notifies the Control Logic to switch OFF M1, and M1 can

only be switched ON when the next cycle starts after the

minimum OFF−time (typically 0.12 mS). With proper

sizing of the SENSEFET and sense resistor, the peak coil

current limit is typically set at 1.5 A.

Voltage Reference

output up to 2.5 mA with load regulation ±2% at V

equal to 3.3 V. If V

capability can also be increased. A bypass capacitor of

200 nF is required for proper operation when REF is not

loaded. If REF is loaded, a 1.0 mF capacitor at the REF pin

is needed.

True−Cutoff

the multi−function pin LBI/EN (pin 2). Internal circuitry

can isolate the current through the body diode of switch M2

to load. Thus, it can eliminate leakage current from the

battery to load in shutdown mode and significantly reduce

battery current consumption during shutdown. The

shutdown function is controlled by the voltage at pin 2

(LBI/EN). When pin 2 is pulled to lower than 0.3 V, the

controller enters shutdown mode. In shutdown mode, when

switches M1 and M2 are both switched OFF, the internal

reference voltage of the controller is disabled and the

controller typically consumes only 50 nA of current. If the

pin 2 voltage is raised to higher than 0.5 V (for example, by

a resistor connected to V

internal circuit typically consumes 8.5 mA of current from

the OUT pin during normal operation.

Low−Battery Detection

perform the low−battery detection function. When pin 2

(LBI/EN) is at a voltage (defined by a resistor divider from

the battery voltage) lower than the internal reference

voltage of 1.20 V, the comparator output turns on a 50 W

low side switch. It pulls down the voltage at pin 3 (LBO)

which has hundreds of kW of pull−high resistance. If the

pin 2 voltage is higher than 1.20 V + 30 mV, the comparator

output turns off the 50 W low side switch. When this occurs,

pin 3 becomes high impedance and its voltage is pulled

high again.

In Figure 1, a SENSEFET is used to sample the coil

The voltage at REF is typically set at 1.20 V and can

The NCP1422 has a True−Cutoff function controlled by

A comparator with 30 mV hysteresis is applied to

detector

OUT

IN)

LIM

, the IC is enabled again, and the

is increased, the REF load

)

detects

whether

OUT

the

NCP1422 ON Semiconductor, NCP1422 Datasheet - Page 9

NCP1422

Available stocks

Related parts for NCP1422