MACROMODELS Search Results

Contextual Info: MAX3785 Output Model 6.25Gbps 1.8V Board 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

avo 20-80

Abstract: CT 4407 TLE2027 TLE2237 TLE2237CDW TLE2237CDWR TLE2237CP TLE2237Y 6BL7 VCC-20UT
Contextual Info: TLE2237 TLE2237Y EXCALIBUR LOW-NOISE HIGH-SPEED PRECISION DECOMPENSATED DUAL OPERATIONAL AMPLIFIERS SL.OSIO8 B - SEPTEMBER 1991 - REVISED AUGUST 1994 • Available In 16-Pin Small-Outline Wide-Body Package Output Features Saturation Recovery Circuitry Macromodels and Statistical information

H12A05

Contextual Info: 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

1P NPN

Abstract: TC227 AX3910
Contextual Info: MAX3910u/d 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

max3963

Contextual Info: 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)

npn TTL LOGIC pspice model

Abstract: vcsel spice model
Contextual Info: 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

c4001 transistor

Abstract: transistor c4001 k0203 TC182 3004 transistor
Contextual Info: MAX3885ECB 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 (PECL), and Low

TC227

Contextual Info: 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

vcsel spice model

Contextual Info: 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

75188N

Abstract: LED pspice model
Contextual Info: 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

Contextual Info: MAX3804 I/O Model 10Gbps 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 (PECL), and Low Voltage Differential Signal

TC227

Abstract: N102M024
Contextual Info: MAX3735 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

Contextual Info: 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)

HDE072021

Abstract: laser diode spice model simulation
Contextual Info: 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

MAX409B

Abstract: f5 18u MAX406 MAX406A MAX406B MAX407 MAX409A MAX417 MAX418 MAX419
Contextual Info: * MAX406 FAMILY MACROMODELS * -* FEATURES: * 1.2uA Max Quiescent Current per Amplifier * Low Supply Voltage Operation -+2.5V to +10V * Low Input Current -0.1pA typ. * Input Voltage Range Includes Negative Rail * Output Swings Rail-to-Rail

MAX4304

Abstract: 052E-11 SOT23-8 VA7 MAX4104 MAX4105 MAX4305 D-Sub 50
Contextual Info: * MAX4104 FAMILY MACROMODELS * -* FEATURES: * 625MHz Bandwidth MAX4104 * 730MHz Bandwidth (MAX4304) * 410MHz Bandwidth (MAX4105) * 340MHz Bandwidth (MAX4305) * * Low-Noise and Low-Distortion * 100MHz 0.1dB Gain Flatness * * Available in 5-Pin SOT23

MAX4212

Abstract: DX SOT23-5 V5 SOT23-5
Contextual Info: * MAX4212 FAMILY MACROMODELS * -* FEATURES: * 300MHz -3dB Bandwidth * 600V/uS Slew Rate * 5.5mA Typical Supply Current * 120mA Typical Output Current * Rail-to-Rail Outputs * Available in 5-Pin SOT23-5 MAX4212 * * * PART NUMBER DESCRIPTION

50 Amp 100 volt mosfet

Abstract: D107 MAX4242 D103 D104 F100 MAX4240 MAX4244
Contextual Info: * MAX4240 FAMILY MACROMODELS * -* FEATURES: * Rail-to-Rail Output * Ultra-Low-Voltage * Available in 5-Pin SOT23-5 MAX4240 * 8-Pin uMAX/SO (MAX4242) * 14-Pin SO (MAX4244) * * * PART NUMBER DESCRIPTION * _ _

noise generator

Abstract: rs703 20E6 MAX427 MAX437 "noise generator"
Contextual Info: * MAX427 FAMILY MACROMODELS * -* FEATURES: * 15uV Max Offset Voltage * 60MHz Gain-Bandwidth Product MAX437 * 117dB Min CMRR * Low Noise Performance: 4.5nV/rt.Hz Max (20Hz) * 3.8nV/rt.Hz Max (1KHz) * Available in 8-Pin DIP/SO * * PART NUMBER

1E-14

Abstract: 1E14 MAX4214 MAX4215 MAX4217 MAX4219 MAX4222 1P NPN 2 A 98 10E4 diode
Contextual Info: * * * * * * MAX4214 FAMILY MACROMODELS -FEATURES: 230MHz Gain Bandwidth Product 5.5mA Typical Supply Current Rail-to-Rail I/O * Available in 5-Pin SOT23 MAX4214 * 8-Pin uMAX/SO (MAX4217) * 14-Pin SO/16-Pin QSOP (MAX4222) * * PART NUMBER

ISS 355

Abstract: A1056 dn432 The Monolithic Operational Amplifier A Tutorial LT1056 OP-16 for jfet LF156L op amp model Spice
Contextual Info: DESIGN i NOTES ì ~ 2 1 V T Z ir = n T 7 B TECHNOLOGY Number 43 in a series from Linear Technology Corporation January, 1991 LT1056 Improved JFET Op Amp Macromodel Slews Asymmetrically Walt Jung SPICE macromodels for op amps have been available for some time, for both bipolar1’2 and JFET3 input stage

LT1012 spice model

Abstract: LT1012 500E LT1024
Contextual Info: /'TLTTCAB SPICE MACROMODELS TECHNOLOGY 1X1012 Macromodel Linear Technology LT1012 op amp model with calls for LT1024 Written: 09-05-1989 16:53:38 Type: Bipolar npn input, internal comp. Typical specs: Vos-l.OE-OS, I b = 3 .0E-11, I o s = 2 .0E-11, G B P = 6 .0E+05Hz, Phase mar.= 70 deg,

LM118

Abstract: 000E-19 000E-16 000E-20 332E BF256
Contextual Info: Lll IU \k SPICE MACROMODELS TECHNOLOGY LM118 Macromodel * * * * * * * Linear Techno l o g y LM118 op amp model Written: 11-21-198 9 Type: Bipolar npn input, internal comp. Typical specs: Ref. LM118 data sheet, LTC 1990 databook p2-313 Comments: Uses e x t e n d e d phase compensation; input differential mo d e clamp.

Contextual Info:  MACROMODELS USER MANUAL PRELIMINARY The macromodels contained in this databook operate with the Pspice and SPice simulators and with the ELDO simulator. For most of the macromodels enclosed, no specific precautions are required for use. They are only valid in the supply voltage and temperature conditions defined for each macromodel.