ncp1239f ON Semiconductor, ncp1239f Datasheet - Page 25

ncp1239f

Manufacturer Part Number

ncp1239f

Description

Lowstandby High Performance Pwm Controller

Manufacturer

ON Semiconductor

Datasheet

1.NCP1239F.pdf (38 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

ncp1239fD

Manufacturer:

Quantity:

Current page: 25 of 38
Download datasheet (2Mb)

placing a Zener between the voltage to measure (e.g., V

and Pin 3 (refer to application schematic). If a 15 V Zener is

applied, the Pin 3 comparator will switch when (V

exceeds the 2.4 V internal reference, that is, when V

higher than 17.5 V.

external thermistor (refer to application schematic).

Thermistors can be of Negative Temperature Coefficient

(NTC) type (the resistance decreases versus the

temperature) or of Positive Temperature Coefficient (PTC)

type (the resistance increases versus the temperature). Let’s

assume that a NTC thermistor is used (as in the application

schematic). Placing it between the 5 V reference voltage

(REF5V) and Pin 3, and a classical resistance between Pin 3

and ground, the Pin 3 voltage equals:

where R and R

thermistor resistance.

voltage (V

of 500 kW at 25°C and as low as 5 kW at 130°C that as an

(BO) protection prevents the power supply from being

adversely destroyed in case the mains drops to a very low

value. When it detects such a situation, the NCP1239 no

longer pulses but waits until the bulk voltage goes back to its

normal level. A certain amount of hysteresis needs to be

provided since the bulk capacitor is affected by some ripple,

especially at low input levels. For that reason, when the BO

Pin 3 can serve to build an Overvoltage Protection by

This pin can also monitor the temperature using an

For instance, the thermistor resistance can be in the range

Also called “Bulk OK” signal (BOK), the Brown−Out

thermistor

pin3

Rupper

Rlower

decreasing versus the temperature, the Pin 3

V pin3 +

) increases when the temperature grows up.

thermistor

R ) R thermistor

are respectively the resistor and the

500 mV if CMP is low

240 mV if CMP is high

−

An hysteresis comparator monitors the SMPS input voltage

@ 5 V

CMP

− 15 V)

http://onsemi.com

Figure 44.

NCP1239

)

Driver is off

as long as

CMP is low

example, one can take as the temperature limit the

application must not exceed. Choosing R equal to 5k, the

Pin 3 voltage at 130°C that equates:

triggers the fault comparator.

bottom resistor so that it exhibits the same resistance as the

thermistor at the temperature to be detected.

and ground. One must place a resistor between the 5 V

reference voltage and Pin 3. Similarly, the resistor must be

selected so that its resistance equals the thermistor one at the

temperature to be detected.

Brown−Out and Over Power Limitation

input voltage is too low (brown−out), the SMPS tends to

compensate by sinking an increased current from the line.

As a result the power components may suffer from an

excessive heating and ultimately the SMPS may be

destroyed. To avoid such a risk, the NCP1239 incorporates

a brown−out detection that monitors the portion of the input

voltage that is applied to Pin 5.

comparator toggles, the internal reference voltage changes

from 500 mV to 240 mV. This effect is not latched: that is to

say, when the bulk capacitor is below the target, the

controller does not deliver pulses. As soon as the input

voltage grows−up and reaches the level imposed by the

resistive divider, pulses are passed to the internal driver and

activate the MOSFET.

Driver

This example illustrates that one must just select the

If the thermistor is a PTC, it must be placed between Pin 3

SMPS are designed for a given input range. When the

V pin3 (130°C) +

CMP

240 mV

5 k ) 5 k

5 k

500 mV

@ 5 V + 2.5 V

pin5

ncp1239f ON Semiconductor, ncp1239f Datasheet - Page 25

ncp1239f

Available stocks

Related parts for ncp1239f