NC7SZ08L6X Search Results

Contextual Info: 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

5555 FAIRCHILD optocoupler

Abstract: MC74HC374N 74hc14n equivalent NC7S125M5 14069 HCF4541BEY APPLICATION HCF4013BE 4026 fairchild datasheet 14543 motorola Motorola DM74LS139N
Contextual Info: R E L I A B L E . L O G I C . I N N O V A T I O N . Logic Cross-Reference Logic Cross-Reference 2003 Texas Instruments Printed in the U.S.A. by Texoma Business Forms, Durant, Oklahoma Printed on recycled paper. SCYB017A NEW First Revision Logic Cross-Reference

7Z08

Abstract: NC7SZ08P5X-NL Programmable Voltage mark mo sc70 JEDEC J-STD-020B NC7SZ08P5X nc7sz08 MA05B NC7SZ08L6X NC7SZ08M5 NC7SZ08M5X
Contextual Info: NC7SZ08 TinyLogic UHS 2-Input AND Gate tm Features General Description • Space saving SOT23 or SC70 5-lead package The NC7SZ08 is a single 2-Input AND Gate from Fairchild’s Ultra High Speed Series of TinyLogic®. The device is fabricated with advanced CMOS technology to

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

7z08

Abstract: NC7SZ08M5X JESD22-A114 MO-178 NC7SZ08 NC7SZ08FHX NC7SZ08L6X NC7SZ08P5X SC70-5
Contextual Info: NC7SZ08 TinyLogic UHS Two-Input AND Gate Features Description ƒ Ultra-High Speed: tPD 2.7ns Typical into 50pF at 5V VCC ƒ ƒ ƒ ƒ ƒ High Output Drive: ±24mA at 3V VCC The NC7SZ08 is a single two-input AND gate from Fairchild’s Ultra-High Speed (UHS) series of

Contextual Info: 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.

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.

7Z08

Abstract: NC7SZ08P5X_NL NC7SZ08M5X SOT23-5 MARK R50 SOT23 JEDEC JA SOT23 R50 SOT23 NC7SZ08 NC7SZ08L6X NC7SZ08M5
Contextual Info: Revised February 2005 NC7SZ08 TinyLogic£ UHS 2-Input AND Gate General Description Features The NC7SZ08 is a single 2-Input AND Gate from Fairchild's Ultra High Speed Series of TinyLogic£. The device is fabricated with advanced CMOS technology to achieve ultra high speed with high output drive while maintaining low static power dissipation over a very broad VCC

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

NC7SZ08P5X

Abstract: MARK Z08 NC7SZ08M5X
Contextual Info: Revised August 2004 NC7SZ08 TinyLogic UHS 2-Input AND Gate General Description Features The NC7SZ08 is a single 2-Input AND Gate from Fairchild’s Ultra High Speed Series of TinyLogic. The device is fabricated with advanced CMOS technology to achieve ultra high speed with high output drive while maintaining low static power dissipation over a very broad VCC

CD4558

Abstract: NC7S125 MC74F138N HCF4541 Motorola MC74HC251N 74ACT161 DHVQFN-20 74V1G08 SOT323/5 HCF4017 SN74ACT14DR
Contextual Info: Logic Cross-Reference Introduction This Logic Cross-Reference for Buyers, Distribution Specialists and others with an interest in Logic will assist in finding a device made by Texas Instruments that is identical or similar to many of our competitors’ Logic products.

Contextual Info: NC7SZ08 TinyLogic UHS Two-Input AND Gate Features Description ̇ Ultra-High Speed: tPD 2.7ns Typical into 50pF at 5V VCC ̇ ̇ ̇ ̇ ̇ High Output Drive: ±24mA at 3V VCC The NC7SZ08 is a single two-input AND gate from Fairchild’s Ultra-High Speed (UHS) series of

Contextual Info: 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.

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

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

MC0628R

Abstract: 40373 74hc14n equivalent 4046 application note philips HCF4060BE HCF4017BE SN74121 application note MC74HC373DW mc0628 HCF4053BE
Contextual Info: R E L I A B L E . L O G I C . I N N O V A T I O N . Logic Cross-Reference Logic Cross-Reference 2003 Texas Instruments Printed in the U.S.A. by Texoma Business Forms, Durant, Oklahoma Printed on recycled paper. SCYB017A NEW First Revision Logic Cross-Reference

Contextual Info: NC7SZ08 TinyLogic UHS 2-Input AND Gate Features General Description • Space saving SOT23 or SC70 5-lead package The NC7SZ08 is a single 2-Input AND Gate from Fairchild’s Ultra High Speed Series of TinyLogic®. The device is fabricated with advanced CMOS technology to

NC7SZ08M5X

Abstract: 7z08 MA05B MO-178 NC7SZ08 NC7SZ08L6X NC7SZ08P5X
Contextual Info: Revised September 2001 NC7SZ08 TinyLogic UHS 2-Input AND Gate General Description Features The NC7SZ08 is a single 2-Input AND Gate from Fairchild’s Ultra High Speed Series of TinyLogic. The device is fabricated with advanced CMOS technology to achieve ultra high speed with high output drive while maintaining low static power dissipation over a very broad VCC