NCP1351LEDGEVB ON Semiconductor, NCP1351LEDGEVB Datasheet - Page 16

NCP1351LEDGEVB

Manufacturer Part Number

NCP1351LEDGEVB

Description

EVAL BOARD FOR NCP1351LEDG

Manufacturer

ON Semiconductor

Datasheets

1.NCP1351APG.pdf (27 pages)

2.NCP1351LEDGEVB.pdf (11 pages)

3.NCP1351LEDGEVB.pdf (3 pages)

Specifications of NCP1351LEDGEVB

Design Resources

NCP1351 EVB BOM NCP1351LEDGEVB Gerber Files NCP1351LED EVB Schematic

Current - Output / Channel

700mA

Outputs And Type

1, Isolated

Voltage - Output

33V

Features

Short-Circuit Protection

Voltage - Input

85 ~ 265 V

Utilized Ic / Part

NCP1351

Core Chip

NCP1351

Topology

Flyback

No. Of Outputs

Output Current

700mA

Output Voltage

33V

Development Tool Type

Hardware - Eval/Demo Board

Leaded Process Compatible

Yes

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

For Use With/related Products

NCP1351LEDG

Other names

NCP1351LEDGEVBOS

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we can easily calculate the timer capacitor value for a given

delay. Suppose we need 40 ms. In that case, the capacitor is

simply:

Select a 100 nF value.

four different options (A, B, C and D), we have graphed

important signals during a fault condition. In versions A and

B, an internal error flag is raised as soon the controller hits

the maximum operating frequency. At this moment, the

external timer capacitor charge begins. If the fault persists,

the timer capacitor hits the fault level and the circuit is either

latched (A) or enters auto-recovery burst mode (B). If the

fault disappears, the timer capacitor is simply reset to 0 V by

an internal switch.

the current feedback imposes a switching frequency roughly

equal to half of the maximum limit. For instance, should the

C timer +

Knowing both the ending voltage and the charge current,

To let the designer understand the behavior behind the

On version C and D, the error flag is asserted as soon as

100n

100nF

timer

I timer T

V timer

Timer

2.5k

Timer

2.5k

Figure 19. The Internal Fault Management Differs Depending on the Considered Version

11.7 m

10m

timer

Reset

40 m

+ 94 nF

Else = High

Auto-Recovery - B Version

(eq. 16)

< 40 mA ? = Low

http://onsemi.com

Latched - A Version

NCP1351

timer

designer select a 100 kHz maximum switching frequency,

then the error flag would raise and start the timer for an

operating frequency above ≈ 50 kHz. Below 50 kHz, the

timer pin remains grounded. If we consider a DCM

operation at full load, as the inductor peak current is kept

constant, these 50 kHz correspond to 50% of the maximum

delivered power. If the load stays between 50% and 100% of

its nominal value, the timer continues to charge until it

reaches the final level. In that case, the circuit latches off (C)

or enters auto-recovery (D). This behavior is particularly

well suited for applications where the converter delivers a

moderate average power but is subjected to sudden peak

loading conditions. For instance, a power supply is designed

to permanently deliver 20 W but is sized to deliver 80 W in

peak conditions. During these 80 W power excursions, the

timer will react but will not shut down the power supply. On

the contrary, if a short-circuit appends or if the transient

overload lasts too long, the timer will immediately start to

further shutdown the controller in order to protect both the

application and downstream load.

VCC

? Reset

(min)

20ms

Filter

20ms

Filter

DRV Pulses

SCR Delatches When

SCR

to DRV

Stage

< ICC

latch

(Few mA)

aux

NCP1351LEDGEVB ON Semiconductor, NCP1351LEDGEVB Datasheet - Page 16

NCP1351LEDGEVB

Specifications of NCP1351LEDGEVB

Related parts for NCP1351LEDGEVB