National Semiconductor Voltage References 16

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Part	Manufacturer	Other IC type	Temperature Grade	No. of Terminals	Package Code	Package Shape	Surface Mount	Package Body Material	Maximum Supply Current (Isup)	Trim or Adjustable Output (V)	No. of Functions	Technology	Screening Level	Terminal Form	Nominal Supply Voltage (Vsup)	Maximum Voltage Tolerance	Package Style (Meter)	Package Equivalence Code	Sub-Category	Terminal Pitch	Maximum Operating Temperature	Minimum Output Voltage	Minimum Operating Temperature	Max Voltage Temp Coef	Terminal Finish	Maximum Output Voltage	Terminal Position	JESD-30 Code	Moisture Sensitivity Level (MSL)	Maximum Supply Voltage (Vsup)	Maximum Seated Height	Width (mm)	Qualification	Minimum Supply Voltage (Vsup)	Additional Features	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	No. of Outputs	Peak Reflow Temperature (C)	Length	Nominal Output Voltage
LM336Z-2.5X	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	COMMERCIAL	3		ROUND	NO	PLASTIC/EPOXY	10 mA	YES	1	BIPOLAR		WIRE			CYLINDRICAL				70 Cel	2.39 V	0 Cel	54 ppm/Cel		2.59 V	BOTTOM	O-PBCY-W3					Not Qualified					1			2.49 V
LM4040AIZ-3.0/NOPB	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	INDUSTRIAL	3		ROUND	NO	PLASTIC/EPOXY		NO	1	BIPOLAR		THROUGH-HOLE		.1 %	CYLINDRICAL	SIP3,.1,50	Voltage References	1.27 mm	85 Cel	2.978 V	-40 Cel	100 ppm/Cel	Tin/Copper (Sn/Cu)	3.022 V	BOTTOM	O-PBCY-T3	1				Not Qualified			e2	40	1	260		3 V
LM336Z-5.0/T7	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	COMMERCIAL	3		ROUND	NO	PLASTIC/EPOXY		YES	1	BIPOLAR		WIRE			CYLINDRICAL				70 Cel	4.8 V	0 Cel	54 ppm/Cel	Tin/Lead (Sn85Pb15)	5.2 V	BOTTOM	O-PBCY-W3	1				Not Qualified		ADJUSTABLE FROM 4V TO 6V	e0	40	1	260		5 V
LM199AH/883	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	MILITARY	4		ROUND	NO	METAL	10 mA	NO	1	BIPOLAR	MIL-STD-883	WIRE			CYLINDRICAL	TO-46,4PIN,SHIELD	Voltage References		125 Cel	6.8 V	-55 Cel	10 ppm/Cel		7.1 V	BOTTOM	O-MBCY-W4	1				Not Qualified					1			6.95 V
LH0070-0H-MIL	National Semiconductor	THREE TERMINAL VOLTAGE REFERENCE	MILITARY	3		ROUND	NO	METAL	5 mA	NO	1	BIPOLAR	MIL-STD-883	WIRE		.1 %	CYLINDRICAL	CAN3/4,.2	Voltage References		125 Cel	9.99 V	-55 Cel	40 ppm/Cel	TIN LEAD	10.01 V	BOTTOM	O-MBCY-W3		40 V			Not Qualified	11.4 V		e0		1			10 V
LH0071-1H	National Semiconductor	THREE TERMINAL VOLTAGE REFERENCE	MILITARY	3		ROUND	NO	METAL	5 mA	NO	1	BIPOLAR		WIRE			CYLINDRICAL	CAN3/4,.2	Voltage References		125 Cel	10.2298 V	-55 Cel	16.667 ppm/Cel	TIN LEAD	10.2502 V	BOTTOM	O-MBCY-W3		40 V			Not Qualified	11.4 V		e0		1			10.24 V
LH0070-1H-MIL	National Semiconductor	THREE TERMINAL VOLTAGE REFERENCE	MILITARY	3		ROUND	NO	METAL	5 mA	NO	1	BIPOLAR		WIRE		.1 %	CYLINDRICAL	CAN3/4,.2	Voltage References		125 Cel	9.99 V	-55 Cel	20 ppm/Cel	TIN LEAD	10.01 V	BOTTOM	O-MBCY-W3		40 V			Not Qualified	11.4 V		e0		1			10 V
LH0070-2H-MIL	National Semiconductor	THREE TERMINAL VOLTAGE REFERENCE	MILITARY	3		ROUND	NO	METAL	5 mA	NO	1	BIPOLAR		WIRE		.05 %	CYLINDRICAL	CAN3/4,.2	Voltage References		125 Cel	9.995 V	-55 Cel	8 ppm/Cel	TIN LEAD	10.005 V	BOTTOM	O-MBCY-W3		40 V			Not Qualified	11.4 V		e0		1			10 V
LM199AH20/883C	National Semiconductor		MILITARY	4				METAL		NO		BIPOLAR	MIL-STD-883 Class C					TO-46,4PIN,SHIELD	Voltage References		125 Cel		-55 Cel		Tin/Lead (Sn/Pb)								Not Qualified			e0					6.95 V
LM199AH-SMD	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	MILITARY	4		ROUND	NO	METAL		NO	1	BIPOLAR	MIL-STD-883	WIRE		2.2 %	CYLINDRICAL	TO-46,4PIN,SHIELD	Voltage References		125 Cel	6.8 V	-55 Cel	10 ppm/Cel	TIN LEAD	7.1 V	BOTTOM	O-MBCY-W4	1				Not Qualified			e0		1			6.95 V
LM199AH/883B	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	MILITARY	4	TO-92	ROUND	NO	PLASTIC/EPOXY		NO	1	BIPOLAR	MIL-STD-883 Class B	WIRE	30 V		CYLINDRICAL	TO-46,4PIN,SHIELD	Voltage References		125 Cel	6.8 V	-55 Cel	10 ppm/Cel	TIN LEAD	7.1 V	BOTTOM	O-PBCY-W4		40 V			Not Qualified	9 V	BUILT IN TEMPERATURE STABILIZER	e0		1			6.95 V
LM199AH/883C	National Semiconductor		MILITARY	4				METAL		NO		BIPOLAR	MIL-STD-883 Class C					TO-46,4PIN,SHIELD	Voltage References		125 Cel		-55 Cel		Tin/Lead (Sn/Pb)								Not Qualified			e0					6.95 V
LM4040BIM7-3.0/NOPB	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	INDUSTRIAL	5	TSSOP	RECTANGULAR	YES	PLASTIC/EPOXY		NO	1	BIPOLAR		GULL WING		.2 %	SMALL OUTLINE, THIN PROFILE, SHRINK PITCH	TSSOP5/6,.08	Voltage References	.65 mm	85 Cel	2.974 V	-40 Cel	100 ppm/Cel	Matte Tin (Sn)	3.026 V	DUAL	R-PDSO-G5	1		1.1 mm	1.25 mm	Not Qualified			e3	40	1	260	2 mm	3 V
LM4040BIZ-3.0/NOPB	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	INDUSTRIAL	3		ROUND	NO	PLASTIC/EPOXY		NO	1	BIPOLAR		THROUGH-HOLE		.2 %	CYLINDRICAL	SIP3,.1,50	Voltage References	1.27 mm	85 Cel	2.974 V	-40 Cel	100 ppm/Cel	Tin/Copper (Sn/Cu)	3.026 V	BOTTOM	O-PBCY-T3	1				Not Qualified			e2	40	1	260		3 V
LM4041DIM3ADJ	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	INDUSTRIAL	3	TSSOP	RECTANGULAR	YES	PLASTIC/EPOXY	.065 mA	YES	1	BIPOLAR		GULL WING		1 %	SMALL OUTLINE, THIN PROFILE, SHRINK PITCH	TO-236	Voltage References	.95 mm	85 Cel	1.221 V	-40 Cel	150 ppm/Cel	Tin/Lead (Sn/Pb)	1.245 V	DUAL	R-PDSO-G3	1		1.12 mm	1.3 mm	Not Qualified			e0	40	1	260	2.92 mm	1.233 V
LM4040CIM-2.5	National Semiconductor	TWO TERMINAL VOLTAGE REFERENCE	INDUSTRIAL	8	SOP	RECTANGULAR	YES	PLASTIC/EPOXY	15 mA	NO	1	BIPOLAR		GULL WING		.5 %	SMALL OUTLINE	SOP8,.25	Voltage References	1.27 mm	85 Cel	2.471 V	-40 Cel	100 ppm/Cel	TIN LEAD	2.529 V	DUAL	R-PDSO-G8					Not Qualified			e0		1			2.5 V

Voltage References

Voltage references are electronic devices used to provide a stable, precise voltage output that is independent of changes in temperature, load, or input voltage. They are used in a wide range of electronic applications, including instrumentation, data acquisition systems, and power supplies.

Voltage references are typically designed to output a fixed voltage value, such as 2.5V or 5V, and can be based on various technologies, including zener diodes, bandgap references, and temperature-compensated voltage references.

Zener diode-based voltage references work by using the reverse breakdown voltage of a zener diode to generate a stable reference voltage. Bandgap references use the voltage difference between two junctions in a bipolar transistor to generate a stable voltage reference. Temperature-compensated voltage references use a combination of circuit elements to compensate for temperature changes and provide a stable voltage output.

Voltage references typically have a high level of accuracy and low drift over time, making them suitable for use in precision applications. They may also include features such as low power consumption, low noise, and short-circuit protection.