lmc7101ai-mwa National Semiconductor Corporation, lmc7101ai-mwa Datasheet
lmc7101ai-mwa
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lmc7101ai-mwa Summary of contents
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... PCMCIA cards. The tiny amplifiers can be placed on a board where they are needed, simplifying board layout. Connection Diagram Ordering Information Package Part Number LMC7101AIM5 LMC7101AIM5X 5-Pin SOT23 LMC7101BIM5 LMC7101BIM5X © 2006 National Semiconductor Corporation Features n Tiny SOT23-5 package saves space — typical circuit layouts take half the space of SO-8 designs n Guaranteed specs at 2 ...
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... Storage Temperature Range Junction Temperature (Note 4) Recommended Operating 2000V Conditions ± Supply Voltage Supply Voltage + − 0.3V − 0.3V Temperature Range 16V LMC7101AI, LMC7101BI ± Thermal Resistance (θ ± 5-Pin STO23 35 mA 260˚C + − = 25˚ 2.7V Conditions (Note 5) ...
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... V = 1.5V to 7.5V 80 − −1.5V to −7. kΩ 2 600Ω 2.7 L 0.37 0 1.5V and MΩ LMC7101AI LMC7101BI Limit Limit Units (Note 6) (Note max µV/˚ max max Tera Ω min 0.0 0.0 V min 3.0 3.0 V max ...
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... and MΩ LMC7101AI LMC7101BI Limit Limit (Note 6) (Note 6) Units mV max µV/˚C pA max pA max Tera Ω db min dB min dB min V min V max pF V min V max V min V max mA min mA min mA max Units % V/µs MHz ...
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... Sourcing L Sinking + V = 15V kΩ 15V R = 600Ω Sourcing 12V Sinking 1.5V and MΩ Typ LMC7101AI LMC7101BI Limit Limit (Note 6) (Note 6) 0.11 1 > −0.3 −0.20 −0.20 ...
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... For sinking tests, 2.5V ≤ greater than 12V or reliability will be adversely affected 2.7V, V 01199116 1.5V and MΩ LMC7101AI LMC7101BI Limit Limit (Note 6) (Note 6) 0.5 0.5 0.4 0.4 ≤ 7.5V − 25˚C, unless otherwise A Input Voltage vs. Output Voltage 01199117 Units V/µs ...
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Typical Performance Characteristics specified. (Continued) Gain and Phase vs. Capacitance Load dV vs. Supply Voltage OS Sinking Current vs. Output Voltage + − 2.7V, V Gain and Phase vs. Capacitance Load 01199118 dV vs. Common Mode Voltage ...
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Typical Performance Characteristics Open Loop Frequency Response Input Voltage Noise vs. Input Voltage Sinking Current vs. Output Voltage www.national.com + − 3V 0V, T Input Voltage vs. Output Voltage 01199124 Sourcing Current vs. Output Voltage ...
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Typical Performance Characteristics Open Loop Frequency Response Input Voltage Noise vs. Input Voltage Sinking Current vs. Output Voltage + − 5V 0V, T Input Voltage vs. Output Voltage 01199130 Sourcing Current vs, Output Voltage 01199132 ...
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Typical Performance Characteristics specified. Open Loop Frequency Response Input Voltage Noise vs. Input Voltage Sinking Current vs. Output Voltage www.national.com + − +15V, V Input Voltage vs. Output Voltage 01199136 Sourcing Current vs. Output Voltage 01199138 CMRR ...
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Typical Performance Characteristics specified. (Continued) Supply Current vs. Supply Voltage Output Voltage Swing vs. Supply Voltage Positive PSRR vs. Frequency + − +15V, V Input Current vs. Temperature 01199142 Input Voltage Noise vs. Frequency 01199144 Negative PSRR ...
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Typical Performance Characteristics specified. (Continued) CMRR vs. Frequency Open Loop Frequency Response Maximum Output Swing vs. Frequency www.national.com + − +15V 0V, T Open Loop Frequency Response 01199148 @ 25˚C Open Loop Frequency Response 01199150 ...
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Typical Performance Characteristics specified. (Continued) Gain and Phase vs. Capacitive Load Slew Rate vs. Temperature Inverting Small Signal Pulse Response + − +15V, V Output Impedance vs. Frequency 01199154 Slew Rate vs. Supply Voltage 01199156 Inverting Small ...
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Typical Performance Characteristics specified. (Continued) Inverting Small Signal Pulse Response Inverting Large Signal Pulse Response Non-Inverting Small Signal Pulse Response www.national.com + − +15V 0V, T Inverting Large Signal Pulse Response 01199160 Inverting Large Signal ...
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Typical Performance Characteristics specified. (Continued) Non-Inverting Small Signal Pulse Response Non-Inverting Large Signal Pulse Response Stability vs. Capacitive Load + − +15V, V Non-Inverting Large Signal Pulse Response 01199166 Non-Inverting Large Signal Pulse Response 01199168 Stability vs. ...
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Typical Performance Characteristics specified. (Continued) Stability vs. Capacitive Load Stability vs. Capacitive Load www.national.com + − +15V 0V, T Stability vs. Capacitive Load 01199175 Stability vs. Capacitive Load 01199177 16 = 25˚C, unless otherwise A ...
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Application Information 1.0 BENEFITS OF THE LMC7101 TINY AMP Size The small footprint of the SOT 23-5 packaged Tiny amp, (0.120 x 0.118 inches, 3.05 x 3.00 mm) saves space on printed circuit boards, and enable the design of smaller ...
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Application Information 4.0 CAPACITIVE LOAD TOLERANCE The LMC7101 can typically directly drive a 100 pF load with V = 15V at unity gain without oscillating. The unity gain S follower is the most sensitive configuration. Direct capacitive loading reduces the ...
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Application Information SOT-23-5 TAPE AND REEL SPECIFICATION Tape Format Tape Section Leader (Start End) Carrier Trailer (Hub End) Tape Dimensions 8 mm 0.130 0.124 (3.3) (3.15) Tape Size DIM A DIM Ao (Continued) # Cavities Cavity Status 0 (min) Empty ...
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Application Information Reel Dimensions 8 mm 7.00 0.059 0.512 0.795 2.165 330.00 1.50 Tape Size A www.national.com (Continued) 0.331 + 0.059/−0.000 13.00 20.20 55.00 8.40 + 1.50/−0. 01199114 0.567 W1+ 0.078/−0.039 14. ...
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Physical Dimensions inches (millimeters) unless otherwise noted National does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and ...