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LT1949-1EMS8TR Linear Technology IC PWM DC/DC CONV 1A SWTCH 8MSOP visit Linear Technology - Now Part of Analog Devices
LTC1517ES5-3.3#TR Linear Technology LTC1517-3.3 - Micropower, Regulated 3.3V Charge Pump in a 5-Pin SOT-23 Package; Package: SOT; Pins: 5; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
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DC 74HC04

Catalog Datasheet MFG & Type PDF Document Tags

74HC04

Abstract: MAX253CPA primary from a 5V or 3.3V DC power supply. The secondary can be wound to provide any isolated voltage , 8 1N5817 3 SET GND 6 SHDN 4 5 7 3.3k PC410 / 417 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE 4 1 4 A 3 *74HC04 3.3k 390 B 1 RO RE GND 2 *74HC04 OR EQUIVALENT * SEE TABLE 2 4 3 Figure 3 , PC410 / 417 3.3k 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE
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MAX253CPA MAX253CSA MAX253CUA MAX253EPA MAX253ESA MAX253 12v to 220 v transformer turns ratio transistor 5ct 24v transformer DC 74HC04 Optocouplers for rs232 RS-485 RS-485/RS-232 MAX253C/D

HC04G

Abstract: 74HC04 NOT GATE Specifications Brochure, BRD8011/D. *This package is inherently Pb-Free. http://onsemi.com 2 74HC04 DC , 74HC04 Hex Inverter High-Performance Silicon-Gate CMOS The 74HC04 is identical in pinout to the , © Semiconductor Components Industries, LLC, 2007 March, 2007 - Rev. 1 1 Publication Order Number: 74HC04/D 74HC04 ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ ÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎÎ MAXIMUM RATINGS Symbol Parameter Value Unit ­ 0.5 to + 7.0 V DC Input Voltage (Referenced to
ON Semiconductor
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MC14069 HC04G 74HC04 NOT GATE 74HC04D 74HC04DR2G 74HC04 application note 74HC04 equivalent SOIC-14 TSSOP-14 74HC04/D

74HC04

Abstract: ic 74LS04 as solenoids and small DC motors. MAXIMUM RATINGS Rating Power Supply Voltage Recommended Operating , Low Propagation Delay; Figures 1, 2 (5.0 V 74HC04) Low to High Propagation Delay; Figures 1, 2 (5.0 V 74HC04) High to Low Propagation Delay; Figures 1, 3 (3.0 V 74HC04) Low to High Propagation Delay; Figures 1, 3 (3.0 V 74HC04) High to Low Propagation Delay; Figures 1, 4 (5.0 V 74LS04) Low to High Propagation Delay; Figures 1, 4 (5.0 V 74LS04) Transition Times: Fall Time; Figures 1, 2 (5.0 V 74HC04) Rise
ON Semiconductor
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MDC3205 ic 74LS04 74ls04 power dissipation IC - 74LS04 74LS04 circuit diagram with voltage TTL 74LS04 propagation delay 74ls04 propagation delay MDC3205/D

MAX480

Abstract: IC PIN CONFIGURATION OF 74hc04 from a 5V or 3.3V DC power supply. The secondary can be wound to provide any isolated voltage needed at , GND2 7 FS SET 6 GND 4 SHDN 5 PC410 / 417 3.3k 6 *74HC04 390 DI 1 5 3.3k 3 4 PC357T 390 DE 1 4 4 DI 8 VCC A 6 *74HC04 3 3.3k 2 3 PC410 / 417 6 5 1 390 1 DE MAX481 MAX483 MAX485 MAX487 B 7 485 I/O *74HC04 RO RO RE 2 GND 5 *74HC04 OR EQUIVALENT * SEE TABLE , 5 1N5817 1N5817 C5 0.1µF PC410 / 417 *74HC04 390 DI 1 6 5 3.3k 3.3k 3 4
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MAX480 IC PIN CONFIGURATION OF 74hc04 74HC04 oscillator application note MAX485 equivalent et 78L05 Application note MAX483 RS-232 MAX253ESA/V MAX253MJA MAX253EUA

213CT050-3B7

Abstract: 4N25 PHILIPS primary from a 5V or 3.3V DC power supply. The secondary can be wound to provide any isolated voltage , 8 1N5817 3 SET GND 6 SHDN 4 5 7 3.3k PC410 / 417 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE 4 1 4 A 3 *74HC04 3.3k 390 B 1 RO RE GND 2 *74HC04 OR EQUIVALENT * SEE TABLE 2 4 3 Figure 3 , PC410 / 417 3.3k 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE
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213CT050-3B7 4N25 PHILIPS 78l05 sot-23 74hc04 oscillator 74HC04 NOT GATE datasheet max489 regulator MIL-STD-883

PC410 equivalent

Abstract: -232 data interface. The device drives a center-tapped transformer primary from a 5V or 3.3V DC power , 1N5817 3 SET GND 6 SHDN 4 5 7 3.3kâ"¦ PC410 / 417 6 *74HC04 390â"¦ DI 1 5 3.3kâ"¦ 3 8 4 PC357T *74HC04 390â"¦ DE 4 1 4 A 3 *74HC04 3.3kâ"¦ 1 B 1 RO RE 4 7 GND 2 *74HC04 OR EQUIVALENT * SEE TABLE 2 485 I , / 417 3.3kâ"¦ 6 *74HC04 390â"¦ DI 1 5 3.3kâ"¦ 3 8 4 PC357T *74HC04 390â
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PC410 equivalent

cva-60216k

Abstract: canon CIS and DC performance of the part can be evaluated by interfacing external System Configuration-Lab , + C15 L3 74HC04 Preliminary AVDD 74HC04 14 U5D 10 7 74HC04 AGND 14 U5F 13 12 7 74HC04 AGND H:\9827\9827.DSN EXAR Ad Infinitum Title AFE for CCD or CIS , 8 9 1 5 U4 AGND ADCCLK U5A 74HC04 1 11 g Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 , SMB12 Preliminary 74HC04 4 50 R8 2 3 4 5 6 7 8 9 DB7/LD DB6/SDATA DB5/SCLK
Exar
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XRD9827 cva-60216k canon CIS 60216k cva60216k h9827 canon ccd XRD9827EVAL
Abstract: via the external programmer; - Pads; - 8 to 16V AC/DC power supply voltage; Figure 1: AVR-Ready2 , /DC via the CN8 connector. How to use the board? In order to use the AVR-Ready2 additional board, it , the AVRprog programmer Jumpers J1 and J2 must be placed in order to use USB-UART 8-16V AC/DC , Figure 3: AVR-Ready2 with MCU MikroElektronika U3A 74HC04 1 2 VCC R3 1M CN10 U3E 74HC04 U3B 74HC04 3 4 U3C 74HC04 CLK X1 8MHz U3D 74HC04 9 8 C3 U3F 74HC04 13 MikroElektronika
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DIP28 FT232RL 1N4007

max489 regulator

Abstract: MAX490 equivalent primary from a 5V or 3.3V DC power supply. The secondary can be wound to provide any isolated voltage , 8 1N5817 3 SET GND 6 SHDN 4 5 7 3.3k PC410 / 417 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE 4 1 4 A 3 *74HC04 3.3k 390 B 1 RO RE GND 2 *74HC04 OR EQUIVALENT * SEE TABLE 2 4 3 Figure 3 , PC410 / 417 3.3k 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE
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MAX490 equivalent 213CT050 12v center tap transformer MAX252 74HC04 equipment optocoupler 4N25

SM 74hc04

Abstract: 74ls04 connection circuits such as solenoids and small DC motors. MAXIMUM RATINGS Rating S ym bol Recommended Operating , Delay; Figures 1, 2 (5.0 V 74HC04) Low to High Propagation Delay; Figures 1, 2 (5.0 V 74HC04) C , ; Figures 1, 3 (3.0 V 74HC04) Low to High Propagation Delay; Figures 1, 3 (3.0 V 74HC04) *PHL tPLH , (3.0 V 74HC04) Rise Time; Figures 1, 3 (3.0 V 74HC04) tf tr 5.5 5.5 â'" Fall Time , '" â'" ns Transition Times: Fall Time; Figures 1, 2 (5.0 V 74HC04) Rise Time; Figures 1, 2 (5.0 V
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OCR Scan
SM 74hc04 74ls04 connection circuits SM+74hc04 MDC3105LT1

74HC04

Abstract: 74LS04 to 5 Vdc Inductive Loads such as solenoids and small DC motors. MAXIMUM RATINGS Rating Power , Low Propagation Delay; Figures 1, 2 (5.0 V 74HC04) Low to High Propagation Delay; Figures 1, 2 (5.0 V 74HC04) High to Low Propagation Delay; Figures 1 ,3 (3.0 V 74HC04) Low to High Propagation Delay; Figures 1, 3 (3.0 V 74HC04) High to Low Propagation Delay; Figures 1, 4 (5.0 V 74LS04) Low to High Propagation Delay; Figures 1, 4 (5.0 V 74LS04) Transition Times: Fall Time; Figures 1, 2 (5.0 V 74HC04) Rise
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OCR Scan
input resistance 74LS04 dual coil latching relay motorola 74LS04 TTL 74ls04 data TTL 74ls04 74LS04J

74HC04 oscillator

Abstract: 213CT050 from a 5V or 3.3V DC power supply. The secondary can be wound to provide any isolated voltage needed , 8 1N5817 3 SET GND 6 SHDN 4 5 7 3.3k PC410 / 417 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE 4 1 A 3 *74HC04 3.3k 390 B 1 RO RE GND 2 *74HC04 OR EQUIVALENT * SEE TABLE 2 4 3 Figure 3 , PC410 / 417 3.3k 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE
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74hco4 PC357T SHARP IC 7414 datasheet maxim MAX485 Optocoupler 232 filter full duplex max491

MDC3105LT1

Abstract: if 74ls04 specifications small DC motors without the need of a free-wheeling diode. · Provides a Robust Driver Interface between D.C. Relay Coil and Sensitive Logic Circuits · Optimized to Switch Relays from a 3 V to 5 V Rail · , Low Propagation Delay; Figure 1 (5.0 V 74HC04) Low to High Propagation Delay; Figure 1 (5.0 V 74HC04) High to Low Propagation Delay; Figures 1, 13 (3.0 V 74HC04) Low to High Propagation Delay; Figures 1, 13 (3.0 V 74HC04) High to Low Propagation Delay; Figures 1, 14 (5.0 V 74LS04) Low to High Propagation
ON Semiconductor
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if 74ls04 specifications MDC3105 MDC3105/D

213CT050-3B7

Abstract: 4N25 PHILIPS primary from a 5V or 3.3V DC power supply. The secondary can be wound to provide any isolated voltage , SET GND 6 SHDN 4 5 7 3.3k PC410 / 417 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE 4 1 4 A 3 *74HC04 3.3k 1 B 1 RO RE 4 7 GND 2 *74HC04 OR EQUIVALENT * SEE TABLE 2 485 I/O 6 390 6 , 3.3k 6 *74HC04 390 DI 1 5 3.3k 3 8 4 PC357T *74HC04 390 DE 4 1 A
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IL300 24v center tapped transformer Maxim MAX253

74LS04

Abstract: 74LS04 NOT gate can be used to switch other 3 to 5 Vdc Inductive Loads such as solenoids and small DC motors. (3 , ; Figures 1, 2 (5.0 V 74HC04) Low to High Propagation Delay; Figures 1, 2 (5.0 V 74HC04) Characteristic , (3.0 V 74HC04) Low to High Propagation Delay; Figures 1, 3 (3.0 V 74HC04) tPHL tPLH 5.5 5.5 , - - Transition Times: Fall Time; Figures 1, 2 (5.0 V 74HC04) Rise Time; Figures 1, 2 (5.0 V 74HC04) tf tr 5.5 5.5 - - 45 160 - - Fall Time; Figures 1, 3 (3.0 V 74HC04
Motorola
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74LS04 NOT gate pin DIAGRAM OF IC 74ls04 IC TTL 74LS04 of ic 74ls04 74LS04 voltage supply ic 74LS04 ttl

74LS04

Abstract: aromat js1e lamps, and small DC motors without the need of a free-wheeling diode. · Provides a Robust Driver Interface between D.C. Relay Coil and Sensitive Logic Circuits · Optimized to Switch Relays from a 3 V to , - - High to Low Propagation Delay; Figures 1, 13 (3.0 V 74HC04) Low to High Propagation Delay; Figures 1, 13 (3.0 V 74HC04) tPHL tPLH - - 85 315 - - High to Low Propagation Delay , V 74HC04) Rise Time; Figures 1, 13 (3.0 V 74HC04) tf tr - - 70 195 - - Fall
ON Semiconductor
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aromat js1e aromat js1e-5v cd 74ls04 Aromat R relays BJT with V-I characteristics 74ls04 motor driver ic MDC3105LT1/D

function of 74LS04 IC

Abstract: 74LS04 Relay/ MDC3105LT1 Inductive Load Driver · Provides a Robust Driver Interface between D.C. Relay , , solenoids, incandescent lamps, and small DC motors without the need of a free­wheeling diode. MAXIMUM , 55 430 - - High to Low Propagation Delay; Figures 1, 13 (3.0 V 74HC04) Low to High Propagation Delay; Figures 1, 13 (3.0 V 74HC04) tPHL tPLH - - 85 315 - - High to Low , ; Figures 1, 13 (3.0 V 74HC04) Rise Time; Figures 1, 13 (3.0 V 74HC04) tf tr - - 70 195 -
Motorola
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function of 74LS04 IC 74HC04 ap aromat 5v 6 pin relay datasheet ic 74LS04 ttl Relay circuit LAYOUT logic symbol 74LS04 236AB

74HC04 NOT GATE

Abstract: DC 74HC04 Hex inverter 74HC04; 74HCT04 DC CHARACTERISTICS Type 74HC04 At recommended operating , Philips Semiconductors Product specification Hex inverter 74HC04; 74HCT04 FEATURES , total load switching outputs; (CL × VCC2 × fo) = sum of the outputs. 2. For 74HC04: the condition is , level. 2 Philips Semiconductors Product specification Hex inverter 74HC04; 74HCT04 , . Philips Semiconductors Product specification Hex inverter 74HC04; 74HCT04 RECOMMENDED
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HCT04 MNA340 for 74hc04 74HC04N 74HC04PW 74HC04DB 74HC04BQ 74HC/HCT04 EIA/JESD22-A114-A EIA/JESD22-A115-A 050G04 MO-001

M74HC04

Abstract: 0 to 1000 Oto 500 0 to 400 ns M54/74HC04 DC SPECIFICATIONS â'"40to85°C â'"55 t0 l2 5 °C , CONNECTIONS (top view) DESCRIPTION The M54/74HC04 is a high speed CMOS HEX IN­ VERTER fabricated in , n n n n n NC No internal Connection 1/4 75 M54/74HC04 LOGIC DIAGRAM (Per Gate , V| DC Input Voltage â'"0.5 to VcC + 0-5 V Vo DC Output Voltage â'"0.5 to Vcc + 0.5 V DC Input Diode Current ± 20 mA !0K DC Output Diode Current ± 20 mA to
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OCR Scan
M74HC04 54/74LS04 M54HC04 M54/74HC04
Abstract: Programming via the external programmer; - Pads; - 8 to 16V AC/DC power supply voltage; Figure 1 , range between 8 and 16V AC/DC via the CN8 connector. How to use the board? In order to use the , USB-UART 8-16V AC/DC power supply voltage is provided via the CN8 connector Connector CN6 is used , board with MCU MikroElektronika U3A 74HC04 1 2 VCC R3 1M CN10 U3E 74HC04 U3B 74HC04 3 4 U3C 74HC04 OSC X1 8MHz U3D 74HC04 9 8 C3 U3F 74HC04 13 12 R2 1K MikroElektronika
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DIP40 DIP40A
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