NCP1605DR2G ON Semiconductor, NCP1605DR2G Datasheet - Page 18

NCP1605DR2G

Manufacturer Part Number

NCP1605DR2G

Description

IC PFC CONTROLLER CCM/DCM 16SOIC

Manufacturer

ON Semiconductor

Datasheet

1.NCP1605ADR2G.pdf (32 pages)

Specifications of NCP1605DR2G

Mode

Continuous Conduction (CCM), Discontinuous Conduction (DCM)

Frequency - Switching

250kHz

Current - Startup

12mA

Voltage - Supply

10 V ~ 20 V

Operating Temperature

0°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

16-SOIC (3.9mm Width)

Output Voltage Range

10 V to 20 V

Input Voltage Range

- 0.3 V to + 9 V

Power Dissipation

550 mW

Operating Temperature Range

- 40 C to + 125 C

Mounting Style

SMD/SMT

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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NCP1605(A) Operation Modes

•

NCP1605 On−time Modulation

The initial inductor current of each switching cycle is

always zero. The coil current ramps up when the MOSFET

is on. The slope is (V

At the end of the on−time (t1), the coil demagnetization

phase starts. The coil current ramps down until this

sequence ends when it reaches zero. The duration of this

phase is (t2). The system enters then the dead−time (t3) that

lasts until the next clock is generated.

Like the NCP1601, the NCP1605(A):

Let’s study the ac line current absorbed by the PFC boost.

Features a current sense block that prevents the PFC

stage from operating in CCM: as long as the coil

current is not null, the power switch is not allowed to

turn on. Hence the circuit can only operate in either

Fixed Frequency DCM or CRM.

Features the capability to exhibit near−unity power

factor while operating in any type of Discontinuous

Conduction Mode operation: DCM or CRM.

Auto adapts: if there is some current flowing through

the coil when the clock occurs to initiate a new current

cycle, the PFC stage enters CRM. On the other hand,

if the clock occurs during dead−times, one obtains a

fixed frequency operation DCM. Thanks to its special

oscillator/synchronization arrangement, the circuit

automatically enters the appropriate mode CRM or

Current

/L) where L is the coil inductance.

The NCP1605(A) can jump from DCM to CRM within a sinusoid cycle (and vice versa)

DCM

Figure 52. DCM and CRM Operation Within a Sinusoid Cycle

without any discontinuity in the current shaping or the power transfer.

Critical Mode

http://onsemi.com

inductor current compared to CRM for the same delivered

power. Hence, the coil is generally designed to have CRM

at the most stressful conditions while DCM limits the

switching frequency at lower load. The circuit can also

transition within an ac line cycle so that:

•

drawbacks. The way the circuit modulates the MOSFET

on−time allows this facility.

line current is given by:

Where T = (t1 + t2 + t3) is the switching period and V

the ac line rectified voltage.

is proportional to V

Given the dead−time presence, DCM needs a higher peak

This capability offers the best of each mode without the

One can show (refer to NCP1601 data sheet) that the ac

To the light of this equation, we immediately note that I

DCM. It is worth noting that jumps between the CRM

and modes cause absolutely no degradation: the input

current keeps being properly shaped and there is no

discontinuity in the power transfer.

CRM reduces the current stress around the sinusoid

top.

DCM limits the frequency around the line zero

crossing.

Inductor Current, I

DCM

Input Current, I

I in + V in

if [t1(t1 + t2)/T] is a constant.

t 1 (t 1 ) t 2 )

2 T L

Time

(eq. 1)

NCP1605DR2G ON Semiconductor, NCP1605DR2G Datasheet - Page 18

NCP1605DR2G

Specifications of NCP1605DR2G

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