Philips Semiconductors Product specification Video amplifier NE5592 DESCRIPTION PIN CONFIGURATION The NE5592 is a dual monolithic, two-stage, differential output, wideband video amplifier. It offers a fixed gain of 400 without external components and an adjustable gain from 400 to 0 with one external resistor. The input stage has been designed so that with the addition of a few external reactive elements between the gain select terminals, the circuit can function as a high-pass, low-pass, or band-pass filter. This feature makes the circuit ideal for use as a video or pulse amplifier in communications, magnetic memories, display, video recorder systems, and floppy disk head amplifiers. D, N Packages FEATURES • 110MHz unity gain bandwidth • Adjustable gain from 0 to 400 • Adjustable pass band • No frequency compensation required • Wave shaping with minimal external components IN A1 1 14 OUT A2 IN A2 2 13 OUT A1 GA 3 12 VCC GA 4 11 GB VEE 5 10 GB OUT B1 6 9 IN B2 OUT B2 7 8 IN B1 A B SL00582 Figure 1. Pin Configuration APPLICATIONS • Floppy disk head amplifier • Video amplifier • Pulse amplifier in communications • Magnetic memory • Video recorder systems ORDERING INFORMATION DESCRIPTION TEMPERATURE RANGE ORDER CODE DWG # 14-Pin Plastic Dual In-Line Package (DIP) 0 to 70°C NE5592N SOT27-1 14-Pin Small Outline (SO) package 0 to 70°C NE5592D SOT108-1 EQUIVALENT CIRCUIT +V R1 R2 R8 R10 R9 Q6 Q5 Q4 Q3 R11 OUTPUT 1 INPUT 2 INPUT 1 Q1 Q2 G R12 G R4 R6 Q7A Q7B R7A OUTPUT 2 R1 R7B Q9 R15 R16 Q10 Q11 R13 R14 –V SL00583 Figure 2. Equivalent Circuit 1987 Oct 20 2 853-0888 91020 Philips Semiconductors Product specification Video amplifier NE5592 ABSOLUTE MAXIMUM RATINGS TA=25°C, unless otherwise specified. RATING UNIT VCC Supply voltage PARAMETER ±8 V VIN Differential input voltage ±5 V VCM Common mode Input voltage ±6 V IOUT Output current 10 mA TA Operating temperature range NE5592 0 to +70 °C TSTG Storage temperature range -65 to +150 °C PD MAX Maximum power dissipation, D package 1.03 W N package 1.48 W SYMBOL TA=25°C (still air)1 NOTES: 1. Derate above 25°C at the following rates: D package 8.3mW/°C N package 11.9mW/°C DC ELECTRICAL CHARACTERISTICS TA=+25°C, VSS=±6V, VCM=0, unless otherwise specified. Recommended operating supply voltage is VS = ±6.0V, and gain select pins are connected together. SYMBOL PARAMETER TEST CONDITIONS Typ Max 400 480 600 3 14 UNITS AVOL Differential voltage gain RIN Input resistance CIN Input capacitance 2.5 IOS Input offset current 0.3 3 µA IBIAS Input bias current 5 20 µA Input noise voltage VIN BW 1kHz to 10MHz Common-mode rejection ratio PSRR Supply voltage rejection ratio Channel separation VOS Output offset voltage gain select pins open VCM Output common-mode voltage VOUT Output differential voltage swing ROUT Output resistance ICC Power supply current (total for both sides) V/V kΩ pF 4 nV/√Hz ±1.0 Input voltage range CMRR 1987 Oct 20 RL=2kΩ, VOUT=3VP-P LIMITS Min V VCM ± 1V, f<100kHz VCM ± 1V, f=5MHz 60 93 87 dB dB ∆VS= ± 0.5V 50 85 dB VOUT=1VP-P; f=100kHz (output referenced) RL=1kΩ 65 70 dB RL=∞ RL=∞ 1.5 0.75 V V 3.4 V RL=∞ 2.4 3.1 RL=2kΩ 3.0 4.0 V 20 Ω RL=∞ 3 0.5 0.25 35 44 mA Philips Semiconductors Product specification Video amplifier NE5592 DC ELECTRICAL CHARACTERISTICS VSS=±6V, VCM=0, 0°C ≤ TA ≤ 70°C, unless otherwise specified. Recommended operating supply voltage is VS = ±6.0V, and gain select pins are connected together. SYMBOL PARAMETER LIMITS TEST CONDITIONS Typ Max 350 430 600 1 11 UNITS AVOL Differential voltage gain RIN Input resistance IOS Input offset current 5 µA IBIAS Input bias current 30 µA VIN Input voltage range CMRR Common-mode rejection ratio PSRR Supply voltage rejection ratio RL=2kΩ, VOUT=3VP-P Min VOS kΩ ±1.0 V VCM ± 1V, f<100kHz RS=φ 55 dB ∆VS= ± 0.5V 50 dB VOUT=1VP-P; f=100kHz (output referenced) RL=1kΩ Channel separation V/V 70 dB Output offset voltage gain select pins connected together RL=∞ 1.5 V gain select pins open RL=∞ 1.0 V VOUT Output differential voltage swing ICC Power supply current RL=2kΩ (total for both sides) 2.8 V RL=∞ 47 mA AC ELECTRICAL CHARACTERISTICS TA=+25°C VSS=±6V, VCM=0, unless otherwise specified. Recommended operating supply voltage VS=±6.0V. Gain select pins connected together. SYMBOL PARAMETER BW Bandwidth tR Rise time tPD Propagation delay TEST CIRCUITS LIMITS TEST CONDITIONS Min VOUT=1VP-P Typ 25 VOUT=1VP-P MHz 20 ns 7.5 12 ns TA=25°C unless otherwise specified. 0.2µF 2,9 0.2µF 13,6 1,8 5592 5592 UNITS 15 3,11 VIN Max RL VOUT 14,7 ein 5592 0.2µF 0.2µF 4,10 eOUT eOUT 51 51 51 51 1k 1k 51 51 Radj VS = ±6V TA = 25°C Figure 3. Test Circuits 1987 Oct 20 4 1k 1k SL00584 Philips Semiconductors Product specification Video amplifier NE5592 TYPICAL PERFORMANCE CHARACTERISTICS Differential Overdrive Recovery Time 50 100 OVERDRIVE RECOVERY TIME—ns COMMON MODE REJECTION RATIO —dB Common-Mode Rejection Ratio as a Function of Frequency 90 80 70 60 50 Vs = + 6V TA = 25oC RS = 0 VIN = 2V p-p 40 30 20 10 45 40 Vs = + 6V TA = 25oC 35 30 25 20 15 10 5 0 0 105 106 107 0 108 FREQUENCY — Hz 40 80 120 160 200 DIFFERENTIAL INPUT VOLTAGE—mV SL00585 SL00588 Figure 4. Figure 7. Output Voltage Swing as a Function of Frequency Pulse Response as a Function of Supply Voltage 1.6 OUTPUT VOLTAGE—V OUTPUT VOLTAGE—Vp-p 6 5 4 3 Vs = + 6V RL = 1kΩ TA = 25oC 2 1 1.4 RL = 1kΩ TA = 25oC Vs = + 8V 1.2 1 Vs = + 6V 0.8 0.6 0.4 Vs = + 3V 0.2 0 0 104 105 106 107 FREQUENCY — Hz –15–10 –5 108 0 5 10 15 20 25 30 35 TIME—nS SL00586 SL00589 Figure 5. Figure 8. Channel Separation as a Function of Frequency Pulse Response as a Function of Temperature 1.4 RL = 1kΩ TA = 25oC –10 –20 OUTPUT VOLTAGE—V CHANNEL SEPARATON—dB 1.6 0 –30 –40 –50 –60 –70 –80 1.2 Vs = + 6V RL = 1kΩ TA = 0oC 1 0.8 0.6 0.4 TA = 25oC 0.2 TA = 70oC 0 –0.2 –0.4 –90 105 106 107 108 109 –15–10 –5 FREQUENCY — Hz 0 5 10 15 20 25 30 35 TIME—nS SL00587 SL00590 Figure 6. 1987 Oct 20 Figure 9. 5 Philips Semiconductors Product specification Video amplifier NE5592 TYPICAL PERFORMANCE CHARACTERISTICS (Continued) Gain vs Frequency as a Function of Supply Voltage 60 1.6 0.8 TA = 25oC RL = 1kΩ VS = +8V Vs = + 6V RL = 1kΩ f = 1MHz 1.2 50 VOLTAGE GAIN—dB RELATIVE VOLTAGE GAIN—dB Voltage Gain as a Function of Temperature 0.4 0 –0.4 –0.8 40 VS = +6V 30 VS = +3V 20 –1.2 –1.6 0 10 20 30 40 50 60 10 70 105 TEMPERATURE: °C 106 107 108 109 fFREQUENCY—Hz SL00591 SL00594 Figure 10. Figure 13. Gain vs Frequency as a Function of Temperature Phase vs Frequency as a Function of Supply Voltage TA = VOLTAGE GAIN—dB 50 PHASE SHIFT – DEGREES 60 0oC 40 TA = 25oC 30 TA = 70oC Vs = + 6V RL = 1kΩ 20 TA = 25oC RL = 1kΩ 0 30 60 90 VS = +8V 120 150 VS = +6V 180 VS = +3V 210 240 10 105 106 107 108 FREQUENCY — Hz 109 105 106 107 108 109 fFREQUENCY—Hz SL00592 SL00595 Figure 11. Figure 14. Voltage Gain as a Function of Supply Voltage Voltage Gain as a Function of RADJ 103 4 F = 100kHz TA = 25oC 2 VOLTAGE GAIN VOLTAGE GAIN—dB 3 1 0 –1 –2 –3 TA = 25oC RL = +6V 102 10 1 –4 –5 –6 3 4 5 6 SUPPLY VOLTAGE—V 7 10–1 8 1 10 102 104 103 105 RADJ – OHMS SL00596 SL00593 Figure 12. 1987 Oct 20 106 Figure 15. 6 Philips Semiconductors Product specification Video amplifier NE5592 TYPICAL PERFORMANCE CHARACTERISTICS (Continued) Supply Current as a Function of Temperature Output Voltage Swing as a Function of Load Resistance OUTPUT VOLTAGE SWING-Vp–p 35 SUPPLY CURRENT—mA VS = +6V 34 33 VS = +6V 4 TA = 2oC 3 2 1 0 32 0 10 20 30 40 50 TEMPERATURE – oC 60 105 70 106 107 LOAD RESISTANCE – OHMS 108 SL00597 SL00600 Figure 16. Figure 19. Supply Current as a Function of Supply Voltage Input Resistance as a Function of Temperature 25 TA = 25oC 40 GAIN 1 VS = +6V INPUT RESISTANCE – kΩ SUPPLY CURRENT—mA 50 30 20 10 20 15 0 10 3 4 5 6 7 SUPPLY VOLTAGE – +V 0 8 10 20 30 40 50 60 70 TEMPERATURE – oC SL00601 SL00598 Figure 20. Output Voltage Swing and Sink Current as a Function of Supply Voltage Input Noise Voltage as a Function of Frequency ____ INPUT NOISE VOLTAGE – nV/ √ Hz Figure 17. OUTPUT VOLTAGE SWING—VP OUTPUT SINK CURRENT-mA 6 TA = 25oC 5 VS = +6V 1000 4 VOLTAGE 3 CURRENT 2 1 RS = 100Ω 100 10 1 0 3 4 5 6 7 SUPPLY VOLTAGE – +V 1 8 102 104 106 108 FREQUENCY – Hz 1010 SL00602 SL00599 Figure 18. 1987 Oct 20 TA = 25oC Figure 21. 7