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LT6200CS6-10PBF Datasheet(PDF) 10 Page - Linear Technology |
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LT6200CS6-10PBF Datasheet(HTML) 10 Page - Linear Technology |
10 / 26 page LT6200/LT6200-5 LT6200-10/LT6201 10 62001fd VOS Distribution, VCM = V+/2 INPUT OFFSET VOLTAGE (μV) –1000 80 70 60 50 40 30 20 10 0 600 6200 G01 –600 –200 200 1000 VS = 5V, 0V SO-8 INPUT OFFSET VOLTAGE (μV) –1600–1200 40 60 1600 6200 G02 20 0 –800 –400 0 400 800 1200 80 30 50 10 70 VS = 5V, 0V SO-8 INPUT OFFSET VOLTAGE (μV) –1600–1200 40 60 1600 6200 G03 20 0 –800 –400 0 400 800 1200 80 30 50 10 70 VS = 5V, 0V SO-8 VOS Distribution, VCM = V+ VOS Distribution, VCM = V– Note 3: A heat sink may be required to keep the junction temperature below the absolute maximum rating when the output is shorted indefinitely. The LT6201 in the DD package is limited by power dissipation to VS ≤ 5V, 0V over the commercial temperature range only. Note 4: The LT6200C/LT6200I and LT6201C/LT6201I are guaranteed functional over the temperature range of –40°C and 85°C (LT6201DD excluded). Note 5: The LT6200C/LT6201C are guaranteed to meet specified performance from 0°C to 70°C. The LT6200C/LT6201C are designed, characterized and expected to meet specified performance from –40°C to 85°C, but are not tested or QA sampled at these temperatures. The LT6200I is guaranteed to meet specified performance from –40°C to 85°C. Note 6: Minimum supply voltage is guaranteed by power supply rejection ratio test. Note 7: Output voltage swings are measured between the output and power supply rails. Note 8: This parameter is not 100% tested. Note 9: Full-power bandwidth is calculated from the slew rate: FPBW = SR/2πVP Note 10: Thermal resistance varies depending upon the amount of PC board metal attached to the V– pin of the device. θJA is specified for a certain amount of 2oz copper metal trace connecting to the V– pin as described in the thermal resistance tables in the Application Information section. Note 11: Matching parameters on the LT6201 are the difference between the two amplifiers. CMRR and PSRR match are defined as follows: CMRR and PSRR are measured in μV/V on the identical amplifiers. The difference is calculated in μV/V. The result is converted to dB. Note 12: There are reverse biased ESD diodes on all inputs and outputs, as shown in Figure 1. If these pins are forced beyond either supply, unlimited current will flow through these diodes. If the current is transient in nature and limited to less than 30mA, no damage to the device will occur. Supply Current vs Supply Voltage Offset Voltage vs Input Common Mode Voltage Input Bias Current vs Common Mode Voltage TOTAL SUPPLY VOLTAGE (V) 0 20 25 30 610 6200 G04 15 10 24 812 14 5 0 TA = 125°C TA = –55°C TA = 25°C INPUT COMMON MODE VOLTAGE (V) 0 –1.5 –1.0 0 0.5 1.0 2 4 5 3.0 6200 G05 –0.5 13 1.5 2.0 2.5 VS = 5V, 0V TYPICAL PART TA = 125°C TA = –55°C TA = 25°C COMMON MODE VOLTAGE (V) –1 0 10 20 24 6200 G06 –10 –20 01 35 6 –30 –40 VS = 5V, 0V TA = 125°C TA = –55°C TA = 25°C ELECTRICAL CHARACTERISTICS TYPICAL PERFORMANCE CHARACTERISTICS |
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