C129366

The C129366 is an electronic component. View the full C129366 datasheet below including absolute maximum ratings.

Overview

Part: NCP1271 — onsemi

Type: Standby PWM Controller

Description: A fixed-frequency current-mode PWM controller with adjustable Soft-Skip mode for excellent standby power consumption, integrated high-voltage startup FET, and frequency jittering for EMI reduction. Available in 65 kHz or 100 kHz versions.

Operating Conditions:

Supply voltage: 10–20 V (VCC pin)
Operating junction temperature: -40 to +150 °C
Oscillation frequency: 65 kHz or 100 kHz

Absolute Maximum Ratings:

Max VCC pin voltage: +20 V
Max HV pin voltage: +500 V
Max continuous current (VCC, Skip/Latch, FB, CS pins): 100 mA
Max continuous current (HV pin): +500 mA / -800 mA
Max junction temperature: +150 °C
Max storage temperature: +150 °C

Key Specs:

Oscillation Frequency (65 kHz version, Tj=25°C): 65 kHz (typ)
Oscillation Frequency (100 kHz version, Tj=25°C): 100 kHz (typ)
Maximum Duty Cycle: 80% (typ)
Gate Drive Output High Resistance: 11 Ω (typ, VCC=14V, Drv=300Ω to Gnd)
Gate Drive Output Low Resistance: 6.0 Ω (typ, VCC=14V, Drv=1.0V)
Maximum Current Threshold (CS pin): 1.0 V (typ)
Startup Threshold, VCC Increasing: 12.6 V (typ)
Minimum Operating Voltage After Turn-On: 9.1 V (typ)
Operating Supply Current (VCC=14V, 65 kHz version): 2.3 mA (typ)

Features:

Fixed-Frequency Current-Mode Operation with Ramp Compensation
Skip Cycle in Standby Condition ('Soft-Skip Mode')
Timer-Based Fault Protection
Internal High-Voltage Startup Current Source
±5% Current Limit Accuracy over Full Temperature Range
Adjustable Skip Level
Internal Latch for Overvoltage and Overtemperature Protection
Frequency Jittering for Softened EMI Signature
+500 mA / -800 mA Peak Current Drive Capability
Sub-100 mW Standby Power achievable
Pin-to-Pin Compatible with NCP120X Series

Applications:

AC-DC Adapters for Notebooks, LCD Monitors
Offline Battery Chargers
Consumer Electronic Appliances (STB, DVD, DVDR)

Package:

PDIP-7
SO-7

Features

Fixed -Frequency Current -Mode Operation with Ramp Compensation and Skip Cycle in Standby Condition
Timer -Based Fault Protection for Improved Overload Detection
'Soft -Skip Mode' Technique for Optimal Noise Control in Standby
Internal High -Voltage Startup Current Source for Lossless Startup
" 5% Current Limit Accuracy over the Full Temperature Range
Adjustable Skip Level
Internal Latch for Easy Implementation of Overvoltage and Overtemperature Protection
Frequency Jittering for Softened EMI Signature
+500 mA/ -800 mA Peak Current Drive Capability
Sub -100 mW Standby Power can be Achieved
Pin -to -Pin Compatible with the Existing NCP120X Series
This is a Pb -Free Device

Applications

AC -DC Adapters for Notebooks, LCD Monitors
Offline Battery Chargers
Consumer Electronic Appliances STB, DVD, DVDR

Pin Configuration

Pin No.	Symbol	Function	Description
1	Skip/latch	Skip Adjust or Latchoff	A resistor to ground provides the adjustable standby skip level. Additionally, if this pin is pulled higher than 8.0 V (typical), the controller latches off the drive.
2	FB	Feedback	An optocoupler collector pulls this pin low during regulation. If this voltage is less than the Skip pin voltage, then the driver is pulled low and Soft - Skip mode is activated. If this pin is open (>3 V) for more than 130 ms, then the controller is placed in a fault mode.
3	CS	Current Sense	This pin senses the primary current for PWMregulation. The maximum primary current is limited to 1.0 V / R CS where R CS is the current sense resistor. Additionally, a ramp resistor R ramp between the current sense node and this pin sets the compensation ramp for im- proved stability.
4	Gnd	IC Ground	-
5	Drv	Driver Output	The NCP1271's powerful output is capable of driving the gates of large Qg MOSFETs.
6	V CC	Supply Voltage	This is the positive supply of the device. The operating range is between 10 V (min) and 20 V (max) with a UVLO start threshold 12.6 V (typ).
8	HV	High Voltage	This pin provides (1) Lossless startup sequence (2) Double hiccup fault mode (3) Memory for latch - off shutdown and (4) Device protection if V CC is shorted to GND.

Figure 2. Functional Block Diagram

ELECTRICAL CHARACTERISTICS (For typical values T J = 25 C, for min/max values, T J = -40 C to +125 C, V CC = 14 V, HV = open, skip = open, FB = 2 V, CS = Ground, DRV = 1 nF, unless otherwise noted.)

Characteristic	Pin	Symbol	Min	Typ	Max	Unit
OSCILLATOR
Oscillation Frequency (65 kHz Version, T J = 25 _ C) Oscillation Frequency (65 kHz Version, T J = - 40 to + 85 _ C) Oscillation Frequency (65 kHz Version, T J = - 40 to + 125 _ C) Oscillation Frequency (100 kHz Version, T J = 25 _ C) Oscillation Frequency (100 kHz Version, T J = - 40 to +85 _ C) Oscillation Frequency (100 kHz Version, T = - 40 to +125 _ C)	5	f osc	61.75 58 55 95 89 85	65 65 65 100 100 100	68.25 69 69 105 107 107	kHz
Oscillator Modulation Swing, in Percentage of f osc	5	-	-	" 7.5	-	%
Oscillator Modulation Swing Period	5	-	-	6.0	-	ms
Maximum Duty Cycle (V CS = 0 V, V FB = 2.0 V)	5	D max	75	80	85	%
GATE DRIVE
Gate Drive Resistance Output High (V CC = 14 V, Drv = 300 W to Gnd) Output Low (V CC = 14 V, Drv = 1.0 V)	5	R OH R OL	6.0 2.0	11 6.0	20 12	W
Rise Time from 10% to 90% (Drv = 1.0 nF to Gnd)	5	t r	-	30	-	ns
Fall Time from 90% to 10% (Drv = 1.0 nF to Gnd)	5	t f	-	20	-	ns
CURRENT SENSE
Maximum Current Threshold	3	I Limit	0.95	1.0	1.05	V
Soft - Start Duration	-	t SS	-	4.0	-	ms
Soft - Skip Duration	-	t SK	-	300	-	m s
Leading Edge Blanking Duration	3	t LEB	100	180	330	ns
Propagation Delay (Drv =1.0 nF to Gnd)	-	-	-	50	150	ns
Ramp Current Source Peak	3	I ramp(H)	-	100	-	m A
Ramp Current Source Valley	3	I ramp(L)	-	0	-	m A
SKIP
Default Standby Skip Threshold (Pin 1 = Open)	2	V skip	-	1.2	-	V
Skip Current (Pin 1 = 0 V, T J = 25 _ C)	1	I skip	26	43	56	m A
Skip Level Reset (Note 5)	1	V skip - reset	5.0	5.7	6.5	V
Transient Load Detection Level to Disable Soft - Skip Mode	2	V TLD	2.6	2.85	3.15	V
EXTERNAL LATCH
Latch Protection Threshold	1	V latch	7.1	8.0	8.7	V
Latch Threshold Margin (V latch - m = V CC(off) - V latch )	1	V latch - m	0.6	1.2	-	V
Noise Filtering Duration	1	-	-	13	-	m s
Propagation Delay (Drv = 1.0 nF to Gnd)	1	T latch	-	100	-	ns
SHORT - CIRCUIT FAULT PROTECTION
Time for Validating Short - Circuit Fault Condition	2	t protect	-	130	-	ms

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.

Please refer to Figure 39 for detailed description.
Guaranteed by design.

ELECTRICAL CHARACTERISTICS (continued) (For typical values T J = 25 C, for min/max values, T J = -40 C to +125 C, VCC = 14 V, HV = open, skip = open, FB = 2 V, CS = Ground, DRV = 1 nF, unless otherwise noted.)

Characteristic	Pin	Symbol	Min	Typ	Max	Unit
STARTUP CURRENT SOURCE
High - Voltage Current Source Inhibit Voltage (I = 200 m A, HV = 50 V)	6	V inhibit I inhibit	190 80	600	800	mV
CC Inhibit Current (V CC = 0 V, HV = 50 V)	6			200	350	m A
Startup (V CC = V CC(on) - 0.2 V, HV = 50 V)	6	I HV	3.0	4.1	6.0	mA
Leakage (V CC = 14 V, HV = 500 V)	8	I HV - leak	10	25	50	m A
Minimum Startup Voltage (V CC = V CC(on) - 0.2 V, I CC = 0.5 mA)	8	V HV(min)	-	20	28	V
SUPPLY SECTION
V CC Regulation	6
Startup Threshold, V CC Increasing		V CC(on)	11.2	12.6	13.8	V
Minimum Operating Voltage After Turn - On		V CC(off)	8.2	9.1	10	V
V CC Operating Hysteresis		V CC(on) - V CC(off)	3.0	3.6	4.2	V
Undervoltage Lockout Threshold Voltage, V CC Decreasing		V CC(latch)	5.0	5.8	6.5	V
Logic Reset Level (V CC(latch) -V CC(reset) > 1.0 V) (Note 7)		V CC(reset)	-	4	-	V
V CC Supply Current	6
Operating (V CC = 14 V, 1.0 nF Load, V FB = 2.0 V, 65 kHz Version)		I CC1	-	2.3	3.0	mA
Operating (V CC = 14 V, 1.0 nF Load, V FB = 2.0 V, 100 kHz Version)		I CC1	-	3.1	3.5	mA
Output Stays Low (V CC = 14 V, V FB = 0 V)		I CC2	-	1.3	2.0	mA
Latchoff Phase (V CC = 7.0 V, V FB = 2.0 V)		I CC3	-	500	720	m A

Guaranteed by design.

Figure 3. Oscillation Frequency vs. Temperature

Figure 4. Maximum Duty Cycle vs. Temperature

Figure 5. Output Gate Drive Resistance vs. Temperature

Figure 5. Output Gate Drive Resistance vs. Temperature

Figure 7. Soft -Start Duration vs. Temperature

Figure 9. Default Skip Level vs. Temperature

Figure 6. Current Limit vs. Temperature

Figure 8. Leading Edge Blanking Time vs. Temperature

Figure 10. Skip Pin Current vs. Temperature

Figure 11. Skip Level Reset Threshold vs. Temperature

Figure 11. Skip Level Reset Threshold vs. Temperature

Figure 13. Latch Protection Level vs. Temperature

Figure 15. Startup Inhibit Voltage vs. Temperature

Figure 12. Transient Load Detection Level vs. Temperature

Figure 14. Fault Validation Time vs. Temperature

Figure 16. Startup Inhibit Current vs. Temperature

Figure 17. High Voltage Startup Current vs. Temperature

Figure 17. High Voltage Startup Current vs. Temperature

Figure 19. Startup Leakage Current vs. Temperature

Figure 21. Supply Voltage Thresholds vs. Temperature

Figure 18. Startup Current vs. V CC Voltage

Figure 20. Minimum Startup Voltage vs. Temperature

Figure 22. Supply Currents vs. Temperature

Absolute Maximum Ratings

Rating	Symbol	Value	Unit
V CC Pin (Pin 6)
Maximum Voltage Range Maximum Current	V max I max	- 0.3 to +20 100	V mA
Skip/Latch, FB, CS Pin (Pins 1 - 3) Maximum Voltage Range Maximum Current	V max I max	- 0.3 to +10 100	V mA
Drv Pin (Pin 5)
Maximum Voltage Range	V max I	- 0.3 to +20	V
HV Pin (Pin 8) Maximum Voltage	max
Maximum Current	max V	- 0.3 to +500	V
Maximum Current Power Dissipation and Thermal Characteristics Thermal Resistance, Junction - to - Air, PDIP - 7, Low Conductivity		- 800 to +500	mA
Range	R q JA R q JL	142 57	C/W C/W
PCB (Note 3) Thermal Resistance, Junction - to - Lead, PDIP - 7, Low Conductivity PCB	I max	100	mA
Thermal Resistance, Junction - to - Air, PDIP - 7, High Conductivity PCB (Note 4) Thermal Resistance, Junction - to - Lead, PDIP - 7, High Conductivity PCB	R q JA		C/W
	q	120	C/W
3)		56
	R JL	177
Thermal Resistance, Junction - to - Air, SO - 7, Low Conductivity PCB (Note Thermal Resistance, Junction - to - Lead, SO - 7, Low Conductivity PCB	R q JA		C/W C/W
	R q JL	75
Thermal Resistance, Junction - to - Air, SO - 7, High Conductivity PCB (Note 4)	R q JA	136	C/W
Thermal Resistance, Junction - to - Lead, SO - 7, High Conductivity PCB	R q JL	69	C/W
Operating Junction Temperature Range	T J	- 40 to +150	C
Maximum Storage Temperature Range	T	- 60 to +150	C
ESD Protection 6	stg HBM	2000 150	V
Human Body Model ESD Pins 1 - Human Body Model ESD Pin 8 Machine Model ESD Pins 1 - 4, 8	HBM MM	700 200	V V V
Machine Model ESD Pins 5, 6	MM
Charged Device Model ESD
	CDM	1000	V

Typical Application

AC -DC Adapters for Notebooks, LCD Monitors
Offline Battery Chargers
Consumer Electronic Appliances STB, DVD, DVDR

Related Variants

The following components are covered by the same datasheet.

Part Number	Manufacturer	Package
NCP1271	onsemi	—

Data on this page is extracted from publicly available manufacturer datasheets using automated tools including AI. It may contain errors or omissions. Always verify specifications against the official manufacturer datasheet before making design or purchasing decisions. See our Terms of Service. Rights holders can submit a takedown request.

Get structured datasheet data via API

Get started free