PJ324CS Promax-Johnton, PJ324CS Datasheet
PJ324CS
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PJ324CS Summary of contents
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... The output voltage range also includes the negative power supply voltage. DIP -14 P in: 1.Output 1 2.Input 1 (-) 3.Input 1(+) 4.Vcc 5.Input 2(+) 6.Input 2 (-) 7.Output 2 ORDERING INFORMATION Device Operating Temperature PJ324CD PJ324CS PJ324 Symbol V ± CC IDR V -0 ICR t Continuous ...
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ELECTRICAL CHARACTERISTICS (V Characteristics Input Offset Voltage V =5.0V to 30V -0.7V, Vo=1.4V, Rs=0Ω ICR CC T =25℃ (Note 1) A high low Average Temperature Coefficient of Input Offset ...
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CIRCUIT DESCRIPTION T he PJ324 series is made using four internally compensated, two-stage operational amplifiers first stage of each consists of differential input devices Q20 and Q18 with input buffer transistors Q21 and Q17 and the differential to ...
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Figure 1.Input Voltage Range Figure 3.Large-Signal Frequency Response Figure 5.Power Supply Current versus Power Supply Voltage Quad Low Power Operational Amplifiers Figure 2.Open-Loop Frequency Figure 4.Small-Signal Voltage Follower Pulse Response (Noninverting) Figure 6.Input Bias Current versus Power Supply Voltage 4-7 ...
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Figure 7.Voltage Reference PJ324 Vo = 2.5V (1+ R1/ R2) Figure 9.High Impedance Differential Amplifier PJ324 PJ324 PJ324 e =C (1+a+b) (e2- e1) o Quad Low Power Operational Amplifiers Figure 8.Wlen Bridge Oscillator Figure 10.Comparator with Hysteresis V inL V ...
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Figure 12.Function Ge ne rator PJ324 f= (R1+R2)/ (4CRfR1) R3=(R2R1)/ (R2+R1) Quad Low Power Operational Amplifiers Figure 13.Mulitiple Fe e dback Bandpass Filte r PJ324 Given: fo=center frequency A(fo)=gain at center frequency Choose value fo C Then: R3= Q/(π fo ...
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Quad Low Power Operational Amplifiers MILLIMETERS DIM MIN MAX A 18.55 19.56 B 6.22 6.48 C 3.18 4.43 D 0.35 0.55 G 2.54BSC J 0.29 0.31 K 3.25 3.35 L 7.75 8. 10° MILLIMETERS DIM MIN A 8.55 ...