NCP1063AP060G Datasheet NCV1063AD060R2G, NCV1060BD060R2G, NCP1060AD060R2G | P7-P9

NCP1060, NCP1063

www.onsemi.com

Table 4. ELECTRICAL CHARACTERISTICS

(For typical values T

= 25°C, for min/max values T

= −40°C to +125°C, V

= 14 V unless otherwise noted)

Symbol

Rating Pin Min Typ Max Unit

SUPPLY SECTION AND V

MANAGEMENT

CC(on)

increasing level at which the switcher starts operation 2 (5) 8.4 9.0 9.5 V

CC(min)

decreasing level at which the HV current source restarts 2 (5) 7.0 7.5 7.8 V

CC(off)

decreasing level at which the switcher stops operation (UVLO) 2 (5) 6.7 7.0 7.2 V

CC1

Internal IC consumption, NCP1060 switching at 60 kHz, LIM/OPP = 0 A

Internal IC consumption, NCP1060 switching at 100 kHz, LIM/OPP = 0 A

Internal IC consumption, NCP1063 switching at 60 kHz, LIM/OPP = 0 A

Internal IC consumption, NCP1063 switching at 100 kHz, LIM/OPP = 0 A

2 (5) −

−

0.92

0.97

0.99

1.07

−

CCskip

Internal IC consumption, COMP is 0 V (No switching on MOSFET) 2 (5) − 340 −

POWER SWITCH CIRCUIT

DS(on)

Power Switch Circuit on−state resistance

NCP1060 (Id = 50 mA)

Tj = 25°C

Tj = 125°C

NCP1063 (Id = 50 mA)

Tj = 25°C

Tj = 125°C

7, 8

(6−10)

(13−16)

−

11.4

14.0

DSS

Power Switch Circuit & Startup breakdown voltage

(ID

(off)

= 120 mA, Tj = 25°C)

7, 8

(6−10)

(13−16)

700 − − V

DSS(off)

Power Switch & Startup breakdown voltage off−state leakage current

Tj = 125°C (Vds = 700 V)

7, 8

(6−10)

(13−16)

− 84 −

Switching characteristics (R

= 50 W, V

set for I

drain

= 0.7 x Ilim)

Turn−on time (90% − 10%)

Turn−off time (10% − 90%)

7, 8

(6−10)

(13−16)

−

on(min)

Minimum on time

NCP1060

NCP1063

7, 8

(6−10)

(13−16)

−

200

230

−

INTERNAL START−UP CURRENT SOURCE

start1

High−voltage current source, V

= V

CC(on)

– 200 mV 7, 8

(6−10)

(13−16)

5 8 12 mA

start2

High−voltage current source, V

= 0 V 7, 8

(6−10)

(13−16)

− 0.5 − mA

CCTH

Transient level for I

start1

to I

start2

toggling point 2 (5) − 1.4 − V

start(min)

Minimum startup voltage, V

= 0 V 7, 8

(6−10)

(13−16)

21 V

CURRENT COMPARATOR

IPK

Maximum internal current setpoint at 50% duty cycle

FB = 2 V, LIM/OPP = 0 mA, Tj = 25°C

NCP1060

NCP1063

−

250

650

−

IPK(0)

Maximum internal current setpoint at beginning of switching cycle

FB = 2 V, LIM/OPP pin open Tj = 25°C

NCP1060

NCP1063

−

268

702

300

780

332

858

3. The final switch current is: I

IPK(0)

/ (V

+ S

) x V

+ V

x t

prop

, with S

the built−in slope compensation, Vin the input voltage,

the primary inductor in a flyback, and t

prop

the propagation delay.

4. Oscillator frequency is measured with disabled jittering.

NCP1060, NCP1063

www.onsemi.com

Table 4. ELECTRICAL CHARACTERISTICS

(For typical values T

= 25°C, for min/max values T

= −40°C to +125°C, V

= 14 V unless otherwise noted)

Symbol UnitMaxTypMinPinRating

CURRENT COMPARATOR

IPKSW

Final switch current with a primary slope of 200 mA/ms,

= 60 kHz (Note 3), LIM/OPP pin open

NCP1060

NCP1063

−

330

740

−

IPKSW

Final switch current with a primary slope of 200 mA/ms,

= 100 kHz (Note 3), LIM/OPP pin open

NCP1060

NCP1063

−

320

710

−

LMDEC

Maximum internal current setpoint at beginning of switching cycle

FB = 2 V, LIM/OPP = −285 mA, Tj = 25°C

NCP1060

NCP1063

−

128

312

−

Soft−start duration (guaranteed by design) − − 4 − ms

prop

Propagation delay from current detection to drain OFF state − − 70 − ns

LEB

Leading Edge Blanking Duration

NCP1060

NCP1063

−

130

160

−

INTERNAL OSCILLATOR

OSC

Oscillation frequency, 60 kHz version, Tj = 25°C (Note 4) − 54 60 66 kHz

OSC

Oscillation frequency, 100 kHz version, Tj = 25°C (Note 4) − 90 100 110 kHz

jitter

Frequency jittering in percentage of f

OSC

− − ±6 − %

swing

Jittering swing frequency − − 300 − Hz

max

Maximum duty−cycle − 62 66 72 %

ERROR AMPLIFIER SECTION

REF

Voltage Feedback Input (V

COMP

= 2.5 V) 4 (7) 3.2 3.3 3.4 V

Input Bias Current (V

= 3.3 V) 4 (7) − 1 −

Transconductance 5 (8) 2 mS

OTAlim

OTA maximum current capability (V

> V

OTAen

) 5 (8) ±150

OTAen

FB voltage to disable OTA 4 (7) 0.7 1.3 1.7 V

COMPENSATION SECTION

COMPfault

COMP current for which Fault is detected 5 (8) − −40 −

COMP100%

COMP current for which internal current set−point is 100% (I

IPK(0)

) 5 (8) − −44 −

COMPfreeze

COMP current for which internal current setpoint is:

Freeze1

(NCP1060/3)

5 (8) − −80 −

COMP(REF)

Equivalent pull−up voltage in linear regulation range

(Guaranteed by design)

5 (8) − 2.7 − V

COMP(up)

Equivalent feedback resistor in linear regulation range

(Guaranteed by design)

5 (8) − 17.7 −

kΩ

LMOP

Voltage on LIM/OPP pin @ I

LMOP

= −35 mA

Voltage on LIM/OPP pin @ I

LMOP

= −250 mA, Tj = 25°C

3 (6) 1.40

1.28

1.50

1.35

1.60

1.42

LMOP

Maximum current from LIM/OPP pin 3 (6) −330 −420

LMOP(min)

Current at which LIM/OPP starts to decrease I

PEAK

3 (6) −20 −26 −32

LMOP(max)

Current at which LIM/OPP stops to decrease I

PEAK

3 (6) −285

LMOP(neg)

Negative Active Clamp Voltage (I

LMOP

= −2.5 mA) 3 (6) −0.7 V

3. The final switch current is: I

IPK(0)

/ (V

+ S

) x V

+ V

x t

prop

, with S

the built−in slope compensation, Vin the input voltage,

the primary inductor in a flyback, and t

prop

the propagation delay.

4. Oscillator frequency is measured with disabled jittering.

NCP1060, NCP1063

www.onsemi.com

Table 4. ELECTRICAL CHARACTERISTICS

(For typical values T

= 25°C, for min/max values T

= −40°C to +125°C, V

= 14 V unless otherwise noted)

Symbol UnitMaxTypMinPinRating

COMPENSATION SECTION

LMOP(pos)

Positive Active Clamp (Guaranteed by design) 3 (6) 2.5 mA

FREQUENCY FOLDBACK & SKIP

COMPfold

Start of frequency foldback COMP pin current level 5 (8) − −68 −

COMPfold(end)

End of frequency foldback COMP pin current level, f

= f

min

5 (8) − −100 −

min

The frequency below which skip−cycle occurs − 21 25 29 kHz

COMPskip

The COMP pin current level to enter skip mode 5 (8) − −120 −

Freeze1

Internal minimum current setpoint (I

COMP

= I

COMPFreeze

) in NCP1060 − 110 − mA

Freeze2

Internal minimum current setpoint (I

COMP

= I

COMPFreeze

) in NCP1063 − 270 − mA

RAMP COMPENSATION

a(60)

The internal ramp compensation @ 60 kHz:

NCP1060

NCP1063

−

8.4

15.6

−

mA/ms

a(100)

The internal ramp compensation @ 100 kHz:

NCP1060

NCP1063

−

mA/ms

PROTECTIONS

SCP

Fault validation further to error flag assertion − 35 48 − ms

recovery

OFF phase in fault mode − − 400 − ms

OVP

voltage at which the switcher stops pulsing 2 (5) 17.0 18.0 18.8 V

OVP

The filter of V

OVP comparator − − 80 −

HV(EN)

The drain pin voltage above which allows MOSFET operate, which is

detected after TSD, UVLO, SCP, or V

OVP mode. (A version only)

7,8

(6−10)

(13−16)

67 87 110 V

TEMPERATURE MANAGEMENT

TSD

Temperature shutdown (Guaranteed by design) − 150 163 − °C

TSD

hyst

Hysteresis in shutdown (Guaranteed by design) − − 20 − °C

3. The final switch current is: I

IPK(0)

/ (V

+ S

) x V

+ V

x t

prop

, with S

the built−in slope compensation, Vin the input voltage,

the primary inductor in a flyback, and t

prop

the propagation delay.

4. Oscillator frequency is measured with disabled jittering.

Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product

performance may not be indicated by the Electrical Characteristics if operated under different conditions.

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NCP1063AP060G

Mfr. #:

Buy NCP1063AP060G

Manufacturer:

ON Semiconductor

Description:

Switching Controllers HV SWITCHER FOR LOW POWER

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NCP1063AP060G

NCP1063AP060G

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