LT1022 WUTYPICAL PERFOR A CE CHARACTERISTICSPhase Margin, Gain BandwidthGain vs FrequencyGain, Phase Shift vs FrequencyProduct, Slew Rate vs Temperature 140 30 80 40 V µs) S = ±15V CLMAX ≈ 500pF VS = ±15V GAIN BANDWIDTH PRODUCT (MHz) 120 (AV = +1) 100 CL = 10pF 30 12 100 20 120 SLEW T 11 A = 25°C 80 CL = 10pF 140 SLEW RATE (V/ 20 10 60 10 160 9 GAIN GBW (f = 1MHz) GAIN (dB) TA = –55°C GAIN (dB) PHASE 60 8 40 TA = 125°C 180 CL = 300pF 7 20 0 200 PHASE SHIFT (DEGREES) V 50 6 S = ±15V θ 0 T M A = 25°C 220 CL = 300pF CL = 10pF –20 –10 240 40 1 10 100 1k 10k 100k 1M 10M 100M 1 3 10 30 100 PHASE MARGIN (DEGREES) –50 –25 0 25 50 75 100 125 FREQUENCY (Hz) FREQUENCY (MHz) TEMPERATURE (°C) LT1022 • TPC01 LT1022 • TPC02 LT1022 • TPC03 Undistorted Output Swing vs FrequencySmall-Signal ResponseSettling Time 30 10 VS = ±15V 10mV TA = 25°C 24 5mV 2mV 1mV 0.5mV 5 18 20mV/DIV V 0 S = ±15V T 2mV A = 25°C 12 –5 6 5mV A PEAK-TO-PEAK OUTPUT SWING (V) V = +1 0.2µs/DIV CL = 100pF OUTPUT VOLTAGE SWING FROM 0V (V) 10mV 1mV 0.5mV T 0 A = 25°C –10 100k 1M 10M VS = ±15V 0 1 2 3 FREQUENCY (Hz) SETTLING TIME (µs) LT1022 • TPC04 LT1022 • TPC05 The typical behavior of many LT1022 parameters is identical to the LT1056. Please refer to the LT1055/1056 data sheet for the following typical performance characteristics: Input Bias and Offset Currents vs TemperatureShort Circuit Current vs TimeInput Bias Current Over the Common-Mode RangeOutput Impedance vs FrequencyDistribution of Input Offset Voltage (H and N8 Package)Common Mode Range vs TemperatureDistribution of Offset Voltage Drift with TemperatureCommon Mode and Power Supply Rejections vs TemperatureWarm-Up DriftCommon Mode Rejection Ratio vs FrequencyLong Term Drift of Representative UnitsPower Supply Rejection Ratio vs Frequency0.1Hz to 10Hz NoiseVoltage Gain vs TemperatureVoltage Noise vs FrequencySupply Current vs Supply VoltageNoise vs Chip TemperatureOutput Swing vs Load Resistance 1022fa 4