NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| 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 ... | Original |
13 pages, |
MG1020E MG1009E MG1014E MG1000E MG1033E MG1042E Nand gate Crystal Oscillator TTL 7400 propagation delay MG1004E M6207 7400 datasheet 2-input nand gate MG1RT Xtal Oscillators using 7400 datasheet abstract |
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| 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 , 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 ... | Original |
13 pages, |
MG1042E MG1033E MG1020E MG1014E MG1009E MG1004E MG1000E datasheet abstract |
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| 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 , function having a unique metallisation pattern. Cell layout is mainly done using the first metal layer ... | Original |
14 pages, |
MG1042E M6402 MATRA MHS MG1000E MG1004E MG1009E MG1014E MG1020E MG1033E 7400 ecl inverter datasheet abstract |
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| Abstract: . . . . . . . . . . . . . . 56 Typical connection diagram using the ADC . . . . . . . . . . . . . . , is located in System Memory. It is used to reprogram the Flash memory by using the USART. Power , 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 , calibrated using an external 512 Hz output to compensate for any natural quartz deviation. The RTC features ... | Original |
67 pages, |
1.8V SRAM STM32F103C6 STM32F103RB LQFP64 STM32F103Rx LQFP48 stm32f103xx stm32f103xx technical reference manual LQFP100 STM32F103C8 STM32F103Cx STM32F103RBT6 Fine line BGA100 UM0306 datasheet abstract |
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| 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 ... | Original |
64 pages, |
STM32F10xxx UM0306 STM32F101C8T6 STM32F101V8T6 stm32f10x manual LQFP100 LQFP48 LQFP64 LQPF100 JTAG stm32f101 UM0306 STM32F101 application note STM32F101C6T6 STM32F101 datasheet abstract |
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| Abstract: PLL XTAL OSC 8MHz RC OSC 40kHz OSC_IN OSC_OUT SUPPLY SUPERVISOR NRESET POR/PDR PVD IWDG , the Flash memory by using USART2. For further details please refer to AN2606 AN2606. 2.2.9 Power supply , the 1.8 V domain are stopped, the PLL, the HSI RC and the HSE crystal oscillators are disabled. The , powered off. The PLL, the HSI RC and the HSE crystal oscillators are also switched off. After entering , frequency of 40 kHz. The RTC can be calibrated using an external 512 Hz output to compensate for any natural ... | Original |
27 pages, |
ARM stm32 Cortex M4 AN2606 stm32 AN2606 stm32 timer STM32 IWDG STM32 F4 touch frame stm32 encoder STM32TS60 STM32TS60 abstract |
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| Abstract: . . . . . . 59 Typical connection diagram using the ADC . . . . . . . . . . . . . . . . . . . . . . , Flash memory by using USART1. For further details please refer to AN2606 AN2606. Power supply schemes , RC and the HSE crystal oscillators are disabled. The voltage regulator can also be put either in , oscillators are also switched off. After entering Standby mode, SRAM and registers content are lost except , of 40 kHz. The RTC can be calibrated using an external 512 Hz output to compensate for any natural ... | Original |
68 pages, |
STM32F102x6 AN2606 stm32 ARM Cortex Mo LQFP48 LQFP64 AN2606 STM32F102C4 STM32F102Cx STM32 IWDG AN2606 stm32 timer stm32f102 manual stm32f102 datasheet abstract |
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| Abstract: diagram using the ADC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60 Power , SRAM The boot loader is located in System Memory. It is used to reprogram the Flash memory by using , registers. All clocks in the 1.8 V domain are stopped, the PLL, the HSI RC and the HSE crystal oscillators , domain is powered off. The PLL, the HSI RC and the HSE crystal oscillators are also switched off. After , of 40 kHz. The RTC can be calibrated using an external 512 Hz output to compensate for any natural ... | Original |
69 pages, |
AN2606 LQFP48 STM32F102C4 LQFP64 rain alarm CIRCUIT using IC 555 STM32F10xxx jtag STM32F102x6 stm32f102 manual stm32f102 16/32KB 16/32KB abstract |
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| Abstract: . . . . . . . . . . . . . . . . . . . . . . . . . 60 Typical connection diagram using the ADC . . . , SRAM The boot loader is located in System Memory. It is used to reprogram the Flash memory by using , registers. All clocks in the 1.8 V domain are stopped, the PLL, the HSI RC and the HSE crystal oscillators , domain is powered off. The PLL, the HSI RC and the HSE crystal oscillators are also switched off. After , of 40 kHz. The RTC can be calibrated using an external 512 Hz output to compensate for any natural ... | Original |
69 pages, |
STM32F102x8 AN2606 stm32 timer LQFP48 LQFP64 stm32 smartcard stm32 usb smart card AN2606 stm32f102 manual stm32f102 reference manual STM32F102R8 STM32F102RB STM32F102 64/128KB 64/128KB 64/128KB abstract |
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| Abstract: connection diagram using the ADC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60 , 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 40 kHz. The RTC can be calibrated using an external 512 ... | Original |
72 pages, |
c.d.m. technology swd LQFP100 LQFP48 LQFP64 LQPF100 STM32F101 application note STM32F101CBT6 stm32f101xx JTAG stm32f101 STM32F101C6 VFQPFN36 STM32F101 STM32F101 64PIN M STM32F101 user datasheet abstract |
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| ;* 443 ;* Using TIMER 2 to Generate Baud Rates (only for 8051) * 444 ;* Oscillator frequency = 12.000 MHz ; No External UART present 471 ; Using TIMER 2 to Generate Baud Rates 0058 490 ; SIOCLK = 1,843200 MHz (EXTERNAL SIO XTAL FREQUENZY) 491 0082 7400 506 MOV A,#HIGH (BAUDDIV) 0084 F0 507 www.datasheetarchive.com/download/9949416-30193ZC/mon_119.zip (INST_USB.LST) |
ARM | 08/09/1999 | 32.13 Kb | ZIP | mon_119.zip |
| Conflicts Using General Purpose Registers . . . . . . . . . . . 4-11 [1] 4.3.2 Pipeline Conflicts Using .2.1 Oscillators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-26 [1] 6 .2.4 Oscillator Watchdog . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-36 [1] 6 www.datasheetarchive.com/files/infineon/mc_data/dave/products/xc161cj_v26.dip!/xc161cj/documents/xc161_um_sys_v2.1_2003_06.pdf |
Infineon | 25/11/2003 | 8106.77 Kb | DIP | xc161cj_v26.dip |
| Da ta B oo k The Programmable Logic Data Book Click anywhere on this page to continue Success made simple 1996 On behalf of the employees of Xilinx, our sales representatives, our distributors, and our manufacturing partners, welcome to our 1996 Data Book, and thank you for your interest in Xilinx products and services. As the inventor of Field Programmable Gate Array technology and the world's leading supplier of programmable logic, we would like to pledge our continuing comm www.datasheetarchive.com/download/90212243-999460ZC/dbookold.zip (DBOOKOLD.PDF) |
Xilinx | 07/09/1996 | 10340.01 Kb | ZIP | dbookold.zip |
| oscillator DSOURCE Dsource !Generators Signal Digital source ExponentialI ExponentialI !Generators Signal Block Using Laplace TIME_2 TIME_2 Behavioral Function Block Requires UIC in .TRAN ABS ABS Behavioral Semiconductor 15V 50mA Oscillator/Mixer MMBTA42 MMBTA42 MMBTA42 MMBTA42 MMBTA42 MMBTA42 MMBTA42 MMBTA42 BJTs NPN Philips 300V 100mA High Voltage Transistor 2N www.datasheetarchive.com/download/31304461-777572ZC/icap4rxpwrliblist.zip (ICAP4RxPwrlibList.xls) |
Spice Models | 29/07/2012 | 215.73 Kb | ZIP | icap4rxpwrliblist.zip |
| oscillator DSOURCE Dsource !Generators Signal Digital source Exponential Exponential !Generators Signal Block Using Laplace TIME_2 TIME_2 Behavioral Function Block Requires UIC in .TRAN VC02phase VC02phase 21400 BJTs NPN RF Oscillator HP41400 HP41400 HP41400 HP41400 HP41400 HP41400 HP41400 HP41400 BJTs NPN RF Low Noise HP41410 HP41410 HP41410 HP41410 HP41410 HP41410 HP41410 HP41410 BJTs NPN RF Low Noise www.datasheetarchive.com/download/23131848-777573ZC/icap4rxrfliblist.zip (ICAP4RxRFlibList.xls) |
Spice Models | 29/07/2012 | 211.35 Kb | ZIP | icap4rxrfliblist.zip |
| CATV modules 2005-04-21 AN10202 AN10202 AN10202 AN10202 1.pdf: CGO869 CGO869 CGO869 CGO869 Application Note 2003-04-01 AN98060 AN98060 AN98060 AN98060 3.pdf: Using 10 1 0 Sensors Title Date AN98097 AN98097 AN98097 AN98097 1.pdf: Contactless Angle Measurement using KMZ41 KMZ41 KMZ41 KMZ41 and UZZ9000 UZZ9000 UZZ9000 UZZ9000 1998-08-01 UZZ9000 UZZ9000 UZZ9000 UZZ9000 APPN.pdf: Contactless Angle Measurement using KMZ41 KMZ41 KMZ41 KMZ41 and UZZ9000 UZZ9000 UZZ9000 UZZ9000 14 1 0 /catalog/appnotes/16745.html Applicationnotes for Magnetic field sensors Title Date AN00022 AN00022 AN00022 AN00022 COMPASS.pdf: Electronic Compass Design using KMZ51 KMZ51 KMZ51 KMZ51 measurement and signal conditioning Title Date AN98097 AN98097 AN98097 AN98097 1.pdf: Contactless Angle Measurement using KMZ41 KMZ41 KMZ41 KMZ41 and www.datasheetarchive.com/files/philips/search/docindex-v1.txt |
Philips | 16/06/2005 | 2589.32 Kb | TXT | docindex-v1.txt |
| Sheet1 Sheet2 Sheet3 rx_1 Part # Model/Subckt Name Part Type SubType Description IGEN IGEN !Generators !Pulse Symmetric Current VGEN VGEN !Generators !Pulse Symmetric Voltage PSUPPLY PSUPPLY !Generators Power Power Supply PWRSPLY PWRSPLY !Generators Power Current Limited PWRSPLY2 PWRSPLY2 !Generators Power Sigmoid Current Limited AM AM !Generators Signal DCLK DClock !Generators Signal Digital oscillator TIME TIME Behavioral Function Block Using Laplace ABS ABS Behavioral MathAlgebra Abs. Value |Vin www.datasheetarchive.com/download/46754491-777571ZC/icap4rxliblist.zip (ICAP4RxlibList.xls) |
Spice Models | 29/07/2012 | 198.91 Kb | ZIP | icap4rxliblist.zip |
| !Generators Signal Digital oscillator DSOURCE Dsource !Generators Signal Digital source Exponential Function Block Requires UIC in .TRAN TIME TIME Behavioral Function Block Using Laplace UTD UTD Behavioral Semiconductor 15V 50mA Oscillator/Mixer MMBTA42 MMBTA42 MMBTA42 MMBTA42 MMBTA42 MMBTA42 MMBTA42 MMBTA42 BJTs NPN Philips 300V 100mA High Voltage Transistor 2N www.datasheetarchive.com/download/79967802-777574ZC/icap4winliblist.zip (ICAP4WinlibList.xls) |
Spice Models | 29/07/2012 | 388.92 Kb | ZIP | icap4winliblist.zip |
| !Generators Signal Digital oscillator DSOURCE Dsource !Generators Signal Digital source Exponential Block Requires UIC in .TRAN TIME TIME Behavioral Function Block Using Laplace UTD UTD Behavioral mA Bias Resistor nsf2250wt1 nsf2250wt1 BJTs NPN ON Semiconductor 15V 50mA Oscillator/Mixer MMBTA42 MMBTA42 MMBTA42 MMBTA42 Gen. Purp. HP21400 HP21400 HP21400 HP21400 HP21400 HP21400 HP21400 HP21400 BJTs NPN RF Oscillator HP41400 HP41400 HP41400 HP41400 HP41400 HP41400 HP41400 HP41400 BJTs NPN RF Low Noise HP41410 HP41410 HP41410 HP41410 HP www.datasheetarchive.com/download/55755264-777576ZC/profliblist.zip (ProflibList.xls) |
Spice Models | 29/07/2012 | 414.13 Kb | ZIP | profliblist.zip |
| !Generators Signal Digital oscillator DSOURCE Dsource !Generators Signal Digital source Exponential Block Requires UIC in .TRAN TIME TIME Behavioral Function Block Using Laplace UTD UTD Behavioral mA Bias Resistor nsf2250wt1 nsf2250wt1 BJTs NPN ON Semiconductor 15V 50mA Oscillator/Mixer MMBTA42 MMBTA42 MMBTA42 MMBTA42 Gen. Purp. HP21400 HP21400 HP21400 HP21400 HP21400 HP21400 HP21400 HP21400 BJTs NPN RF Oscillator HP41400 HP41400 HP41400 HP41400 HP41400 HP41400 HP41400 HP41400 BJTs NPN RF Low Noise HP41410 HP41410 HP41410 HP41410 HP www.datasheetarchive.com/download/10138655-777581ZC/tdliblist.zip (TDlibList.xls) |
Spice Models | 29/07/2012 | 425.7 Kb | ZIP | tdliblist.zip |