NCP1205DR2G ON Semiconductor, NCP1205DR2G Datasheet - Page 9

NCP1205DR2G

Manufacturer Part Number

NCP1205DR2G

Description

IC CTRLR PWM CM OVP HV 16SOIC

Manufacturer

ON Semiconductor

Datasheet

1.NCP1205DR2.pdf (17 pages)

Specifications of NCP1205DR2G

Output Isolation

Isolated

Frequency Range

90 ~ 125kHz

Voltage - Input

8 ~ 30 V

Operating Temperature

-25°C ~ 150°C

Package / Case

16-SOIC (0.154", 3.90mm Width)

Number Of Outputs

Output Current

250 mA

Mounting Style

SMD/SMT

Switching Frequency

110 KHz

Operating Supply Voltage

30 V

Maximum Operating Temperature

+ 125 C

Fall Time

30 ns

Minimum Operating Temperature

- 25 C

Rise Time

30 ns

Synchronous Pin

Topology

Flyback, Forward

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

NCP1205DR2G
NCP1205DR2GOSTR

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

NCP1205DR2G

Manufacturer:

ON/安森美

Quantity:

20 000

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Introduction

technique, the NCP1205 represents a major leap toward

low- -power Switchmode Power Supply (SMPS) integrated

management. The circuit combines free- -running operation

with minimum drain- -source switching (so- -called valley

switching), which naturally reduces the peak current stress

as well as the ElectroMagnetic Interferences (EMI). At

switching frequency raises. As a natural result, switching

losses also increase and degrade the SMPS efficiency. To

overcome this problem, the maximum switching frequency

of the NCP1205 is clamped to typically 125 kHz. When the

free running mode (also called Borderline Control Mode,

BCM)

Voltage- -Controlled Oscillator (VCO) takes over and starts

to decrease the switching frequency: we are in Variable

Frequency Mode (VFM). Please note that during this

transition phase, the peak current is not fixed but is still

decreasing because the output power demand does. At a

given state, the peak current reaches a minimum peak

(typically 250 mV/Rsense), and cannot go further down: the

switching frequency continues its decrease down to a

possible minimum of 0 Hz (the IC simply stops switching).

During normal free- -running operation and VFM, the

controller always ensures single or multiple drain- -source

By implementing a unique smooth frequency reduction

When the output power demands decreases, the natural

reaches

Figure 10. Defining the Conduction Mode, Discontinuous, Continuous and Borderline

this

clamp

L(avg)

value,

Borderline

APPLICATION INFORMATION

D/Fs

internal

http://onsemi.com

Turn ON

Not 0 at

OFF

Time

L = Lc

Dead--Time

nominal output power, the circuit implements a traditional

current- -mode SMPS whose peak current setpoint is given

by the feedback signal. However, rather than keeping the

switching frequency constant, each cycle is initiated by the

end of the primary demagnetization. The system therefore

operates at the boundary between Discontinuous

Conduction Mode (DCM) and Continuous Conduction

Mode (CCM). Figure 10 details this terminology:

valley switching. We will see later on how this is internally

implemented.

simple formula:

With:

Lp the primary transformer inductance (also called the

magnetizing inductance)

Ip the peak current at which the MOSFET is turned off

Fsw the nominal switching frequency

play on the switching frequency or the peak current setpoint.

To refine the control, the NCP1205 offers the ability to play

on both parameters either altogether on an individual basis.

The FLYBACK operation is mainly defined through a

To adjust the transmitted power, the PWM controller can

0 Before

Turn ON

L > Lc

Pout = 1

L < Lc

· Lp · Ip 2 · Fsw

(eq. 1)

NCP1205DR2G ON Semiconductor, NCP1205DR2G Datasheet - Page 9

NCP1205DR2G

Specifications of NCP1205DR2G

Available stocks

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