QCCN Other Function Regulators 11

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Part	Manufacturer	No. of Terminals	Package Code	Terminal Form	Maximum Input Voltage Absolute	Maximum Voltage Tolerance	Package Body Material	Surface Mount	Operating Temperature (TJ-Max)	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	Maximum Line Regulation (%/V)	Sub-Category	Adjustability	Terminal Pitch	Maximum Operating Temperature	Maximum Load Regulation (%)	Maximum Line Regulation	Minimum Operating Temperature	Terminal Finish	Terminal Position	Maximum Output Voltage-1	JESD-30 Code	Qualification Status	Maximum Load Regulation	Maximum Output Current-1	JESD-609 Code	No. of Outputs	Nominal Dropout Voltage-1
TL-SCSI285MFK	Texas Instruments	20	QCCN	NO LEAD	7.5 V	2 %	CERAMIC	YES	125 Cel	BIPOLAR		SQUARE	-55 Cel			2.85 V	CHIP CARRIER	LCC20,.35SQ		Other Regulators	FIXED	1.27 mm			.015 %			QUAD		S-XQCC-N20	Not Qualified	.03 %	.48 A		1	.85 V
UA79M05MFKB	Texas Instruments	20	QCCN	NO LEAD	35 V	5 %	CERAMIC	YES		BIPOLAR	38535Q/M;38534H;883B	SQUARE				-5 V	CHIP CARRIER	LCC20,.35SQ		Other Regulators	FIXED	1.27 mm	150 Cel			-55 Cel		QUAD		S-XQCC-N20	Not Qualified		.5 A		1	2.2 V
UA78M05MFKB	Texas Instruments	20	QCCN	NO LEAD	35 V	6 %	CERAMIC	YES	150 Cel	BIPOLAR	38535Q/M;38534H;883B	SQUARE	-55 Cel			5 V	CHIP CARRIER	LCC20,.35SQ		Other Regulators	FIXED	1.27 mm			.05 %			QUAD		S-XQCC-N20	Not Qualified	.05 %	.5 A		1	2 V
UA79M12MFKB	Texas Instruments		QCCN	NO LEAD	35 V	5 %	CERAMIC	YES	150 Cel	BIPOLAR	38535Q/M;38534H;883B		-55 Cel			-12 V	CHIP CARRIER	LCC(UNSPEC)		Other Regulators	FIXED				.08 %			QUAD			Not Qualified	.24 %	.5 A		1	2.3 V
ADP1753ACPZ	Analog Devices	16	QCCN	NO LEAD			PLASTIC/EPOXY	YES	125 Cel	CMOS		SQUARE	-40 Cel		.5 V		CHIP CARRIER	LCC16,.16SQ,25		Other Regulators	ADJUSTABLE	.635 mm		2 %				QUAD	3 V	S-PQCC-N16	Not Qualified		.8 A		1
MAX5086BATN-T	Analog Devices	56	QCCN	NO LEAD	70 V	3 %	PLASTIC/EPOXY	YES	125 Cel	BICMOS		SQUARE	-40 Cel	TR	2.5 V	5 V	CHIP CARRIER	LCC56,.31SQ,20	.08	Other Regulators	FIXED/ADJUSTABLE	.5 mm		.08 %	.0585 %			QUAD	11 V	S-PQCC-N56	Not Qualified	.004 %	.25 A		1	.9 V
MAX5086BATN+T	Analog Devices	56	QCCN	NO LEAD	70 V	3 %	PLASTIC/EPOXY	YES	125 Cel	BICMOS		SQUARE	-40 Cel	TR	2.5 V	5 V	CHIP CARRIER	LCC56,.31SQ,20	.08	Other Regulators	FIXED/ADJUSTABLE	.5 mm		.08 %	.0585 %			QUAD	11 V	S-PQCC-N56	Not Qualified	.004 %	.25 A		1	.9 V
MAX5086BATE-T	Analog Devices	16	QCCN	NO LEAD	70 V	3 %	PLASTIC/EPOXY	YES	125 Cel	BICMOS		SQUARE	-40 Cel	TR	2.5 V	5 V	CHIP CARRIER	LCC16,.2SQ,32	.08	Other Regulators	FIXED/ADJUSTABLE	.8 mm		.08 %	.0585 %			QUAD	11 V	S-PQCC-N16	Not Qualified	.004 %	.25 A		1	.9 V
OM2990-5.2N2M	Infineon Technologies	20	QCCN	NO LEAD	26 V	5 %	CERAMIC	YES	125 Cel	BIPOLAR	38535Q/M;38534H;883B	SQUARE	-55 Cel			-5.2 V	CHIP CARRIER	LCC20,.35SQ		Other Regulators	FIXED	1.27 mm			.06 %			QUAD		S-XQCC-N20	Not Qualified	.12 %	.3 A		1	1 V
MAX5087AATN	Maxim Integrated	56	QCCN	NO LEAD	70 V	4.5 %	PLASTIC/EPOXY	YES	125 Cel	BICMOS		SQUARE	-40 Cel		2.5 V	3.3 V	CHIP CARRIER	LCC56,.31SQ,20	.02	Other Regulators	FIXED/ADJUSTABLE	.5 mm		.04 %	.0285 %		Tin/Lead (Sn/Pb)	QUAD	11 V	S-PQCC-N56	Not Qualified	.1 %	.4 A	e0	1	.9 V
MAX5087BATN	Maxim Integrated	56	QCCN	NO LEAD	70 V	3 %	PLASTIC/EPOXY	YES	125 Cel	BICMOS		SQUARE	-40 Cel		2.5 V	5 V	CHIP CARRIER	LCC56,.31SQ,20	.04	Other Regulators	FIXED/ADJUSTABLE	.5 mm		.04 %	.057 %		Tin/Lead (Sn/Pb)	QUAD	11 V	S-PQCC-N56	Not Qualified	.1 %	.4 A	e0	1	.9 V

Other Function Regulators

Regulators are electronic circuits designed to maintain a stable output voltage or current in the presence of varying input voltage or load conditions. They are widely used in electronic devices and systems to provide stable and reliable power to various components. In addition to the commonly used fixed and adjustable regulators, there are various other types of regulators available for specific applications.

One type of regulator is the current regulator, which is designed to maintain a constant current in a circuit regardless of the input voltage or load conditions. They are commonly used in LED lighting applications and battery charging circuits. Another type of regulator is the linear regulator, which is designed to regulate the output voltage or current by dissipating excess energy as heat. They are commonly used in audio and video applications.

Switching regulators are another type of regulator that uses a switching element to regulate the output voltage or current. They are more efficient than linear regulators as they do not dissipate excess energy as heat. They are commonly used in power supplies, voltage converters, and battery chargers. Other types of regulators include digital regulators, which use digital control techniques to regulate the output voltage or current, and magnetic regulators, which use magnetic components to regulate the output voltage or current.