link to page 10 link to page 10 link to page 10 link to page 10 link to page 10 link to page 10 AD708Data SheetTHEORY OF OPERATION CROSSTALK PERFORMANCE The AD708 exhibits very low crosstalk as shown in Figure 25, AVOUTAVIN = ±10V2kΩ Figure 26, and Figure 27. Figure 25 shows the offset voltage induced on Side B of the AD708 when Side A output is moving 10kΩ slowly (0.2 Hz) from −10 V to +10 V under no load. This is the least stressful situation to the part because the overall power in BVOUTB the chip does not change. Only the location of the power in the 10Ω10Ω output device changes. Figure 26 shows the input offset voltage change to Side B when Side A is driving a 2 kΩ load. Here the power changes in the chip with the maximum power change 2V occurring at 7.5 V. Figure 27 shows crosstalk under the most severe conditions. Side A is connected as a follower with 0 V input, and is forced to sink and source ±5 mA of output V current. /DI V1µ Power = (30 V)(5 mA) = 150 mW =SB Even this large change in power causes only an 8 μV (linear) V O Δ change in the input offset voltage of Side B. 026 AVOUTAV 05789- IN = ±10VVOUTA = 2V/DIV10kΩ Figure 26. Crosstalk with 2 kΩ Load IIN = ±5mABVOUTBA2kΩ10Ω10ΩVIN = ±10V10kΩ2VBVOUTB10Ω10ΩV /DI V2V1µ =SBV O ΔV /DI V2µ 025 =SB 05789- V OVΔOUTA = 2V/DIV Figure 25. Crosstalk with No Load 027 05789- INA = 1mA/DIV Figure 27. Crosstalk Under Forced Source and Sink Conditions Rev. D | Page 10 of 16 Document Outline Features Pin Configuration General Description Product Highlights Revision History Specifications Absolute Maximum Ratings ESD Caution Typical Performance Characteristics Matching Characteristics Theory of Operation Crosstalk Performance Operation with a Gain of −100 High Precision Programmable Gain Amplifier Bridge Signal Conditioner Precision Absolute Value Circuit Selection of Passive Components Outline Dimensions Ordering Guide
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