LMP8601MAX/NOPB National Semiconductor, LMP8601MAX/NOPB Datasheet
LMP8601MAX/NOPB
Specifications of LMP8601MAX/NOPB
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LMP8601MAX/NOPB Summary of contents
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... Reliability qualification is compliant with the requirements and temperature grades defined in the AEC Q100 standard. Typical Applications LMP™ trademark of National Semiconductor Corporation. © 2009 National Semiconductor Corporation LMP8601/LMP8601Q Features Unless otherwise noted, typical values ...
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... Absolute Maximum Ratings If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. ESD Tolerance (Note 4) Human Body For input pins only For all other pins Machine Model Charge Device Model Supply Voltage (V - GND) S Continuous Input Voltage ((− ...
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Symbol Parameter Output Buffer (From A2 (pin 4) to OUT( pin Input Offset Voltage OS A2 Gain (Note 14 Input Bias Current of A2 (Note Output Voltage Swing OUT (Note 11, ...
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Symbol Parameter Output Buffer (From A2 (pin 4) to OUT( pin Input Offset Voltage OS A2 Gain (Note 14 Input Bias Current of A2 (Note Ouput Voltage Swing OUT (Note 11, ...
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Block Diagram Connection Diagram 8-Pin SOIC 20157102 Top View 5 20157105 www.national.com ...
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Pin Descriptions Pin Power Supply 2 6 Inputs 1 8 Filter Network 3 4 Offset 7 Output 5 Ordering Information Package Part Number LMP8601MA LMP8601MAX 8-Pin SOIC LMP8601QMA LMP8601QMAX Automotive Grade (Q) product incorporates enhanced manufacturing and support processes for ...
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Typical Performance Characteristics ≤ ≤ 5V, GND = 0V, −22 V 60V, and vs 3. Input Bias Current Over Temperature (+IN and −IN pins ...
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Input Referred Voltage Noise vs. Frequency Gain vs. Frequency at V CMRR vs. Frequency at V www.national.com 20157110 = 3.3V S 20157111 = 3.3V CMRR vs. Frequency 20157128 8 PSRR vs. Frequency 20157117 Gain vs. Frequency at ...
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Step Response 3.3V S 20157118 Settling Time (Falling Edge 3.3V S 20157120 Settling Time (Rising Edge 3.3V S Step Response at V Settling Time (Falling Edge Settling Time (Rising ...
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Positive Swing vs. R LOAD Positive Swing vs Distribution www.national.com 3.3V S 20157113 LOAD S 20157115 = 3.3V S 20157134 10 Negative Swing vs 3.3V ...
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TCV Distribution OS 20157136 Gain error Distribution 3.3V S 20157138 CMRR Distribution 3.3V S 20157132 Gain Drift Distribution Gain error Distribution at V CMRR Distribution 20157137 = 5V S 20157139 = ...
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Application Information GENERAL The LMP8601 and LMP8601Q are fixed gain differential volt- age precision amplifiers with a gain of 20x and a -22V to +60V input common mode voltage range when operating from a single 5V supply or a -4V ...
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ADDITIONAL SECOND ORDER LOW PASS FILTER The LMP8601/LMP8601Q has a third order Butterworth low- pass characteristic with a typical bandwidth of 60 kHz inte- grated in the preamplifier stage of the part. The bandwidth of the output buffer can be ...
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GAIN ADJUSTMENT The gain of the LMP8601/LMP8601Q is 20; however, this gain can be adjusted as the signal path in between the two internal amplifiers is available on the external pins. R creates a resistive divider together with the internal ...
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From this equation, for a desired value of the gain, the re- quired value of R can be calculated with: i BIDIRECTIONAL CURRENT SENSING The signal on the A1 and OUT pins is ground-referenced when the OFFSET pin is connected ...
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FIGURE 6. Capacitive Load Response at 3.3V FIGURE 7. Capacitive Load Response at 5.0V These figures can be used to estimate the disturbance that will be caused when driving a switched capacitive load. To www.national.com minimize the error signal introduced ...
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FIGURE 9. Low Side Current Sensing Application HIGH SIDE CURRENT SENSING APPLICATION Figure 10 illustrates the the LMP8601/LMP8601Q in a high side sensing application. This application is similar to the low side sensing discussed above, except in this application the ...
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BATTERY CURRENT MONITOR APPLICATION This application example shows how the LMP8601/LM- P8601Q can be used to monitor the current flowing in and out a battery pack. The fact that the LMP8601/LMP8601Q can measure small voltages at a high offset voltage ...
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FIGURE 12. Advanced Battery Charger Application CURRENT LOOP RECEIVER APPLICATION Many industrial applications use transmitters to send a sensor’s analog value to a central control room. The LMP8601/LMP8601Q can be used as a ...
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Physical Dimensions www.national.com inches (millimeters) unless otherwise noted 8Pin SOIC NS Package Number M08A 20 ...
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Notes 21 www.national.com ...
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