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NCP1606ADR2G ON Semiconductor Avnet - $0.37 $0.37
NCP1606ADR2G ON Semiconductor Chip1Stop 2,500 $0.74 $0.49
NCP1606ADR2G ON Semiconductor Newark element14 1,075 $0.34 $0.34
NCP1606ADR2G ON Semiconductor Future Electronics - $0.48 $0.39
NCP1606ADR2G ON Semiconductor ComS.I.T. 48,125 - -
NCP1606ADR2G ON Semiconductor Rochester Electronics 233,547 $0.60 $0.49
NCP1606ADR2G ON Semiconductor Avnet - $0.99 $0.57
NCP1606APG ON Semiconductor Rochester Electronics 85,058 $0.65 $0.53
NCP1606BDR2G ON Semiconductor Rochester Electronics 84,133 $0.38 $0.31
NCP1606BDR2G ON Semiconductor Future Electronics - $0.41 $0.26
NCP1606BDR2G ON Semiconductor Avnet - $0.23 $0.23
NCP1606BDR2G ON Semiconductor Wuhan P&S 6,950 $0.43 $0.43
NCP1606BOOSTGEVB ON Semiconductor Rochester Electronics 1 - -
NCP1606BPG ON Semiconductor Rochester Electronics 29,148 $0.65 $0.53
NCP1606BPG ON Semiconductor Bristol Electronics 50 - -

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NCP1606 datasheet (6)

Part Manufacturer Description Type PDF
NCP1606 On Semiconductor Cost Effective Power Factor Controller Original PDF
NCP1606ADR2G On Semiconductor Cost Effective Power Factor Controller Original PDF
NCP1606APG On Semiconductor Cost Effective Power Factor Controller Original PDF
NCP1606BDR2G On Semiconductor COST EFFECTIVE POWER FACTOR CONTROLLER; Package: SOIC-8 Narrow Body; No of Pins: 8; Container: Tape and Reel; Qty per Container: 2500 Original PDF
NCP1606BOOSTGEVB ON Semiconductor Evaluation Boards - DC/DC & AC/DC (Off-Line) SMPS, Programmers, Development Systems, EVAL BOARD FOR NCP1606BOOSTG Original PDF
NCP1606BPG On Semiconductor Cost Effective Power Factor Controller Original PDF

NCP1606 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2010 - NCP1606BDR2G

Abstract: NCP1606 NCP1606ADR2G NCP1606APG NCP1606B JESD22 AND8123 A115 A114E JESD78
Text: VCS(limit). This level is 1.7 V (typ) on the NCP1606A and 0.5 V (typ) on the NCP1606B. Therefore, the , 3.0 3.2 3.4 V Overcurrent Protection Threshold: NCP1606A NCP1606B 1.6 0.45 1.7 , PROTECTION IOVP IOVP(HYS) Dynamic overvoltage protection (OVP) triggering current: NCP1606A NCP1606B , latch is released: NCP1606A NCP1606B VOVP Undervoltage protection (UVP) threshold voltage mA , starts the next driver on time. To ensure that a ZCD event has truly occurred, the NCP1606's logic


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PDF NCP1606 NCP1606 NCP1606/D NCP1606BDR2G NCP1606ADR2G NCP1606APG NCP1606B JESD22 AND8123 A115 A114E JESD78
2007 - 8drv7

Abstract: ncp1606
Text: VCS(limit). This level is 1.7 V (typ) on the NCP1606A and 0.5 V (typ) on the NCP1606B. Therefore, the , IOVP is given in the NCP1606 specification table. IOVP is lower for the NCP1606B , then for the NCP1606A , Overcurrent Protection Threshold: NCP1606A NCP1606B Leading Edge Blanking duration Overcurrent protection , comparator Dynamic overvoltage protection (OVP) triggering current: NCP1606A NCP1606B @ TJ = 25°C NCP1606B @ , occurred, the NCP1606's logic (Figure 29) waits for the ZCD pin voltage to rise above VZCDH (2.3 V typical


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PDF NCP1606 NCP1606/D 8drv7
2007 - NCP1606

Abstract: NCP1606B NCP1606BDR2G NCP1606ADR2G NCP1606BPG NCP1606APG NCP1381 NCP1230 JESD78 AND8123
Text: 1.7 V (typ) on the NCP1606A and 0.5 V (typ) on the NCP1606B. Therefore, the maximum peak current can , Control voltages 3.0 3.2 3.4 V Overcurrent Protection Threshold: NCP1606A NCP1606B 1.6 , current: NCP1606A NCP1606B @ TJ = 25°C NCP1606B @ TJ = -25°C to +125°C Hysteresis of the dynamic OVP current before the OVP latch is released: NCP1606A NCP1606B VOVP Undervoltage protection (UVP , starts the next driver on time. To ensure that a ZCD event has truly occurred, the NCP1606's logic


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PDF NCP1606 NCP1606 NCP1606/D NCP1606B NCP1606BDR2G NCP1606ADR2G NCP1606BPG NCP1606APG NCP1381 NCP1230 JESD78 AND8123
2008 - NCP1606

Abstract: NCP1606ADR2G NCP1606B NCP1606BDR2G A115 A114E JESD22 JESD78 POS-200 AND8123
Text: VCS(limit). This level is 1.7 V (typ) on the NCP1606A and 0.5 V (typ) on the NCP1606B. Therefore, the , 3.0 3.2 3.4 V Overcurrent Protection Threshold: NCP1606A NCP1606B 1.6 0.45 1.7 , PROTECTION IOVP IOVP(HYS) Dynamic overvoltage protection (OVP) triggering current: NCP1606A NCP1606B , latch is released: NCP1606A NCP1606B VOVP Undervoltage protection (UVP) threshold voltage mA , starts the next driver on time. To ensure that a ZCD event has truly occurred, the NCP1606's logic


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PDF NCP1606 NCP1606 NCP1606/D NCP1606ADR2G NCP1606B NCP1606BDR2G A115 A114E JESD22 JESD78 POS-200 AND8123
2010 - ncp1606b

Abstract: No abstract text available
Text: level is 1.7 V (typ) on the NCP1606A and 0.5 V (typ) on the NCP1606B. Therefore, the maximum peak , Protection Threshold: NCP1606A NCP1606B 1.6 0.45 1.7 0.5 1.8 0.55 tLEB Leading Edge , current: NCP1606A NCP1606B @ TJ = 25°C NCP1606B @ TJ = −40°C to +125°C Hysteresis of the dynamic OVP current before the OVP latch is released: NCP1606A NCP1606B VOVP Undervoltage protection , ZCD event has truly occurred, the NCP1606†™s logic (Figure 29) waits for the ZCD pin voltage to


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PDF NCP1606 NCP1606 1606x NCP1606/D ncp1606b
2007 - NCP1606BDR2G

Abstract: NCP1606 NCP1606B NCP1606A ELECTRONIC BALLAST 300W circuit diagram NCP1606BPG NCP1606APG AND8123 smps 300W NCP1381
Text: V (typ) on the NCP1606A and 0.5V (typ) on the NCP1606B. Therefore, the maximum peak current can be , : NCP1606A NCP1606B 1.6 0.45 1.7 0.5 1.8 0.55 tLEB Leading Edge Blanking duration 150 , current: NCP1606A NCP1606B @ TJ = 25°C NCP1606B @ TJ = -25°C to +125°C Hysteresis of the dynamic OVP current before the OVP latch is released: NCP1606A NCP1606B VOVP Undervoltage protection (UVP , has truly occurred, the NCP1606's logic (Figure 29) waits for the ZCD pin voltage to rise above


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PDF NCP1606 NCP1606 1606x NCP1606/D NCP1606BDR2G NCP1606B NCP1606A ELECTRONIC BALLAST 300W circuit diagram NCP1606BPG NCP1606APG AND8123 smps 300W NCP1381
2007 - NCP1606BDR2G

Abstract: ELECTRONIC BALLAST 300W circuit diagram AND8123 NCP1606B NCP1606A BALLAST 300W circuit diagram NCP1606APG NCP1606 NCP1606ADR2G NCP1230
Text: V (typ) on the NCP1606A and 0.5V (typ) on the NCP1606B. Therefore, the maximum peak current can be , voltages 3.0 3.2 3.4 V Overcurrent Protection Threshold: NCP1606A NCP1606B 1.6 0.45 , protection (OVP) triggering current: NCP1606A NCP1606B @ TJ = 25°C NCP1606B @ TJ = -40°C to +125°C Hysteresis of the dynamic OVP current before the OVP latch is released: NCP1606A NCP1606B VOVP , has truly occurred, the NCP1606's logic (Figure 29) waits for the ZCD pin voltage to rise above


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PDF NCP1606 NCP1606 1606x NCP1606/D NCP1606BDR2G ELECTRONIC BALLAST 300W circuit diagram AND8123 NCP1606B NCP1606A BALLAST 300W circuit diagram NCP1606APG NCP1606ADR2G NCP1230
2007 - ncp1606b

Abstract: ntc 4.7 NCP1606A NTC 4,7 SMPS INRUSH CURRENT LIMITER 0.47 mF 440V CAPACITOR ESMG NCP1606 HNSS440 440v to 12v smps power supply
Text: value of 4.0 MW for the NCP1606B or 1.0MW for the NCP1606A. ROUT2 is then sized to maintain 2.5 V on , design and implementation of a 400 V, 100 W, CRM Boost PFC pre-converter using the NCP1606. The , converter using the features of the NCP1606. A design aid, which gives these equations and results, is , mA (for NCP1606A ) http://onsemi.com 4 (eq. 9) AND8282/D or IOVP = 10 mA (for NCP1606B , ) for the NCP1606B ; VCS(limit) = 1.7V (typ) for the NCP1606A C1 stores the energy for the charge


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PDF AND8282/D NCP1606 NCP1606 ncp1606b ntc 4.7 NCP1606A NTC 4,7 SMPS INRUSH CURRENT LIMITER 0.47 mF 440V CAPACITOR ESMG HNSS440 440v to 12v smps power supply
2009 - NTC 4,7

Abstract: ntc 4.7 ncp1606b AND8123 NCP1606 SMPS INRUSH CURRENT LIMITER NCP1606A 110-99-308-41-001000 FA2890-AL AND8282
Text: 4.0 MW for the NCP1606B or 1.0 MW for the NCP1606A. ROUT2 is then sized to maintain 2.5 V on the FB , design and implementation of a 400 V, 100 W, CRM Boost PFC pre-converter using the NCP1606. The , internal reference. In the NCP1606A , this reference is 1.7 V (typ). The NCP1606B has a reduced OCP , the NCP1606. A design aid, which gives these equations and results, is available at www.onsemi.com , mA (for NCP1606A ) http://onsemi.com 4 (eq. 9) AND8282/D or IOVP = 10 mA (for NCP1606B


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PDF AND8282/D NCP1606 NCP1606 NTC 4,7 ntc 4.7 ncp1606b AND8123 SMPS INRUSH CURRENT LIMITER NCP1606A 110-99-308-41-001000 FA2890-AL AND8282
2013 - Not Available

Abstract: No abstract text available
Text: Document 607 PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 1000 Vrms winding to winding and winding to core isolation Core materialFerrite Terminations RoHS compliant tin-silver over tin over copper over copper-steel Weight 27.2 g Ambient temperature ­40°C to +85°C with Irms


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PDF NCP1606 AND8282/D. NCP1606.
2009 - NCP1606

Abstract: FA2890-AL SR-332
Text: Document 607 PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 1000 Vrms winding to winding and winding to core isolation Core material Ferrite Terminations RoHS compliant tin-silver over tin over copper over copper-steel Weight 27.2 g Ambient temperature ­40°C to


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PDF NCP1606 AND8282/D. NCP1606. FA2890-AL SR-332
2008 - NCP1606

Abstract: max2850
Text: Document 607 PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 1000 Vrms winding to winding and winding to core isolation Core material Ferrite Terminations RoHS compliant tin-silver over tin over copper over copper-steel Weight 27.2 g Ambient temperature ­40°C to +85°C


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PDF NCP1606 AND8282/D. NCP1606. max2850
2013 - FA2890-AL

Abstract: FA2890
Text: Document 607 PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 1000 Vrms winding to winding and winding to core isolation Core materialFerrite Terminations RoHS compliant tin-silver over tin over copper over copper-steel Weight 27.2 g Ambient temperature ­40°C to +85°C with Irms


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PDF NCP1606 AND8282/D. NCP1606. FA2890-AL FA2890
2009 - Not Available

Abstract: No abstract text available
Text: Document 607 PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller • Designed to operate in 100 Watt applications. • Referenced as LBOOST in application note AND8282/D. • Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. • 1000 Vrms winding to winding and winding to core isolation Core material Ferrite Terminations RoHS compliant tin-silver over tin over copper over copper-steel Weight 27.2 g Ambient


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PDF NCP1606 AND8282/D. NCP1606.
2008 - Not Available

Abstract: No abstract text available
Text: Document 607 PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller • Designed to operate in 100 Watt applications. • Referenced as LBOOST in application note AND8282/D. • Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. • 1000 Vrms winding to winding and winding to core isolation Core material Ferrite Terminations RoHS compliant tin-silver over tin over copper over copper-steel Weight 27.2 g Ambient


Original
PDF NCP1606 AND8282/D. NCP1606.
2011 - Not Available

Abstract: No abstract text available
Text: Document 657 -1 SMT PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 500 Vrms winding to winding and winding to core isolation Core materialFerrite Terminations RoHS compliant tin-silver over tin over nickel over phos bronze. Other terminations available at additional cost


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PDF NCP1606 AND8282/D. NCP1606. refl551max GA2972-AL
2008 - Not Available

Abstract: No abstract text available
Text: Document 657 -1 SMT PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 500 Vrms winding to winding and winding to core isolation Core material Ferrite Terminations RoHS compliant tin-silver over tin over nickel over phos bronze. Other terminations available at additional cost


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PDF NCP1606 AND8282/D. NCP1606. GA2972-AL
2009 - Not Available

Abstract: No abstract text available
Text: Document 657 -1 SMT PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 500 Vrms winding to winding and winding to core isolation Core material Ferrite Terminations RoHS compliant tin-silver over tin over nickel over phos bronze. Other terminations available at additional cost


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PDF NCP1606 AND8282/D. NCP1606. GA2972-AL
2007 - MAX2850

Abstract: No abstract text available
Text: Document 607 PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 1000 Vrms winding to winding and winding to core isolation Core material Ferrite Terminations RoHS compliant tin-silver over tin over copper over copper-steel Weight 27.2 g Ambient temperature ­40°C to +85°C


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PDF NCP1606 AND8282/D. NCP1606. MAX2850
2009 - NCP1606

Abstract: 4263B agilent 4263B SR-332
Text: Document 657 -1 SMT PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 500 Vrms winding to winding and winding to core isolation Core material Ferrite Terminations RoHS compliant tin-silver over tin over nickel over phos bronze. Other terminations available at


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PDF NCP1606 AND8282/D. NCP1606. GA2972-AL 4263B agilent 4263B SR-332
2013 - GA2972-AL

Abstract: GA2972
Text: Document 657 -1 SMT PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 500 Vrms winding to winding and winding to core isolation Core materialFerrite Terminations RoHS compliant tin-silver over tin over nickel over phos bronze. Other terminations available at additional cost


Original
PDF NCP1606 AND8282/D. NCP1606. GA2972-AL GA2972
2008 - GA2972-AL

Abstract: No abstract text available
Text: Document 657 -1 SMT PFC Boost Inductor For ON Semiconductor NCP1606 PFC Controller · Designed to operate in 100 Watt applications. · Referenced as LBOOST in application note AND8282/D. · Auxiliary winding provides zero current detection (ZCD) information and can also supply power to the NCP1606. · 500 Vrms winding to winding and winding to core isolation Core material Ferrite Terminations RoHS compliant tin-silver over tin over nickel over phos bronze. Other terminations available at additional cost


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PDF NCP1606 AND8282/D. NCP1606. GA2972-AL GA2972-AL
2013 - EER35L

Abstract: EER-35L NCP1606
Text: Document 656 Flyback Transformer For ON Semiconductor NCP1606 PFC Controller · Designed for 90 Watt applications · Operates in discontinuous conduction mode with an input of 85 ­ 265 Vac, 1.28 Arms maximum · 3000 Vrms isolation from primary and auxiliary to secondary Core materialFerrite Terminations RoHS compliant tin-silver over tin over copper. Other terminations available at additional cost. Weight 68 g Ambient temperature ­40°C to +125°C Storage temperature Component: ­40°C to +125°C. Tray


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PDF NCP1606 EER35L EER-35L
2009 - Not Available

Abstract: No abstract text available
Text: Document 656 Flyback Transformer For ON Semiconductor NCP1606 PFC Controller · Designed for 90 Watt applications · Operates in discontinuous conduction mode with an input of 85 ­ 265 Vac, 1.28 Arms maximum · 3000 Vrms isolation from primary and auxiliary to secondary Core material Ferrite Terminations RoHS compliant tin-silver over tin over copper. Other terminations available at additional cost. Weight 68 g Ambient temperature ­40°C to +125°C Storage temperature Component: ­40°C to +125°C. Packaging


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PDF NCP1606 177min
2008 - NCP1606

Abstract: pcb layout of water level controller
Text: Document 656 Flyback Transformer For ON Semiconductor NCP1606 PFC Controller · Designed for 90 Watt applications · Operates in discontinuous conduction mode with an input of 85 ­ 265 Vac, 1.28 Arms maximum · 3000 Vrms isolation from primary and auxiliary to secondary Core material Ferrite Terminations RoHS compliant tin-silver over tin over nickel over phos bronze. Other terminations available at additional cost. Weight 68 g Ambient temperature ­40°C to +125°C Storage temperature Component: ­40°C to


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PDF NCP1606 177min pcb layout of water level controller
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