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MIC863 Datasheet(PDF) 4 Page - Micrel Semiconductor |
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MIC863 Datasheet(HTML) 4 Page - Micrel Semiconductor |
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4 / 16 page  MIC863 Micrel MIC863 4 January 2005 Symbol Parameter Condition Min Typ Max Units GBW Gain-Bandwidth Product R L = 200kΩ, CL = 2pF, Av = 11 350 kHz PM Phase Margin R L = 200kΩ, CL = 2pF, Av = 11 65 ° BW –3dB Bandwidth A V = 1, CL = 2pF, RL = 1MΩ 600 kHz SR Slew Rate A V = 1, CL = 2pF, RL = 1MΩ 0.35 V/µs Positive Slew Rate = 0.17V/µs I SC Short-Circuit Output Current Source 4.5 6.3 mA Sink 4.5 6.2 mA I S Supply Current (per Op Amp) No Load 3.6 7 µA Channel to Channel Crosstalk Note 5 –120 dB V+= +5V, V–= 0V, V CM= V+/2; RL= 500kΩ to V+/2; TA= 25°C, unless otherwise noted. Bold values indicate –40°C≤ TA≤ +85°C. V OS Input Offset Voltage –6 0.1 6 mV –5 5 Differential Offset Voltage 0.5 mV Input Offset Voltage Temp Coefficient 6 µV/°C I B Input Bias Current 10 pA I OS Input Offset Current 5pA V CM Input Voltage Range (from V–) CMRR > 60dB 3.5 4.1 V CMRR Common-Mode Rejection Ratio 0 < V CM < 3.5V 60 85 dB PSRR Power Supply Rejection Ratio Supply voltage change from 3V to 5V 60 86 dB A VOL Large-Signal Voltage Gain R L = 100kΩ, VOUT 4.0VPP 73 81 dB R L = 500kΩ, VOUT 4.0VPP 78 88 dB V OUT Maximum Output Voltage Swing R L = 500kΩ V+–3mV V+–1.3mV V V OUT Minimum Output Voltage Swing R L = 500kΩ V–+0.7mV V–+3mV V GBW Gain-Bandwidth Product R L = 200kΩ, CL = 2pF, Av = 11 450 kHz PM Phase Margin 63 ° BW –3dB Bandwidth A V = 1, CL = 2pF, RL = 1MΩ 800 kHz SR Slew Rate A V = 1, CL = 2pF, RL = 1MΩ 0.35 V/µs Positive Slew Rate = 0.2V/µs I SC Short-Circuit Output Current Source 17 23 mA Sink 18 27 mA I S Supply Current (per Op Amp) No Load 4.2 8 µA Channel to Channel Crosstalk Note 5 –120 dB Note 1. Exceeding the absolute maximum rating may damage the device. Note 2. The device is not guaranteed to function outside its operating rating. Note 3. Devices are ESD sensitive. Handling precautions recommended. Human body model, 1.5k in series with 100pF. Pin 4 is ESD sensitive Note 4. Exceeding the maximum differential input voltage will damage the input stage and degrade performance (in particular, input bias current is likely to increase. Note 5. DC signal referenced to input. Refer to Typical Characteristics graphs for AC performance. |
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