125 V Fixed Regulators - Positive Single Output LDO 6

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Part	Manufacturer	Regulator Type	No. of Terminals	Package Code	Terminal Form	Maximum Input Voltage Absolute	Maximum Voltage Tolerance	Package Body Material	Maximum Dropout Voltage-1	Surface Mount	Operating Temperature (TJ-Max)	No. of Functions	Technology	Screening Level	Package Shape	Operating Temperature (TJ-Min)	Packing Method	Minimum Output Voltage-1	Nominal Output Voltage-1	Package Style (Meter)	Package Equivalence Code	Adjustability	Terminal Pitch	Maximum Line Regulation	Terminal Finish	Terminal Position	Maximum Output Voltage-1	JESD-30 Code	Moisture Sensitivity Level (MSL)	Maximum Seated Height	Width	Qualification Status	Maximum Load Regulation	Minimum Input Voltage	Maximum Output Current-1	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	No. of Outputs	Peak Reflow Temperature (C)	Nominal Dropout Voltage-1	Length	Maximum Input Voltage
MIC5283-5.0YME-TR	Microchip Technology	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	8	HLSOP	GULL WING	125 V	5 %	PLASTIC/EPOXY	2.8 V	YES	125 Cel	1			RECTANGULAR	-40 Cel	TR	4.75 V	5 V	SMALL OUTLINE, HEAT SINK/SLUG, LOW PROFILE	SOP8,.25	FIXED	1.27 mm	2.75 %	MATTE TIN	DUAL	5.25 V	R-PDSO-G8		1.68 mm	3.94 mm			6 V	.15 A	e3		1		1.8 V	4.93 mm	120 V
MIC5283-5.0YME	Microchip Technology	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	8	HLSOP	GULL WING	125 V	5 %	PLASTIC/EPOXY	2.8 V	YES	125 Cel	1			RECTANGULAR	-40 Cel	TUBE	4.75 V	5 V	SMALL OUTLINE, HEAT SINK/SLUG, LOW PROFILE	SOP8,.25	FIXED	1.27 mm	2.75 %	MATTE TIN	DUAL	5.25 V	R-PDSO-G8	2	1.68 mm	3.94 mm			6 V	.15 A	e3	40	1	260	1.8 V	4.93 mm	120 V
MIC5283-5.0YML-TR	Microchip Technology	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	8	HVSON	NO LEAD	125 V	5 %	UNSPECIFIED	2.8 V	YES	125 Cel	1			SQUARE	-40 Cel	TR	4.75 V	5 V	SMALL OUTLINE, HEAT SINK/SLUG, VERY THIN PROFILE	SOLCC8,.12,25	FIXED	.65 mm	2.75 %	NICKEL PALLADIUM GOLD	DUAL	5.25 V	S-XDSO-N8	1	1 mm	3 mm			6 V	.15 A	e4	40	1	260	1.8 V	3 mm	120 V
MIC5281-5.0YMME-TR	Microchip Technology	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	8	HTSSOP	GULL WING	125 V	5 %	PLASTIC/EPOXY	3 V	YES	125 Cel	1	BICMOS		RECTANGULAR	-40 Cel	TR	4.75 V	5 V	SMALL OUTLINE, HEAT SINK/SLUG, THIN PROFILE, SHRINK PITCH	TSSOP8,.19	FIXED	.65 mm	.025 %	MATTE TIN	DUAL	5.25 V	R-PDSO-G8		1.04 mm	3 mm		.5 %	6 V	.025 A	e3		1		2 V	4.9 mm	120 V
MIC5281-3.3YMM	Microchip Technology	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	8	TSSOP	GULL WING	125 V	5 %	PLASTIC/EPOXY	3 V	YES	125 Cel	1			SQUARE	-40 Cel	TUBE	3.13 V	3.3 V	SMALL OUTLINE, THIN PROFILE, SHRINK PITCH	TSSOP8,.19	FIXED	.65 mm	.0165 %	NICKEL PALLADIUM GOLD	DUAL	3.47 V	S-PDSO-G8	1	1.1 mm	3 mm	Not Qualified	.033 %	6 V	.025 A	e4	40	1	260	2 V	3 mm	120 V
MAQ5281-5.0YMME-VAO	Microchip Technology	FIXED POSITIVE SINGLE OUTPUT LDO REGULATOR	8	HTSSOP	GULL WING	125 V	5 %	PLASTIC/EPOXY	3 V	YES	125 Cel	1		AEC-Q100	SQUARE	-40 Cel	TUBE	4.75 V	5 V	SMALL OUTLINE, HEAT SINK/SLUG, THIN PROFILE, SHRINK PITCH	TSSOP8,.19	FIXED	.65 mm	2.85 %		DUAL	5.25 V	S-PDSO-G8		1.04 mm	3 mm		.05 %	6 V	.025 A			1		2 V	3 mm	120 V

Fixed Regulators - Positive Single Output LDO

Fixed regulators - Positive Single Output LDO, also known as Low Dropout Regulators, are voltage regulators that offer stable and constant output voltage even under high variations of input voltage. They are designed to work with input voltage only slightly above the output voltage, resulting in less energy loss and high efficiency.

LDOs use a feedback loop to maintain a constant output voltage, where the output voltage is compared with an internal reference voltage. Any variation in the output voltage causes the LDO to adjust the current flowing through the pass transistor to maintain the output voltage.

The main advantage of LDOs is their ability to operate with a very low input-to-output voltage differential, making them ideal for applications where low power consumption is required. Additionally, LDOs offer better noise performance and stability compared to other types of regulators, making them suitable for applications such as data acquisition systems and sensitive analog circuits. However, LDOs are not suitable for high current applications due to their low dropout voltage.