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AD8038AKSZ-REEL7 Datasheet(PDF) 6 Page - Analog Devices |
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AD8038AKSZ-REEL7 Datasheet(HTML) 6 Page - Analog Devices |
6 / 17 page AD8038/AD8039 Rev. G | Page 5 of 16 ABSOLUTE MAXIMUM RATINGS Table 3. Parameter Rating Supply Voltage 12.6 V Power Dissipation See Figure 5 Common-Mode Input Voltage ±VS Differential Input Voltage ±4 V Storage Temperature Range −65°C to +125°C Operating Temperature Range −40°C to +85°C Lead Temperature (Soldering, 10 sec) 300°C Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. MAXIMUM POWER DISSIPATION The maximum safe power dissipation in the AD8038/AD8039 package is limited by the associated rise in junction temperature (TJ) on the die. The plastic encapsulating the die locally reaches the junction temperature. At approximately 150°C, which is the glass transition temperature, the plastic changes its properties. Even temporarily exceeding this temperature limit may change the stresses that the package exerts on the die, permanently shifting the parametric performance of the AD8038/AD8039. Exceeding a junction temperature of 175°C for an extended time can result in changes in the silicon devices, potentially causing failure. The still-air thermal properties of the package and PCB (θJA), ambient temperature (TA), and total power dissipated in the package (PD) determine the junction temperature of the die. The junction temperature can be calculated as TJ = TA + (PD × θJA) The power dissipated in the package (PD) is the sum of the quiescent power dissipation and the power dissipated in the package due to the load drive for all outputs. The quiescent power is the voltage between the supply pins (VS) multiplied by the quiescent current (IS). Assuming the load (RL) is referenced to midsupply, then the total drive power is VS/2 × IOUT, some of which is dissipated in the package and some in the load (VOUT × IOUT). The difference between the total drive power and the load power is the drive power dissipated in the package. PD = quiescent power + (total drive power − load power) PD = [VS × IS] + [(VS/2) × (VOUT/RL)] − [VOUT2/RL] AMBIENT TEMPERATURE (°C) 0 –55 1.0 –25 5 35 65 95 125 1.5 2.0 SOIC-8 0.5 SC70-5 SOT-23-8 Figure 5. Maximum Power Dissipation vs. Temperature for a 4-Layer Board RMS output voltages should be considered. If RL is referenced to VS−, as in single-supply operation, then the total drive power is VS × IOUT. If the rms signal levels are indeterminate, consider the worst case, when VOUT = VS /4 for RL to midsupply PD = (VS × IS) + (VS/4)2/RL In single-supply operation with RL referenced to VS−, worst case is VOUT = VS /2. Airflow increases heat dissipation, effectively reducing θJA. In addition, more metal directly in contact with the package leads from metal traces, throughholes, ground, and power planes reduce the θJA. Care must be taken to minimize parasitic capacitances at the input leads of high speed op amps as discussed in the Layout, Grounding, and Bypassing Considerations section. Figure 5 shows the maximum safe power dissipation in the package vs. the ambient temperature for the 8-lead SOIC (125°C/W), 5-lead SC70 (210°C/W), and 8-lead SOT-23 (160°C/W) packages on a JEDEC standard 4-layer board. θJA values are approximations. OUTPUT SHORT CIRCUIT Shorting the output to ground or drawing excessive current from the AD8038/AD8039 will likely cause a catastrophic failure. ESD CAUTION |
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