npn TTL LOGIC pspice model
Abstract: vcsel spice model
Text: MAX3905 Input 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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MAX3905
teH21M02
HDE072021
591E-018
HDE072021
npn TTL LOGIC pspice model
vcsel spice model
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75188N
Abstract: LED pspice model
Text: MAX3966 Input 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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MAX3966
N11A03
22809e-13
29926e-14
113E-17
3397e-13
81509e-14
75188N
LED pspice model
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HDE072021
Abstract: laser diode spice model simulation
Text: MAX3867 Input 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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MAX3867
teH21M02
HDE072021
591E-018
HDE072021
laser diode spice model simulation
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BF265
Abstract: 29v33
Text: MAX3880 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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MAX3880
HDE113032
181E-017
HDE113032
BF265
29v33
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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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k2324
Abstract: k1821 k2225 k1317 power transistor k1821 k1213 k1117 k0313 k2225 transistor N13R
Text: AND8009/D ECLinPS Plus SPICE Modeling Kit Prepared by: Senad Lomigora, Paul Shockman ON Semiconductor Broadband Applications Engineering http://onsemi.com APPLICATION NOTE Schematic Information The kit contains representative input and output schematics, netlists, and waveform used for the ECLinPS
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AND8009/D
C0203
K0204
K0204WB
L01WB
L02WB
L03WB
k2324
k1821
k2225
k1317
power transistor k1821
k1213
k1117
k0313
k2225 transistor
N13R
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k1213
Abstract: k1118 transistor k1317 k1117 K2225 k2225 transistor k0305 K0319 c1213 transistor k1117 transistor
Text: AND8009/D ECLinPS Plus SPICE Modeling Kit Prepared by Senad Lomigora, Paul Shockman ON Semiconductor Broadband Applications Engineering http://onsemi.com APPLICATION NOTE Objective The objective of this kit is to provide customers with enough circuit schematic and SPICE parameter information
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AND8009/D
r14525
k1213
k1118
transistor k1317
k1117
K2225
k2225 transistor
k0305
K0319
c1213 transistor
k1117 transistor
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J-STD-020A
Abstract: MMBT3904T MMBT3904T-7 MMBT3904T-7-F MMBT3906T
Text: MMBT3904T NPN SMALL SIGNAL SURFACE MOUNT TRANSISTOR SPICE MODEL: MMBT3904T Features • · · · Epitaxial Planar Die Construction Complementary PNP Type Available MMBT3906T Ultra-Small Surface Mount Package Also Available in Lead Free Version SOT-523 ·
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MMBT3904T
MMBT3906T)
OT-523
OT-523,
J-STD-020A
DS30270
J-STD-020A
MMBT3904T
MMBT3904T-7
MMBT3904T-7-F
MMBT3906T
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H12A05
Abstract: No abstract text available
Text: MAX3269 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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MAX3269
testi509
326E-017
573E-020
022E-029
968E-018
H14E04
H12A05
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max3963
Abstract: No abstract text available
Text: MAX3963CSA 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 (PECL), and Low Voltage Differential Signal (LVDS)
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MAX3963CSA
151E-017
444E-021
000E-030
540E-019
H11A05
max3963
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k 2101 equivalent
Abstract: No abstract text available
Text: MAX3761 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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MAX3761
H11M032
HDE072021
591E-018
HDE072021
k 2101 equivalent
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vcsel spice model
Abstract: No abstract text available
Text: MAX3996 I/O Model 2.5Gbps VCSEL Driver 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
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MAX3996
920E-018
083E-022
168E-030
680E-019
H11A02
vcsel spice model
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TC221
Abstract: M400
Text: MAX3664EUA 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
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MAX3664EUA
968E-018
H14E04
REPORTERL1N94
HDE113032
181E-017
HDE113032
TC221
M400
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LED pspice model
Abstract: TC227 CP12RL1 MAX3941 application
Text: MAX3941 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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MAX3941
N102M024
DE0172
514E-018
DE0172
LED pspice model
TC227
CP12RL1
MAX3941 application
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Untitled
Abstract: No abstract text available
Text: MAX3822 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 (LVDS)
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MAX3822
151E-017
444E-021
000E-030
540E-019
H11A05
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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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IGBT
Abstract: igbt subcircuit AN1043 Spice Model for TMOS Power MOSFETs igbt spice igbt spice model Spice Model for TMOS Power MOSFETs igbt testing KP21 3 phase IGBT inverter 90-73
Text: A SPICE MODEL FOR IGBTs A. F. Petrie, Independent Consultant, 7 W. Lillian Ave., Arlington Heights, IL 60004 Charles Hymowitz, Intusoft, 222 West 6th St. Suite 1070, San Pedro, CA 90731, 310 833-0710, FAX (310) 833-9658, E-mail [email protected]
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XQ22
Abstract: BR924 KL1012 XQ20 H12A05 KL-23
Text: MAX3265 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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MAX3265
TSSOP16
XQ22
BR924
KL1012
XQ20
H12A05
KL-23
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schottky marking lk
Abstract: SDM03U40 J-STD-020A SDM03U40-7
Text: SDM03U40 SURFACE MOUNT SCHOTTKY BARRIER DIODE SPICE MODEL: SDM03U40 • · · · Low Forward Voltage Drop Guard Ring Die Construction for Transient Protection Ideal for low logic level applications Low Capacitance CATHODE MARK · · · · · Case: SOD-523, Molded Plastic
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SDM03U40
OD-523
OD-523,
J-STD-020A
MIL-STD-202,
DS30392
schottky marking lk
SDM03U40
J-STD-020A
SDM03U40-7
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DE275X2-102N06A
Abstract: 102N06 DE275X2 102N06A 400P DE-27
Text: Directed Energy, Inc. IXYS Company An ♦ ♦ ♦ ♦ ♦ DE275X2-102N06A RF Power MOSFET Preliminary Data Sheet Common Source Push-Pull Pair N-Channel Enhancement Mode Low Qg and Rg High dv/dt Nanosecond Switching The DE275X2-102N06A is a matched pair of RF power MOSFET devices in
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DE275X2-102N06A
DE275X2-102N06A
102N06
DE275X2
102N06A
400P
DE-27
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Untitled
Abstract: No abstract text available
Text: DE150-102N02A RF Power MOSFET N-Channel Enhancement Mode Low Qg and Rg High dv/dt Nanosecond Switching Symbol Test Conditions Maximum Ratings VDSS TJ = 25°C to 150°C 1000 V VDGR TJ = 25°C to 150°C; RGS = 1 MΩ 1000 V VGS Continuous ±20 V VGSM Transient
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DE150-102N02A
500Pf
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FMMTA13
Abstract: No abstract text available
Text: FMMTA12 FMMTA13 FMMTA14 SOT23 NPN SILICON PLANAR DARLINGTON TRANSISTORS ISSUE 3 - OCTOBER 1995 CO M PLEM ENTARY T Y PES- P A R T M A R K IN G D E T A IL S - FMM TA12 - NONE FM M TA13 - FM M TA63 FM M TA14 - FM M TA64 F M M T A 1 2 - 3W F M M T A 1 3 - 1M F M M T A 1 4-1N
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FMMTA12
FMMTA13
FMMTA14
FMMTA12
FMMTA13/14
100mA,
FMMTA13/14
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L1N08LE
Abstract: Rlp1N08le
Text: RLP1N08LE S e m ic o n d u c to r April 1999 Data Sheet File Num ber 2252.3 Features 1A, 80V, 0.750 Ohm, Current Limited, N-Channel Power MOSFET • 1A, 80V T he R LP 1N 08L E is a s e m i-sm a rt m on olithic po w e r circu it w h ich in co rp o ra te s a lateral b ipo lar transistor, tw o resistors,
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RLP1N08LE
750i2
11E-3
23E-5)
54E-3
1e-30
32E-10
L1N08LE
Rlp1N08le
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Untitled
Abstract: No abstract text available
Text: SIEMENS G aA s-H all Effect S en so r KSY 44 P relim inary Data Features • • • • • • • • • High sensitivity High operating tem perature Sm all linearity error Low offset voltage Low TC of sensitivity S pecified TC of offset voltage Low inductive zero com ponent
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