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Not Available

Abstract: No abstract text available
Text: DRAM (5) i DRAM - Low Voltage Versions (CMOS) Vcc= +3.3V±0.3V, Ta=0°C to +706C Power Consumption max. (mW) Standby Operating Mods (CMOS level) Organization (Wxb) Part Number Access Time max. (ns) Cycle Time min. (ns) Packages SOJ TSOP MB81V17800A-60 M B81V 17800A-70 M B81V17800A-60L MB81V17800A-70L ®MB81 V17800B-50 ©MB81V17800B-60 © MB81V17800B-50I ©MB81V17800B-60L 2Mx8 MB81V17805A-60 MB81V17805A-70 MB81V17805A-60L MB81V17805A-70L ©MB81V17805B-50 ®MB81 V17805B-60 ©MB81V17805B


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PDF MB81V17800A-60 7800A-70 B81V17800A-60L MB81V17800A-70L V17800B-50 MB81V17800B-60 MB81V17800B-50I MB81V17800B-60L MB81V17805A-60 MB81V17805A-70
1997 - Not Available

Abstract: No abstract text available
Text: No file text available


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PDF DS05-11327-2E MB81V17800B-50/-60/-50L/-60L MB81V17800B MB81V17800B F9712
pj 25

Abstract: No abstract text available
Text: No file text available


OCR Scan
PDF MB81V17800B-50/-60/-50L/-60L MB81V17800B F9712 pj 25
1998 - 3654P

Abstract: DRAM 4464 jeida dram 88 pin MB814260 4464 dram 1024M-bit 4464 64k dram mb814400a-70 MB81G83222-008 4464 ram
Text: No file text available


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PDF 16M-bit 64M-bit 68-pin) 88-pin) MB98C81013-10 MB98C81123-10 MB98C81233-10 MB98C81333-10 3654P DRAM 4464 jeida dram 88 pin MB814260 4464 dram 1024M-bit 4464 64k dram mb814400a-70 MB81G83222-008 4464 ram
2009 - Not Available

Abstract: No abstract text available
Text: . #617PT-1667 #617PT-1669 #617PT-1699 #617PT-1664 (Unit: mm) 2) #617DB-1714 (Impedance Ratio= 50Î ©:200Î , Typical Characteristics 代表特性例 1) #617PT-1667 (Impedance Ratio= 50Î ©:200 Ω) μiac 300 300 300 300 Ω 2) #617PT-1664 (Impedance Ratio= 50Î ©:200 Ω) Balun Transformers TYPE B4F , ) #617DB-1653 50ï —: 50ï — 2) #617DB-1654 50ï —: 50ï — 3) #617DB-1655 50ï —: 50ï — 4) #617DB-1724 50ï —: 50ï — Balun Transformers Test Circuit 測定回路 バルントランス TOKO Part No


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PDF 617DB-1673 617DB-1674 617DB-1675 617DB-1714 617PT-1667 617PT-1669 617PT-1699 617PT-1664
2014 - SEMP 690

Abstract: No abstract text available
Text: , 50Î © Models from 0 - 30 Flatness <±1 dB PMAX, 2W .079 x .079 x .039" Coaxial Fixed Models, 50Î © & 75Ω VAT Series Wideband DC – 6 GHz, 50Î © Models from 1- 30 dB Flatness, ±1 dB PMAX, up to 2W RCAT Series Fixed Hermetic LTCC DC – 20 GHz, 50Î © Models from 0 to 30 dB Flatness , , Precision DC – 26 GHz, 50Î © Models from 0 to 40 dB Flatness, ± 0.5 dB PMAX, up to 100W Dimensions , Connector DC – 2000 MHz, 50Î © & 75 Ω Models from 1 to 30 dB Flatness, ±1 dB PMAX, up to 1W RVA


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PDF SPG-14 SEMP 690
2007 - Not Available

Abstract: No abstract text available
Text: Square or round pin 120μ" Tin 1 Reflow Plated 50Î ¼ Nickel Min. Overall SMT type , Area 0.8μ" Gold Min. Square or round pin 50Î ¼ï¼‚ Nickel Min. 2 Match Type Overall 1.2μ" Gold Min. Other type 3 15μ" Gold Min. 50Î ¼ï¼‚ Nickel Overall All type 4 30μ" Gold Min. 50Î ¼ï¼‚ Nickel Overall All type 5 50Î ¼ï¼‚ Gold Min. 50Î ¼ï¼‚ Nickel Overall All type 7 3μ" Gold Min. 50Î ¼ï¼‚ Nickel Overall All type 8


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2015 - Not Available

Abstract: No abstract text available
Text: — 30) 100(2 × 50ï ¼‰ 150(3 × 50ï ¼‰ 200(4 × 50ï ¼‰ 250(5 × 50ï ¼‰ 300(6 × 50ï ¼‰ 36(2 × 18) 48(2 × 24) 60(2 × 30) 72(3 × 24) 90(3 × 30) 100(2 × 50ï ¼‰ 150(3 × 50ï ¼‰ 200(4 × 50ï ¼‰ 250(5 × 50ï ¼‰ 300(6 × 50ï ¼‰ 40(2 × 20) 50(2 × 25) 60(2 × 30) 75(3 × 25) 90(3 × 30) 100(2 × 50ï ¼‰ 150(3 × 50ï ¼‰ 200(4 × 50ï ¼‰ 250(5 × 50ï ¼‰ 300(6 × 50ï ¼‰ 36(2 × 18) 48(2 × 24) 60(2 × 30) 72(3 × 24ï


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PDF CL441500KQN7 CL4415002QN7 CL4415003QN7 CL4415004QN7 CL4415006QN7 CL4415005QN7 CL4415003MÃ 3000D
2012 - Not Available

Abstract: No abstract text available
Text: ®å†…、CLK_SEL SWで選択したクロックを入力します。 クロック入力信号は、必要に応じて 50Î ©ã§çµ‚端することも可能です。(R2パターンに 50Î ©ã‚’接続) 266MHz以下を入力しますã , ™‚は【Aパターン】になっています。 Aパターン ※出荷時の構成 0Ω Q0,1,2,3 Zo= 50Î © Q0N,1N, 2N,3N 0.1uF or Open RTT 50Î © 50Î © Zo= 50Î © NC NC 0Ω ⎡ ⎤ 1 RTT = ⎢ ⎥Z0 ⎣ (VOH + VOL ) /(VCC − 2 ) ) − 2 ⎦ NC:No components ※出荷時、RTT= 50Î ©ãŒå®Ÿè£…ã


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PDF AKD8181B AK8181B AK8181Bã AKD8181B-J-00
2005 - Not Available

Abstract: No abstract text available
Text: ® SY58037U Micrel, Inc. FUNCTIONAL BLOCK DIAGRAM IN0 50Î © VT0 50Î © /IN0 VREF-AC0 IN1 50Î © VT1 50Î © /IN1 IN2 50Î © 8:1 MUX VT2 50Î © 0 /IN2 VREF-AC1 IN3 1 50Î © 50Î © Q0 3 /IN3 4 MUX IN4 50Î © 5 50Î © 6 VT4 /IN4 VREF-AC2 IN5 /Q1 S0 50Î © 50Î © /IN5 IN6 50Î © VT6 50Î © /IN6 VREF-AC3 IN7 50Î © VT7 50Î © /IN7 SEL0 , VCC VCC VCC 50Î © 50Î © 50Î © ZO = 50Î © /Q 50Î © /Q ZO = 50Î © 100Ω IN


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PDF SY58037U 450ps 300mV) 10psPP
2013 - AK8181D

Abstract: No abstract text available
Text: Zo= 50Î © NC:No components VSS Zo= 50Î © VSS Pattern b Zo= 50Î © VSS Zo= 50Î © VSS AKD8181D-E-00 2 2012/12 AKD8181D Pattern c Zo= 50Î © VSS 0Ω Zo= 50Î © VSS Pattern d Zo= 50Î © VSS 0Ω Zo= 50Î © VSS Pattern e Zo= 50Î © VSS 50Î © Zo= 50Î © VSS , ※with applying power to the VDD-2V terminal Zo= 50Î © short Q0N,1N, Zo= 50Î © 2N,3N Pattern B Q0,1,2,3 Zo= 50Î © short ※without applying power to the VDD-2V terminal 0Ω 0Ω Q0N


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PDF AKD8181D AK8181D AKD8181D AK8181D. AKD8181D-E-00 AK8181D
2013 - Not Available

Abstract: No abstract text available
Text: ƒ³ Zo= 50Î © NC:No components VSS Zo= 50Î © VSS bパターン Zo= 50Î © VSS Zo= 50Î © VSS AKD8181D-J-00 2 2012/12 AKD8181D cパターン Zo= 50Î © VSS 0Ω Zo= 50Î © VSS dパターン Zo= 50Î © VSS 0Ω Zo= 50Î © VSS eパターン Zo= 50Î © VSS 50Î © Zo= 50Î © VSS AKD8181D-J-00 3 2012/12 AKD8181D å‡ºåŠ›è² è·å›žè·¯ 次の3ã , ™‚は【Aパターン】になっています。 Aパターン Q0,1,2,3 ※VDD-2Vç«¯å­ã«ã€é›»æºã‚’å°åŠ ã—ã¦ä¸‹ã•ã„ã€‚ Zo= 50Î


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PDF AKD8181D AK8181D AKD8181D AK8181Dã AKD8181D-J-00 AK8181D
2008 - Not Available

Abstract: No abstract text available
Text: +1.0V, RL = 50Î ©, VHPD_ or VRX1_ = +1.0V, RL = 50Î ©, VAUX_ or VRX0_ = +1.0V, RL = 50Î ©, LE = VDD, CL = 100pf (Figure 1) 8 50 ns VD_ or VTX_ = +1.0V, RL = 50Î ©, VHPD_ or VRX1_ = +1.0V, RL = 50Î ©, VAUX_ or VRX0_ = +1.0V, RL = 50Î © (Figure 1) 2 ns tHOLD SEL to Switch Turn-Off Time tON_SEL tSU SEL to Switch Turn-On Time VD_ or VTX_ = +1.0V, RL = 50Î ©, VHPD_ or VRX1_ = +1.0V, RL = 50Î ©, VAUX_ or VRX0_ = +1.0V, RL = 50Î ©, LE = VDD, CL = 100pf (Figure 1) VD_ or


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PDF MAX4928A/MAX4928B MAX4928A MAX4928B MAX4928A/ MAX4928B MAX4928A/MAX4928B
2014 - Not Available

Abstract: No abstract text available
Text: . First, R3 and R4 in parallel should equal the transmission line impedance. For most 50ï — applications , input interfaces suggested here are examples only. 3.3V 3.3V 3.3V 1.8V Zo = 50Î © Zo = 50Î © CLK CLK Zo = 50Î © Zo = 50Î © nCLK nCLK Differential Input LVHSTL IDT LVHSTL Driver R1 50Î © R2 50Î © Differential Input LVPECL R1 50Î © R2 50Î © R2 50Î © Figure 2A , a 3.3V LVPECL Driver 3.3V 3.3V 3.3V 3.3V 3.3V Zo = 50Î © CLK CLK R1 100Ω nCLK


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PDF IDT8T33FS314I IDT8T33FS314I
2015 - Not Available

Abstract: No abstract text available
Text: deliver full-sized performance transforming between 50Î © and 75Ω, from 5 to 1000 MHz. Traditionally , combine or divide signals as necessary. Component availability for characteristic impedance of 50Î © is ample. A mixed impedance splitter ( 50Î © at input and 75Ω at output, or 75Ω at input and 50Î © at , , and a resistor. Consider a system that needs to split a signal from input at 50Î © to two outputs at , transformer converts this impedance to 50Î © input with minimal signal power loss. Oppositely, a system to


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PDF AN-10-004) AN-10-004 M150261 AN10004
2012 - Not Available

Abstract: No abstract text available
Text: SWで選択したクロックを入力します。 クロック入力信号は、必要に応じて 50Î © で終端することも可能です。(R2, R3パターンに 50Î © を接続) 266MHz以下を入力します。 å‡ºåŠ›è² è·å›žè·¯ 次ã , ™‚は【Aパターン】になっています。 Aパターン ※出荷時の構成 0Ω Q0,1,2,3 RTT Zo= 50Î © 50Î © NC 50Î © NC 0.1uF Q0N,1N, 2N,3N Zo= 50Î © 0Ω   1 RTT   Z0  (VOH  VOL ) /(VCC  2 )   2  NC:No components ※出荷時、RTT= 50Î © が実装ã


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PDF AKD8181A AKD8181A AK8181A AK8181Aã -J-01
2006 - Not Available

Abstract: No abstract text available
Text: =ZL = 50ï —ï€  1.40 1.75 dB 1.9GHz, LNA Application Circuit Board[2] Gain , to the device leads with ZS=ZL= 50ï —. De-embedded S-parameters can be downloaded from our website , ROHM MCR0.J161 160 Z1 non-critical 50ï — Z2 4.0 degrees at 900MHz 50ï — Z3 11.5 degrees at 900MHz 63 Z4 5.0 degrees at 900MHz 50ï — Z5 3.6 degrees at 900MHz 50ï — Z6 3.7 degrees at 900MHz 50ï — Z7 7.1 degrees at 900MHz 50ï — Z8 6 of 13


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PDF SGA8343Z SGA8343ZLow OT-343 SGA8343Z DS110620 SGA8343Z-EVB4 1575MHz
2010 - Not Available

Abstract: No abstract text available
Text: ¼‰ Resistance Range A:2 (R1/R2≦10) Y:5 T:10 E:0.025% 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 100max. 抵抗値許容差 Resistance Tolerance 50〜100k , ±0.25% D:±0.5% F:±1% 相対抵抗値許容差 Resistance Ratio A:0.05% B:0.1% 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã , ¼š0.25% − 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ D:0.5% − − 50Î ©ã€œ100kΩ 50Î ©ã


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2011 - Not Available

Abstract: No abstract text available
Text: ¼‰ Resistance Range A:2 (R2/R1≦10) Y:5 T:10 E:0.025% 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 100max. 抵抗値許容差 Resistance Tolerance 50〜100k , ±0.25% D:±0.5% F:±1% 相対抵抗値許容差 Resistance Ratio A:0.05% B:0.1% 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã , ¼š0.25% − 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ 50Î ©ã€œ100kΩ D:0.5% − − 50Î ©ã€œ100kΩ 50Î ©ã


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2009 - Not Available

Abstract: No abstract text available
Text: μiac 300 300 300 Typical Characteristics 代表特性例 1) #458DB-1614 (Impedance Ratio= 50Î ©:200Ω) 2) #458DB-1615 (Impedance Ratio= 50Î ©:200Ω) 3) #458DB-1616 (Impedance Ratio= 50Î ©:200Î , 230 230 230 Typical Characteristics 代表特性例 1) #458PT-1619 (Impedance Ratio= 50Î ©:200Ω) 2) #458PT-1586 (Impedance Ratio= 50Î ©:200Ω) 3) #458PT-1587 (Impedance Ratio= 50Î ©:200Ω) 4) #458PT-1565 (Impedance Ratio= 50Î ©:200Ω) Splitters / Directional Couplers 分岐器/方向性結合器


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PDF 458DB-1614 458DB-1615 458DB-1616 458PT-1619 458PT-1586 458PT-1587 458PT-1565
2012 - Not Available

Abstract: No abstract text available
Text: €‘ ※Composition at the time of shipment 0Ω Q0,1,2,3 Zo= 50Î © RTT 50Î © NC 50Î © NC 0.1uF or Open Q0N,1N, 2N,3N Zo= 50Î © 0Ω   1 RTT   Z (VOH  VOL ) /(VCC ï , shipment 【Pattern B】 0Ω Q0,1,2,3 Zo= 50Î © 84Ω 125Ω 84Ω 125Ω short Q0N,1N, 2N,3N Zo= 50Î © AKD8181A(SMA)-E-01 0Ω 2 2012/9 AKD8181A(SMA) 【Pattern C】 s possible to 50Î © Q0,1,2,3 Zo= 50Î © NC NC NC short NC NC Q0N,1N, 2N,3N Zo= 50Î


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PDF AKD8181A AKD8181A AK8181A AK8181A. -E-01
2013 - Not Available

Abstract: No abstract text available
Text: No file text available


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PDF XC6405 JTR1003-006
2007 - LT5557

Abstract: No abstract text available
Text: traditional 50Î © interface circuits. The LTC6410-6 drives a differential 50Î © load directly with low distortion, which is suitable for driving SAW filters and other 50Î © signal chain blocks. 1.4GHz –3dB Bandwidth Fixed Voltage Gain of 6dB ( 50Î © System) Configurable Input Impedance Allows: Simple Interface , OIP3 (70MHz) 33dBm OIP3 (140MHz) 31dBm OIP3 (300MHz) Low Noise: 11dB NF ( 50Î © ZIN) 8dB NF (200Î , resistance (RS) is 25Ω on each input ( 50Î © differential), RL = 50Î © from +OUT to –OUT, unless otherwise


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PDF LTC6410-6 LTC6410-6 65dBm 1900MHz, 440mW, 1950MHz, 300mW, LT5557
2006 - Not Available

Abstract: No abstract text available
Text: twH CK VCC VCC 50ï ¼… 50ï ¼… 50ï ¼… CLR GND GND twL VCC VOH Q, Carry 50ï ¼… 50ï ¼… CK 50ï ¼… VOL tpLH GND trem tpHL VOH Q, Carry Figure 1 Count Mode 0.5 VCC tpHL VOL Figure 4 Clear Mode (TC74AC161) VCC LOAD 50ï ¼… ts 50ï ¼… th ts GND th VCC A to D 50ï ¼… ts 50ï ¼… CLR th ts 50ï ¼… GND th VCC VCC CK 50ï ¼… 50ï ¼… 50ï ¼… CK GND GND tpLH, tpHL VOH Q, Carry


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PDF TC74AC161 163P/F/FN/FT TC74AC161P TC74AC161F TC74AC161FN TC74AC161FT TC74AC163P TC74AC163F TC74AC163FN TC74AC163FT
2012 - AK8181B

Abstract: No abstract text available
Text: €‘ ※Composition at the time of shipment 0Ω Q0,1,2,3 Zo= 50Î © RTT 50Î © NC 50Î © NC 0.1uF or Open Q0N,1N, 2N,3N Zo= 50Î © 0Ω   1 RTT   Z (VOH  VOL ) /(VCC ï , shipment 【Pattern B】 0Ω Q0,1,2,3 Zo= 50Î © 84Ω 125Ω 84Ω 125Ω short Q0N,1N, 2N,3N AKD8181B-E-00 Zo= 50Î © 0Ω 2 2012/7 AKD8181B 【Pattern C】 s possible to 50Î © Q0,1,2,3 Zo= 50Î © NC NC NC short NC NC Q0N,1N, 2N,3N Zo= 50Î


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PDF AKD8181B AK8181B AKD8181B AK8181B. AKD8181B-E-00
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