NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Part | Manufacturer | Description | Type | Ordering |
| U110 | N/A | Semiconductor Master Cross Reference Guide |
1 pages, |
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| U110 | N/A | Shortform Datasheet & Cross References Data |
1 pages, |
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| U110 | N/A | Shortform Transistor PDF Datasheet |
1 pages, |
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| U110 | N/A | Catalog Scans - Shortform Datasheet |
1 pages, |
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| U110 | National Semiconductor | Shortform National Semiconductor Datasheet |
1 pages, |
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| U110 | N/A | Basic Transistor and Cross Reference Specification |
1 pages, |
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| Catalog Datasheet Results | Type | Document Tags |
| Abstract: and R116 (0R) to R117. This will reverse the reset polarity on U110. R118 and R119 (10K) pull-up , programmer that will be available soon can be plugged direct into J110 to program U110. The pin description , GND All signal directions refer to U110. U110 is currently mounted with an 11.0592 MHz crystal , indication that the board is OK. The same will happen if the programming MCU (U110) is reset. Note that the programming MCU (U110) will take control over the reset line of the AVR device when programming/verification ... | Original |
10 pages, |
D144 avr isp programmer schematic J130 j131 J132 J140 AT90S AT89S S140 AVRPROG U110 AVRPROG AT90S2313 J103 transistor 3 pin j110 black AT89S/AT90S AT89S/AT90S AT89S/AT90S abstract |
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| Abstract: ) Id IRFR11 IRFR11 0/U110 100V 0.54Í1 4.7A IRFR111/U111 IRFR111/U111 80V 0.54Í1 4.7A d-pak I.Gate 2.Drain 3.Source IRFR110/111 IRFR110/111 I-PAK 1 Gate 2.Drain 3.Source IRFU110/111 IRFU110/111 MAXIMUM RATINGS Characteristic Symbol IRFR110/U110 , Breakdown Vortage IRFR110/U110 IRFR111/U111 IRFR111/U111 100 80 - - V V Vds=Vss, Id=250/jA VQS(th) Gate Threshold Voltage ... | OCR Scan |
5 pages, |
IRFR110/111 IRFU110/111 IRFR110/111 abstract |
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| Abstract: Number Vos RdS(oii) lD(on) IRLR110/U110 100V 0.75Í2 4.0A IRLR111/U111 IRLR111/U111 80V 0.75ÍÍ 4.0A D-PAK IRLR110/111 IRLR110/111 l-PAK 1 .Gate 2.Drain 3.Source IRLU110/111 IRLU110/111 MAXIMUM RATINGS Characteristic Symbol IRLR110/U110 IRLR111 IRLR111 , Typ Max Units Test Conditions BVdss Drain-Source Breakdown Voltage IRLR110/U110 IRLR111/U111 IRLR111/U111 100 80 - ... | OCR Scan |
5 pages, |
IRLR110/111 IRLU110/111 IRLR110/111 abstract |
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| Abstract: Number Vos Ros , Symbol IRFR110/U110 IRFR111/U111 IRFR111/U111 Unit Drain-Source Voltage (1) Voss 100 80 Vdc Drain-Gate Voltage , Max Units Test Conditions BVdss Drain-Source Breakdown Voltage IRFR110/U110 IRFR111/U111 IRFR111/U111 100 80 - - V ... | OCR Scan |
5 pages, |
u111 IRFR110/111 IRFU110/111 IRFR110/111 abstract |
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| Abstract: SUMMARY Part Number Vos RdS(oii) lD(on) IRLR110/U110 100V 0.75Í2 4.0A IRLR111/U111 IRLR111/U111 80V 0.75ÌÌ 4.0A , IRLR110/U110 IRLR111/U111 IRLR111/U111 Units Drain-Source Voltage (1) Voss 100 80 vac Drain-Gate Voltage (Rgs=1.0MS1 , Voltage IRLR110/U110 IRLR111AJ111 IRLR111AJ111 100 80 - - V V Vgs=0V, Id=250m vgsffh) Gate Threshold Voltage 1.0 - 2.0 ... | OCR Scan |
5 pages, |
u111 IRLR110/111 IRLU110/111 IRLR110/111 abstract |
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| Abstract: 30-U110 Material: 24 AWG Tin/Lead Plated Copper Clad Steel Marking: 30 U110 Raychem Logo and Voltage ... | Original |
1 pages, |
Raychem 55A RUE110 U110 polyswitch u110 datasheet abstract |
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| Abstract: U-110 APPLICATION NOTE 1.5 MHZ CURRENT MODE IC CONTROLLED 50 WATT POWER SUPPLY Abstract , APPLICATION NOTE U-110 II. POWER SUPPLY SPECIFICATIONS Input Voltage Range: Switching Frequency , core saturation. Figure 3. Basic Push-Pull Waveforms 3-95 17.7 APPLICATION NOTE U-110 , ) Duty (max) = 39.0 . 0.85 = 5.6:1 V sec (min) 5.9 APPLICATION NOTE U-110 The secondary is , operating frequency of 750 kHz: 3-97 APPLICATION NOTE U-110 For low current windings, several ... | Original |
12 pages, |
H7C4 permeability datasheet TDK CORE H7C4 SEM-400 500 watts amplifier schematic diagram EE-35 transformer H7C4 EE H7C4 permeability ferrite TRANSFORMER calculation EE 35 transformer USD1140 litz wire 36 awg SEM-500 U-110 U-110 abstract |
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| Abstract: U-110 APPLICATION NOTE 1.5 MHZ CURRENT MODE IC CONTROLLED 50 WATT POWER SUPPLY Abstract , APPLICATION NOTE U-110 II. POWER SUPPLY SPECIFICATIONS Input Voltage Range: Switching Frequency , core saturation. Figure 3. Basic Push-Pull Waveforms 3-95 17.7 APPLICATION NOTE U-110 , ) Duty (max) = 39.0 . 0.85 = 5.6:1 V sec (min) 5.9 APPLICATION NOTE U-110 The secondary is , operating frequency of 750 kHz: 3-97 APPLICATION NOTE U-110 For low current windings, several ... | Original |
13 pages, |
Unitrode Power Supply Design U-97 UC3825 dc to dc converter uc3825 application notes EE 20 bobbin sem400 TDK PCU unitrode uc3825 SEM-500 SEM-400 H7C4 EE UC3825 push pull dc to dc converter EE-35 transformer U-110 U-110 abstract |
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| Abstract: : 30 U110 Raychem Logo and Voltage Part Identification Lot Identification (can be on back ... | Original |
1 pages, |
U110 RUE110 datasheet abstract |
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| Abstract: Characteristics of Ferrite Materials Material RT RX RN RC i 1600 750 550 250 Bs (mT) 290 330 310 320 Tc (癈) U110 U110 U130 U140 (-m) >105 >105 c Ferrite Material Comparison 500 200 100 Impedance [] RX 50 20 10 5 ... | Original |
4 pages, |
datasheet abstract |
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| Abstract: BD REV : 1.2 PM-A1 No. COUNT LOCATION 1 2 C1,C2 2 4 C3-C6 3 1 JP1,JP3 4 2 JP4,JP5 5 1 R1 6 1 R9 7 1 AR1 8 1 U2 9 1 U1 10 1 Y1 11 PM-A1 Partlist DESCRIPTION 20pF 1608 20% 50V 0.1uF 1608 20% 50V 2X5 10PIN 10PIN 2.54mm DIP STRAIGHT 87089-5016 2X25 50PIN 50PIN 2mm DIP STRAIGHT 4.7K 1608 5% 1/10W 1/10W 1K 1608 5% 1/10W 1/10W 4.7K 3216 CONVEX 5% 50V ATMEGA128L-8AI ATMEGA128L-8AI Microcontroller 64P TQFP 128KB 128KB Flash MC74AC573DW MC74AC573DW OCTAL BUFFER SOIC 20LEAD 20LEAD 300mil ATS25/U ATS25/U 8MHz ATS Holder Type 1 ... | Original |
1 pages, |
MC74AC573DW Atmel ATmega128L microcontroller ATMEGA128L-8AI 10PIN 50PIN 1/10W 128KB 20LEAD ATS25/U 10PIN abstract |
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| Abstract: UNCONTROLLED DOCUMENT PART NUMBER LCD-S3X1 C50TR/A9 C50TR/A9 REV. E.C.N. NUMBER AND REVISION COMMENTS E.C.N. #11 1 48. REV. A DATE Û2.Û7.07 50,80 [2,000] 45,72 [1,800] nnnninnnninnnnnnnnn 1,10 [0,043] 12.7Û [0.50Û] i 16,51 [0,650] (VA) i 22.8Ê CO,900] 30.48 [1.20CÜ 1,27 [0,050] .,02 [0.040] -II- 1,5E [0.060] PITCH '2.54 x 19=48.26 [1.900] 2.80 [Û.110] MAX. dr"' 1.10 [0.043] 3 3, DO EL 29 9] 9,50 [0,374] / CHARACTERISTICS \ DIGIT DETAIL 12.70 [Q.500] DIG 1 DIG 2 DIG 3 PIN ... | OCR Scan |
1 pages, |
C50TR/A9 C50TR/A9 abstract |
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| Abstract: RW-SH-1_D sarja Ronlkokoliwo. pssunkeatdvA >a edUllnen tefcordQpHrikoftllte CSAia UL-hyvftksytty 10 A 120 VAC 1 200 VA 0.36 W hopcacadrnun>ok$»di (AgCdO2) nun. 10 mtlj. lornr-vaa rr.tn. 100 D00 taointaa 1 000 VAC ikcta-kAqet) '-30. ♦ 55 C KArjoc KytkantAtaho Tehonkulutus KosKotinmaleriwli Mskaanirven w Sahkfrnen ikft EnStySjAnnte KAyti6Umpfili!a-arfje RW-SS/SH RWH-SS/SH «as 1 -fn 21 _ ^ r *»Ht HI- »«I". il J-t" - t~4 J/ ^ 122 BOTTOM VIEW BOTTOM VIEW T ... | OCR Scan |
1 pages, |
RW-SH-148D SH-106D rwsh112d 112d 106-D RW-SH-1240 SH-112D RWH SH 112D RW-SH-106D RW-SH-112D datasheet abstract |
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| Abstract: www.fairchildsemi.com FPF1006 FPF1006 Demo Board Literature number#730025-001 FPF1005 FPF1005 is a demo board for Fairchild semiconductor FPF1006 FPF1006 load switch. 1. Demo Board Specifications FPF1006 FPF1006 demo board has the components and circuitry to demonstrate basic functions of the FPF1006 FPF1006 load switch. The board is designed for the maximum thermal performance. The operation input voltage range is 1.5V to 5.5V. Board size is 1 x 0.5 inch square. Figure 1: Top Layer Figure 2: Bottom Layer Figure 3: ... | Original |
1 pages, |
FPF1006 FPF1005 CONN-HEADER 1uF 0603 X7R FPF1006 abstract |
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| Abstract: www.fairchildsemi.com FPF1005 FPF1005 Demo Board Literature number#730018-001 FPF1005 FPF1005 is a demo board for Fairchild semiconductor FPF1005 FPF1005 load switch. 1. Demo Board Specifications FPF1005 FPF1005 demo board has the components and circuitry to demonstrate basic functions of the FPF1005 FPF1005 load switch. The board is designed for the maximum thermal performance. The operation input voltage range is 1.5V to 5.5V. Board size is 1 x 0.5 inch square. Figure 1: Top Layer Figure 2: Bottom Layer Figure 3: ... | Original |
1 pages, |
FPF1005 CONN-HEADER 36POS FPF1005 abstract |
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| Abstract: www.fairchildsemi.com FPF1004 FPF1004 Demo Board Literature number#730019-001 FPF1004 FPF1004 is a demo board for Fairchild semiconductor FPF1004 FPF1004 load switch. 1. Demo Board Specifications FPF1004 FPF1004 demo board has the components and circuitry to demonstrate basic functions of the FPF1004 FPF1004 load switch. The board is designed for the maximum thermal performance. The operation input voltage range is 1.5V to 5.5V. Board size is 1 x 0.5 inch square. Figure 1: Top Layer Figure 2: Bottom Layer Figure 3: ... | Original |
1 pages, |
FPF1004 CONN-HEADER 730019 FPF1004 abstract |
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| Abstract: www.fairchildsemi.com FPF1003 FPF1003 Demo Board Literature number#730017-001 FPF1003 FPF1003 is a demo board for Fairchild semiconductor FPF1003 FPF1003 load switch. 1. Demo Board Specifications FPF1003 FPF1003 demo board has the components and circuitry to demonstrate basic functions of the FPF1003 FPF1003 load switch. The board is designed for the maximum thermal performance. The operation input voltage range is 1.5V to 5.5V. Board size is 1 x 0.5 inch square. Figure 1: Top Layer Figure 2: Bottom Layer Figure 3: ... | Original |
1 pages, |
FPF1003 FPF1003 abstract |
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| Abstract | Saved from | Date Saved | File Size | Type | Download |
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| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/52728641-985501ZC/wcd00ea6.zip (time_sim.v) |
Xilinx | 12/02/1999 | 7683.96 Kb | ZIP | wcd00ea6.zip |
| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/1770998-985499ZC/wcd00ea4.zip (time_sim.v) |
Xilinx | 12/02/1999 | 3545.64 Kb | ZIP | wcd00ea4.zip |
| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/95835256-987151ZC/wcd02ea3.z |
Xilinx | 13/07/1998 | 11223.63 Kb | Z | wcd02ea3.z |
| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/16152680-987153ZC/wcd02ea5.z |
Xilinx | 13/07/1998 | 5128.36 Kb | Z | wcd02ea5.z |
| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/67714387-987154ZC/wcd02ea6.zip (time_sim.v) |
Xilinx | 13/07/1998 | 3545.64 Kb | ZIP | wcd02ea6.zip |
| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/10929841-987152ZC/wcd02ea4.zip (time_sim.v) |
Xilinx | 13/07/1998 | 7683.96 Kb | ZIP | wcd02ea4.zip |
| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/74691760-985949ZC/wcd010c9.zip (time_sim.v) |
Xilinx | 13/07/1998 | 7683.96 Kb | ZIP | wcd010c9.zip |
| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/52057314-987199ZC/wcd02ee0.z |
Xilinx | 13/07/1998 | 13034.22 Kb | Z | wcd02ee0.z |
| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/16736007-985939ZC/wcd010c4.z |
Xilinx | 13/07/1998 | 5128.36 Kb | Z | wcd010c4.z |
| , SIG_tri_enable163, \U110/$1I20_GTS_TRI , SIG_tri5_2_INV, SIG_tri2_2_INV, SIG_tri3_2_INV, SIG_tri_2_INV, SIG_tri4_2_INV, \U110/$1I20_GTS_TRI_2_INV ; `ifdef GTS_SIGNAL wire GTS = `GTS (SEL[0]); X_OPAD SIG_PAD (.PAD (SIG); X_BUF \U110/$1I20 (.IN (n272), .OUT (\U110/$1I20_GTS_TRI ); X_TRI \U110/$1I20_GTS_TRI_29 (.IN (\U110/$1I20_GTS_TRI ), .OUT (SIG), .CTL (\U110/$1I20_GTS _INV \U110/$1I20_GTS_TRI_2_INV_35 (.IN (GTS), .OUT (\U110/$1I20_GTS_TRI_2_INV ); X_PD NGD2VER www.datasheetarchive.com/download/56350136-985943ZC/wcd010c6.z |
Xilinx | 13/07/1998 | 13034.22 Kb | Z | wcd010c6.z |
| Part | Manufacturer | Description | Shortform Datasheet | Ordering |
| U110 | N/A | P-Channel JFET | |