NCP1250ASN65T1G ON Semiconductor, NCP1250ASN65T1G Datasheet
NCP1250ASN65T1G
Specifications of NCP1250ASN65T1G
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NCP1250ASN65T1G Summary of contents
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NCP1250 Current-Mode PWM Controller for Off-line Power Supplies The NCP1250 is a highly integrated PWM controller capable of delivering a rugged and high performance offline power supply in a tiny TSOP−6 package. With a supply range ...
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... OPTIONS Controller NCP1250ASN65T1G NCP1250BSN65T1G NCP1250ASN100T1G NCP1250BSN100T1G ORDERING INFORMATION Device Package Marking NCP1250ASN65T1G 25A NCP1250BSN65T1G 252 NCP1250ASN100T1G 25C NCP1250BSN100T1G 25D †For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging Specifications Brochure, BRD8011/D. ...
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OPP Vlatch OVP gone? VDD Frequency modulation Vfold Vskip VDD RFB / 4.2 FB LEB log ic CC management 600 ns time hiccup constant VDD powe r on reset IpFlag Up counter RST ...
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MAXIMUM RATINGS TABLE Symbol V Power Supply voltage Maximum voltage on low power pins CS, FB and OPP IOPP Maximum injected negative current into the OPP pin (pin 1) R Thermal Resistance Junction−to−Air qJA T Maximum Junction ...
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ELECTRICAL CHARACTERISTICS (For typical values T = 25°C, for min/max values T J Symbol CURRENT COMPARATOR V Maximum internal current setpoint – T Limit2 V Default internal voltage set point for frequency foldback trip point – 45 fold ...
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TEMPERATURE (°C) Figure −50 − TEMPERATURE (°C) Figure 5. ...
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TEMPERATURE (°C) Figure 9. 19.9 19.4 18.9 18.4 17.9 17.4 16.9 16.4 15.9 −50 − TEMPERATURE (°C) Figure 11 ...
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kHz SW 1.5 1 0.5 0 −50 − TEMPERATURE (°C) Figure 15 −50 − TEMPERATURE (°C) Figure 17. 390 340 290 240 ...
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TEMPERATURE (°C) Figure 21. 100 −50 − TEMPERATURE (°C) Figure 23 ...
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TEMPERATURE (°C) Figure 27. 12.9 12.4 11.9 11.4 10.9 10.4 9.9 9.4 8.9 −50 − TEMPERATURE (°C) Figure 29. 1.9 1.8 1.7 1.6 1.5 1.4 1.3 ...
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TEMPERATURE (°C) Figure 33. 390 340 290 240 190 −50 − TEMPERATURE (°C) Figure 35. 160 150 140 130 120 110 100 90 ...
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Introduction The NCP1250 implements a standard current mode architecture where the switch−off event is dictated by the peak current setpoint. This component represents the ideal candidate where low part−count and cost effectiveness are the key parameters, particularly in low−cost ac−dc ...
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D2 1N4007 12 input mains D4 1N4007 Figure 39. The Startup Resistor Can Be Connected to the Input Mains for Further Power Dissipation Reduction The first step starts with the calculation of the V capacitor which will supply the controller ...
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Internal Over Power Protection There are several known ways to implement Over Power Protection (OPP), all suffering from particular problems. These problems range from the added consumption burden on the converter or the skip−cycle disturbance brought by the current−sense offset. ...
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Let us assume that we have the following converter characteristics out 265 V in rms 1:0. 1:0. ...
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Frequency kHz min min 26 kHz 350 mV V Figure 43. By Observing the Voltage on the Feedback Pin, the Controller Reduces its Switching Frequency for an Auto−Recovery Short−Circuit Protection In case of output short−circuit or ...
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Figure 45. Inserting a Resistor in Series with the Current Sense Information Brings Ramp Compensation and In the NCP1250 controller, the oscillator ramp features a 2.5 V swing. If the clock operates kHz frequency, then ...
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ROPPL 1k C1 100p Vlatch Figure 46. A Simple Resistive Divider Brings the OPP Pin Above Case First, calculate the OPP network with the above equations. Then, suppose we want to ...
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This spike is energetic enough to charge the added capacitor C and given the time constant, 1 could make it discharge slower, potentially disturbing the blanking circuit. When implementing the Zener option important ...
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D3 15V ROPPU 841k OPP 10 4 ROPPL 2.5k 5 Vlatch Figure 49. With the NTC Back in Place, the Circuit Nicely Combines OVP, OTP and OPP on the Same Pin In nominal V / output conditions, ...
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... A 0.05 A1 *For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D. ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. “ ...