| Part Numbert | Mfg | Packt | D/C | Descriptiont | Qty | Company/Contact |
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MBM29LV320BE-80TR Datasheet Intormation furnished by Linear Technology Corporation is believed to be accurate and reliable However, no responsibility is assumed for its use. Linear Technology Corporation makes no represen tation thatthe interconnection ofits circuits as described herein will notinfringe on existing patent rights MBM29LV320BE-80TR Price
MBM29LV320BE-80TR on stock (Note l) Supply Voltages VEE to AGND ..........~ 0.3V to -70V DGND to AGND (Note 2).. . +1V Digital Pins SCL, SDAIN, SDAOUT, INT, AUTO, RESET SHDN n, ADn................. DGND - 0.3V to DGND + 5V Analog Pins GATEn (Note 3) ................... VEE - 0.3V to VEE + 12V SENSE,7 VEE - 0.3V to VEE+1V OUT,7. ~ VEE - 70V to VEE+70V BYP Current.. . +O.lmA Operating Ambient Temperature Range ...... O'fC t0 70'rC Storage Temperature Range ................ -65'fC t0 150'fC Lead Temperature (Soldering, 10 sec) ................. 300'rC When a transistor is turned on, power is dissipated equal to the product of the voltage across the collector junction and the current through it. As a result, the col- lectorjunction's temperature begins to rise. Eventually, a steady state is reached when the transistor dissipates the same energy supplied to it. This energyis in the form of heat and is given off through the case to the surround- ing environment. The temperature depends upon the power level and the thermal resistance of the device package. Thermal resistance is the ability of the pack- age to conduct heat away from the CPU and into the surrounding environment. A low thermal resistance val- ue means that for a given amount of power, the inte- grated circuit junction will operate at a lower temperature, thereby providing a longer life time. |
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