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SN7400D Texas Instruments Quad 2-input Positive-NAND Gates 14-SOIC 0 to 70
SN7400NSR Texas Instruments TTL/H/L SERIES, QUAD 2-INPUT NAND GATE, PDSO14, GREEN, PLASTIC, SOP-14
SN7400DRE4 Texas Instruments TTL/H/L SERIES, QUAD 2-INPUT NAND GATE, PDSO14, GREEN, PLASTIC, MS-012AB, SOIC-14
SN7400DRG4 Texas Instruments TTL/H/L SERIES, QUAD 2-INPUT NAND GATE, PDSO14, GREEN, PLASTIC, MS-012AB, SOIC-14
SN7400NSRE4 Texas Instruments TTL/H/L SERIES, QUAD 2-INPUT NAND GATE, PDSO14, GREEN, PLASTIC, SOP-14
SN7400N3 Texas Instruments Quad 2-input Positive-NAND Gates 14-PDIP 0 to 70

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Xtal Oscillators using 7400

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: ±5.0% tolerance. Reference Crystal Input (XTAL). When using the on-chip crystal oscillator as the frequency , clock is applied to REFC, leave XTAL2 unconnected. Reference Crystal Input (XTAL). When using the , AT&T T7035 Clock Recovery Circuit operates over a 51.5 MHz to 235 MHz frequency range. Using a single , and outputs are 100K ECL compatible. The T7035 Clock Recovery Circuit is manufactured using 0.9 /¿m , of the input data) to compensate and stabilize all on-chip oscillators and delay chains against -
OCR Scan
7035-MC T7035-ML D-8043 DS91-167SMOS DS9G-101SMOS
Abstract: . Several arrays up to 500k cells cover all system integration needs. The MG1RT is manufactured using , supply is implemented via a fixed vertical grid using the second metal layer and a layout dependent horizontal grid using the first and third metal layers. The active core is surrounded by three busses : one , using the second metal layer and a VSSA ring using the third metal layer. Integrated decoupling , metallisation pattern. Cell layout is mainly done using the first metal layer, thus freeing the second and Temic Semiconductors
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7400 ecl inverter MG1033E MG1020E MG1014E MG1009E MG1004E
Abstract: manufactured using SCMOS 2/2 RT, a 0.6 micron drawn, radiation tolerant, 3 metal layers CMOS process. The , using the second metal layer and a layout dependent horizontal grid using the first and third metal , on different sides of the array can use different supply voltages. using the second metal layer and a VSSA ring using the third metal layer. Integrated decoupling capacitors are located below these , using the first metal layer, thus freeing the second and third layers for supply and circuit -
OCR Scan
84 LCC g1140 IC TTL 7400 input leakage current
Abstract: . Several arrays up to 500k cells cover all system integration needs. The MG1RT is manufactured using , core supply is implemented via a fixed vertical grid using the second metal layer and a layout dependent horizontal grid using the first and third metal layers. 2 The active core is surrounded by , interconnection bus close to the periphery. The power bus consists of a VDDA ring using the second metal layer and a VSSA ring using the third metal layer. Integrated decoupling capacitors are located below Atmel
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MG1RT 7400 datasheet 2-input nand gate M6207 atmel 846 M8254 equivalent TTL 7400 propagation delay
Abstract: . Several arrays up to 500k cells cover all system integration needs. The MG1RT is manufactured using , vertical grid using the second metal layer and a layout dependent horizontal grid using the first and , bus consists of a VDDA ring using the second metal layer and a VSSA ring using the third metal layer , layout is mainly done using the first metal layer, thus freeing the second and third layers for supply , simpler macros. A large selection of generic or 7400 functions is available : counters, decoders, adders Temic Semiconductors
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M1553 MG1000E MG1042E
Abstract: . MORE ABOUT USING THE "ON-CHIP" OSCILLATORS In this section we will describe the on-chip inverters on , ta C lara, CA 95051 © IN TEL C OR POR A TION . 1983 Oscillators for Microcontrollers , . Loop Gain . How Feedback Oscillators Work . The , S ID E R A T IO N S . On-Chip Oscillators . crystal , placement of components . clocking other chips . External Oscillators -
OCR Scan
crystal oscillator 1 MHz 4 pins ntk CT 1975 - sam CT 1975 sam crystal ntk 8 mhz crystal oscillator 40 MHz 4 pins ntk AP-155
Abstract: the circuits except the peripheral circuits running on OSC0. 1) OSC1 and RC oscillators automatically , -1919.9 -1919.9 -1919.9 Y m 60.0 -20.0 -100.0 -180.0 -260.0 -340.0 -420.0 -500.0 -580.0 -660.0 -740.0 , RC X'tal RC Base timer Low speed RC Watchdog timer FLASH ROM Timer 0 RAM Timer 1 Clock , Programmable Programmable Table of User Options Option Name X'tal OSC (*1) Normal Low Power Interrupt , RTST CF1 XT1 On-chip debugger TST CF CDC CCR1 RCR1 CGC *3 X'tal CDX *1: Crystal ON Semiconductor
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ENA1954A LC88F85D0A 42512HKIM 20120328-S00010 A1954-1/31 A1954-31/31
Abstract: the circuits except the peripheral circuits running on OSC0. 1) OSC1 and RC oscillators automatically , -1919.9 -1919.9 -1919.9 Y m 60.0 -20.0 -100.0 -180.0 -260.0 -340.0 -420.0 -500.0 -580.0 -660.0 -740.0 , CF RC RC X'tal RC Base timer Low speed RC Watchdog timer FLASH ROM Timer 0 RAM Timer 1 Clock , Programmable Programmable Table of User Options Option Name X'tal OSC (*1) Normal Low Power Interrupt , RTST CF1 XT1 On-chip debugger TST CF CDC CCR1 RCR1 CGC *3 X'tal CDX *1: Crystal Seiko Instruments
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TQFP120 LC88F XSTORMY16
Abstract: the circuits except the peripheral circuits running on OSC0. 1) OSC1 and RC oscillators automatically , -1919.9 -1919.9 -1919.9 Y m 60.0 -20.0 -100.0 -180.0 -260.0 -340.0 -420.0 -500.0 -580.0 -660.0 -740.0 , CF RC RC X'tal RC Base timer Low speed RC Watchdog timer FLASH ROM Timer 0 RAM Timer 1 Clock , Programmable Programmable Table of User Options Option Name X'tal OSC (*1) Normal Low Power Interrupt , RTST CF1 XT1 On-chip debugger TST CF CDC CCR1 RCR1 CGC *3 X'tal CDX *1: Crystal SANYO Electric
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ENA1954
Abstract: Active Components Oscillators www.AtlanTecRF.com Connectors, Cable and Cable Assemblies , Section 3 Custom Equipment 10 Section 4 Oscillators Synthesised Local Oscillator PC Programmable Sources â'" ANS2 Series PC Programmable Sources â'" ANS3 Series Voltage Controlled Oscillators (V.C.O.) Stabilised Oscillators - CRO & DRO PLO â'" Internal Reference APL-02 Series PLO â'" External , . Incorporating fundamental frequency phase locked oscillators and double balanced mixers, the translators block AtlanTecRF
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ALT-4975-C
Abstract: except the peripheral circuits running on OSC0. 1) OSC1 and RC oscillators automatically stop operation , - - - 127 COM6 -1919.9 -740.0 107 COM21/SEG5 -1919.9 860.0 128 , ) Table of User Options Option Name X'tal OSC (*1) Option Description Normal XT mode Low Power , oscillation *3: Ceramic oscillation CGX *1 X'tal CF CGC *3 CDC CCR1 RCR1 XT1 Pulse output CDEN *5 CDX *4 CCR0 RCR0 X'tal Crystal resonator CGX Trimmer capacitor Seiko Instruments
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Abstract: -Dec-88) File AN96103_1: X-tal oscillators on 8-bit microcontrollers (date 20-Sep-96) Download PDF File AN97090 , fed by a clock derived from the oscillator. Using these two signals, the DAC produces an approximate , A#6 B6 C7 C#7 D7 D#7 622.3 659.3 698.5 740.0 784.0 830.6 880.0 932.3 987.8 1046.5 1108.7 1174.7 , 300 °C. When using a dedicated tool, all other leads can be soldered in one operation within 2 to 5 , reasonably be expected to result in personal injury. Philips customers using or selling these products for Philips Semiconductors
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PCD3311CTD PCD3312CPN PCD3311CPN PCD3311CTD-T PCD3312CP PCD3312CTD PCD3311C PCD3312C PCD3311CP PCD3311CT
Abstract: .63 Using Comparator as an Operation Amplifier .63 , updates, using development and programming tools. User can avail of the ELAN Writer to easily program his , without further notice) XTAL Description Bidirectional I/O pin with programmable pull-down , AN â' ADC Input 5 OSCI XTAL â' Clock input of crystal/ resonator oscillator , : analog pin XTAL: oscillation pin for crystal/resonator 4â'¢ CMOS: CMOS output Product ELAN Microelectronics
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em78p372 EM78P372NSO14J EM78P372N A/40V
Abstract: . . . . . . . . . . . . . . 55 Typical connection diagram using the ADC . . . . . . . . . . . . . . , The boot loader is located in SystemMemory. It is used to reprogram the Flash memory by using the , , the PLL, the HSI and the HSE RC oscillators are disabled. The voltage regulator can also be put , HSI and the HSE RC oscillators are also switched off. After entering STANDBY mode, SRAM and registers , internal low power RC has a typical frequency of 32 kHz. The RTC can be calibrated using an external 512Hz STMicroelectronics
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stm32f101 STM32F101
Abstract: . . . . . . . . . . . . . . . . . . . . 56 Typical connection diagram using the ADC . . . . . . . . , the Flash memory by using the USART. Power Supply Schemes ● VDD = 2.0 to 3.6 V: External , oscillators are disabled. The voltage regulator can also be put either in normal or in low power mode. The , the entire 1.8 V domain is powered off. The PLL, the HSI and the HSE RC oscillators are also switched , frequency of 32 kHz. The RTC can be calibrated using an external 512Hz output to compensate for any natural STMicroelectronics
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STM32F103 STM32F103Cx STM32F103Rx
Abstract: . . . . . . . . . . . . . . 55 Typical connection diagram using the ADC . . . . . . . . . . . . . . , boot loader is located in System Memory. It is used to reprogram the Flash memory by using the USART , oscillators are disabled. The voltage regulator can also be put either in normal or in low power mode. The , domain is powered off. The PLL, the HSI and the HSE RC oscillators are also switched off. After entering , internal low power RC has a typical frequency of 32 kHz. The RTC can be calibrated using an external 512Hz STMicroelectronics
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LQFP48 STM32F101 user STM32F10xxx UM0306 stm32F101RBT6 STM32F101C6T6 STM32F101C6 JTAG stm32f101
Abstract: oscillators â'¢ 48 MHz Internal Reference Clock (IRC48M) Operating Characteristics â'¢ Voltage range: 1.71 , ://www.freescale.com and perform a search using this term. 2 Freescale Semiconductor, Inc. Kinetis K63F , frequency oscillators Low-leakage wakeup Internal reference clocks Security Analog Timers , Digital input voltage (except RESET, EXTAL, and XTAL) â'"0.3 5.5 V VAIO Analog1, â'"0.3 VDD + 0.3 V ID VDDA RESET, EXTAL, and XTAL input voltage Maximum current single pin limit Freescale Semiconductor
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K63P144M120SF5 MK63FN1M0VLQ12 MK63FN1M0VMD12
Abstract: .60 Using Comparator as an Operation Amplifier , updates, using development and programming tools. User can avail of the ELAN Writer to easily program his , (This specification is subject to change without further notice) XTAL Description Bidirectional I , Function CO Name AN â' ADC Input 5 OSCI XTAL â' Clock input of crystal , input XTAL: oscillation pin for crystal/resonator 4â'¢ AN: analog pin CMOS: CMOS output ELAN Microelectronics
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Abstract: PLL XTAL OSC 8MHz RC OSC 40kHz OSC_IN OSC_OUT SUPPLY SUPERVISOR NRESET POR/PDR PVD IWDG , reprogram the Flash memory by using USART2. For further details please refer to AN2606. 2.2.9 Power , clocks in the 1.8 V domain are stopped, the PLL, the HSI RC and the HSE crystal oscillators are disabled , domain is powered off. The PLL, the HSI RC and the HSE crystal oscillators are also switched off. After , frequency of 40 kHz. The RTC can be calibrated using an external 512 Hz output to compensate for any natural STMicroelectronics
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STM32TS60 STM32 IWDG stm32 encoder AN2606 stm32 timer quadrature encoder stm32 STM32 F4 touch frame ARM stm32 Cortex M4 UFBGA144
Abstract: . . . . . . . . . . . . . . . . . . . 103 Typical connection diagram using the ADC . . . . . . . . . , PVD @VDDA @VDDA @VDDIO XTAL OSC 4 -32 MHz Ind. WDG32K Standby interface @VSW XTAL 32kHz Backup RTC Reg , Reset Int. Supply Supervision POR /PDR PVD @VDDA @VDDA @VDDIO XTAL OSC 4 -32 MHz Ind. WDG32K Standby interface @VSW XTAL 32kHz Backup RTC Reg AWU (64Byte) Backup interface TIMER2 (32-bit/PWM) TIMER 3 OSC32_IN , software development by using metalanguage development tools, while avoiding saturation. With its embedded STMicroelectronics
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STM32F303 stm32 value line stm32f swdio STM32F30 STM32F302RB STM32F302 256KB
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