NCP1212P ON Semiconductor, NCP1212P Datasheet - Page 13

NCP1212P

Manufacturer Part Number

NCP1212P

Description

IC CTRLR PWM PROG CM OVP 8DIP

Manufacturer

ON Semiconductor

Type

PWM Controller for Both Forward and Flyback Convertersr

Datasheet

1.NCP1212DR2.pdf (21 pages)

Specifications of NCP1212P

Output Isolation

Isolated

Operating Temperature

-40°C ~ 150°C

Package / Case

8-DIP (0.300", 7.62mm)

Input Voltage Range

- 0.3 V to + 28 V

Operating Temperature Range

- 40 C to + 150 C

Mounting Style

Through Hole

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

NCP1212POS

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

H&T Electronics

Part Number:

NCP1212PG

Quantity:

Current page: 13 of 21
Download datasheet (405Kb)

turn on Duty Cycle. The oscillator circuit is designed to

operate in either 82% or 48% charging time that corresponds

to either 82% or 48% maximum PWM turn on Duty Cycle.

As discussed in the Oscillator Section, saw- -tooth waveform

at C

Duty Cycle and it is shown in Figure 32.

maximum turn on Duty Cycle. If 82% maximum turn on

duty is desired, simply connect a capacitor from SS/DMAX

pin to ground as shown in Figure 36 and the final voltage on

the capacitor will be 5.0 V minus one diode drop (~4.3 V).

adjust the final voltage at SS/DMAX to lower than 3.2 V

minus one diode drop (~2.5 V). This can be achieved by

connecting a resistor in parallel with C

Figure 37. The value of this parallel resistor is given by the

equation in below:

SS/DMAX pin is also used for the selection of maximum

The final voltage at SS/DMAX pin determines the

For 48% maximum Duty Cycle selection, we need to

Figure 37. 48% Maximum Duty Cycle Connection

Figure 36. 82% Maximum Duty Cycle Selection

= 0.8 mA

pin is different for 82% and 48% maximum turn on

= 8 mA

Duty Cycle

82% Max.

Duty Cycle

48% Max.

5.0 V

R duty =

Figure 35. Output Pulse Duty Cycle Depends on the SS/DMAX Pin Voltage

SS/DMAX

2.5 V

8 mA

Final Voltage = 2.5 V

Final Voltage ≈ 4.3 V

as shown in

duty

http://onsemi.com

Overload Detection

PWM controller will pump as much energy as possible to the

secondary side and the power only limited by the

cycle- -by- -cycle current limit setting. Components in the

power supply circuit such as the power MOSFET and output

rectifier may be damaged by this continuous stress.

Theoretically, fly- -back converter has inherent short circuit

protection provided that the PWM controller is supplied by

a fly- -back auxiliary winding and it has UVLO function.

Unluckily, it is quite common that the supply will experience

very high leaky voltage spike that prevents the V

to fall below UVLO level during short circuit.

detection mechanism, which is irrespective of auxiliary

winding voltage level. Overload shutdown is no longer

bothered by leakage spike hence a reliable overload

protection system can be easily constructed by NCP1212 for

both forward and fly- -back configuration. Overload

detection block is shown in Figure 38. Overload condition

is signified by current sense voltage hitting the maximum

allowable voltage, 1.0 V. To avoid false trigger that may

happen during transient load changes, C

discharge by 20 mA (I

persists, V

overload shutdown. Overload shutdown is only enabled

after the soft- -start period.

mandatory to connect a capacitor at the SS/DMAX pin.

Otherwise overload shutdown may be triggered during

startup phase.

During output overload or short circuit condition, the

NCP1212 is equipped with an integrated overload

Due to the overload detection mechanism, it is

SST

voltage level drops to 0.5 V and triggers the

- -I

). If overload condition

SST

DRV

starts to

voltage

NCP1212P ON Semiconductor, NCP1212P Datasheet - Page 13

NCP1212P

Specifications of NCP1212P

Available stocks

Related parts for NCP1212P