NCP1653ADR2G ON Semiconductor, NCP1653ADR2G Datasheet - Page 13

NCP1653ADR2G

Manufacturer Part Number

NCP1653ADR2G

Description

IC PFC CONTROLLER CCM 8SOIC

Manufacturer

ON Semiconductor

Datasheet

1.NCP1653PG.pdf (19 pages)

Specifications of NCP1653ADR2G

Mode

Continuous Conduction (CCM)

Frequency - Switching

67kHz

Voltage - Supply

8.75 V ~ 18 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (0.154", 3.90mm Width)

Switching Frequency

67 KHz

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Startup

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

NCP1653ADR2G
NCP1653ADR2GOSTR

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becomes its maximum value and generates zero on time t

Then, V

a boost converter. Going down to V

enters the previous two regions (i.e., follower boost region

or constant output voltage region) and hence output voltage

provides a duty ratio for the operation of the boost

converter.

following conditions:

regulated around the range between 96% and 100% of R

× I

behavior is similar to a follower boost.

under 96% of R

100 mA. The output voltage is described in (eq.15).

Overvoltage Protection (OVP)

reference current I

Drive Output (Pin 7) of the device goes low for protection.

The circuit automatically resumes operation when the

feedback current becomes lower than 107% of the

reference current I

corresponds to 230 mA × 1.92 MW + 2.5 V = 444.1 V when

Hence, it is generally recommended to use 450 V rating

output capacitor to allow some design margin.

Undervoltage Protection (UVP)

reference current I

than 8% of its nominal value), the device is shut down and

consumes less than 50 mA. The device automatically starts

operation when the output voltage goes above 12% of the

nominal regulation level. In normal situation of boost

converter configuration, the output voltage V

greater than the input voltage V

out

FB1

In conclusion, the NCP1653 circuit operates in one of the

Constant output voltage mode: The output voltage is

Follower boost mode: The output voltage is regulated

When the feedback current I

The maximum OVP threshold is limited to 230 mA which

When the feedback current I

CC2

stdn

ref

is always greater than 8% and 12% of the nominal level

cannot reach input voltage V

= 1.92 MW (680 kW + 680 kW + 560 kW) and

. The output voltage is described in (eq.16). Its

= 2.5 V (for the worst case referring to Figure 11).

out

Figure 35. Undervoltage Protection

decreases and the minimum can be V

8% I

× I

ref

Shutdown

ref

(i.e., the output voltage V

(i.e., V

and I

control

out

> 107% R

is higher than 107% of the

and the feedback current

12% I

as long as the NCP1653

is less than 8% of the

= I

, V

control(max)

ref

Operating

out

automatically

out

× I

out

is always

= I

ref

= V

http://onsemi.com

is less

ref

), the

/2 =

to enable the NCP1653 to operate. Hence, UVP happens

when the output voltage is abnormally undervoltage, the

FB pin (Pin 1) is opened, or the FB pin (Pin 1) is manually

pulled low.

Soft−Start

external capacitor C

provides a gradually increment of the V

the duty ratio) in the startup and hence provides a soft−start

feature.

Current Sense

sense scheme in Figure 36. The device maintains the

voltage at the CS pin (Pin 4) to be zero voltage (i.e.,

of components for current sensing and the inrush current

limitation by the resistor R

represents the inductor current I

PFC duty modulation to generate the multiplier voltage

protection.

Overcurrent Protection (OCP)

is typical 10 mV and it is neglected in the calculation.

Hence, the maximum OCP inductor current threshold

Drive Output (Pin 7) of the device goes low. The device

automatically resumes operation when the inductor current

goes below the threshold.

Input Voltage Sense

sensing scheme in Figure 37. The internal current mirror is

with a typical 4 V offset voltage at its input so that the

current I

S(OCP)

L(OCP)

vac

control

The device provides no output (or no duty ratio) when the

The device senses the inductor current I

This scheme has the advantage of the minimum number

Overcurrent protection is reached when I

When overcurrent protection threshold is reached, the

The device senses the RMS input voltage V

≈ 0 V) so that (eq.10) can be formulated.

, Overpower Limitation (OPL), and overcurrent

I L(OCP) +

is to maintain the In pin (Pin 3) voltage in the

(200 mA typical). The offset voltage of the CS pin

is obtained in (eq.15).

(Pin 2) voltage is zero (i.e., V

vac

can be derived in (eq.9). An external capacitor

Figure 36. Current Sensing

R S I S(OCP)

R CS

control

−

connected to the V

NCP1653

. Hence, the sense current I

R CS

R S

Gnd

and will be used in the

200 mA

control

by the current

is larger than

= 0 V). An

voltage (or

control

(eq.18)

by the

NCP1653ADR2G ON Semiconductor, NCP1653ADR2G Datasheet - Page 13

NCP1653ADR2G

Specifications of NCP1653ADR2G

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