COMMERCIAL EXTENDED Analog Computational 11

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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)	No. of Functions	Technology	Nominal Bandwidth	Terminal Form	Maximum Negative Supply Voltage (Vsup)	Nominal Negative Supply Voltage (Vsup)	Nominal Supply Voltage (Vsup)	Power Supplies (V)	Package Style (Meter)	Package Equivalence Code	Sub-Category	Terminal Pitch	Maximum Operating Temperature	Minimum Operating Temperature	Terminal Finish	Terminal Position	JESD-30 Code	Moisture Sensitivity Level (MSL)	Maximum Supply Voltage (Vsup)	Maximum Seated Height	Width (mm)	Qualification	Minimum Supply Voltage (Vsup)	Minimum Negative Supply Voltage (Vsup)	Maximum Negative Input Voltage	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Maximum Positive Input Voltage	Length
LOG101AIDRE4	Texas Instruments	LOG OR ANTILOG AMPLIFIER	COMMERCIAL EXTENDED	8	SOP	RECTANGULAR	YES	PLASTIC/EPOXY	1.5 mA	1	BIPOLAR	.01 kHz	GULL WING	-18 V	-5 V	5 V	+-5	SMALL OUTLINE	SOP8,.25	Analog Computational Functions	1.27 mm	75 Cel	-5 Cel	NICKEL PALLADIUM GOLD	DUAL	R-PDSO-G8	3	18 V	1.75 mm	3.9 mm	Not Qualified	4.5 V	-4.5 V		e4	30	260		4.9 mm
LOG104AIDR	Texas Instruments	LOG OR ANTILOG AMPLIFIER	COMMERCIAL EXTENDED	8	SOP	RECTANGULAR	YES	PLASTIC/EPOXY	1.5 mA	1		.01 kHz	GULL WING	-18 V	-5 V	5 V	+-5	SMALL OUTLINE	SOP8,.25	Analog Computational Functions	1.27 mm	75 Cel	-5 Cel		DUAL	R-PDSO-G8		18 V	1.75 mm	3.9 mm	Not Qualified	4.5 V	-4.5 V	-3.8 V		NOT SPECIFIED	NOT SPECIFIED	3.5 V	4.9 mm
LOG104AIDG4	Texas Instruments	LOG OR ANTILOG AMPLIFIER	COMMERCIAL EXTENDED	8	SOP	RECTANGULAR	YES	PLASTIC/EPOXY	1.5 mA	1		.01 kHz	GULL WING	-18 V	-5 V	5 V	+-5	SMALL OUTLINE	SOP8,.25	Analog Computational Functions	1.27 mm	75 Cel	-5 Cel	NICKEL PALLADIUM GOLD	DUAL	R-PDSO-G8	3	18 V	1.75 mm	3.9 mm	Not Qualified	4.5 V	-4.5 V	-3.8 V	e4	30	260	3.5 V	4.9 mm
LOG104AIDRE4	Texas Instruments	LOG OR ANTILOG AMPLIFIER	COMMERCIAL EXTENDED	8	SOP	RECTANGULAR	YES	PLASTIC/EPOXY	1.5 mA	1		.01 kHz	GULL WING	-18 V	-5 V	5 V	+-5	SMALL OUTLINE	SOP8,.25	Analog Computational Functions	1.27 mm	75 Cel	-5 Cel		DUAL	R-PDSO-G8		18 V	1.75 mm	3.9 mm	Not Qualified	4.5 V	-4.5 V	-3.8 V		NOT SPECIFIED	NOT SPECIFIED	3.5 V	4.9 mm
LA8630MC-AH	Onsemi	COMPANDER	COMMERCIAL EXTENDED	16	SOP	RECTANGULAR	YES	PLASTIC/EPOXY		1			GULL WING			3 V		SMALL OUTLINE			1.27 mm	75 Cel	-20 Cel	TIN	DUAL	R-PDSO-G16	3	6 V	1.75 mm	3.9 mm		2.2 V			e3	30	260		9.9 mm
TDA8780M-T	NXP Semiconductors	LOG OR ANTILOG AMPLIFIER	COMMERCIAL EXTENDED	20	LSSOP	RECTANGULAR	YES	PLASTIC/EPOXY		1	BICMOS	14 kHz	GULL WING			5 V		SMALL OUTLINE, LOW PROFILE, SHRINK PITCH			.65 mm	75 Cel	-20 Cel	NICKEL PALLADIUM GOLD	DUAL	R-PDSO-G20		5.5 V	1.5 mm	4.4 mm	Not Qualified	4.5 V			e4			1 V	6.5 mm
TDA8780M	NXP Semiconductors	LOG OR ANTILOG AMPLIFIER	COMMERCIAL EXTENDED	20	LSSOP	RECTANGULAR	YES	PLASTIC/EPOXY	10 mA	1	BICMOS	14 kHz	GULL WING			5 V		SMALL OUTLINE, LOW PROFILE, SHRINK PITCH	SSOP20,.3	Analog Computational Functions	.65 mm	75 Cel	-20 Cel		DUAL	R-PDSO-G20		5.5 V	1.5 mm	4.4 mm	Not Qualified	4.5 V						1 V	6.5 mm
TDA8781T-T	NXP Semiconductors	LOG OR ANTILOG AMPLIFIER	COMMERCIAL EXTENDED	14	SOP	RECTANGULAR	YES	PLASTIC/EPOXY	10 mA	1		14.9 kHz	GULL WING			5 V		SMALL OUTLINE			1.27 mm	75 Cel	-20 Cel		DUAL	R-PDSO-G14		5.5 V	1.75 mm	3.9 mm	Not Qualified	4.5 V							8.65 mm
TDA8781T	NXP Semiconductors	LOG OR ANTILOG AMPLIFIER	COMMERCIAL EXTENDED	14	SOP	RECTANGULAR	YES	PLASTIC/EPOXY	10 mA	1		14.9 kHz	GULL WING			5 V		SMALL OUTLINE			1.27 mm	75 Cel	-20 Cel		DUAL	R-PDSO-G14		5.5 V	1.75 mm	3.9 mm	Not Qualified	4.5 V							8.65 mm
EL2082CN	Renesas Electronics	ANALOG MULTIPLIER OR DIVIDER	COMMERCIAL EXTENDED	8	DIP	RECTANGULAR	NO	PLASTIC/EPOXY		1	BIPOLAR		THROUGH-HOLE	-15 V				IN-LINE				75 Cel	0 Cel		DUAL	R-PDIP-T8		15 V				5 V	-5 V
EL2082CS	Renesas Electronics	ANALOG MULTIPLIER OR DIVIDER	COMMERCIAL EXTENDED	8	SOP	RECTANGULAR	YES	PLASTIC/EPOXY		1	BIPOLAR		GULL WING	-15 V				SMALL OUTLINE				75 Cel	0 Cel		DUAL	R-PDSO-G8		15 V				5 V	-5 V

Analog Computational

Analog computation refers to the use of electronic circuits to perform mathematical operations using continuous signals, such as voltage or current, rather than discrete digital signals. Analog computers were widely used before the advent of digital computers, and some specialized applications still use analog computation today.

Analog computers use circuits such as operational amplifiers, resistors, capacitors, and inductors to perform mathematical operations. They can perform complex functions such as integration, differentiation, and solving differential equations, which can be difficult or impossible to implement on a digital computer.

Analog computation has advantages in some applications, such as in control systems, where continuous signals are often used to control physical processes. Analog circuits can also be more efficient and less expensive than their digital counterparts in certain applications.

However, analog computation has limitations compared to digital computation, including limitations in accuracy, repeatability, and scalability. Additionally, analog circuits can be sensitive to environmental factors such as temperature and noise, which can affect their performance.