NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Part | Manufacturer | Description | Type | Ordering |
| 50PF120 | International Rectifier | 1200V 50A Std. Recovery Diode in a DO-5 package |
7 pages, |
Original |  |
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| 50PF-120 | Transys Electronics | STANDARD RECOVERY DIODE |
1 pages, |
Original | |
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| 50PF120PBF | International Rectifier | DIODE STANDARD RECOVERY RECTIFIER 1200V 50A 2 pin DO-203AB |
7 pages, |
Original | |
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| 50PF120W | International Rectifier |
7 pages, |
Original | |
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| 50PF120W | International Rectifier | Standard Recovery Diode |
7 pages, |
Original | |
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| 50PF120WPBF | International Rectifier | DIODE STANDARD RECOVERY RECTIFIER 1200V 50A 2 pin DO-203AB |
7 pages, |
Original | |
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| 50PF140 | International Rectifier | DIODE STANDARD RECOVERY RECTIFIER 1400V 50A 2 pin DO-5 |
7 pages, |
Original | |
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| 50PF160PBF | International Rectifier | DIODE STANDARD RECOVERY RECTIFIER 1600V 50@TC=128CA 2 pin DO-5 |
7 pages, |
Original | |
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| 50PF40 | International Rectifier | 400V 50A Std. Recovery Diode in a DO-5 package |
7 pages, |
Original | |
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| 50PF-40 | Transys Electronics | STANDARD RECOVERY DIODE |
1 pages, |
Original | |
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| Catalog Datasheet Results | Type | Document Tags |
| Abstract: NAND C-MOS 50pF (5V ) NJU6360XC-D NJU6360XC-D 2.75.5V 50MHz Thin-Chip , ns 4) CONT =VSS 2003/01/29 ( 3 / 5 ) NJU6360 NJU6360 A ,fosc=16MHz,CL=50pF B ,fosc=16MHz,CL=50pF C ,fosc=16MHz,CL=50pF D ,fosc=16MHz,CL=50pF E ,fosc=16MHz,CL=50pF F ,fosc=16MHz,CL=50pF IDD ISTB CONT =VSS, No load Ist CONT =XT=VSS, No load , =VSS, FOUT= VDD or VSS 255 15/15 fosc=16MHz,A/B/C/D/E/F/ CL=15pF, @VDD/2 CL=50pF, @VDD/2 ... | Original |
5 pages, |
NJU6360XC-D NJU6360 NJU6360 abstract |
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| Abstract: (25 DEGREE C) OHM MAX TURNS RATIO T1-2% PRI:SEC PRI SEC PIT-1501 PIT-1501 20 mH MIN 15uH MAX 50PF MAX 2.2 4.8 1CT:2CT PIT - 1502 22uH MAX 50PF MAX 2.2 1.5 1CT:1CT PIT - 1503 15uH MAX 50PF MAX 2.2 8.2 1CT:2.5CT PIT - 1504 15uH MAX 50PF MAX 2.2 4.2 1CT:1.8CT PHYSICAL DIMENSIONS: (UNIT:mm) LI VJE ... | OCR Scan |
1 pages, |
PIT-1501 datasheet abstract |
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| Abstract: Bulletin I20105 I20105 rev. B 06/02 50PF(R).(W) SERIES Stud Version STANDARD RECOVERY DIODES GEN , resistance UL approval pending Typical Applications 50PF(R). Battery charges Converters Power supplies Machine tool controls Welding Major Ratings and Characteristics 50PF (R).(W) Parameters , ) 50PF(R).W A2s VRRM range 400 to 1200 V TJ range - 55 to 180 °C www.irf.com case style DO-203AB DO-203AB (DO-5) 1 50PF (R).(W) Series Bulletin I20105 I20105 rev. B 06/02 ... | Original |
7 pages, |
v 20 k 180 DO-203AB DO-203AB Package I20105 I20105 abstract |
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| Abstract: Bulletin I20105 I20105 rev. D 01/05 50PF(R).(W) SERIES Stud Version STANDARD RECOVERY DIODES GEN , resistance UL approval pending Typical Applications 50PF(R). Battery charges Converters Power supplies Machine tool controls Welding Major Ratings and Characteristics 50PF (R).(W) Parameters , ) 50PF(R).W A2s VRRM range 400 to 1200 V TJ range - 55 to 180 °C www.irf.com case style DO-203AB DO-203AB (DO-5) 1 50PF (R).(W) Series Bulletin I20105 I20105 rev. D 01/05 ... | Original |
7 pages, |
DO-203AB I20105 I20105 abstract |
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| Abstract: Bulletin I20105 I20105 rev. C 03/04 50PF(R).(W) SERIES Stud Version STANDARD RECOVERY DIODES GEN , resistance UL approval pending Typical Applications 50PF(R). Battery charges Converters Power supplies Machine tool controls Welding Major Ratings and Characteristics 50PF (R).(W) Parameters , ) 50PF(R).W A2s VRRM range 400 to 1200 V TJ range - 55 to 180 °C www.irf.com case style DO-203AB DO-203AB (DO-5) 1 50PF (R).(W) Series Bulletin I20105 I20105 rev. B 03/04 ... | Original |
7 pages, |
DO-203AB Package DO-203AB I20105 I20105 abstract |
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| Abstract: Outline Dimensions Vishay Semiconductors DO-203AB DO-203AB (DO-5) for 50PF(R).(W), 80PF(R).(W) and 95PF(R).(W) Series DIMENSIONS FOR 80PF(R), 50PF(R) AND 95PF(R) SERIES in millimeters 6.45 MIN. Ø3 , DO-203AB DO-203AB (DO-5) for 50PF(R).(W), 80PF(R).(W) and 95PF(R).(W) Series DIMENSIONS FOR 80PF(R).(W), 50PF(R).(W) AND 95PF(R).(W) SERIES in millimeters 2.05 MAX. Plastic cap. 25.4 MAX. 11.45 , Outline Dimensions DO-203AB DO-203AB (DO-5) for 50PF(R).(W), Vishay Semiconductors 80PF(R).(W) and 95PF(R). ... | Original |
3 pages, |
DO-203AB DO-203AB abstract |
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| Abstract: 50pF (5V ) MTP-6 NJU6368XC-C NJU6368XC-C FOUT NJU6368 NJU6368 XT VDD VSS , Cg/Cd A ,fosc=16MHz,CL=50pF B ,fosc=16MHz,CL=50pF C ,fosc=16MHz,CL=50pF D ,fosc=16MHz,CL=50pF P ,fosc=16MHz,CL=50pF 5) CONT=VSS, No load CONT=XT=VSS, No load VOH=4.5V VOL=0.5V , /2 CL=50pF, @VDD/2 CL=15pF,10%90% CL=50pF,10%90% CL=15pF,90%10% CL=50pF,10%90% CL=15pF,RUP=10k , 2002/12/18 ( 4 / 5 ) NJU6368 NJU6368 (1)(CL=15pF/30pF/50pF) VDD 1000pF Pulse Generator 1 ... | Original |
5 pages, |
NJU6368 NJU6368XC-C NJU6368 abstract |
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| Abstract: QW-R502-359 QW-R502-359.A U74CBT3257 U74CBT3257 Advance CMOS IC SWITCHING CHARACTERISTICS CL=50PF (see TEST CIRCUIT AND , MAX UNIT VCC=4V, CL=50pF, RL=500 0.24 ns tpd VCC= 5V±0.5V, CL=50pF, RL=500 0.15 ns VCC=4V, CL=50pF, RL=500 6.0 ns From input S to output A tpd(s) VCC= 5V±0.5V, CL=50pF, RL=500 1.5 5.6 ns VCC=4V, CL=50pF, RL=500 6.3 ns From input S to output B VCC= 5V±0.5V, CL=50pF, RL=500 1.5 5.8 ns ten VCC=4V, CL=50pF, RL=500 6.3 ns From input OE to output VCC= 5V±0.5V, CL=50pF, RL=500 1.5 5.8 ... | Original |
6 pages, |
U74CBT3257G-R16-R U74CBT3257 SSOP-16 U74CBT3257 abstract |
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| Abstract: 6075MHz NAND C-MOS 50pF (5V ) MTP-6 NJU6378XC-C NJU6378XC-C 2.75.5V , IOH IOL A ,fosc=40MHz,CL=50pF B ,fosc=50MHz,CL=50pF C ,fosc=60MHz,CL=50pF D ,fosc=75MHz,CL=50pF CONT=VSS, No load CONT=XT=VSS, No load VOH=4.5V VOL=0.5V CONT=0.8VDD IIN , Cg/Cd C ,fosc=60MHz D ,fosc=75MHz A B FMAX C D CL=15pF, @VDD/2 SYM CL=50pF, @VDD/2 CL=15pF,10%90% tr CL=50pF,10%90% CL=15pF,90%10% tf CL=50pF,90%10% TPLZ CL=15pF ... | Original |
5 pages, |
NJU6378 NJU6370 ic 9010 NJU6378XC-C NJU6378 abstract |
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| Abstract: 40MHz4050MHz5060MHz 6075MHz NAND C-MOS 50pF (5V ) NJU6370XC-D NJU6370XC-D 2.75.5V , VIL IOH IOL A ,fosc=40MHz,CL=50pF B ,fosc=50MHz,CL=50pF C ,fosc=60MHz,CL=50pF D ,fosc=75MHz,CL=50pF CONT=VSS, No load CONT=XT=VSS, No load VOH=4.5V VOL=0.5V CONT=0.8VDD IIN , Cg/Cd C ,fosc=60MHz D ,fosc=75MHz A B FMAX C D CL=15pF, @VDD/2 SYM CL=50pF, @VDD/2 CL=15pF,10%90% tr CL=50pF,10%90% CL=15pF,90%10% tf CL=50pF,90%10% TPLZ CL=15pF ... | Original |
5 pages, |
NJU6370 NJU6370XC-D NJU6370 abstract |
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| Abstract: XTL Series Products SMD Capability 5.0x3.2 (mm) 4.0x2.5 (mm) 3.2x2.5 (mm) 2.5x2.0 (mm) Fundamental Frequency Range (3rd) 8 MHz~54 MHz 75 MHz~106.65 MHz 11 MHz~50 MHz 12 MHz~54 MHz 16 MHz~54 MHz Shunt Capacitance 5.0 pF Max 5.0 pF Max 5.0 pF Max 3.0 pF Max Load Capacitance 5~37 pF 7~30 pF 6~30 pF 8~20 pF Contact RFM for Custom Device / Specifications Packages and Dimensions ... | Original |
1 pages, |
XTL SERIES datasheet abstract |
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| Abstract: Timing Differences of 10-pF Versus 50-pF Loading SCEA004 SCEA004 November 1996 IMPORTANT NOTICE , under a 50-pF load and a temperature range of Â40°C to 85°C, designers may find the difference in , time for VCC = 2.7 V and temperature values of 0°C and 70°C. The impact of a 10-pF versus a 50-pF , 50 pF 10 pF tpd ten 50 pF 10 pF tdis Figure 1. 'ALVCH16244 ALVCH16244 10-pF Versus 50-pF , 50-pF loading results in decreases of approximately 25% in propagation delay time and enable time, and ... | Original |
5 pages, |
ALVCH16835 ALVCH16244 SCEA004 SCEA004 abstract |
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| Abstract: :SEC PRI SEC PIT-1301 PIT-1301 20 mH MIN 13uH MAX 50P F MAX 1.1 2.6 1CT:2CT PIT-1302 PIT-1302 15uH MAX 50PF MAX 1.1 1.3 1CT.1CT PIT-1303 PIT-1303 13uH MAX 50PF MAX 1.1 4.2 1CT:2.5CT PIT-1304 PIT-1304 13uH MAX 50PF MAX 1.1 2.6 ... | OCR Scan |
1 pages, |
PIT-1304 PIT-1303 PIT-1302 PIT-1301 datasheet abstract |
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| Abstract: SMD310 2010 4 1 NEC http://www.renesas.com 2010 4 1 http://www.renesas.com http://japan.renesas.com/inquiry 1. 2. 3. 4. 5. 6. 7. OA AV 8. 9. 10. RoHS 11. 12. 1. 2. 1 MOS MOS Integrated Circuit u PD98501 PD98501 ADSLIPATM u PD98501 PD98501 CPUMIPSTM64 CPUMIPSTM64 ... | Original |
46 pages, |
smd H04 L02 SMD motorola ac08 smd H02 smd k02 smd k24 smd W04 72 SMD0-SMD31 A09 smd ac09 n03 AF02 AC03 nec SMD W03 smd w04 datasheet abstract |
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| Abstract: MOS MOS Integrated Circuit u PD98501 PD98501 ADSLIPATM u PD98501 PD98501 CPUMIPSTM64RISCVR4120ATMATM CPUMIPSTM64RISCVR4120ATMATM TMUSBUTOPIA2SDRAM u PD98501 PD98501 S14767E S14767E MIPS64RISCVR4120A MIPS64RISCVR4120A RTOSM/W PROMROM ATM32RISC ATM32RISC RISCSAR CBR/VBR/UBR IEEE802 IEEE802.3, IEEE802 IEEE802.3uIEEE802.3x10/100 Mbps2 3.3 V MIIPHY USB1.1USB USB Communication Device Class Specification 64M128MSDRAM 64M128MSDRAM ATM Forum af-phy-0039833 MHz UTOPIA2 IEEE1149 IEEE1149.1JTAG Micro WireTM 2 CMOS 3.3 VI/O2.5 V 352T-BGA 352T-BGA u PD98501N7-F6 PD98501N7-F6 352BGAH/Sp35Ã-35 ... | Original |
44 pages, |
A09 N03 AC03 nec AF02 L02 SMD smd H02 SMD H03 SMD T26 A07 smd W25 smd SMD Y23 smd W04 72 ae12 A08 smd smd k02 G26 SMD PD98501 PD98501 PD98501 abstract |
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| Abstract: Pulse Width tW Setup Time tSU Hold Time th TEST CONDITIONS VCC=2.0V, CL=50pF VCC=4.5V, CL=50pF VCC=6.0V, CL=50pF VCC=2.0V, CL=150pF VCC=4.5V, CL=150pF VCC=6.0V, CL=150pF VCC=2.0V, CL=50pF VCC=4.5V, CL=50pF VCC=6.0V, CL=50pF VCC=2.0V, CL=150pF VCC=4.5V, CL=150pF VCC=6.0V, CL=150pF VCC=2.0V, CL=50pF VCC=4.5V, CL=50pF VCC=6.0V, CL=50pF VCC=2.0V, CL=150pF VCC=4.5V, CL=150pF VCC=6.0V, CL=150pF VCC=2.0V, CL=50pF VCC=4.5V, CL=50pF VCC=6.0V, CL=50pF VCC=2.0V, CL=50pF VCC=4.5V, CL=50pF ... | Original |
6 pages, |
TSSOP-20 U74HC373 U74HC373 abstract |
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| Abstract: 74HC4040 74HC4040; 74HCT4040 74HCT4040 12-stage binary ripple counter Product data sheet 1. General description The 74HC4040 74HC4040; 74HCT4040 74HCT4040 are high-speed Si-gate CMOS devices and are pin compatible with the HEF4040B HEF4040B series. They are specified in compliance with JEDEC standard no. 7A. The 74HC4040 74HC4040; 74HCT4040 74HCT4040 are 12-stage binary ripple counters with a clock input (CP), an overriding asynchronous master reset input (MR) and twelve parallel outputs (Q0 to Q11). The counter advances on the HIGH-to-LOW transitio ... | Original |
11 pages, |
JESD22-A114-C HEF4040B 74HCT4040 74HC4040PW 74HC4040N 74HC4040DB 74HC4040D 74HC4040BQ 74HC4040 74HC4040 abstract |
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| Abstract: 93 tpHt' tpLH Cpc to Qa CL= 15pF CL = 50pF 19 21 ns tpHL> tpLH CP1 to Q, CL = 15pF CL = 50pF 21 23 ns 'PHL. WH CTO to Q3 CL = 15pF CL = 50pF 37 40 ns 'PHL Mr to Qq CL = 15pF CL = 50pF 25 27 ns *PHL Mr to Q, CL = 15pF CL = 50pF 24 26 ns tpHL MR1 to Q2 CL = 15pF CL = 50pF 24 26 ns tpHL Mr to Q3 CL = 15pF CL = 50pF 24 26 ns CpQ to CP1 30 MHz Minimum Clock Pulse Width 10 ns Minimum Reset Low Pulse Width 9 ns 161 tpHL> 'PLH Clock to Qa CL = 15pF CL = 50pF 17 20 ... | OCR Scan |
4 pages, |
spxxhc177 74LS PHU-4 SPXXHC93 SPXXHC161 SPXXHC163 SPXXHC177 SPXXHC193 SPXXHC93 abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
| Over 1.1 million files (1986-2013): html articles, reference designs, gerber files, chemical content, spice models, programs, code, pricing, images, circuits, parametric data, RoHS data, cross references, pcns, military data, and more. Please note that due to their age, these files do not always format correctly in modern browsers. Disclaimer. |
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| App Note Abstract: TIMING DIFFERENCES OF 10-PF 10-PF 10-PF 10-PF VERSUS 50-PF LOADING TIMING DIFFERENCES OF 10-PF 10-PF 10-PF 10-PF VERSUS 50-PF LOADING The ¢ALVCH16244 ALVCH16244 ALVCH16244 ALVCH16244 is a 16-bit advanced low voltage CMOS (ALVC) unidirectional driver. Typically, data sheet values for tpd, ten, and tdis are characterized under a 50-pF capacitive load with a temperature range of -40°C to 85°C. At times these drivers are used in memory addressing for dual in-line memory modules (DIMM) with a 10-pF load and and temperature www.datasheetarchive.com/files/texas-instruments/sc/psheets/abstract/apps/scea004.htm |
Texas Instruments | 01/07/1998 | 4.29 Kb | HTM | scea004.htm |
| * MAX477 MAX477 MAX477 MAX477 LARGE-SIGNAL RESPONSE AVCL=+1 * 477LTRAN 477LTRAN 477LTRAN 477LTRAN.CIR XAR1 3 2 7 4 6 MAX477 MAX477 MAX477 MAX477 * +IN -IN VCC VEE OUT VP 7 0 5V VN 4 0 -5V VIN 3 0 PULSE(-2V 2V 30ns 1N 1N 40NS 80Ns) *VIN 3 0 PULSE(-10MV -10MV -10MV -10MV 10MV .02us 2N 2N .12us) RF 6 2 500 RL 6 0 100 *CL 6 0 50PF .OPTIONS RELTOL=.01 .TRAN 2nS 100NS 100NS 100NS 100NS .PROBE .LIB MAX477 MAX477 MAX477 MAX477.FAM .END # ; www.datasheetarchive.com/files/maxim/0005/477ltran.cir |
Maxim | 21/03/2001 | 0.5 Kb | CIR | 477ltran.cir |
| * MAX477 MAX477 MAX477 MAX477 LARGE-SIGNAL RESPONSE AVCL=+1 * 477LTRAN 477LTRAN 477LTRAN 477LTRAN.CIR XAR1 3 2 7 4 6 MAX477 MAX477 MAX477 MAX477 * +IN -IN VCC VEE OUT VP 7 0 5V VN 4 0 -5V VIN 3 0 PULSE(-2V 2V 30ns 1N 1N 40NS 80Ns) *VIN 3 0 PULSE(-10MV -10MV -10MV -10MV 10MV .02us 2N 2N .12us) RF 6 2 500 RL 6 0 100 *CL 6 0 50PF .OPTIONS RELTOL=.01 .TRAN 2nS 100NS 100NS 100NS 100NS .PROBE .LIB MAX477 MAX477 MAX477 MAX477.FAM .END # ; www.datasheetarchive.com/files/design-elektronik/spice/testcir/477ltran.cir |
Design Elektronik | 25/11/1997 | 0.5 Kb | CIR | 477ltran.cir |
| * MAX477 MAX477 MAX477 MAX477 LARGE-SIGNAL RESPONSE AVCL=+1 * 477LTRAN 477LTRAN 477LTRAN 477LTRAN.CIR XAR1 3 2 7 4 6 MAX477 MAX477 MAX477 MAX477 * +IN -IN VCC VEE OUT VP 7 0 5V VN 4 0 -5V VIN 3 0 PULSE(-2V 2V 30ns 1N 1N 40NS 80Ns) *VIN 3 0 PULSE(-10MV -10MV -10MV -10MV 10MV .02us 2N 2N .12us) RF 6 2 500 RL 6 0 100 *CL 6 0 50PF .OPTIONS RELTOL=.01 .TRAN 2nS 100NS 100NS 100NS 100NS .PROBE .LIB MAX477 MAX477 MAX477 MAX477.FAM .END # ; www.datasheetarchive.com/files/maxim/spice/testcir/477ltran.cir |
Maxim | 29/01/1999 | 0.5 Kb | CIR | 477ltran.cir |
| * MAX477 MAX477 MAX477 MAX477 LARGE-SIGNAL RESPONSE AVCL=+1 * 477LTRAN 477LTRAN 477LTRAN 477LTRAN.CIR XAR1 3 2 7 4 6 MAX477 MAX477 MAX477 MAX477 * +IN -IN VCC VEE OUT VP 7 0 5V VN 4 0 -5V VIN 3 0 PULSE(-2V 2V 30ns 1N 1N 40NS 80Ns) *VIN 3 0 PULSE(-10MV -10MV -10MV -10MV 10MV .02us 2N 2N .12us) RF 6 2 500 RL 6 0 100 *CL 6 0 50PF .OPTIONS RELTOL=.01 .TRAN 2nS 100NS 100NS 100NS 100NS .PROBE .LIB MAX477 MAX477 MAX477 MAX477.FAM .END # ; www.datasheetarchive.com/files/maxim/products/spice/testcir/477ltran.cir |
Maxim | 29/01/1999 | 0.5 Kb | CIR | 477ltran.cir |
| F:\SPICE\CIRCUITS\TLINE\IBIS\ibis *SPICE_NET *ALIAS V(100)=VINPUT *ALIAS V(500)=ENABLE *ALIAS V(7)=VOUT .PRINT TRAN V(100) V(500) V(7) V2 500 0 5 V3 300 0 5 V4 400 0 0 X6 100 7 300 400 500 PCIOW C1 7 0 50PF V1 100 0 PULSE 0 5 0 2.5N 2.5N 27.44N 59.88N www.datasheetarchive.com/files/spicemodels/misc/spice_model_cd/mixed part list/ibis%20interface%20models/circuits/ibist1.c1 |
Spice Models | 29/07/2012 | 0.26 Kb | C1 | ibist1.c1 |
| IBIS *SPICE_NET .TRAN .1N 120N *INCLUDE IBIS1.LIB .OPTION ACCT VSCALE=5 *INCLUDE FRAME.LIB *ALIAS V(100)=VINPUT *ALIAS V(500)=ENABLE *ALIAS V(7)=VOUT .PRINT TRAN V(100) V(500) V(7) V2 500 0 5 V3 300 0 5 V4 400 0 0 X6 100 7 300 400 500 PCIOW C1 7 0 50PF V1 100 0 PULSE 0 5 0 2.5N 2.5N 27.44N 59.88N .END www.datasheetarchive.com/files/spicemodels/misc/spice_model_cd/mixed part list/ibis%20interface%20models/circuits/ibist1.cir |
Spice Models | 29/07/2012 | 0.32 Kb | CIR | ibist1.cir |
| Xilinx Solutions Database : XC4000H XC4000H XC4000H XC4000H: Computing output transition time for 4000H 4000H 4000H 4000H Solutions Database XC4000H XC4000H XC4000H XC4000H: Computing output transition time for 4000H 4000H 4000H 4000H Problem Title: - XC4000H XC4000H XC4000H XC4000H: Computing output transition time for 4000H 4000H 4000H 4000H Problem Description: - Solution 1: - In XCELL #9, the output transition time is specified to be 6ns at 150pf and 3ns at 50pf. This can be reasonably extrapolated linearly as a 3ns increase in transition time for each addition of 100pf of load www.datasheetarchive.com/files/xilinx/weblinx/techdocs/154.htm |
Xilinx | 23/09/1996 | 1.22 Kb | HTM | 154.htm |
| , the output transition time is specified to be 6ns at 150pf and 3ns at 50pf. This can be reasonably www.datasheetarchive.com/files/xilinx/docs/rp0000c/rp00c35.htm |
Xilinx | 29/02/2000 | 3.63 Kb | HTM | rp00c35.htm |
| 150pf and 3ns at 50pf. This can be reasonably extrapolated linearly as a 3ns increase in transition www.datasheetarchive.com/files/xilinx/docs/wcd00002/wcd00295-v1.htm |
Xilinx | 16/02/1999 | 3.27 Kb | HTM | wcd00295-v1.htm |
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