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    NICHICON ORIGINAL Search Results

    NICHICON ORIGINAL Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    R9A07G054L27GBG#AC0 Renesas Electronics Corporation General-Purpose Microprocessor Equipped With Renesas' Original AI-Dedicated Accelerator DRP-AI, 1.2GHz Dual-Core Arm® Cortex®-A55 CPU, 3D Graphics, and Video Codec Engine Visit Renesas Electronics Corporation
    R9A07G054L13GBG#BC0 Renesas Electronics Corporation General-Purpose Microprocessor Equipped With Renesas' Original AI-Dedicated Accelerator DRP-AI, 1.2GHz Dual-Core Arm® Cortex®-A55 CPU, 3D Graphics, and Video Codec Engine Visit Renesas Electronics Corporation
    R9A07G054L18GBG#AC0 Renesas Electronics Corporation General-Purpose Microprocessor Equipped With Renesas' Original AI-Dedicated Accelerator DRP-AI, 1.2GHz Dual-Core Arm® Cortex®-A55 CPU, 3D Graphics, and Video Codec Engine Visit Renesas Electronics Corporation
    R9A07G054L27GBG#BC0 Renesas Electronics Corporation General-Purpose Microprocessor Equipped With Renesas' Original AI-Dedicated Accelerator DRP-AI, 1.2GHz Dual-Core Arm® Cortex®-A55 CPU, 3D Graphics, and Video Codec Engine Visit Renesas Electronics Corporation
    R9A07G054L23GBG#AC0 Renesas Electronics Corporation General-Purpose Microprocessor Equipped With Renesas' Original AI-Dedicated Accelerator DRP-AI, 1.2GHz Dual-Core Arm® Cortex®-A55 CPU, 3D Graphics, and Video Codec Engine Visit Renesas Electronics Corporation

    NICHICON ORIGINAL Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    RCR2350

    Abstract: RCR2350B XK 220 mpp film capacitor
    Text: PLASTIC FILM CAPACITORS APPLICATION GUIDELINES FOR PLASTIC FILM CAPACITORS 1.Circuit Design 1 Please make sure the environmental and mounting conditions to which capacitor will be exposed are within the conditions specified in Nichicon's catalog (or alternate Nichicon specifications, such as series drawing).


    Original     		PDF 8100Z RCR2350 RCR2350B XK 220 mpp film capacitor

    2.XK

    Abstract: No abstract text available
    Text: PLASTIC FILM CAPACITORS APPLICATION GUIDELINES FOR PLASTIC FILM CAPACITORS 1.Circuit Design 1 Please make sure the environmental and mounting conditions to which capacitor will be exposed are within the conditions specified in Nichicon's catalog (or alternate Nichicon specifications, such as series drawing).


    Original     		PDF 8100D 2.XK

    Polypropylene CAPACITOR 0.68uf

    Abstract: mpp film capacitor nichicon catalog
    Text: PLASTIC FILM CAPACITORS APPLICATION GUIDELINES FOR PLASTIC FILM CAPACITORS 1.Circuit Design 1 Please make sure the environmental and mounting conditions to which capacitor will be exposed are within the conditions specified in Nichicon's catalog (or alternate Nichicon specifications, such as series drawing).


    Original     		PDF 8100Y Polypropylene CAPACITOR 0.68uf mpp film capacitor nichicon catalog

    Untitled

    Abstract: No abstract text available
    Text: PLASTIC FILM CAPACITORS APPLICATION GUIDELINES FOR PLASTIC FILM CAPACITORS 1.Circuit Design 1 Please make sure the environmental and mounting conditions to which capacitor will be exposed are within the conditions specified in Nichicon's catalog (or alternate Nichicon specifications, such as series drawing).


    Original     		PDF 8100X

    lm358 li ion charger circuit

    Abstract: RMS TO DC converter using LM358 lm358 sum Lithium Ion Cells 12V DC DC 3A charger 1N5819 MIC4574 MIC4575 MIC4576 UPL1V470MEH ME 9435 motorola
    Text: Application Note 15 Micrel Application Note 15 Practical Switching Regulator Circuits by Brian Huffman Overview A golden power supply that will satisfy every design requirement does not exist. Size, cost, and efficiency are the driving factors for selecting a design, causing each design to be


    Original     		PDF

    ME 9435

    Abstract: PL52C-33-1000 apple schematic lm358 sum LM358 definition 1N5819 MBR160 MIC4574 330uf nichicon capacitor MIC4575
    Text: Application Note 15 Micrel Application Note 15 Practical Switching Regulator Circuits by Brian Huffman Overview A golden power supply that will satisfy every design requirement does not exist. Size, cost, and efficiency are the driving factors for selecting a design, causing each design to be


    Original     		PDF li20879 ME 9435 PL52C-33-1000 apple schematic lm358 sum LM358 definition 1N5819 MBR160 MIC4574 330uf nichicon capacitor MIC4575

    24v 12v 20A regulator

    Abstract: 24v 12v 10A regulator ME 9435 24v to 5V 3A converter 1N5822 SS34 lm358 sum MIC4574-5.0BWM ME 9435 motorola 24v to 12V 3A converter UPL1V471MPH
    Text: Application Note 15 Micrel Application Note 15 Practical Switching Regulator Circuits by Brian Huffman Overview A golden power supply that will satisfy every design requirement does not exist. Size, cost, and efficiency are the driving factors for selecting a design, causing each design to be


    Original     		PDF

    ME 9435

    Abstract: 24v 12v 10A regulator ME 9435 motorola 24v 12v 20A regulator lm358 sum 1N5822 ss34 charge battery lm339 24v to 5V 3A converter charger on LM358 50V 20A buck converter
    Text: Application Note 15 Micrel Application Note 15 Practical Switching Regulator Circuits by Brian Huffman Overview A golden power supply that will satisfy every design requirement does not exist. Size, cost, and efficiency are the driving factors for selecting a design, causing each design to be


    Original     		PDF li20879 ME 9435 24v 12v 10A regulator ME 9435 motorola 24v 12v 20A regulator lm358 sum 1N5822 ss34 charge battery lm339 24v to 5V 3A converter charger on LM358 50V 20A buck converter

    pol15020

    Abstract: TOP226Y top2xx PMCU-0330 POL-15020 capacitor 0.1uf 400v NICHICON TOP226Y equivalent nec2501-h HIGH FREQUENCY Transformer ee 19 transformer 400V
    Text: O TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 C FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS TOP226Y. REFER TO APPLICATION CIRCUITS OF FIGURE 3A or 3B. Equivalent to T1204 on PWR-ST204A Demo Board PARAMETER MIN.


    Original     		PDF OP226Y. T1204 PWR-ST204A 250Vrms 300MBRD360 MUR160 320mA 120Hz LGK2G101MHSZ, pol15020 TOP226Y top2xx PMCU-0330 POL-15020 capacitor 0.1uf 400v NICHICON TOP226Y equivalent nec2501-h HIGH FREQUENCY Transformer ee 19 transformer 400V

    XF-000064-00

    Abstract: OC 1305 PWR-TOP209 flyback transformer pin configuration XF-64A1 PM130-R1 PM130-H1A Nichicon Capacitor 25v 500 watt power circuit diagram flyback EI22 TRANSFORMER
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP209PFI REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 1-2 FREQ. = 100 KHZ @ 0.250Vrms


    Original     		PDF PWR-TOP209PFI 250Vrms TSD-1305 MBR160 120mA MUR160 1N5239B 250Vac XF-000064-00 OC 1305 PWR-TOP209 flyback transformer pin configuration XF-64A1 PM130-R1 PM130-H1A Nichicon Capacitor 25v 500 watt power circuit diagram flyback EI22 TRANSFORMER

    PWR-TOP209PFI

    Abstract: 1017 TRANSFORMER TSD-1017 63-C3 PWR-TOP209
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP209PFI REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 2-1 FREQ. = 10 KHZ @ 0.250Vrms


    Original     		PDF PWR-TOP209PFI 250Vrms PWR-TOP209PFI MBR160 1N5239B 1N5819 250Vac TSD-1017 1017 TRANSFORMER TSD-1017 63-C3 PWR-TOP209

    XF-000064-00

    Abstract: TSD-1135 TSD-1017 XF-64A1 Nichicon MARKING flyback transformer pin configuration 500 watt power circuit diagram flyback PWR-TOP209PFI PMCU DF06
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP209PFI REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 1-2 FREQ. = 100 KHZ @ 0.250Vrms


    Original     		PDF PWR-TOP209PFI 250Vrms TSD-1135 MBR160 120mA MUR160 1N5239B 250Vac XF-000064-00 TSD-1135 TSD-1017 XF-64A1 Nichicon MARKING flyback transformer pin configuration 500 watt power circuit diagram flyback PMCU DF06

    Transformer ei33

    Abstract: 470 uf 400V ei-33 flyback transformer pin configuration TOP227Y flyback transformer 24V source switching POL-24219 24v 20A regulator circuit diagram 470uf, 400v electrolytic capacitor EI33
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP227Y. REFER TO APPLICATION CIRCUITS OF FIGURE 3 & 4. PARAMETER PRIMARY INDUCTANCE 3-1 VOLTAGE = 0.250Vrms FREQUENCY = 100 KHZ


    Original     		PDF PWR-TOP227Y. 250Vrms LEAKA35V OP227Y BZY97C200 VTP-01005 MUR420 85-265Vac 50/60Hz 250Vac Transformer ei33 470 uf 400V ei-33 flyback transformer pin configuration TOP227Y flyback transformer 24V source switching POL-24219 24v 20A regulator circuit diagram 470uf, 400v electrolytic capacitor EI33

    ee25 transformer

    Abstract: schematic diagram of PM130-H1A TOP224 POL-24208 EE2425 PWR-TOP224P top224p Premier Magnetics TOP224 data capacitor 0.1uf 400v NICHICON
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS TOP224P. REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 2-1 VOLTAGE = 0.250Vrms FREQUENCY = 100 KHZ


    Original     		PDF OP224P. 250Vrms PWR-TOP224P 220uF 1N4148 24Vdc VTP-01001 MUR160 ee25 transformer schematic diagram of PM130-H1A TOP224 POL-24208 EE2425 PWR-TOP224P top224p Premier Magnetics TOP224 data capacitor 0.1uf 400v NICHICON

    TOP223 TRANSFORMER DESIGN DATA

    Abstract: TOP223Y EFD30 inductor TOP223 TOP222Y efd30 transformer TOP223 Reference Design Board TOP222Y schematic PMCU-0330 TL431 R
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS TOP222Y. REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 2-1 VOLTAGE = 0.250Vrms FREQUENCY = 100 KHZ


    Original     		PDF OP222Y. 250Vrms PWR-TOP223Y 220uF 1N4148 2200uF MUR160 BYV26C) PS2501-1 TOP223 TRANSFORMER DESIGN DATA TOP223Y EFD30 inductor TOP223 TOP222Y efd30 transformer TOP223 Reference Design Board TOP222Y schematic PMCU-0330 TL431 R

    TRANSFORMER 220 to 9V

    Abstract: flyback transformer pin configuration PWR-TOP221Y ECA-1EFG flyback transformer data pin diagram Transformer 9v 1A flyback transformer diagram EE16 VERTICAL 10 PIN ee16 5 2 pin Nichicon 330uf 25v
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS TOP-221Y REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER PRIMARY INDUCTANCE 2-1 FREQ. = 100 KHZ @ 0.250Vrms TURN RATIO'S:


    Original     		PDF OP-221Y 250Vrms PWR-TOP221Y 400mA 330uF 1N4148 PS2501-1 VTP-01001 MR851 TRANSFORMER 220 to 9V flyback transformer pin configuration PWR-TOP221Y ECA-1EFG flyback transformer data pin diagram Transformer 9v 1A flyback transformer diagram EE16 VERTICAL 10 PIN ee16 5 2 pin Nichicon 330uf 25v

    tny 177

    Abstract: EE16 transformer tny255 PNY-05015 TNY transformer data of tny 265 n EE16 10 pin bobbin transformers TNY255 EE16 10 pin bobbin datasheet EE16 10 pin vertical bobbin pm130 h1a
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS TNY-255 REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 4-1 FREQ. = 100 KHZ @ 0.250Vrms 3600


    Original     		PDF TNY-255 250Vrms 265Vac) LTV817 220uF TNY-255 P6KE200A MUR160 BYV26C) VTP-01001 tny 177 EE16 transformer tny255 PNY-05015 TNY transformer data of tny 265 n EE16 10 pin bobbin transformers TNY255 EE16 10 pin bobbin datasheet EE16 10 pin vertical bobbin pm130 h1a

    TOP224P

    Abstract: TOP224 ECA1VFG471 pol-12216 400V to 12V DC Regulator flyback transformer pin configuration TOP224 data 500 watt power circuit diagram flyback PM130-H1A PWR-TOP224P
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS TOP224P. REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 2-1 VOLTAGE = 0.250Vrms FREQUENCY = 100 KHZ


    Original     		PDF OP224P. 250Vrms PWR-TOP224P 470uF 1N4148 12Vdc VTP-01001 MUR160 TOP224P TOP224 ECA1VFG471 pol-12216 400V to 12V DC Regulator flyback transformer pin configuration TOP224 data 500 watt power circuit diagram flyback PM130-H1A PWR-TOP224P

    TOP223

    Abstract: flyback transformer pin configuration Flyback transformer 9 pin Nichicon Capacitor UV Flyback transformer 8 pin transformer 400V 500 watt power circuit diagram flyback TOP221 flyback transformer diagram TSD-1439
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS TOP-221Y REFER TO APPLICATION CIRCUIT OF FIGURE 3. SPEC LIMITS TYP. MAX. PARAMETER MIN. PRIMARY INDUCTANCE 2-1 FREQ. = 100 KHZ @ 0.250Vrms


    Original     		PDF OP-221Y 250Vrms 100uF PWR-TOP221Y VTP-01001 MR851 250Vac TL431 TSD-1439 TOP223 flyback transformer pin configuration Flyback transformer 9 pin Nichicon Capacitor UV Flyback transformer 8 pin transformer 400V 500 watt power circuit diagram flyback TOP221 flyback transformer diagram TSD-1439

    PM130-H1A

    Abstract: 470 uf 450V PWR-TOP200 PWR-TOP200YAI UPR2W220MHH PMCU-0220 PM130-H1 P6KE200 450V 47UF PM130-R1
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP200YAI. REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 2-1 VOLTAGE = 0.250Vrms FREQUENCY = 100 KHZ


    Original     		PDF PWR-TOP200YAI. 250Vrms VTP-01001 MUR160 100uF 250Vac TL431 TSD-790 PM130-H1A 470 uf 450V PWR-TOP200 PWR-TOP200YAI UPR2W220MHH PMCU-0220 PM130-H1 P6KE200 450V 47UF PM130-R1

    TOP209P

    Abstract: PWR-TOP209P HIGH FREQUENCY Transformer ee16 PM130-H1A TSD-1084 TSD-1093 10-PIN MC33363A flyback transformer pin configuration 500 watt power circuit diagram flyback
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS TOP209P OR MOTOROLAS MC33363A SWITCH MODE CONTROLLERS. PARAMETER MIN. PRIMARY INDUCTANCE 2-1 FREQ. = 100 KHZ @ 0.250Vrms


    Original     		PDF OP209P MC33363A 250Vrms P6KE130A MUR160 270uF 1N4148 PWR-TOP209PFI 100nF TOP209P PWR-TOP209P HIGH FREQUENCY Transformer ee16 PM130-H1A TSD-1084 TSD-1093 10-PIN flyback transformer pin configuration 500 watt power circuit diagram flyback

    PM130-R1

    Abstract: PWR-TOP210 PM130-H1A PMCU-0330 EFD20 flyback transformer pin configuration 500 watt power circuit diagram flyback nec2501-h 385VDC transformer 14v op
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP210PFI REFER TO APPLICATION CIRCUIT OF FIGURE 3 PARAMETER MIN. PRIMARY INDUCTANCE 2-1 VOLTAGE = 0.250Vrms FREQUENCY = 10 KHZ


    Original     		PDF PWR-TOP210PFI 250Vrms 265Vac) PWR-TOP210PFI NEC2501-H 330uF 1N4148 VTP-01001 MBR160 PM130-R1 PWR-TOP210 PM130-H1A PMCU-0330 EFD20 flyback transformer pin configuration 500 watt power circuit diagram flyback nec2501-h 385VDC transformer 14v op

    nichicon catalog

    Abstract: No abstract text available
    Text: PLASTIC FILM CAPACITORS APPLICATION GUIDELINES FOR PLASTIC FILM CAPACITORS D Please make sure the e n viro n m e n ta l and m ounting conditions to which capacitor will be exposed are within the conditions specified in Nichicon's catalog (or alternate Nichicon specifications, such as series drawing .


    OCR Scan     		PDF

    motorola 1N4148

    Abstract: JF SS34 schematic apple 4 battery sb360 equivalent 1n414b diode uses 16MV220GX RMS TO DC converter using LM358 lm358 sum low esr panasonic fj 35CV150GX
    Text: Application Note 15 Practical Switching Regulator Circuits by Brian Huffman Overview A golden power supply that will satisfy every design require­ ment does not exist. Size, cost, and efficiency are the driving factors for selecting a design, causing each design to be


    OCR Scan     		PDF