NCP345SNT1 ON Semiconductor, NCP345SNT1 Datasheet - Page 5

NCP345SNT1

Manufacturer Part Number

NCP345SNT1

Description

IC OVERVOLT PROT CTRLR SOT23-5

Manufacturer

ON Semiconductor

Datasheet

1.NCP345SNT1.pdf (8 pages)

Specifications of NCP345SNT1

Voltage - Working

3 ~ 25V

Voltage - Clamping

7.08V

Technology

Mixed Technology

Power (watts)

216mW

Number Of Circuits

Applications

General Purpose

Package / Case

TSOT-23-5, TSOT-5, TSOP-5

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

NCP345SNT1OSTR

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Introduction

adapter is used to convert the AC line voltage into a

regulated DC voltage or a current limited source. Line

surges or faults in the adapter may result in overvoltage

events that can damage sensitive electronic components

within the product. This is becoming more critical as the

operating voltages of many integrated circuits have been

lowered due to advances in sub−micron silicon lithography.

In addition, portable products with removable battery packs

pose special problems since the pack can be removed at any

time. If the user removes a pack in the middle of charging,

a large transient voltage spike can occur which can damage

the product. Finally, damage can result if the user plugs in

the wrong adapter into the charging jack. The challenge of

the product designer is to improve the robustness of the

design and avoid situations where the product can be

damaged due to un−expected, but unfortunately, likely

events that will occur as the product is used.

Circuit Overview

has been developed consisting of the NCP345 Over Voltage

Protection IC and a P−channel MOSFET switch such as the

MGSF3441. The NCP345 monitors the input voltage and

will not turn on the MOSFET unless the input voltage is

within a safe operating window that has an upper limit of

7.05 V. A zener diode can be placed in parallel to the load to

provide for secondary protection during the brief time that

it takes for the NCP345 to detect the overvoltage fault and

disconnect the MOSFET. The decision to use this secondary

diode is a function of the charging currents expected, load

capacitance across the battery, and the desired protection

In many electronic products, an external AC/DC wall

To address these problems, the protection system above

Accessory Charger

AC/DC Adapter or

(optional)

Zener

Diode

GND

APPLICATION INFORMATION

−

ref

http://onsemi.com

Undervoltage

Lock Out

Figure 8.

Logic

NCP345

CNTRL

Microprocessor

voltage by analyzing the dV/dT rise that occurs during the

brief time it takes to turn−off the MOSFET. For battery

powered applications, a low−forward voltage Schottky

diode such as the MBRM120LT3 can be placed in series

with the MOSFET to block the body diode of the MOSFET

and prevent shorting the battery out if the input is

accidentally shorted to ground. This provides additional

voltage margin at the load since there is a small forward drop

across this diode that reduces the voltage at the load.

can be a sudden rise in the input voltage of the device. This

transient can be quite large depending on the impedance of

the supply and the current being drawn from the supply at the

time of an overvoltage event. This inductive spike can be

clamped with a zener diode from IN to ground. This diode

breakdown voltage should be well above the worst case

supply voltage provided from the AC/DC adapter or

Cigarette Lighter Adapter (CLA), since the zener is only

intended to clamp the transient. The NCP345 is designed so

that the IN and V

withstand transients to 30 V. Since these spikes can be very

narrow in duration, it is important to use a high bandwidth

probe and oscilloscope when prototyping the product to

verify the operation of the circuit under all the transient

conditions. A similar problem can result due to contact

bounce as the DC source is plugged into the product.

ground in parallel with the battery. If the product has a

battery pack that is easily removable during charging, this

scenario should be analyzed. Under that situation, the

charging current will go into the capacitor and the voltage

may rise rapidly depending on the capacitor value, the

charging current and the power supply response time.

NCP345

Driver

FET

port

When the protection circuit turns off the MOSFET, there

For portable products it is normal to have a capacitor to

OUT

P−CH

(optional)

Zener

Diode

pin can safely protect up to 25 V and

Schottky

Diode

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NCP345SNT1 ON Semiconductor, NCP345SNT1 Datasheet - Page 5

NCP345SNT1

Specifications of NCP345SNT1

Available stocks

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