J6 CON4 Search Results

Contextual Info: 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

A3955SB

Abstract: 2n2222 a26 RK36 2N2222 86c2 2n2222 a31
Contextual Info: EZ31PINA 8 6 J5 R2 30K C1 2 2 J9 PFD D0 OUTB 15 SENSE 11 PHASE D2 D1 9 SEN1 SEN1 D1A D1A 1 J6 VCC C2 J8 OUTB1 J7 D1 10uf R4 0.5 R5 TBD OUTA1 OUTB1 2 7 10 1 14 OUTA D2 RK36 1 OUTA1 RC D3 RK36 RK36 1 R3 17.8K 3 D4 16 2 2 VBB 1 shunt3 REF RK36 3 RC1 RC1 PFD PFD

TP147

Abstract: TP154 tp142 TP145 PCI9030NM-PQFP176 TP137 TP139 TP144 tp151 tp152
Contextual Info: 5 4 3 2 1 DO NOT INSTALL TRACE J1-2&3 OPTION: #1 CON3 J1 +3.3V J2 1 1 2 3 TP1 1 VCC_EXTER_SUP 1 2 C1 D 5 DI 4 DE 1 2 3 4 NC NC R3 10 9 Z Y RTS1 J6 2 RO CON3 RTS2 3 RE 1 8 120_805 J5 1 2 3 A B R2 12 11 10K_805 GND GND VCC VCC R1 1 2 3 J3 CON3 10K_805 CON2 TXD1

Contextual Info: 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

Contextual Info: 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

Contextual Info: 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

SS8410BB

Contextual Info: 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

netronix

Abstract: MicroDem-001 dla 001 UM-005 micro-dem Q5M-005 uM005 antena 470r nim ttl
Contextual Info: NETRONIX Dokumentacja Techniczna MicroDem-001 MicroDem001-DTRdoc-01.02 PDF created with FinePrint pdfFactory trial version http://www.pdffactory.com NETRONIX MicroDem -001 Wprowadzenie MicroDem-001 jest modułem demonstracyjnym dla czytników serii „micro” posiadających

KBSL-200

Contextual Info: KBSL-200 D-910 Microprocessor Controlled Battery Powered DC/DC Variable Speed Motor Control for 24 Volt Permanent Magnet and Series Wound DC Motors thru 3/4 HP Continuous Duty and 1 HP Peak Duty. Infrared Remote Control Built-In Custom PLC Programs Typical Applications

Contextual Info: CY8CKIT-019 PSoC Shield Adapter Kit Guide Doc. #: 001-90332 Rev. * Cypress Semiconductor 198 Champion Court San Jose, CA 95134-1709 Phone USA : +1.800.858.1810 Phone (Intnl): +1.408.943.2600 http://www.cypress.com Copyrights Copyrights Cypress Semiconductor Corporation, 2013. The information contained herein is subject to change without notice. Cypress

CON40A

Abstract: IOG11 IOG15
Contextual Info: A B C D E 4 4 USB -3 -usb1_vmo usb1_vm - SCSI WIDE SCSI 8bit General ATA-IDE I/O Parallel Port -S0_EN\ S0_SEL S1_EN\ S1_SEL S0_EN\ S0_SEL Og31 Og30 Og7 Og6 DIOR2\ DIOR3\ DIOR0\ DIOR1\ S0_D1\ S0_D3\ S0_D5\ S0_D7\ S0_BSY S0_OE

da-15p pin

Abstract: SP16T j6 con4 DA-15P JXWBKG-T-16-0 J1311
Contextual Info: JXWBKG-T-16-0.4-6 0.4-6GHz SP16T Switch Test report is for reference only. TEST REPORT For JXWBKG-T-16-0.4-6 Page 1 JXWBKG-T-16-0.4-6 0.4-6GHz SP16T Switch Technical Specification 0.4-6 Frequency Range GHz Absorptive Switch Type 5 max Insertion Loss(dB) 2.0 max

EPC9001

Abstract: j6 con4 EPC900 keystone 5015 SIA513 RMCF0603FT00R0 UMK325BJ475M 68602-224HLF resistor 47 ohm GRM188R71H102KA01D
Contextual Info: * Assumes inductive load, maximum current depends on die temperature – actual maximum current with be subject to switching frequency, bus voltage and thermals. # Limited by time needed to ‘refresh’ high side bootstrap supply voltage. VPWM Minimum ‘High’ State Input Pulse Width

EPC Gan transistor

Abstract: capacitor 100uF 63V MMBD914LT1G EPC9001 B45196H3225M109 j6 con4 08055C104KAT2A 08055C102KAT2A EPC1015 1n4148 die
Contextual Info: EPC Products are distributed exclusively through Digi-Key. www.digikey.com *Assumes inductive load, maximum current depends on die temperature – actual maximum current with be subject to switching frequency, bus voltage and thermals. Input ‘High’ 3.5

Contextual Info: 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.

Si8410BB

Contextual Info: Figure 4: Waveforms for VIN = 150 V to 5 V/2 A 100kHz Buck converter CH1: VPWM Input voltage – CH2: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage NOTE. The EPC9004 development board does not have any current or thermal protection on board.

EPC2001

Abstract: EPC9002 rmcf0603ft10k0 EPC-200 HMK325B7225K j6 con4 03U40 stackpole potentiometer LM5113
Contextual Info: 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.

J5 controller board circuit diagram

Contextual Info: 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

Contextual Info: 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

Contextual Info: 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

Contextual Info: 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.

Contextual Info: 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

Contextual Info: NOTE. The EPC9006 development board does not have any current or thermal protection on board. Figure 4: Typical Waveforms for VIN = 48 V to 5 V/5 A 1000kHz Buck converter CH1: VPWM Input voltage – CH2: (IOUT) Switch node current – CH4: (VOUT) Switch node voltage

stackpole potentiometer

Contextual Info: Figure 4: Typical Waveforms for VIN = 48 V to 5 V/14 A 500 kHz Buck converter CH1: Switch node voltage (VSW) - CH2: PWM input voltage (VPWM) NOTE. The EPC9017 development board does not have any current or thermal protection on board. Figure 3: Proper Measurement of Switch Node – VSW