MACROMODEL 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

NET0260

Abstract: 3845 n equivalent VALUE IC net219 LTspice eldo TSH300
Contextual Info: Development of the Analog Macromodel for TSH300, ultra low-noise high-speed operational amplifier Angelo Marotta angelo.marotta@st.com STMicroelectronics May 2011 Abstract An unified analog macromodel, for Spice-like simulators, was implemented for TSH300 operational amplifier matching the real DC, Transient and AC behavior

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)

tlc22541

Abstract: 2SC2030 std 15007 TLC2254 0E-18 TLC2254A TLC2254AID TLC2254CD TLC2254CN TLC2254CPWLE
Contextual Info: TLC2254, TLC2254A, TLC2254Y Advanced LinCMOS RAIL-TO-RAIL VERY LOW POWER, QUAD OPERATIONAL AMPLIFIERS SLOS142 - DECEMBER 1994 Common-Mode Input Voltage Range Includes Negative Rail Low Input Offset Voltage 850 iV Max at TA = 25°C (TLC2254A Macromodel Included

TLE2081

Abstract: ka bs 89 DDS4115 E 109 01 T40 16 ultrasonic TLE2081A TLE2081ACD TLE2081ACP TLE2081CP TLE2081Y
Contextual Info: TLE2081, TLE2081A, TLE2081Y EXCALIBUR HIGH-SPEED JFET-INPUT OPERATIONAL AMPLIFIERS S L O S 122A -JUNE 1993 - REVISED APRIL 1994 40-V/ns Slew Rate Typ Input Range Includes the Positive Supply High-Gain Bandwidth P ro d u c t. . . 10 MHz Macromodel Included

OPA121

Contextual Info: * OPA121 OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * CREATED USING PARTS RELEASE 4.03 ON 10/15/90 AT 14:41 * REV.A * -* | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE;

MAX954

Abstract: F226 DCM103
Contextual Info: * MAX954 FAMILY MACROMODELS * -* FEATURES: * Op Amp + Comparator * 7uA Typical Supply Current * Comparator and Op Amp Input Range Includes Ground * Outputs Swing Rail to Rail * Internal Comparator Hysteresis * Op Amp Gain Stability 10V/V

00E-6

Abstract: 20E6 OPA129E 100E-9
Contextual Info: * OPA129E operational amplifier "macromodel" subcircuit * "E" is enhanced model * created using Parts release 5.2 on 12/15/94 at 14:58 * REV. A SB * * -* | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE;

UAF42E

Abstract: 10E6 UAF42
Contextual Info: * UAF42E OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "E" IS ENHANCED MODEL * SUBCIRCUIT AMP_UAFE CREATED USING PARTS RELEASE 4.03 ON 10/17/90 AT 14:54 * * UAF42E = 4x AMP_UAFE + PRECISION RESISTORS AND CAPS * * REV.B 3/21/92 BCB added input bias current error correction to AMP_UAFE

ISS 99 diode

Abstract: OPT201 OPT201KP 30E-9
Contextual Info: * OPT201 INTEGRATED PHOTODIODE AND AMPLIFIER MACROMODEL * * CREATED USING PARTS 3/18/93 WM * REV.A * -* | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE; | * | HOWEVER; BURR-BROWN ASSUMES NO RESPONSIBILITY FOR INACCURACIES OR

PJ 3236

Abstract: 50E-12 20E-3 40E-12 OPA2604M
Contextual Info: * OPA2604M OPERATIONAL AMPLIFIER "MACROMODEL" SUBCIRCUIT * "M" IS MULTIPLE POLE/ZERO TOPOLOGY * CREATED 7/8/92 BCB * REV.A * * -* | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE;

C23P

Contextual Info: * OPA646X - LOW POWER, WIDE BANDWIDTH OPERATIONAL AMPLIFIER MACROMODEL * * CREATED 11/21/93 DS * REV. A * * -* | NOTICE: THE INFORMATION PROVIDED HEREIN IS BELIEVED TO BE RELIABLE;

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