NCP348MTTXG ON Semiconductor, NCP348MTTXG Datasheet - Page 10

NCP348MTTXG

Manufacturer Part Number

NCP348MTTXG

Description

IC MOSFET DRIVER DUAL 12V 8-DFN

Manufacturer

ON Semiconductor

Datasheet

1.NCP348AEMUTBG.pdf (13 pages)

Specifications of NCP348MTTXG

Voltage - Working

1.2 ~ 28V

Voltage - Clamping

6.8V

Technology

Mixed Technology

Number Of Circuits

Applications

General Purpose

Package / Case

10-WFDFN Exposed Pad

Battery Type

Lithium

Battery Protection

Over Voltage

No. Of Batteries

Supply Voltage Range

1.2V To 28V

Battery Ic Case Style

WDFN

No. Of Pins

Operating Temperature Range

-40Â°C To

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power (watts)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

NCP348MTTXG

Manufacturer:

ON/安森美

Quantity:

20 000

Current page: 10 of 13
Download datasheet (483Kb)

Undervoltage Lockout (UVLO)

device has a built−in undervoltage lockout (UVLO) circuit.

During V

disconnected from input until V

(NCP348MTT version), plus hysteresis, nominal. The

FLAG output is tied to low as long as V

UVLO threshold. This circuit has a 50 mV hysteresis to

provide noise immunity to transient condition. Additional

UVLO

manufactured. (See Selection Guide on page 12) Contact

your ON Semiconductor representative for availability.

Overvoltage Lockout (OVLO)

overvoltage, the device has a built−in overvoltage lockout

(OVLO) circuit. During overvoltage condition, the output

remains disabled as long as the input voltage exceeds 6.4 V

typical

thresholds ranging from OVLO can be manufactured. (See

Selection Guide on page 12) Contact your ON

Semiconductor representative for availability.

This circuit has a 100 mV hysteresis to provide noise

immunity to transient

FLAG Output

external systems that a fault has occurred.

exceeded or when the V

threshold. When V

FLAG is held high, keeping in mind that an additional

50 ms delay has been added between available output and

FLAG = high. The pin is an open drain output, thus a pull

up resistor (typically 1 MW, minimum 10 kW) must be

added to V

FLAG level will always reflects V

device is turned off (EN = 1).

EN Input

to low or connected to ground. A high level on the pin,

disconnects OUT pin from IN pin. EN does not overdrive

an OVLO or UVLO fault.

Internal NMOS FET

FET to protect the systems, connected on OUT pin, from

positive overvoltage. Regarding electrical characteristics,

the R

on V

To ensure proper operation under any conditions, the

To protect connected systems on V

FLAG output is tied to low until V

The NCP348 provides a FLAG output, which alerts

This pin is tied to low as soon the OVLO threshold is

To enable normal operation, the EN pin shall be forced

The NCP348 includes an internal Low R

out

DS(on)

pin.

(NCP348MTT

thresholds

, during normal operation, will create low losses

bat

positive going slope, the output remains

. Minimum V

ranging

conditions.

level recovers normal condition,

version).

bat

level is below the UVLO

supply must be 2.5 V. The

from

voltage is below 3.25 V

is higher than OVLO.

Additional OVLO

status, even if the

UVLO

does not reach

out

DS(on)

pin from

can

NMOS

http://onsemi.com

As example: R

Typical R

NMOS losses = R

ESD Tests

1.0 mF (minimum) must be connected between V

GND, close to the device.

protected input. In Contact condition, V

ESD protected input.

electrostatic discharge waveform.

PCB Recommendations

and the PCB rules must be respected to properly evacuate

the heat out of the silicon. The PAD1 is internally isolated

from the active silicon and should preferably be connected

to ground. The PAD2 of the NCP348 package is connected

to the internal NMOS drain and can be used to increase the

heat transfer if necessary from an applications standpoint.

one can either use the PCB tracks connected to Pins 4 and

5 to evacuate heat, or make profit of the PAD2 area to add

extra copper surface to reduce the junction temperature

(See Figure 20). Of course, in any case, this pad shall be not

connected to any other potential. Figure 20 shows copper

area according to R

transfer plane connected to PAD2.

out

The NCP348 input pin fully supports the IEC61000−4−2.

That means, in Air condition, V

Please refer to Figure 19 to see the IEC 61000−4−2

The NCP348 integrates a 2 amperes rated NMOS FET,

Depending upon the power dissipated in the application,

= 8 x 0.618 = 4.95 V

Figure 19. Electrostatic Discharge Waveform

DS(on)

load

= 65 mW, I

DS(on)

= 8.0 W, V

qJA

x Iout

and allows the design of the heat

out

= 618 mA

= 0.065 x 0.618

= 5.0 V

has a "15 kV ESD

has "8.0 kV

= 25 mW

and

NCP348MTTXG ON Semiconductor, NCP348MTTXG Datasheet - Page 10

NCP348MTTXG

Specifications of NCP348MTTXG

Available stocks

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