NCP1606BDR2G ON Semiconductor, NCP1606BDR2G Datasheet - Page 13

NCP1606BDR2G

Manufacturer Part Number

NCP1606BDR2G

Description

IC POWER FACTOR CONTROLLER 8SOIC

Manufacturer

ON Semiconductor

Datasheet

1.NCP1606APG.pdf (22 pages)

Specifications of NCP1606BDR2G

Mode

Critical Conduction (CRM)

Current - Startup

20µA

Voltage - Supply

10.3 V ~ 20 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Output Voltage Range

0.5 V

Output Current

10 uA

Power Dissipation

800 mW

Operating Temperature Range

- 40 C to + 125 C

Mounting Style

SMD/SMT

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Frequency - Switching

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

NCP1606BDR2GOSTR

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Current page: 13 of 22
Download datasheet (246Kb)

out the bulk voltage ripple, then this on time is truly

constant over the ac line cycle.

when V

capacitor must be sized to ensure that the required on time

can be delivered at full power and the lowest input voltage

condition. The maximum on time is given by:

OFF TIME SEQUENCE

time in CRM operation varies with the instantaneous input

voltage. The NCP1606 determines the correct off time by

sensing the inductor voltage. When the inductor current

drops to zero, the drain voltage (“Vd” in Figure 23) is

essentially floating and naturally begins to drop. If the

switch is turned on at this moment, then CRM operation

will be achieved. To measure this high voltage directly on

the inductor is generally not economical or practical.

Rather, a smaller winding is taken off of the boost inductor.

This winding, called the zero current detector (ZCD)

winding, gives a scaled version of the inductor output and

is more useful to the controller.

Note that the maximum on time of the controller occurs

Combining this equation with equation 1, gives:

where V

While the on time is constant across the ac cycle, the off

CHARGE

CONTROL

CTMAX

= 297 mA (max)

Ct w

ZCD

ON(max)

= 2.9 V (min)

is at its maximum. Therefore, the Ct

ZCD

2 @ P

h @ Vac

OUT

RMS

Ct @ V

SENSE

@ L @ I

CHARGE

ZCD

@ V

CTMAX

CHARGE

Figure 29. Implementation of the ZCD Winding

CTMAX

VCL(NEG)

VCL(POS)

Active

Clamp

http://onsemi.com

(eq. 4)

(eq. 5)

200 mV

−

ZCD winding. When the drive is on, a negative voltage

appears on the ZCD winding. And when the drive is off, a

positive voltage appears. When the inductor current drops

to zero, then the ZCD voltage falls and starts to ring around

zero volts. The NCP1606 detects this falling edge and starts

the next driver on time. To ensure that a ZCD event has

truly occurred, the NCP1606’s logic (Figure 29) waits for

the ZCD pin voltage to rise above V

and then fall below V

CRM operation is easily achieved.

DRIVE

Drain

ZCD

Winding

Figure 28 gives typical operating waveforms with the

2.1 v

1.6 V

Figure 28. Voltage Waveforms for Zero Current

−

5.7 V

2.1 V

1.6 V

0.6 V

OUT

Shutdown

DRIVE

ZCDL

Detection

(1.6 V typical). In this way,

Dominant

Latch

Reset

ZCDH

Demag

(2.1 V typical)

NCP1606BDR2G ON Semiconductor, NCP1606BDR2G Datasheet - Page 13

NCP1606BDR2G

Specifications of NCP1606BDR2G

Available stocks

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