Tc264
Abstract: No abstract text available
Text: MAX3841 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low Voltage
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MAX3841
N102M066
REPORTERL1N36
DE0396
REPORTERL1N28
REPORTERL1N29
485E-018
DE0396
Tc264
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kf245
Abstract: 5050P
Text: MAX3815 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low
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MAX3815
N102M052
PADESD100
DE0900
DE0900
PADESD100
920E-018
kf245
5050P
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ic 1001 1002
Abstract: kf37
Text: MAX3803 Input/Output Model 3.125Gps Equalizer SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic
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MAX3803
125Gps
752E-017
485E-018
DE0396
DE0396
REPORTERL1N37
ic 1001 1002
kf37
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7407N
Abstract: kf 202 transistor 1251U diode d 01n
Text: MAX3861 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low
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MAX3861
735E-018
231E-030
N102M052
DE0172
514E-018
DE0172
7407N
kf 202 transistor
1251U
diode d 01n
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Untitled
Abstract: No abstract text available
Text: MAX3786 I/O Model 1.5Gbps SATA Mux Buffer SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic
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MAX3786
desig100
DE0900A
DE0900A
PADESD100
REPORTERL1N29
REPORTERL1N30
920E-018
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TC227
Abstract: No abstract text available
Text: MAX3950 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic
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MAX3950
735E-018
231E-030
N102M052
DE0172
514E-018
DE0172
TC227
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PDF
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IS2771
Abstract: No abstract text available
Text: MAX3262 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic
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MAX3262
N102M066
DE0900
920E-018
DE0900
IS2771
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TC227
Abstract: No abstract text available
Text: MAX3935 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic
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MAX3935
DE0172
PADESD25
DE0172
514E-018
TC227
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kf 202 transistor
Abstract: TC227
Text: MAX3953UGK I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low
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MAX3953UGK
PADESD100
DE0900
920E-018
DE0900
kf 202 transistor
TC227
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TC227
Abstract: No abstract text available
Text: MAX3940 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic
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MAX3940
DE0172
PADESD25
DE0172
514E-018
TC227
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kf 202 transistor
Abstract: Chirp spice gummel SR770 spectra physics
Text: Measurement of ‘1/f’ Noise in Narrow Poly-silicon Emitter Bipolar Transistor Structures. S.D. Connor Bipolar Characterization Group, Central R&D, GEC Plessey Semiconductors, Tweedale Way, Oldham, Lancs OL9 7LA, England. Abstract:- We present here our initial findings on low frequency
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transistor mje 3003
Abstract: kf 202 transistor mje 3003 3003 BR TRANSISTOR IS-132
Text: MAX3968 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low
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MAX3968
HDE113032
REPORTERL1N63
REPORTERL1N64
181E-017
HDE113032
transistor mje 3003
kf 202 transistor
mje 3003
3003 BR TRANSISTOR
IS-132
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diode L2.71
Abstract: 1558E 1-917F TC227
Text: MAX3805 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic
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MAX3805
279E-018
N102M024
DE0172
514E-018
DE0172
diode L2.71
1558E
1-917F
TC227
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PDF
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TC227
Abstract: 1044F
Text: MAX3971 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low
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MAX3971
064E-017
514E-018
DE0172
TC227
1044F
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laser diode spice model simulation
Abstract: n102m066a Tc264 N102M010 TC4800 laser spice model
Text: MAX3736 Input/Output Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic
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MAX3736
064E-017
514E-018
DE0172
REPORTERL1N34
REPORTERL1N37
laser diode spice model simulation
n102m066a
Tc264
N102M010
TC4800
laser spice model
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transistor w04
Abstract: transistor w07 W04 npn 10137F TC116 W04 transistor mje 3001
Text: MAX3840EGJ I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low Voltage Differential Signal
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MAX3840EGJ
N402V066
transistor w04
transistor w07
W04 npn
10137F
TC116
W04 transistor
mje 3001
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237F
Abstract: transistor 1002 3980F
Text: MAX980/MAX3981 I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic (PECL), and Low Voltage Differential Signal
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MAX980/MAX3981
fo102
DE0900A
DE0900A
PADESD100
REPORTERL1N29
REPORTERL1N30
920E-018
237F
transistor 1002
3980F
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321f
Abstract: bf331 236f 724E-020 HFAN-06 455e diode 699n 250N MAX3640 MAX3801
Text: Application Note: HFAN-06.1 Rev 1, 11/07 Input/Output Models for Maxim Fiber Components Maxim High-Frequency/Fiber Communications Group Maxim Integrated Products 9hfan61_old_63.doc 11/13/07 Input/Output Models for Maxim Fiber Components 1 Abstract The objective of this note is to discuss the use of
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HFAN-06
9hfan61
MAX3801
109E-019
PADESD100
DE381011
PADESD100
DE381011
080E-017
321f
bf331
236f
724E-020
455e
diode 699n
250N
MAX3640
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PDF
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Model Spice
Abstract: max3658 MAX3658* application note MAX3658A TC227
Text: MAX3658Aeta and MAX3658Beta I/O Model SPICE I/O Macromodels aid in understanding signal integrity issues in electronic systems. Most of Maxim’s High Frequency/Fiber Communication ICs utilize input and output I/O circuits with Current Mode Logic (CML), Positive Emitter Coupled Logic
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MAX3658Aeta
MAX3658Beta
anN102M024
DE0172
514E-018
DE0172
Model Spice
max3658
MAX3658* application note
MAX3658A
TC227
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PDF
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kf 202 transistor
Abstract: transistor KF
Text: FF 50 R 06 KF 3 Transistor Transistor Elektrische Eigenschaften Electrical properties Höchstzulässige W erte Maximum rated values 600 V 50 A V ces ¡c Therm ische Eigenschaften Thermal properties 0,225 DC, pro Baustein /p e r module DC, pro Zweig / per arm
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PDF
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Untitled
Abstract: No abstract text available
Text: FF 75 R 06 KF 3 Transistor Transistor Elektrische Eigenschaften Electrical properties Höchstzulässige W erte Maximum rated values 600 V 75 A V cES Therm ische Eigenschaften Thermal properties DC, pro Baustein / per module 0,160 R th J C DC, pro Zweig / per arm
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OCR Scan
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34032R7
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PDF
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kf 202 transistor
Abstract: No abstract text available
Text: FF 100 R 06 KF 3 Transistor Transistor Elektrische Eigenschaften Electrical properties Höchstzulässige W erte V qes Maximum rated values 600 V 100 A le Therm ische Eigenschaften Therm al properties DC, pro Baustein / per module 0,140 °C/W 0,280 C/W DC, pro Zweig / per arm
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12EFC,
kf 202 transistor
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PDF
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KF 35 transistor
Abstract: No abstract text available
Text: FF 100 R 06 KF 3 Transistor Transistor Elektrische Eigenschaften Electrical properties Höchstzulässige W erte Maximum rated values 600 V 100 A V ces Therm ische Eigenschaften Therm al properties DC, pro Baustein / per module 0,140 °C/W 0,280 C/W DC, pro Zweig / per arm
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OCR Scan
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PDF
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Untitled
Abstract: No abstract text available
Text: FF 75 R 06 KF 3 Transistor Transistor Elektrische Eigenschaften Electrical properties Höchstzulässige W erte Maximum rated values 600 V 75 A V cE S Ic Therm ische Eigenschaften Thermal properties DC, pro Baustein / per module 0,160 R th J C DC, pro Zweig / per arm
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OCR Scan
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PDF
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