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    5015 KEYSTONE Search Results

    5015 KEYSTONE Result Highlights (5)

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    66AK2E05XABDA25 Texas Instruments Multicore DSP+ARM KeyStone II System-on-Chip (SoC) 1089-FCBGA -40 to 100 Visit Texas Instruments
    66AK2H14DAAW24 Texas Instruments Multicore DSP+ARM KeyStone II System-on-Chip (SoC) 1517-FCBGA 0 to 85 Visit Texas Instruments
    66AK2H06DAAWA24 Texas Instruments Multicore DSP+ARM KeyStone II System-on-Chip (SoC) 1517-FCBGA -40 to 100 Visit Texas Instruments
    66AK2E05XABD25 Texas Instruments Multicore DSP+ARM KeyStone II System-on-Chip (SoC) 1089-FCBGA 0 to 85 Visit Texas Instruments Buy
    66AK2E05XABD4 Texas Instruments Multicore DSP+ARM KeyStone II System-on-Chip (SoC) 1089-FCBGA 0 to 85 Visit Texas Instruments
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    5015 KEYSTONE Price and Stock

    Keystone Electronics Corp 5015 KEYSTONE

    MALE-MALE, RF STRAIGHT ADAPTER
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    Quest Components 5015 KEYSTONE 41,718
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    5015 KEYSTONE 2,806
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    5015 KEYSTONE 896
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    5015 KEYSTONE 44
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    5015 KEYSTONE Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    KEYSTONE 5015

    Abstract: No abstract text available
    Text: D C B 1 TRACK SYNC EXT C2 C3 150pF 22pF R7 Opt R5 Zero VCC R2 18k 0.1uF, 25V TRK/SS R4 10.0k 47pF C12 MODE TRK/SS PGOOD Rev. 1.0 1 Demonstration Board – EPC9107 Schematic C1 R3 45.0k VOUT Remote Sensing 1k R14 Keystone 5015 1 TP9 VCC 1k R13 Keystone 5015


    Original     		PDF 150pF EPC9107 LTC3833 SDM03U40 LM2766M6 EPC2015 HCF1305-1R0 100uF, KEYSTONE 5015

    keystone 5015

    Abstract: 5016 keystone 5015 keystone EIA-481
    Text: Keystone Electronics Corp. - Surface Mount Test Points, Miniature Search By Part number PRODUCTS CUSTOM CAPABILITIES PART BUILDER Check stock by region GLOBAL DISTRIBUTION ORDER ONLINE Surface Mount Test Points Miniature Cat. No. 5015 Reel Size: 7" [177,8] Dia.


    Original     		PDF ANSI/EIA-481 ANSI/EIA-481 com/products/specs/spec130 asp6/6/2005 keystone 5015 5016 keystone 5015 keystone EIA-481

    Untitled

    Abstract: No abstract text available
    Text: 1 2 3 4 5 6 A A TP40 Keystone 5015 5V U10 NC7SZ08L6X 2 5VHS 33 Ohm C20 100nF, 25V R13 Y DNP J10 U20 LM5113 Lin 4 3 2 1 Hin 5V D10 40V 30mA C14 100pF, 25V C12 100nF, 25V .1" Male Vert. 1 GUL 1 GUH GUL 5 SWNode R40 2 1 Ohm 5VHS 3 4 Vsup J40 GUH SWNode 2 Vsup


    Original     		PDF NC7SZ08L6X 100nF, 100pF, LM5113 70VDC EPC2015 NC7SZ00L6Xn

    Untitled

    Abstract: No abstract text available
    Text: 1 2 4 3 5 6 A A 7 - 12 Vdc J1 1 2 CON2 D3 BAV21 C10 1uF, 25V TP2 Keystone 5015 PWM1 1 2 CON2 J9 2 R1 10k 1 2 3 CON2 A B GND VDD 5 Y 1 C1 1uF, 25V C2 1uF, 25V 5 C11 1uF, 25V C12 0.22uF, 25V U6 U2 6 C6 100p VDD REG C8 0.22uF, 25V VREF 2 150V Max R11 Q1 BAS40LP


    Original     		PDF BAV21 BAS40LP EPC2012 NC7SZ00L6X UCC27611 SS8410BB SDM03U40

    Untitled

    Abstract: No abstract text available
    Text: 1 2 4 3 5 6 7 - 12 Vdc A U3 J1 1 2 CON2 8 C10 7 1uF, 25V 6 OUT NC NC NC NC NC GND VCC 1 C11 2 3 C4 4 1uF, 25V 1uF, 25V 9 5 IN GND A TP2 Keystone 5015 24V Max 5 B 5 GND Y 4 0.1uF, 25V GND J4 CON4 1 2 3 4 Opt. D5 C15 33 Q2 1 Ohm EPC2014 R13 Opt. 4.7uF, 50V Optional


    Original     		PDF EPC2014 SDM03U40 LM5113 NC7SZ08L6X

    SS8410BB

    Abstract: No abstract text available
    Text: 1 2 4 3 5 6 7 - 12 Vdc J1 1 2 A CON2 U3 IN OUT 1 7 NC NC 2 6 NC NC 3 5 NC GND 4 VCC A C11 1uF, 25V C4 1uF, 25V 9 GND C10 1uF, 25V 8 MCP1703 U13 EN C18 OPT IN NC GND D3 BAV21 OUT OPT TP2 Keystone 5015 J5 CON4 PWM1 1 B 2 B 3 GND VCC 6 VDD U2 6 C2 1uF, 25V 5 5


    Original     		PDF MCP1703 BAV21 EPC2010 LM5114MF SS8410BB NC7SZ00L6X NC7SZ08L6X SDM03U40 SS8410BB

    Untitled

    Abstract: No abstract text available
    Text: 1 2 3 4 5 6 A A 7 - 12 Vdc U3 8 1 2 7 CON2 C10 1uF, 25V 6 OUT NC NC NC NC NC GND 1 VCC 2 C11 1uF, 25V 3 C4 4 1uF, 25V 9 5 MCP1703 IN GND J1 PWM1 J2 U1 1 2 A VCC B J5 CON4 1 TP2 Keystone 5015 1 2 3 4 B VDD 70V Max R1 10k B 4 3 2 1 CON2 J9 1 2 GND Y Q1 R11 Zero


    Original     		PDF MCP1703 NC7SZ00L6X EPC2016 LM5113 SDM03U40 NC7SZ08L6X

    Untitled

    Abstract: No abstract text available
    Text: D C B A VOUT 1 C3 C1 220pF C2 MODE TRK/SS VCC R2 15k 22pF 0.1uF, 25V R8 39.2k R7 Zero Opt 6 5 4 3 2 S- RUN C5 S+ EXT 2 MODE 100k R12 R11 560k 11 12 13 14 0.1uF, 25V C7 16 15 R9 2.2 IntVCC PGND BG SW TG Boost VIN U1 LTC3833 R10 10.0k C18 Optional VIN PGOOD


    Original     		PDF 220pF LTC3833 100pF SDM03U40 LM5113TM 270nH EPC9101 EPC2015

    Untitled

    Abstract: No abstract text available
    Text: EPC reserves the right at any time, without notice, to change said circuitry and specifications. Demonstration Board Notification The EPC9101 board is intended for product evaluation purposes only and is not intended for commercial use. As an evaluation tool, it is not


    Original     		PDF EPC9101

    Untitled

    Abstract: No abstract text available
    Text: EPC reserves the right at any time, without notice, to change said circuitry and specifications. Demonstration Board Notification The EPC9107 board is intended for product evaluation purposes only and is not intended for commercial use. As an evaluation tool, it is not


    Original     		PDF EPC9107

    Untitled

    Abstract: No abstract text available
    Text: 1 A 2 4 3 5 6 A 7 - 12 Vdc U3 MCP1703 J1 8 1 2 7 CON2 C4 1uF, 25V 6 OUT NC NC NC NC GND 1 VCC 2 C11 1uF, 25V 3 C4 1uF, 25V 4 9 GND 5 IN NC A 1 2 3 4 VDD D5 D4 D3 D2 4 3 2 1 11 9 B J6 CON4 R11 Zero VDD HB HOH HS HOL 10 C16 4.7uF, 50V D6 Optional LOH 11 EPC2015


    Original     		PDF MCP1703 EPC2015 03U40 LM5113 NC7SZ08L6X NC7SZ00L6X

    Untitled

    Abstract: No abstract text available
    Text: 1 2 4 3 5 6 A A 7 - 12 Vdc 8 U3 IN 7 NC MCP1703 OUT 1 NC 2 6 NC NC 3 GND 4 J1 1 2 CON2 C10 1uF, 25V NC C11 1uF, 25V C4 1uF, 25V 9 GND 5 VCC 1 2 CON2 J9 1 2 CON2 U1 A VCC 1 2 3 4 J2 J5 CON4 1 PWM1 B VDD 70V Max B 4 3 2 1 R1 10k Y R11 0.1uF, 25V U4 A C P2 Optional


    Original     		PDF MCP1703 LM5113 SDM03U40 NC7SZ08L6X EPC2001 NC7SZ00L6X

    Untitled

    Abstract: No abstract text available
    Text: M55 Sect3 p51 Rev 12-08:M55 Sect3 p51 Rev1 4-08 12/19/08 10:20 AM Page 51 SMT SURFACE MOUNT TEST POINTS ON TAPE & REEL MINIATURE COMPACT • Ultra low profile, ideally suited for advanced surface mount printed circuit board applications • Designed for long life and durability


    Original     		PDF

    50HVH56M

    Abstract: LM315x LM3150MH C2012X7R1C474K C2012X7R1C474 CRCW08054K99FKEA lm3150 AN1900 CC0805JRNP09BN151 CRCW08051K91FKEA
    Text: National Semiconductor Application Note 1900 Maurice Eaglin October 14, 2008 Introduction The performance of the synchronous rectifier buck evaluation boards are as follows: The LM3150 evaluation boards are designed to provide the design engineer with a fully functional power converter based


    Original     		PDF LM3150 LM315x LM3150 AN-1900 50HVH56M LM3150MH C2012X7R1C474K C2012X7R1C474 CRCW08054K99FKEA AN1900 CC0805JRNP09BN151 CRCW08051K91FKEA

    Untitled

    Abstract: No abstract text available
    Text: Figure 4: Typical Waveforms for VIN = 48 V to 5 V/7 A 1000kHz Buck converter CH1: VPWM Input voltage – CH2: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage NOTE. The EPC9010 development board does not have any current or thermal protection on board.


    Original     		PDF 1000kHz) EPC9010 EPC2016

    Untitled

    Abstract: No abstract text available
    Text: Figure 3: Proper Measurement of Switch Node – OUT Figure 4: Typical Waveforms for VIN = 48 V to 5 V/7 A 500kHz Buck converter CH1: Switch node voltage (VSW) - CH2: PWM input voltage (VPWM) NOTE. The EPC9002 development board does not have any current or thermal protection on board.


    Original     		PDF 500kHz) EPC9002 EPC2001

    Untitled

    Abstract: No abstract text available
    Text: Figure 4: Typical Waveforms for VIN = 24 V to 1.2 V/15 A 500kHz Buck converter CH1: VPWM Input voltage – CH3: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage NOTE. The EPC9001 development board does not have any current or thermal protection on board.


    Original     		PDF 500kHz) EPC9001 EPC2015

    EPC2001

    Abstract: EPC9002 rmcf0603ft10k0 EPC-200 HMK325B7225K j6 con4 03U40 stackpole potentiometer LM5113
    Text: Figure 4: Typical Waveforms for VIN = 48 V to 5 V/7 A 500kHz Buck converter CH1: VPWM Input voltage – CH3: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage NOTE. The EPC9002 development board does not have any current or thermal protection on board.


    Original     		PDF EPC9002 EPC2001 EPC2001 rmcf0603ft10k0 EPC-200 HMK325B7225K j6 con4 03U40 stackpole potentiometer LM5113

    J5 controller board circuit diagram

    Abstract: No abstract text available
    Text: Figure 4: Typical Waveforms for VIN = 48 V to 5 V/35 A 300 kHz Buck converter CH1: PWM input voltage (VPWM) – CH4: Switch node voltage (VSW) NOTE. The EPC9013 development board does not have any current or thermal protection on board. Figure 3: Proper Measurement of Switch Node – VSW


    Original     		PDF EPC9013 EPC2001 J5 controller board circuit diagram

    Untitled

    Abstract: No abstract text available
    Text: NOTE. The EPC9005 development board does not have any current or thermal protection on board. The EPC9005 development board showcases the EPC2014 eGaN FET. Although the electrical performance surpasses that for traditional silicon devices, their relatively smaller size does magnify the thermal management requirements. The EPC9005 is intended for bench evaluation with low


    Original     		PDF EPC9005 EPC2014 1000kHz)

    Untitled

    Abstract: No abstract text available
    Text: Figure 4: Typical Waveforms for VIN = 24 V to 1.2 V/25 A 1000kHz Buck converter CH2: Switch node voltage (VSW) – CH4: PWM input voltage (VPWM) NOTE. The EPC9016 development board does not have any current or thermal protection on board. Figure 3: Proper Measurement of Switch Node – VSW


    Original     		PDF 1000kHz) EPC9016 EPC2015

    Untitled

    Abstract: No abstract text available
    Text: Figure 4: Waveforms for VIN = 150 V to 5 V/5 A 100kHz Buck converter CH1: VPWM Input voltage – CH2: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage NOTE. The EPC9003 development board does not have any current or thermal protection on board.


    Original     		PDF 100kHz) EPC9003 EPC2010

    Untitled

    Abstract: No abstract text available
    Text: Figure 4: Typical Waveforms for VIN = 28 V to 3.3 V/4 A 5 MHz Buck converter CH2: (VOUT) Switch node voltage –– CH4: VPWM Input voltage NOTE. The EPC9027 development board does not have any current or thermal protection on board. Figure 3: Proper Measurement of Switch Node – OUT


    Original     		PDF EPC9027 EPC8007

    C3225X5R1E226K

    Abstract: MFR resistor c20 std TPS40195RGY 5X20MM FDS6298 TP10 PMP3080 ED1609-ND
    Text: Filename: PMP3080_REVA_bom.xls Date: 12/03/2007 PMP3080_REVA BOM Value Description Size Part Number 1 C12 1uF Capacitor, Ceramic, 0603, 6.3V 0603 Std 2 C14, C18 47 uF Capacitor, Ceramic, 1210, 6.3V, X5R 1 C20 OPEN Capacitor, Ceramic, OPEN, 0603 1 C21 10uF


    Original     		PDF PMP3080 1000pF 330pF 5X20MM ED1609-ND C3225X5R1E226K MFR resistor c20 std TPS40195RGY 5X20MM FDS6298 TP10 ED1609-ND