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LT3050EMSE-3.3 Datasheet(PDF) 5 Page - Linear Technology |
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LT3050EMSE-3.3 Datasheet(HTML) 5 Page - Linear Technology |
5 / 26 page LT3050 Series 5 3050fa Note 1: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime. Absolute maximum input-to-output differential voltage is not achievable with all combinations of rated IN pin and OUT pin voltages. With the IN pin at 50V, the OUT pin may not be pulled below 0V. The total differential voltage from IN to OUT must not exceed ±50V. Note 2: The LT3050 is tested and specified under pulse load conditions such that TJ ~ TA. The LT3050E is 100% production tested at TA = 25°C. Performance at –40°C and 125°C is assured by design, characterization and correlation with statistical process controls. The LT3050I is guaranteed over the full –40°C to 125°C operating junction temperature range. The LT3050MP is 100% tested over the –55°C to 125°C operating junction temperature range. Note 3: The LT3050 adjustable version is tested and specified for these conditions with ADJ pin connected to the OUT pin. Note 4: Maximum junction temperature limits operating conditions. Regulated output voltage specifications do not apply for all possible combinations of input voltage and output current. If operating at the maximum input voltage, limit the output current range. If operating at the maximum output current, limit the input voltage range. Note 5: Dropout voltage is the minimum differential IN-to-OUT voltage needed to maintain regulation at a specified output current. In dropout, the output voltage equals (VIN - VDROPOUT). For some output voltages, minimum input voltage requirements limit dropout voltage. Note 6: To satisfy minimum input voltage requirements, the LT3050 adjustable version is tested and specified for these conditions with an external resistor divider (60k bottom, 440k top) which sets VOUT to 5V. The external resistor divider adds 10μA of DC load on the output. This external current is not factored into GND pin current. Note 7: GND pin current is tested with VIN = VOUT(NOMINAL) + 0.6V and a current source load. GND pin current increases in dropout. For the fixed output voltage versions, an internal resistor divider adds about 10μA to GND pin current. See the GND Pin Current curves in the Typical Performance Characteristics section. Note 8: Current limit varies inversely with the external resistor value tied from the IMAX pin to GND. For detailed information on how to set the IMAX pin resistor value, please see the Operation section. If a programmed current limit is not needed, the IMAX pin must be tied to GND and internal protection circuitry implements short-circuit protection as specified. Note 9: The IMIN fault condition asserts if the output current falls below the IMIN threshold defined by an external resistor from the IMIN pin to GND. For detailed information on how to set the IMIN pin resistor value, please see the Operation section. IMIN settings below the Minimum IMIN Accuracy specification in the Electrical Characteristics section are not guaranteed to ± 10% tolerance. If the IMIN fault condition is not needed, the IMIN pin must be left floating (unconnected). Note 10: The current monitor ratio varies slightly when VIMON ≠ VOUT. For detailed information on how to calculate the output current from the IMON pin, please see the Operation section. If the current monitor function is not needed, the IMON pin must be tied to GND. Note 11: To satisfy requirements for minimum input voltage, current limit is tested at VIN = VOUT(NOMINAL) +1V or VIN = 2.2V, whichever is greater. Note 12: ADJ pin bias current flows out of the ADJ pin: Note 13: SHDN pin current flows into the SHDN pin. Note 14: Reverse output current is tested with the IN pin grounded and the OUT pin forced to the specified voltage. This current flows into the OUT pin and out of the GND pin. Note 15: 100mA of output current does not apply to the full range of input voltage due to the internal current limit foldback. Note 16: The ADJ pin cannot be externally driven for fixed output voltage options. LTC allows the use of a small feedforward capacitor from OUT to ADJ to reduce noise and improve transient response. See the Bypass Capacitance section of the Applications Information. ELECTRICAL CHARACTERISTICS The l denotes the specifications which apply over the full operating temperature range, otherwise specifications are at TA = 25°C. (Note 2) PARAMETER CONDITIONS MIN TYP MAX UNITS Minimum IMIN Threshold Accuracy (Notes 6, 9) LT3050-3.3: 3.9V < VIN < 13.3V, RIMIN = 110K LT3050, LT3050-5: 5.6V < VIN < 15V, RIMIN = 110K l l 0.92 0.9 1.03 1 1.13 1.1 mA mA IMIN Threshold Accuracy (Notes 6, 9) LT3050-3.3: 3.9V < VIN < 13.3V, RIMIN = 11.3K LT3050, LT3050-5: 5.6V < VIN < 15V, RIMIN = 11.3K l l 9.2 9 10.3 10 11.3 11 mA mA Current Monitor Ratio (Notes 6, 10) Ratio = IOUT/IMON ILOAD = 5mA, 25mA, 50mA, 75mA, 100mA LT3050-3.3: VIMON = VOUT, 3.9V < VIN < 13.3V LT3050, LT3050-5: VIMON = VOUT, 5.6V < VIN < 15V l l 95 95 100 100 105 105 |
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