el2030 Intersil Corporation, el2030 Datasheet
el2030
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el2030 Summary of contents
Page 1
... Due to its wide operating supply range (±15V) and extremely high slew rate of 2000V/µs, the EL2030 drives ±10V into 200Ω frequency of 30MHz, while achieving 110MHz of small signal bandwidth +2. This bandwidth is still V 95MHz for a gain of +10. On ± ...
Page 2
... OUT V Output Voltage Swing (Note Output Current (Note 4) OUT 2 EL2030 Output Short Circuit Duration . . . . . . . . . . . . . . . . . . . . . Continuous A heat sink is required to keep the junction temperature below absolute maximum when the output is shorted Operating Temperature Range . . . . . . . . . . . .-40°C to +85° Operating Junction Temperature J Plastic Packages 150° ...
Page 3
... Full Power Bandwidth is specified based on Slew Rate measurement FPBW = SR/2 3. Settling Time measurement techniques are shown in: “Take The Guesswork Out of Settling Time Measurements', EDN, September 19, 1985. Available from the factory upon request. 4. NTSC (3.58MHz) and PAL (4.43MHz). 3 EL2030 V = ±15V 200Ω, unless otherwise specified (Continued) S ...
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... FIGURE 1. NTSC VIDEO DIFFERENTIAL GAIN AND PHASE TEST SET-UP Differential Gain and Phase vs Load Resistance, Gain = +1 Differential Gain and Phase vs Load Resistance, Gain = +2 4 EL2030 Differential Gain and Phase Differential Gain and Phase vs Load Capacitance, Gain = +1 vs Supply Voltage, Gain = +1 Differential Gain and Phase ...
Page 5
... FIGURE 2. HDTV AND WIDEBAND VIDEO DIFFERENTIAL GAIN AND PHASE TEST SET-UP Differential Gain Error vs Frequency for Various DC Output Levels Risetime and Overshoot EL2030 (Continued) Differential Phase Error vs Frequency for Various DC Output Levels for F Bandwidth and Peaking vs R for ...
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... Risetime and Overshoot vs R for Risetime and Overshoot vs R for Risetime and Overshoot vs R for ± EL2030 (Continued) Bandwidth and Peaking for Bandwidth and Peaking vs R for Bandwidth and Peaking ...
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... Typical Performance Curves Output Settling Error vs Time ±5V S Output Swing vs Supply Voltage Current Limit vs Temperature 7 EL2030 (Continued) Input Offset Voltage vs Temperature Transimpedance ( Power Supply Rejection vs Frequency Input Bias Current vs Temperature Supply Current vs Supply Voltage Common Mode Rejection vs Frequency ...
Page 8
... Large Signal Response A = +10 750 200Ω ±15V EL2030 (Continued) Long-Term Output Settling Error vs Time 8-Pin Plastic DIP Maximum Power Dissipation vs Ambient Temperature = ±15V = 82Ω, G Long-Term Output Settling Error vs Time ±5V S 20-Pin SOL Maximum Power Dissipation ...
Page 9
... EL2030 In addition, the EL2030 will be destroyed or damaged in the same way for momentary power supply voltage reversals. This could happen, for example, during a power turn on transient the power supply voltages were oscillating and the positive rail were instantaneously negative with respect to the negative rail or vice versa ...
Page 10
... For video applications where a gain of two is used (double termination), the output of the video amplifier will be a maximum of 2V peak-peak. With ±5V power supply, the EL2030 output swing of 3.5V is sufficient to satisfy the video output swing requirements. The EL2030 can drive two double terminated coax cables under these conditions. With ± ...
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... EL2030 Macromodel * Revision A. March 1992 * Enhancements include PSRR, CMRR, and Slew Rate Limiting * Connections: +input * | -input * | | +Vsupply * | | | -Vsupply * | | | | output * | | | | | .subckt M2030 Input Stage * 1.0 vis vxx 1 48nH iinp 3 0 5µA iinm 2 0 10µA ...
Page 12
... EL2030 Macromodel (Continued) vxx r10 r11 Models * .model qn npn (is=5e-15 bf=100 tf=0.1nS) .model qp pnp (is=5e-15 bf=100 tf=0.1nS) .model dclamp d(is=1e-30 ibv=0.266 bv=3.7 n=4) .ends All Intersil U.S. products are manufactured, assembled and tested utilizing ISO9000 quality systems. ...