VQCCN Operational Amplifiers (Op Amps) 250

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Part	Manufacturer	Amplifier Type	Temperature Grade	Terminal Form	No. of Terminals	Package Code	Package Shape	Package Body Material	Nominal Unity Gain Bandwidth	Maximum Negative Supply Voltage Limit	Low-Bias	Maximum Input Offset Voltage	Maximum Average Bias Current (IIB)	Surface Mount	No. of Functions	Minimum Common Mode Reject Ratio	Technology	Screening Level	Nominal Common Mode Reject Ratio	Maximum Supply Current	Nominal Negative Supply Voltage (Vsup)	Architecture	Programmable Power	Packing Method	Nominal Supply Voltage / Vsup (V)	Power Supplies (V)	Package Style (Meter)	Package Equivalence Code	Sub-Category	Nominal Slow Rate	Maximum Supply Voltage Limit	Terminal Pitch	Maximum Operating Temperature	Maximum Bias Current (IIB) @25C	Frequency Compensation	Minimum Voltage Gain	Minimum Operating Temperature	Terminal Finish	Terminal Position	Low-Offset	JESD-30 Code	Moisture Sensitivity Level (MSL)	Maximum Seated Height	Width	Qualification	Micropower	JESD-609 Code	Maximum Time At Peak Reflow Temperature (s)	Peak Reflow Temperature (C)	Length	Wideband	Power
TSC210IYQT	STMicroelectronics	Operational Amplifier		No Lead	10	VQCCN	Rectangular		35.25 kHz		No	35 uV	35 uA	Yes	1	105 dB		AEC-Q100	140 dB	115 μA		Voltage Feedback	No	Tape And Reel	5 V		Chip Carrier, Very Thin Profile	LCC10,.06X.07,16		0.2 V/us	26 V	0.016 in (0.4 mm)	125 °C (257 °F)	35 uA	Yes		-40 °C (-40 °F)		Quad	Yes	R-XQCC-N10		0.031 in (0.8 mm)	0.055 in (1.4 mm)		Yes				0.071 in (1.8 mm)	No	No
TSC213IQT	STMicroelectronics	Operational Amplifier		No Lead	10	VQCCN	Rectangular		141 kHz		No	100 uV	35 uA	Yes	1	100 dB			120 dB	115 μA		Voltage Feedback	No	Tape And Reel	5 V		Chip Carrier, Very Thin Profile	LCC10,.06X.07,16		0.85 V/us	26 V	0.016 in (0.4 mm)	125 °C (257 °F)	35 uA	Yes		-40 °C (-40 °F)		Quad	Yes	R-XQCC-N10		0.031 in (0.8 mm)	0.055 in (1.4 mm)		Yes				0.071 in (1.8 mm)	No	No
TSC212IQT	STMicroelectronics	Operational Amplifier		No Lead	10	VQCCN	Rectangular		8.46 kHz		No	35 uV	35 uA	Yes	1	105 dB			140 dB	115 μA		Voltage Feedback	No	Tape And Reel	12 V		Chip Carrier, Very Thin Profile	LCC10,.06X.07,16		0.05 V/us	26 V	0.016 in (0.4 mm)	125 °C (257 °F)	35 uA	Yes		-40 °C (-40 °F)		Quad	Yes	R-XQCC-N10		0.031 in (0.8 mm)	0.055 in (1.4 mm)		Yes				0.071 in (1.8 mm)	No	No
TSC211IQT	STMicroelectronics	Operational Amplifier		No Lead	10	VQCCN	Rectangular		11.28 kHz		No	35 uV	35 uA	Yes	1	105 dB			140 dB	115 μA		Voltage Feedback	No	Tape And Reel	12 V		Chip Carrier, Very Thin Profile	LCC10,.06X.07,16		0.075 V/us	26 V	0.016 in (0.4 mm)	125 °C (257 °F)	35 uA	Yes		-40 °C (-40 °F)		Quad	Yes	R-XQCC-N10		0.031 in (0.8 mm)	0.055 in (1.4 mm)		Yes				0.071 in (1.8 mm)	No	No
TSX634IQ4T	STMicroelectronics	Operational Amplifier	Automotive	No Lead	16	VQCCN	Square		200 kHz			2400 uV	200 pA	Yes	4		CMOS		79 dB					Tape And Reel	5 V		Chip Carrier, Very Thin Profile		Operational Amplifiers	0.12 V/us	18 V	0.02 in (0.5 mm)	125 °C (257 °F)				-40 °C (-40 °F)		Quad		S-XQCC-N16		0.026 in (0.65 mm)	0.118 in (3 mm)						0.118 in (3 mm)
TSX564IQ4T	STMicroelectronics	Operational Amplifier	Automotive	No Lead	16	VQCCN	Square		800 kHz		Yes	2200 uV	200 pA	Yes	4		CMOS		80 dB	1.6 mA		Voltage Feedback		Tape And Reel	3.3 V	±1.5/±8/3/16 V	Chip Carrier, Very Thin Profile	LCC16,.12SQ,20	Operational Amplifiers	1 V/us	18 V	0.02 in (0.5 mm)	125 °C (257 °F)	100 pA	Yes	14100	-40 °C (-40 °F)		Quad	No	S-XQCC-N16		0.026 in (0.65 mm)	0.118 in (3 mm)	No	Yes				0.118 in (3 mm)
TSC213IYQT	STMicroelectronics	Operational Amplifier		No Lead	10	VQCCN	Rectangular		141 kHz		No	100 uV	35 uA	Yes	1	100 dB		AEC-Q100	120 dB	115 μA		Voltage Feedback	No	Tape And Reel	5 V		Chip Carrier, Very Thin Profile	LCC10,.06X.07,16		0.85 V/us	26 V	0.016 in (0.4 mm)	125 °C (257 °F)	35 uA	Yes		-40 °C (-40 °F)	Tin	Quad	Yes	R-XQCC-N10	1	0.031 in (0.8 mm)	0.055 in (1.4 mm)		Yes	e3		260 °C (500 °F)	0.071 in (1.8 mm)	No	No
TSC215IQT	STMicroelectronics	Operational Amplifier		No Lead	10	VQCCN	Rectangular		84.6 kHz		No	60 uV	35 uA	Yes	1	100 dB			120 dB	115 μA		Voltage Feedback	No	Tape And Reel	5 V		Chip Carrier, Very Thin Profile	LCC10,.06X.07,16		0.42 V/us	26 V	0.016 in (0.4 mm)	125 °C (257 °F)	35 uA	Yes		-40 °C (-40 °F)		Quad	Yes	R-XQCC-N10		0.031 in (0.8 mm)	0.055 in (1.4 mm)		Yes				0.071 in (1.8 mm)	No	No
ISL28290FRUZ-T7	Renesas Electronics	Operational Amplifier	Automotive	No Lead	10	VQCCN	Rectangular	Plastic/Epoxy		0 V		900 uV	18 uA	Yes	2				103 dB		0 V				5 V		Chip Carrier, Very Thin Profile		Operational Amplifiers	50 V/us	5.5 V	0.016 in (0.4 mm)	125 °C (257 °F)				-40 °C (-40 °F)	Nickel Palladium Gold	Quad		R-PQCC-N10	3	0.022 in (0.55 mm)	0.055 in (1.4 mm)	No		e4	30 s	260 °C (500 °F)	0.071 in (1.8 mm)
UPD168103K9-5B4-A	Renesas Electronics	Operational Amplifier	Commercial	No Lead	48	VQCCN	Square	Plastic/Epoxy				7000 uV		Yes	1										5 V		Chip Carrier, Very Thin Profile		Operational Amplifiers	0.5 V/us	6 V	0.02 in (0.5 mm)	70 °C (158 °F)				-10 °C (14 °F)		Quad		S-PQCC-N48	4	0.03 in (0.75 mm)	0.276 in (7 mm)	No			10 s	260 °C (500 °F)	0.276 in (7 mm)

Operational Amplifiers (Op Amps)

Operational amplifiers, or op-amps for short, are electronic circuits that provide a high gain amplification of an input voltage signal. They are widely used in electronic circuits for various signal processing tasks due to their versatile nature and high gain characteristics.

An op-amp typically has two input terminals (inverting and non-inverting), an output terminal, and a power supply. The output voltage of the op-amp is proportional to the difference between the voltages at the two input terminals, with the exact gain being determined by the circuit design.

Op-amps can be used in a variety of electronic circuits such as filters, amplifiers, oscillators, and voltage regulators. They can also be used as comparators, with the output switching to one of two voltage levels depending on the relationship between the two input voltages.

One of the main advantages of op-amps is that they can provide a very high gain, making them useful in amplifying small signals or reducing noise. They also have a wide range of input and output impedance, making them compatible with a wide range of electronic circuits. Additionally, op-amps can be designed to have very high input impedance, which means they can detect and amplify signals with minimal loading effects on the circuit they are connected to.