NCP1011(2010) 查看數據表（PDF） - ON Semiconductor

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NCP1011
(Rev.:2010)

Self-Supplied Monolithic Switcher for Low Standby Power Offline SMPS

ON Semiconductor 

NCP1010, NCP1011, NCP1012, NCP1013, NCP1014

8.5 V

8.00

Vcc

6.00

7.5 V

4.00

Device

2.00

Internally

Pulses

0

Startup Period

Figure 14. The Charge/Discharge Cycle Over a 10 mF VCC Capacitor

The protection burst duty--cycle can easily be computed

through the various timing events as portrayed by Figure 16.

Being loaded by the circuit consumption, the voltage on

the VCC capacitor goes down. When the DSS controller

detects that VCC has reached 7.5 V (VCCON), it activates the

internal current source to bring VCC toward 8.5 V and stops

again: a cycle takes place whose low frequency depends on

the VCC capacitor and the IC consumption. A 1.0 V ripple

takes place on the VCC pin whose average value equals

(VCCOFF + VCCON)/2. Figure 14 portrays a typical

operation of the DSS.

As one can see, the VCC capacitor shall be dimensioned to

offer an adequate startup time, i.e. ensure regulation is

reached before VCC crosses 7.5 V (otherwise the part enters

the fault condition mode). If we know that ΔV = 1.0 V

and ICC1 (max) is 1.1 mA (for instance we selected an 11 Ω

device switching at 65 kHz), then the VCC capacitor can

be

calculated

using:

C

≥

ICC1

· tstartup

ΔV

(eq. 1) .

Let’s

suppose that the SMPS needs 10 ms to startup, then we will

calculate C to offer a 15 ms period. As a result, C should be

greater than 20 mF thus the selection of a 33 mF/16 V

capacitor is appropriate.

Short Circuit Protection

The internal protection circuitry involves a patented

arrangement that permanently monitors the assertion of an

internal error flag. This error flag is, in fact, a signal that

instructs the controller that the internal maximum peak

current limit is reached. This naturally occurs during the

startup period (Vout is not stabilized to the target value) or

when the optocoupler LED is no longer biased, e.g. in a

short--circuit condition or when the feedback network is

broken. When the DSS normally operates, the logic checks

for the presence of the error flag every time VCC crosses

VCCON. If the error flag is low (peak limit not active) then

the IC works normally. If the error signal is active, then the

NCP101X immediately stops the output pulses, reduces its

internal current consumption and does not allow the startup

source to activate: VCC drops toward ground until it reaches

the so--called latch--off level, where the current source

activates again to attempt a new restart. When the error is

gone, the IC automatically resumes its operation. If the

default is still there, the IC pulses during 8.5 V down to 7.5 V

and enters a new latch--off phase. The resulting burst

operation guarantees a low average power dissipation and

lets the SMPS sustain a permanent short--circuit. Figure 15

shows the corresponding diagram.

Current Sense

4V

Information

FB

Division

Max

Ip

+

--

VCC VCCON

Signal

To

Latch

Reset

Flag

Clamp

Active?

Figure 15. Simplified NCP101X Short--Circuit

Detection Circuitry

http://onsemi.com

9

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