el2386 Intersil Corporation, el2386 Datasheet
el2386
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el2386 Summary of contents
Page 1
... In spite of its low supply current, the EL2386 can output 55mA while swinging to ±4V on ±5V supplies. These attributes make the EL2386 an excellent choice for low power and/or low voltage cable-driver, HDSL, or RGB applications ...
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... ENABLE Pin Input Current - High IH-EN I ENABLE Pin Input Current - Low IL-EN V Minimum Voltage at ENABLE to Disable DIS V Maximum Voltage at ENABLE to Enable EN 2 EL2386 Internal Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . See Curves - Operating Ambient Temperature Range . . . . . . . . . .-40°C to +85° Operating Junction Temperature . . . . . . . . . . . . . . . . . . . . . . . 150°C Output Current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±60mA = ...
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... Turn-Off Time (Note 2) OFF C Channel Separation S NOTES offset from 0V to 0.714V, AC amplitude 286mV 2. Measured from the application of the logic signal until the output voltage is at the 50% point between initial and final values. 3 EL2386 = ±5V 750Ω 150W, ENABLE = 0V ...
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... Test Circuit (per Amplifier) Simplified Schematic (per Amplifier) 4 EL2386 ...
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... Typical Performance Curves NON-INVERTING REQUENCY RESPONSE (GAIN) INVERTING FREQUENCY RESPONSE (GAIN) TRANSIMPEDANCE ( FREQUENCY 5 EL2386 NON-INVERTING FREQUENCY RESPONSE (PHASE) INVERTING FREQUENCY RESPONSE (PHASE) ) PSRR AND CMRR vs FREQUENCY FREQUENCY RESPONSE FOR VARIOUS R AND FREQUENCY RESPONSE FOR VARIOUS R AND FREQUENCY RESPONSE ...
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... VOLTAGE AND CURRENT NOISE vs FREQUENCY -3dB BANDWIDTH AND PEAKING vs SUPPLY VOLTAGE FOR VARIOUS NON-INVERTING GAINS SUPPLY CURRENT vs SUPPLY VOLTAGE 6 EL2386 (Continued) 2ND AND 3RD HARMONIC DISTORTION vs FREQUENCY -3DB BANDWIDTH AND PEAKING vs SUPPLY VOLTAGE FOR VARIOUS INVERTING GAINS COMMON-MODE INPUT RANGE vs SUPPLY VOLTAGE ...
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... Typical Performance Curves INPUT BIAS CURRENT vs DIE TEMPERATURE -3dB BANDWIDTH AND PEAKING vs DIE TEMPERATURE FOR VARIOUS NON-INVERTING GAINS SUPPLY CURRENT vs DIE TEMPERATURE 7 EL2386 (Continued) SHORT-CIRCUIT CURRENT vs DIE TEMPERATURE -3dB BANDWIDTH vs DIE TEMPERATURE FOR VARIOUS INVERTING GAINS INPUT VOLTAGE RANGE vs DIE TEMPERATURE ...
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... Typical Performance Curves DIFFERENTIAL GAIN AND PHASE vs DC INPUT VOLTAGE AT 3.58MHZ 16-PIN SO MAXIMUM POWER DISSIPATION vs AMBIENT TEMPERATURE SMALL-SIGNAL STEP RESPONSE 8 EL2386 (Continued) DIFFERENTIAL GAIN AND PHASE vs DC INPUT VOLTAGE AT 3.58MHZ SETTLING TIME vs SETTLING ACCURACY CHANNEL TO CHANNEL ISOLATION vs FREQUENCY LARGE-SIGNAL STEP RESPONSE ...
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... Frequency Response for Various and Frequency Response for Various C G Feedback Resistor Values The EL2386 has been designed and specified at gains of +1 and +2 with R = 750Ω. This value of feedback resistor gives F 250MHz of -3dB bandwidth at A peaking, and 180MHz of -3dB bandwidth at A about 0 ...
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... This results in d and d specifications of 0.05% and 0.05° while driving 150Ω gain of +2. Video Performance has also been measured with a 500Ω load at a gain of +1. Under these conditions, the EL2386 has d and d specifications of 0.01% and 0.01° respectively G P while driving 500Ω ...
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... FIGURE 2. Power Dissipation With the high output drive capability of the EL2386 possible to exceed the 150°C Absolute Maximum junction temperature under certain very high load current conditions. Generally speaking, when R falls below about 25Ω important to calculate the maximum junction temperature ...
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... EL2386/ Input Stage * 1.0 vis vxx 1 400 25nH iinp 3 0 1.5µA iinm 2 0 3µA r12 3 0 2Meg * * Slew Rate Limiting * vis 600 dclamp dclamp ...
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... EL2386 Macromodel (Continued) * Error Terms * ivos 0 23 0.2mA vxx 316 r10 25 23 3.2K r11 Models * .model qn npn(is=5e-15 bf=200 tf=0.1nS) .model qp pnp(is=5e-15 bf=200 tf=0.1nS) .model dclamp d(is=1e-30 ibv=0.266 + bv=0.71v n=4) .ends All Intersil U.S. products are manufactured, assembled and tested utilizing ISO9000 quality systems. ...