ON Semiconductor NCP1060 User Manual

Flyback converter evaluation board
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NCP1060FLBKGEVB
NCP1060 Flyback Converter
Evaluation Board
User's Manual
Universal AC Mains, Up to 7 Watt Isolated

Power Supply

Introduction
This evaluation board manual describes a simple, low
power (up to 7 W), universal AC mains Flyback converter.
The converter provides constant voltage output. The supply
can be used for powering utility electric meters, white goods
or similar industrial equipments where isolation from the
AC mains is required. The main benefits of provided
solution are high efficiency, cost effectiveness and low
no−load power consumption. The converter is utilizing
monolithic ON Semiconductor switcher NCP1060 with
integrated 34 W MOSFET in a PDIP7 package. The
evaluation board manual provides complete circuit diagram
and bill of materials. The current capability of provided
converter is user adjustable.
Circuit Description
The varistor R4 together with resistor R3 form simple
protection that enhances application robustness against line
over−voltage and voltage spikes. Resistor R3 also limits the
inrush current when the power supply is connected to mains.
The EMC filter is implemented to reduce conducted
electromagnetic emissions to the mains.
The Flyback converter itself is formed by the high voltage
switching regulator IC1, transformer TR1, freewheeling
diode D3 and coil L1 (L3). Capacitors C5, C6, C7 and C8 are
used as the output filtering and energy storage bank. Resistor
R1 and capacitor C2 for filter, C1, R2 and D2 are forming
voltage clamp for the switcher drain. Opto−coupler OK1
(NCP431) is used in feedback network. Resistors R8, R12
and R13 form resistive divider and sets output voltage.
Diode D7 and resistor R14 provide supply voltage for IC1
Vcc from auxiliary winding. The capacitor C10 is the energy
storage element that keeps IC1 powered during light load
conditions, when the switching frequency drops and energy
from auxiliary winding refills Vcc capacitors less often.
Table 2.
Device
Application
NCP1060AP060G
White Goods,
E−Meters
© Semiconductor Components Industries, LLC, 2016
January, 2016 − Rev. 0
Pin LIM/OPP is connected through resistor R6 to
auxiliary winding and sets over−power protection. Resistor
R9 decreases maximal peak current. The frequency
compensation of the feedback loop system is ensured by
external capacitor C8 that is connected to the IC OTA output.
Key Features
Universal AC Input Range (85 – 265 Vac)
Input Filter for Conducted EMI Attenuation
Very Low Standby and No−load Power Consumption
Frequency Fold−back for Improved Efficiency at Light
Load
Inherent Over−current, Over−voltage and
Over−temperature Protections
Frequency Jittering for Better EMI Signature
Adjustable Peak Current to Set the Required Level of
Over−current Protection
Table 1.
Output Voltage
Output Ripple
Max Output Current
Min Output Current
Efficiency
Input Protection
Operating Temperature Range
Cooling Method
No−load Power Consumption
Input Voltage
Output Power
85 to 265 Vac
5 to 7 W
1
www.onsemi.com
EVAL BOARD USER'S MANUAL
Description
Output Specification
< 25 mV @ Full Load
See Efficiency Charts
< 75 mW @ 85 − 265 Vac
Topology
Flyback
Publication Order Number:
12 Vdc
0.6 A
0 A
Fuse
0°C to +50°C
Passive Cooling
I/O Isolation
Yes
EVBUM2345/D

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Summary of Contents for ON Semiconductor NCP1060

  • Page 1: Power Supply

    Universal AC Input Range (85 – 265 Vac) no−load power consumption. The converter is utilizing • Input Filter for Conducted EMI Attenuation monolithic ON Semiconductor switcher NCP1060 with • integrated 34 W MOSFET in a PDIP7 package. The Very Low Standby and No−load Power Consumption evaluation board manual provides complete circuit diagram •...
  • Page 2: Circuit Diagram

    NCP1060FLBKGEVB CIRCUIT DIAGRAM L1: Würth elektronik − part No.: 744025002 L2: Würth elektronik − part No.: 768772102 L4: Würth elektronik − part No.: 744862120 TR1: Würth elektronik − part No.: 750370026 Figure 1. Circuit Diagram EVALUATION BOARD Figure 2. Evaluation Board − Top Side Figure 3.
  • Page 3 NCP1060FLBKGEVB Figure 4. Conducted Emission Quasi−peak dBmV (Domestic) Figure 5. Efficiency vs. Output Load Curves www.onsemi.com...
  • Page 4 NCP1060FLBKGEVB Figure 6. No−load Power Consumption vs. Line Input Curves OUTPUT RIPPLE VOLTAGE Figure 7. Input Voltage 85 Vac and 0.4 A Load Figure 8. Input Voltage 110 Vac and 0.4 A Load www.onsemi.com...
  • Page 5: Transient Response

    NCP1060FLBKGEVB Figure 9. Input Voltage 230 Vac and 0.4 A Load Figure 10. Input Voltage 265 Vac and 0.4 A Load TRANSIENT RESPONSE Figure 11. Test Condition: 30−400 mA, 28 ms Cycle, Figure 12. Test Condition: 30−400 mA, 28 ms Cycle, 110 Vac 230 Vac www.onsemi.com...
  • Page 6: Startup Time

    NCP1060FLBKGEVB STARTUP TIME BULK BULK Figure 13. Input Voltage 85 Vac and 0.4 A Load Figure 14. Input Voltage 110 Vac and 0.4 A Load BULK BULK Figure 15. Input Voltage 230 Vac and 0.4 A Load Figure 16. Input Voltage 265 Vac and 0.4 A Load www.onsemi.com...
  • Page 7: Power Off

    NCP1060FLBKGEVB POWER OFF BULK BULK Figure 17. Input Voltage 85 Vac and 0.4 A Load Figure 18. Input Voltage 110 Vac and 0.4 A Load BULK BULK Figure 19. Input Voltage 230 Vac and 0.4 A Load Figure 20. Input Voltage 265 Vac and 0.4 A Load www.onsemi.com...
  • Page 8 D1, D4, D5, Diode MRA4007 MRA4007T3G Semiconductor Diode MURA160 MURA160T3G Semiconductor Diode MBRS1100 MBRS1100T3G Semiconductor Diode MMSD4148 SOD123 MMSD4148T3G Semiconductor Switcher NCP1060 PDIP−7 NCP1060AP060G Semiconductor Inductor 2.2 mH WE−TPC Würth 744025002 _2828 Elektronik Inductor 1.0 mH RFB0807 Würth 768772102 Elektronik Inductor RFB0807...
  • Page 9 Standoff NOTE All components are lead free. REFERENCES [1] ON Semiconductor datasheet for NCP1060 monolithic switcher [2] ON Semiconductor design notes DN05012, DN05017, DN05018, DN05028, DN05029 [3] Würth Elektronik http://www.we−online.com/ Disclaimer ON Semiconductor is providing this Evaluation Board evaluation of the referenced circuit implementation and the Manual “AS IS”...

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