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3.3 - 69 3.3 OM183-5SC - OM186-15ST .707 .697 .750 .500 .835 .815 .695 .685 .165 .155 .200 TYP. .550 .530 .270 .240 .045 .035 .140 TYP. .092 MAX. .065 .055 .005 MECHANICAL OUTLINE PIN CONNECTION Pin 1 - Ground Pin 2 - VOUT Pin 3 - VIN 12 3 PIN CONNECTION 12 3 MECHANICAL SPECIFICATIONS P/N OM183SC and OM184SC JEDEC TO-258AA P/N OM185ST and OM186ST JEDEC TO-257AA MECHANICAL OUTLINE This family of three terminal regulators is easy to use and has all the protection features that are expected in high performance voltage regulators. They are short circuit protected, have safe area protection as well as thermal shutdown to turn off the regulator should the temperature exceed about 165°C. These regulators offer lower dropout voltage and more precise reference tolerance. Further, the reference stability with temperature is improved over older types of regulators. The only circuit difference between using this family and older regulators is that they require an output capacitor for stability. Overload Recovery When power is first turned on, as the input voltage rises, the output follows the input, allowing the regulator to start up into very heavy loads. During the start-up, as the input voltage is rising, the input-to-output voltage differential remains small, allowing the regulator to supply large output currents. With high input voltage, a problem can occur wherein removal of an output short will not allow the output voltage to recover. Older regulators, such as the 7800 series, also exhibited this phenomenon, so it is not unique to the OM183-5. The problem occurs with a heavy output load when the input voltage is high and the output voltage is low, such as immediately after a removal of a short. The load line for such a load may intersect the output current curve at two points. If this happens, there are two stable output operating points for the regulator. With this double intersection, the power supply may need to be cycled down to zero and brought up again to make the output recover. Thermal Conditions This series of regulators has internal power and thermal limiting circuitry designed to protect the device under overload conditions. For continuous normal load conditions however, maximum junction temperature ratings must not be exceeded. It is important to give careful consideration to all sources of thermal resistance from junction to ambient. This includes junction to case, case to heat sink interface, and heat sink resistance itself. New thermal resistance specifications have been developed to more accurately reflect device temperature and ensure safe operating temperatures. The data section for these new regulators provides a separate thermal resistance and maximum junction temperature for both the Control Section and the Power Transistor. Previous regulators, with a single junction to case thermal resistance specification, used an average of the two values provided here and therefore could allow excessive junction temperature under certain conditions of ambient temperature and heat sink resistance. To avoid this possibility, calculations should be made for both sections to ensure that both thermal limits are met. Junction-to-case thermal resistance is specified from the IC junction to the bottom of the case directly below the die. This is the lowest resistance path for heat flow. Proper mounting is required to ensure the best possible thermal flow from this area of the package to the heat sink. Thermal compound at the case-to-heat-sink interface is strongly recommended. If the case of the device must be electrically isolated, a thermally conductive spacer can be used, as long as its added contribution to thermal resistance is considered. Note that the case of all devices in this series is electrically connected to the output. APPLICATION NOTES .430 .410 .200 .190 .038 MAX. .005 .120 TYP. .537 .527 .665 .645 .420 .410 .150 .140 .750 .500 .100 TYP. .035 .025 .045 .035 Pin 1 - Ground Pin 2 - VOUT Pin 3 - VIN |
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