NCP1207DR2G ON Semiconductor, NCP1207DR2G Datasheet - Page 14

NCP1207DR2G

Manufacturer Part Number

NCP1207DR2G

Description

IC CTRLR PWM CM OVP OCP HV 8SOIC

Manufacturer

ON Semiconductor

Datasheet

1.NCP1207P.pdf (18 pages)

Specifications of NCP1207DR2G

Output Isolation

Isolated

Voltage - Input

10.6 ~ 16 V

Operating Temperature

-40°C ~ 150°C

Package / Case

8-SOIC (0.154", 3.90mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

NCP1207DR2GOS

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Calculating the V

depends upon the V

on the startup sequence of your system, i.e. when you first

apply the power to the IC. The corresponding transient fault

duration due to the output capacitor charging must be less

than the time needed to discharge from 12 V to 10 V,

otherwise the supply will not properly start. The test consists

in either simulating or measuring in the lab how much time

the system takes to reach the regulation at full load. Let’s

suppose that this time corresponds to 6.0 ms. Therefore a

to not trigger the overload detection circuitry. If the

corresponding IC consumption, including the MOSFET

drive, establishes at 1.8 mA (e.g. with an 11 nC MOSFET),

we can calculate the required capacitor using the following

formula:

Dt of 10 ms, C equals 9.0 mF or 22 mF for a standard value.

When an overload condition occurs, the IC blocks its

internal circuitry and its consumption drops to 330 mA

typical. This happens at V

until V

using the calculated 22 mF and 330 mA current consumption,

this latchoff phase lasts: 313 ms.

HV Pin Recommended Protection

controller such as the NCP1207, two phenomena can

appear:

high−voltage diode like a 1N4007 between the bulk

capacitor and the V

naturally shuts the controller down and eradicates the two

above problems.

As the above section describes, the fall down sequence

When the user unplugs a power supply built with a QR

For the above reasons, we strongly recommend to add a

1. A negative ringing can take place on pin8 due to a

2. When the bulk capacitor discharges, the internal

line to go from 12 V to 10 V? The required time depends

fall time of 10 ms could be well appropriated in order

resonance between the primary inductance and

the bulk capacitor. As any CMOS device, the

NCP1207 is sensitive to negative voltages that

could appear on it’s pins and could create an

internal latchup condition.

latch is reset by the voltage developed over the

sense resistor and the ON time expands as less

voltage is available. When the high−voltage rail

becomes too low, the gate drives permanently

stays high since no reset occurs. This situation is

not desirable in many applications.

Dt + DV @ C

reaches 5.3 V: we are in latchoff phase. Again,

, with DV = 2.0 V. Then for a wanted

pin. When the bulk level collapses, it

level: how long does it take for the

Capacitor

= 10 V and it remains stuck

http://onsemi.com

NCP1207

Operation Shots

primary inductance.

operating points:

Below are some oscilloscope shots captured at

This plot gathers waveforms captured at three different

and selects the second valley

and will further expand the burst as P

Cbulk

= 120 VDC with a transformer featuring a 800 mH

out

lowest plot: the skip slices the second valley pattern

middle plot: min T

upper plot: free run, valley switching operation,

= 26 W

NCP1207

Figure 29.

Figure 30.

off

clamps the switching frequency

1N4007

out

goes low

NCP1207DR2G ON Semiconductor, NCP1207DR2G Datasheet - Page 14

NCP1207DR2G

Specifications of NCP1207DR2G

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