NCP1294EDBR2G ON Semiconductor, NCP1294EDBR2G Datasheet - Page 11

NCP1294EDBR2G

Manufacturer Part Number

NCP1294EDBR2G

Description

IC PWM CTLR FLYBACK 16TSSOP

Manufacturer

ON Semiconductor

Datasheet

1.NCP1294EDBR2G.pdf (13 pages)

Specifications of NCP1294EDBR2G

Output Isolation

Isolated

Frequency Range

260 ~ 320kHz

Voltage - Input

4.7 ~ 15 V

Operating Temperature

-40°C ~ 125°C

Package / Case

16-TSSOP

Duty Cycle (max)

90 %

Output Current

1 A

Mounting Style

SMD/SMT

Operating Supply Voltage

3.05 V

Supply Current

9.5 mA

Fall Time

25 ns

Rise Time

60 ns

Synchronous Pin

Yes

Topology

Boost, Flyback, Forward

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Manufacturer

Quantity

Price

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Part Number:

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that during steady state, V

voltage variations. This intuitively explains why FF voltage

mode control has superior line regulation and line transient

response. Knowing the nominal value of V

can also select the value of RC to place V

of its dynamic range.

Select Feedback Voltage Divider

the FB pin, which connects to the inverting input of the error

amplifier. The non−inverting input of the error amplifier is

connected to a 1.27 V (typ) reference voltage. The FB pin

has an input current which has to be considered for accurate

DC outputs. The following equation can be used to calculate

the R1 and R2 value

where ∇ is the correction factor due to the existence of the

FB pin input current Ier.

divider output.

Design Voltage Dividers for OV and UV Detection

series to set OV and UV threshold seen from the input

voltage. The values of the resistors can be calculated from

the following three equations, where the third equation is

derived from OV hysteresis requirement.

As shown in Figure 12, the voltage divider output feeds to

Ri = DC resistance between the FB pin and the voltage

Ier = V

In Figure 13, the voltage divider uses three resistors in

800

700

600

500

400

300

200

100

0.0001

Figure 10. Typical Performance Characteristics,

V IN(HIGH)

V IN(LOW)

input current, 1.3 mA typical.

R1 ) R2

= 10 K

= 50 K

Oscillator Frequency vs. C

+ (Ri ) R1 R2)Ier

R2 ) R3 ) R1

V OUT + 1.27 *

COMP

R2 ) R3

= 5.0 K

0.001

(mF)

doesn’t change for input

COMP

+ 1.0 V

+ 2.0 V

and T

at the center

http://onsemi.com

, one

(A)

(B)

0.01

1.00

0.95

0.90

0.85

0.80

0.75

0.70

0.65

0.60

0.55

0.50

where:

threshold;

design, V

to program OV and UV separately.

1000

IN(LOW)

It is self−evident from equation A and B that to use this

Figure 12. The Design of Feedback Voltage Divider

Has to Consider the Error Amplifier Input Current

IN(LOW)

HYST

Figure 11. Typical Performance Characteristics,

COMP

. Otherwise, two voltage dividers have to be used

= OV hysteresis seen at V

IN(HIGH)

, V

Figure 13. OV/UV Monitor Divider

12.5 mA

Oscillator Duty Cycle vs. R

IN(HIGH)

10000

has to be two times greater than

(R1 ) R2) + V HYST

−

= input voltage OV and UV

(W)

−

Ier

100000

1.27

OUT

1000000

(C)

NCP1294EDBR2G ON Semiconductor, NCP1294EDBR2G Datasheet - Page 11

NCP1294EDBR2G

Specifications of NCP1294EDBR2G

Available stocks

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