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NCP1236

Fixed Frequency Current Mode Controller for Flyback Converters

ON Semiconductor 

NCP1236

ELECTRICAL CHARACTERISTICS

(For typical values TJ = 25C, for min/max values TJ = −40C to +125C, VHV = 125 V, VCC = 11 V unless otherwise noted)

Characteristics

Test Condition

Symbol

Min

Typ

Max

HIGH VOLTAGE CURRENT SOURCE

Minimum voltage for current

source operation

VHV(min)

−

30

60

Current flowing out of VCC pin

VCC = 0 V

VCC = VCC(on) − 0.5 V

Istart1

Istart2

0.2

0.5

0.8

3

6

9

Off−state leakage current

SUPPLY

VHV = 500 V

Istart(off)

−

25

50

Turn−on threshold level, VCC

going up

HV current source stop threshold

VCC(on)

11.0

12.0

13.0

HV current source restart threshold

Turn−off threshold

Overvoltage threshold

Blanking duration on VCC(off) and

VCC(ovp) detection (Note 7)

VCC decreasing level at which

the internal logic resets

VCC(min)

VCC(off)

VCC(ovp)

tVCC(blank)

VCC(reset)

9.5

10.5 11.5

8.5

9.5

10.5

25

26.5

28

7

10

13

3.6

5.0

6.0

VCC level for ISTART1 to ISTART2

transition

VCC(inhibit)

0.4

1.0

1.6

Internal current consumption

(Note 6)

BROWN−OUT

DRV open, VFB = 3 V, 65 kHz

DRV open, VFB = 3 V, 100 kHz

Cdrv = 1 nF, VFB = 3 V, 65 kHz

Cdrv = 1 nF, VFB = 3 V, 100 kHz

Off mode (skip or before start−up)

Fault mode (fault or latch)

ICC1

1.2

1.8

2.2

ICC1

1.2

1.9

2.3

ICC2

1.9

2.5

3.2

ICC2

2.2

2.9

3.6

ICC3

0.67

0.9

1.13

ICC4

0.4

0.7

1.0

Brown−Out thresholds

Timer duration for line cycle

drop−out

VHV going up

VHV going down

VHV(start)

VHV(stop)

tHV

92

107

122

79

92

105

47

68

90

OSCILLATOR

Oscillator frequency

fOSC

60

65

70

92

100

108

Maximum duty cycle

Frequency jittering amplitude, in

percentage of FOSC

Frequency jittering modulation

frequency

DMAX

Ajitter

Fjitter

75

80

85

$4

$6

$8

85

125

165

OUTPUT DRIVER

Rise time, 10% to 90 % of VCC

VCC = VCC(min) + 0.2 V, CDRV = 1 nF

trise

−

40

70

Fall time, 90% to 10 % of VCC

VCC = VCC(min) + 0.2 V, CDRV = 1 nF

tfall

−

40

70

Current capability

VCC = VCC(min) + 0.2 V, CDRV = 1 nF

DRV high, VDRV = 0 V

DRV low, VDRV = VCC

IDRV(source)

−

500

−

IDRV(sink)

−

500

−

Clamping voltage (maximum

gate voltage)

VCC = VCCmax – 0.2 V, DRV high, RDRV

VDRV(clamp)

11

13.5

16

= 33 kW, Cload = 220 pF

6. Internal supply current only, current in FB pin not included (current flowing in GND pin only).

7. Guaranteed by design.

Unit

V

mA

mA

V

V

V

V

ms

V

V

mA

V

ms

kHz

%

%

Hz

ns

ns

mA

V

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