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MLP2N06CL Datasheet(PDF) 4 Page - ON Semiconductor |
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MLP2N06CL Datasheet(HTML) 4 Page - ON Semiconductor |
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4 / 7 page  MLP2N06CL http://onsemi.com 4 Figure 5. On−Resistance Variation With Temperature TJ, JUNCTION TEMPERATURE (°C) ID = 1 A −50 50 0 100 150 0.6 0.4 0.3 0.2 0.1 0 0.5 VGS = 4 V VGS = 5 V Figure 6. Maximum Avalanche Energy versus Starting Junction Temperature TJ, STARTING JUNCTION TEMPERATURE (°C) ID = 2 A 25 50 75 100 125 150 100 80 60 40 20 0 Figure 7. Drain−Source Sustaining Voltage Variation With Temperature TJ = JUNCTION TEMPERATURE −50 0 150 62.5 62.0 61.5 61.0 60.5 60.0 63.0 63.5 64.0 50 100 ID = 20 mA FORWARD BIASED SAFE OPERATING AREA The FBSOA curves define the maximum drain−to−source voltage and drain current that a device can safely handle when it is forward biased, or when it is on, or being turned on. Because these curves include the limitations of simultaneous high voltage and high current, up to the rating of the device, they are especially useful to designers of linear systems. The curves are based on a case temperature of 25 °C and a maximum junction temperature of 150 °C. Limitations for repetitive pulses at various case temperatures can be determined by using the thermal response curves. ON Semiconductor Application Note, AN569, “Transient Thermal Resistance − General Data and Its Use” provides detailed instructions. MAXIMUM DC VOLTAGE CONSIDERATIONS The maximum drain−to−source voltage that can be continuously applied across the MLP2N06CL when it is in current limit is a function of the power that must be dissipated. This power is determined by the maximum current limit at maximum rated operating temperature (1.8 A at 150 °C) and not the RDS(on). The maximum voltage can be calculated by the following equation: Vsupply = (150 − TA) ID(lim) (RqJC + RqCA) where the value of RqCA is determined by the heatsink that is being used in the application. DUTY CYCLE OPERATION When operating in the duty cycle mode, the maximum drain voltage can be increased. The maximum operating temperature is related to the duty cycle (DC) by the following equation: TC = (VDS x ID x DC x RqCA) + TA The maximum value of VDS applied when operating in a duty cycle mode can be approximated by: VDS = 150 − TC ID(lim) x DC x RqJC Figure 8. Maximum Rated Forward Bias Safe Operating Area (MLP2N06CL) VDS, DRAIN−TO−SOURCE VOLTAGE (VOLTS) VGS = 10 V SINGLE PULSE TC = 25°C dc 10 ms 100 10 1.0 0.1 0.1 1.0 10 1 ms RDS(on) LIMIT THERMAL LIMIT PACKAGE LIMIT |
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