FAIRCHILD LINEAR INTEGRATED CIRCUITS A747 TYPICAL PERFORMANCE CURVES FOR yA747A, LAT747C, uA747 AND pA747E POWER CONSUMPTION AS A FUNCTION OF OPEN LOOP VOLTAGE GAIN AS A FUNCTION OF OPEN LOOP PHASE RESPONSE AS A FUNCTION OF POWER CONSUMPTION mW INPUT OFFSET CURRENT - nA SUPPLY VOLTAGE FREQUENCY FREQUENCY oO Ta= 25C Vg = 15 Ta = +286 45 z 3 8 3 = 3 2 N > & 135 180 1 10 100, Tk 10k 100k 1M 10M 1 10 100 Tk 10k 1008 1M 10M SUPPLY VOLTAGE ~ :v INPUT OFFSET CURRENT AS A FUNCTION OF SUPPLY VOLTAGE Tate INPUT RESISTANCE - & SUPPLY VOLTAGE - +V FREQUENCY Hz INPUT RESISTANCE AND INPUT CAPACITANCE ASA FUNCTION OF FREQUENCY 10M 100 INPUT CAPACITANCE - of OUTPUT RESISTANCE 2. 10k 1 1k 10k 100k 1M FREQUENCY Hz FREQUENCY Hr OUTPUT RESISTANCE AS A FUNCTION OF FREQUENCY Vg>' Ta ec FREQUENCY ~ Hz OUTPUT VOLTAGE SWING AS A FUNCTION OF LOAD RESISTANCE OUTPUT VOLTAGE SWING AS A FUNCTION OF FREQUENCY Vvg= Tat 25 C PEAK-TO PEAK OUTPUT SWING Vv 1 02 05 1020 LOAD RESISTANCE ~ KS INPUT NOISE VOLTAGE AS A FUNCTION OF FREQUENCY PEAK-TO-PEAK OUTPUT SWING V FREQUENCY He INPUT NOISE CURRENT AS A FUNCTION OF FREQUENCY Vg=t Ta 25C = 30kT BROADBAND NOISE FOR VARIOUS BANDWIDTHS 1920 Vg=* = 25C a 8 8 1923 3 = 1628 MEAN SQUARE NGISE CURRENT ~ A2/Hz TOTAL NOISE REFERRED TO INPUT - pVrms 1918 1625 100 Ik 10k 100k SQUACE RESISTANCE - 10 100 1k 10k 100k FREQUENCY - He FREQUENCY - Hz 12-100FAIRCHILD LINEAR INTEGRATED CIRCUITS: #A747 UATATA ELECTRICAL CHARACTERISTICS 5 V < Vg < #20 V, Ta = 25C unless otherwise specified) PARAMETERS CONDITIONS MIN TYP MAX UNITS Input Offset Voltage Rg < 502 08 3.0 mv _ Average Input Offset , Voltage Drift 16 uvirc Input Offset Current 3.0 30 nA Average Input Offset Tp = 25C to 125C 0.2 nArc Current Drift Tp = 55C to +25C 0s narc Input Bias Current 30 80 nA Vg = +10, 20; Vg = +20 V, -10 V 0.2 Power Supply Rejection Ratio 15 50 aviv Rg = 502 Vs = #20 V, Vin = +15 V Common Mode Rejection Ratio s V. Vin = 15 80 95 dB Rg = 509 Adjustment for Input Offset Voitage Vs =+20V 10 mV Output Short Circuit Current 10 25 35 mA Power Dissipation Vg = +20 V_per Channel 80 150 mw Input Impedance Vg =120V 1.0 6 MQ Vg =#20V,RUL = 2k2 Large Signal Voitage Gain s= #2 t 50 Vimv Vout =215V Transient Response Rise Time 0.25 0.8 us (Unity Gain) Overshoot 6.0 20 % Bandwidth (Note 4) 0.437 1.5 MHz Slew Rate (Unity Gain) Vin =+#10V 0.3 0.7 V/s The following specifications apply for 55C < Ta < +125C tnput Offset Voltage 4.0 mV input Offset Current 70 nA Input Bias Current 210 nA Output Short Circuit Current 10 40 mA 58C 165 mw Power Dissipation Vg =+20V pee s +125C 135 mW input Impedance Vg = +t20V 0.5 MQ = Ry = 10k2 +16 Vv Output Voltage Swing Vg = #20V. AL RL = 2kQ 15 Vv Vs = #20 V,R_ =2k2,V =+15V 32 VimvV Large Signal Voltage Gain S L 2. Vout Vg=+ 5V,RL =2kQ,VouTzt 2V 10 Vimv Channel Separation Vg =+20V 100 cB NOTES: 1. Rating applies to ambient temperatures uo to 70C. Above 70C ambient derate linearly at 6.3 mW/C for the Metal Can, 8.3 mW/C for the DIP. 2. For supply voltages less than +15 V, the absolute maximum input voltage is equal to the supply voltage. 3. Short circuit may be to ground or either supply. Rating applies to +125C case temperature or 75C ambient temperature. 4. Calculated value from: BW (MHz) = 2:35 RISE TIME (us) 12-95FAIRCHILD LINEAR INTEGRATED CIRCUITS A747 (NPUT BIAS CURRENT - cA INPUT OF FSET CURRENT nA INPUT BIAS CURRENT nA POWER CONSUMPTION mw 100 TYPICAL PERFORMANCE CURVES FOR vA747A AND 1: A747 INPUT BIAS CURRENT AS A FUNCTION OF AMBIENT TEMPERATURE ~80 20 20 60 100 140 TEMPERATURE "C INPUT OFFSET CURRENT AS A FUNCTION OF AMBIENT TEMPERATURE TEMPERATURE C INPUT RESISTANCE AS A FUNCTION OF AMBIENT TEMPERATURE te INPUT RESISTANCE MQ. 60 -20 20 60 400 140 TEMPERATURE C POWER CONSUMPTION AS A FUNCTION OF AMBIENT TEMPERATURE POWER CONSUMPTION mW ~60 -20 20 60 100 140 TEMPERATURE ~ C QUTPUT SHORT-CIRCUIT CURRENT AS A FUNCTION OF AMBIENT TEMPERATURE xs 25 20 SHORT CIRCUIT CURRENT ~ mA TEMPERATURE ~ C FREQUENCY CHARACTERISTICS AS A FUNCTION OF AMBIENT TEMPERATURE RELATIVE V; 60 ~20 20 60 100 140 TEMPERATURE - C TYPICAL PERFORMANCE CURVES FOR yu A747E AND yA747C INPUT BIAS CURRENT AS A FUNCTION OF AMBIENT TEMPERATURE Vg = #15V TEMPERATURE C POWER CONSUMPTION AS A FUNCTION OF AMBIENT TEMPERATURE Vg 120V 10 40 TEMPERATURE - *C INPUT RESISTANCE AS A FUNCTION OF AMBIENT TEMPERATURE INPUT RESISTANCE - MQ Vg = *18V oO 0 2 OD 4 580 680 70 TEMPERATURE C OUTPUT SHORT CIRCUIT CURRENT AS A FUNCTION OF AMBIENT TEMPERATURE ~ 28 SHORT-CIRCUIT CURRENT mA 0 0 2 3% 6% 50 6 670 TEMPERATURE C INPUT OFFSET CURRENT AS A FUNCTION OF AMBIENT TEMPERATURE INPUT OFFSET CURRENT na Vg <15 TEMPERATURE ~ C FREQUENCY CHARACTERISTICS AS A FUNCTION OF AMBIENT TEMPERATURE Vg = 216V RELATIVE VALUE 8 0.96 0.90 a 10 20 3 4070 TEMPERATURE ~ C 12-99