AD215–SPECIFICATIONS (Typical @ +25 8 C, VS = 6 15 V dc, 2 k V output load, unless otherwise noted.)AD215AY/BYParameterConditionsMinTypMaxUnits GAIN Range1 1 10 V/V Error G = 1 V/V, No Load on V ± ISO 0.5 ±2 % vs. Temperature 0°C to +85°C +15 ppm/°C –40°C to 0°C +50 ppm/°C vs. Supply Voltage ±(14.5 V dc to 16.5 V dc) +100 ppm/V vs. Isolated Supply Load2 +20 ppm/mA Nonlinearity3 AD215BY Grade ±10 V Output Swing, G = 1 V/V ±0.005 ±0.015 % ±10 V Output Swing, G = 10 V/V ±0.01 % AD215AY Grade ±10 V Output Swing, G = 1 V/V ±0.01 ± 0.025 % ±10 V Output Swing, G = 10 V/V ±0.025 % INPUT VOLTAGE RATINGS Input Voltage Rating G = 1 V/V ±10 V Maximum Safe Differential Range IN+ or IN–, to IN COM ±15 V CMRR of Input Op Amp 100 dB Isolation Voltage Rating4 Input to Output, AC, 60 Hz AD215BY Grade 100% Tested4 1500 V rms AD215AY Grade 100% Tested4 750 V rms IMRR (Isolation Mode Rejection Ratio) RS ≤ 100 Ω (IN+ & IN–), G = 1 V/V, 60 Hz 120 dB RS ≤ 100 Ω (IN+ & IN–), G = 1 V/V, 1 kHz 100 dB RS ≤ 100 Ω (IN+ & IN–), G = 1 V/V, 10 kHz 80 dB RS ≤ 1 kΩ (IN+ & IN–), G = 1 V/V, 60 Hz 105 dB RS ≤ 1 kΩ (IN+ & IN–), G = 1 V/V, 1 kHz 85 dB RS ≤ 1 kΩ (IN+ & IN–), G = 1 V/V, 10 kHz 65 dB Leakage Current, Input to Output 240 V rms, 60 Hz 2 µA rms INPUT IMPEDANCE Differential G = 1 V/V 16 MΩ Common Mode 2i4.5 GΩipF INPUT OFFSET VOLTAGE Initial @ +25°C ±0.4 ±2.0 mV vs. Temperature 0°C to +85°C ±2 µV/°C –40°C to 0°C ±20 µV/°C OUTPUT OFFSET VOLTAGE Initial @ +25°C, Trimmable to Zero 0 –35 –80 mV vs. Temperature 0°C to +85°C ±30 µV/°C –40°C to 0°C ±80 µV/°C vs. Supply Voltage ±350 µV/V vs. Isolated Supply Load2 –35 µV/mA INPUT BIAS CURRENT Initial @ +25°C 300 nA vs. Temperature –40°C to +85°C ±400 nA INPUT DIFFERENCE CURRENT Initial @ +25°C ±3 nA vs. Temperature –40°C to +85°C ±40 nA INPUT VOLTAGE NOISE Input Voltage Noise Frequency > 10 Hz 20 nV/√Hz DYNAMIC RESPONSE (2 kΩ Load) Full Signal Bandwidth (–3 dB) G = 1 V/V, 20 V pk-pk Signal 100 120 kHz Transport Delay6 2.2 µs Slew Rate ±10 V Output Swing 6 V/µs Rise Time 10% to 90%, ± 10 V Output Swing 3 µs –2– REV. 0