EL2250C Elantec Semiconductor, EL2250C Datasheet
EL2250C
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EL2250C Summary of contents
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... EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps General Description The EL2250C/EL2450C are part of a family of the electronics indus- tries fastest single supply op amps available. Prior single supply op amps have generally been limited to bandwidths and slew rates to that of the EL2250C/EL2450C. The 125MHz bandwidth, 275V/µs slew rate, and 0.05%/0.05° ...
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... EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps Absolute Maximum Ratings Supply Voltage between V and GND S Input Voltage (IN+, IN-) Differential Input Voltage Maximum Output Current Output Short Circuit Duration Important Note: All parameters having Min/Max specifications are guaranteed. Typ values are for information purposes only. Unless otherwise noted, all tests are at the ...
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... Parameter Description V Negative Output ON Voltage Swing [1] I Output Current OUT 1. Internal short circuit protection circuitry has been built into the EL2250C/EL2450C; see the Applications section Closed Loop AC Electrical Characteristics V = +5V, GND = 0V 25° +1.5V Parameter Description BW -3dB Bandwidth (V ...
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... EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps Typical Performance Curves Non-Inverting Frequency Response (Gain) Inverting Frequency Response (Gain) Frequency Response for Various R L Non-Inverting Frequency Response (Phase) Inverting Frequency Response (Phase) Frequency Response for Various 3dB Bandwidth vs Temperature for Non- ...
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... Bandwidth vs Supply Voltage for Non-Inverting Gains 3dB Bandwidth vs Supply Voltage for Inverting Gains Open Loop Gain and Phase vs Frequency EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps Frequency Response for Various Supply PSSR and CMRR vs Frequency Voltages Frequency Response for Various Supply ...
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... EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps Large Signal Step Response +3V S Small Signal Step Response Slew Rate vs Temperature Large Signal Step Response +5V Large Signal Step Response Large Signal Step Response, V Settling Time vs Settling Accuracy Voltage and Current Noise vs Frequency ...
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... Harmonic Distortion vs Frequency Frequency Output Voltage Swing vs Frequency for Output Voltage Swing vs Frequency for THD < 0.1% Unlimited Distortion EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps Differential Gain and Phase for Dual Supply Operation 2nd and 3rd Harmonic Distortion vs Frequency Output Current vs Die Temperature ...
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... EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps Supply Current vs Supply Voltage (per amplifier) Offset Voltage vs Die Temperature (4 Samples) Positive Output Voltage Swing vs Die Temperature 150 to GND L Input Resistance vs Die Temperature Supply Current vs Die Temperature (per amplifier) Input Offset Current and Input Bias ...
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... SEMI G42-88 Single Layer Test Board 1.8 1.54W 1.6 1.4 1.25W 1.2 1 0.8 0.6 0.4 0 100 Ambient Temperature (°C) Simplified Schematic EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps Package Power Dissipation vs Ambient Temp. JEDEC JESD51-3 Low Effective Thermal Conductivity Test Board 1.2 1.042W 1 781W 0.8 0.6 0.4 0.2 0 125 150 0 25 Ambient Temperature (° ...
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... EL2250C/EL2450C will operate from +2.7V to +12V. Performance has been optimized for a single +5V supply. Pins 8 and 4 are the power supply pins on the EL2250C. The positive power supply is connected to pin 8. When used in single supply mode, pin 4 is connected to ground. When used in dual supply mode, the negative power supply is connected to pin 4 ...
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... Figure 1 shows a unity gain connected amplifier EL2250C. Figure 2 shows the complete input video sig- nal applied at the input, as well as the output signal with the negative going sync pulse removed. ...
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... Therefore important to cal- culate the maximum junction temperature for the application to determine if power-supply voltages, load conditions, or package type need to be modified for the EL2250C/EL2450C to remain in the safe operating area. The maximum power dissipation allowed in a package is determined according to [1]: T – ...
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... Figures 3 through 6 below show total single supply volt- age V vs. R for various output voltage swings for the S L PDIP and SO packages. The curves assume WORST EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps CASE conditions +85°C and I A amplifier 6.5mA per ...
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... EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps EL2250C Single Supply Voltage vs R for Various V (PDIP Package) OUT Figure 3. EL2250C Single Supply Voltage vs R for Various V (SO Package) OUT Figure 4. LOAD EL2450C Single Supply Voltage vs R for Various V LOAD EL2450C Single Supply Voltage vs R ...
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... Power Supply Current * ips 7 4 3.2mA * * Models * .model qn npn(is=800e-18 bf=150 tf=0.02nS) .model qpa pnp(is=810e-18 bf=50 tf=0.02nS) .model qp pnp(is=800e-18 bf=54 tf=0.02nS) .model da d(tt=0nS) .ends EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps (one amplifier) 15 ...
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... EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps EL2250C/EL2450C Macromodel (one amplifier) 16 ...
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... EL2250C, EL2450C 125MHz Single Supply Dual/Quad Op Amps General Disclaimer Specifications contained in this data sheet are in effect as of the publication date shown. Elantec, Inc. reserves the right to make changes in the cir- cuitry or specifications contained herein at any time without notice. Elantec, Inc. assumes no responsibility for the use of any circuits described herein and makes no representations that they are free from patent infringement ...