.48 W Resistor Networks & Arrays 6

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Part	Manufacturer	Resistor Type	Mounting Type	Resistance	Rated Power Dissipation (P)	Maximum Operating Temperature	Tolerance	Spacing (Lead)	Element Power Dissipation	Rated Temperature	No. of Functions	Technology	Shape (Package)	No. of Elements	Construction	Packing Method	Size Code	Network Type	Temperature Coef Tracking	No. of Terminals	Package Style (Meter)	Terminal Shape	Sub-Category	First Element Resistance	Minimum Operating Temperature	Temperature Coef (ppm/Cel)	Terminal Finish	Length (Lead)	Height (Package)	Operating Voltage	Length (Package)	JESD-609 Code	Reference Standard	Width (Package)
M8340108K8061FGDSL	Vishay Intertechnology	ARRAY/NETWORK RESISTOR	THROUGH HOLE MOUNT	8060 ohm	.48 W	125 Cel	1 %	2.54 mm	.12 W	70 Cel	4	METAL GLAZE/THICK FILM	RECTANGULAR PACKAGE	1	Molded Case	TUBE	7810	ISOLATED		8	SIP	FLAT	ARRAY/NETWORK RESISTOR	8060 ohm	-55 Cel	100	Tin/Lead (Sn63Pb37)	3.43 mm	4.75 mm	50 V	19.89 mm	e0	MIL-PRF-83401	2.49 mm
M8340108K2002FGD03	Vishay Intertechnology	ARRAY/NETWORK RESISTOR	THROUGH HOLE MOUNT	20000 ohm	.48 W	125 Cel	1 %	2.54 mm	.12 W	70 Cel	4	METAL GLAZE/THICK FILM	RECTANGULAR PACKAGE	1	Rectangular	TUBE		ISOLATED		8	SIP	FLAT	ARRAY/NETWORK RESISTOR	20000 ohm	-55 Cel	100	Tin/Lead (Sn63Pb37)	3.43 mm	4.75 mm	50 V	19.89 mm	e0	MIL-PRF-83401	2.49 mm
M8340108K8061FGD03	Vishay Intertechnology	ARRAY/NETWORK RESISTOR	THROUGH HOLE MOUNT	8060 ohm	.48 W	125 Cel	1 %	2.54 mm	.12 W	70 Cel	4	METAL GLAZE/THICK FILM	RECTANGULAR PACKAGE	1	Molded Case	TUBE	7810	ISOLATED		8	SIP	FLAT	ARRAY/NETWORK RESISTOR	8060 ohm	-55 Cel	100	Tin/Lead (Sn63Pb37)	3.43 mm	4.75 mm	50 V	19.89 mm	e0	MIL-PRF-83401	2.49 mm
M8340108H1002BGUF	Vishay Intertechnology	ARRAY/NETWORK RESISTOR	THROUGH HOLE MOUNT	10000 ohm	.48 W	125 Cel	.1 %	2.54 mm	.00012 W	70 Cel	4	THIN FILM	RECTANGULAR PACKAGE	1	Molded	TUBE	7810	ISOLATED	5 ppm/Cel	8	SIP	FLAT	ARRAY/NETWORK RESISTOR	10000 ohm	-55 Cel	50		3.43 mm	4.75 mm	100 V	19.89 mm		MIL-PRF-83401	2.41 mm
M8340108K2202GGD03	Vishay Intertechnology	ARRAY/NETWORK RESISTOR	THROUGH HOLE MOUNT	22000 ohm	.48 W	125 Cel	2 %	2.54 mm	.12 W	70 Cel	4	METAL GLAZE/THICK FILM	RECTANGULAR PACKAGE	1	Molded Case	TUBE	7810	ISOLATED		8	SIP	FLAT	ARRAY/NETWORK RESISTOR	22000 ohm	-55 Cel	100	Tin/Lead (Sn63Pb37)	3.43 mm	4.75 mm	50 V	19.89 mm	e0	MIL-PRF-83401	2.49 mm
M8340108K4701GGD03	Vishay Intertechnology	ARRAY/NETWORK RESISTOR	THROUGH HOLE MOUNT	4700 ohm	.48 W	125 Cel	2 %	2.54 mm	.12 W	70 Cel	4	METAL GLAZE/THICK FILM	RECTANGULAR PACKAGE	1	Rectangular	TUBE		ISOLATED		8	SIP	FLAT	ARRAY/NETWORK RESISTOR	4700 ohm	-55 Cel	100	Tin/Lead (Sn63Pb37)	3.43 mm	4.75 mm	50 V	19.89 mm	e0	MIL-PRF-83401	2.49 mm

Resistor Networks & Arrays

Resistor networks and arrays are electronic components that are designed to combine multiple resistors into a single package. These components are commonly used in various electronic circuits and applications where multiple resistors are required in a small space. Resistor networks and arrays come in different configurations and types, including isolated and non-isolated networks, bussed and isolated bussed arrays, thick and thin film technologies, and more.

Isolated resistor networks and arrays consist of several isolated resistors that are enclosed in a single package. They are used in applications where separate biasing and matching of each resistor is required. Non-isolated resistor networks and arrays consist of resistors that share a common connection, and they are used in applications where multiple resistors are required for biasing or filtering.

Bussed resistor arrays are designed with a common connection between the resistors in a single package, which simplifies the wiring process and reduces the overall size of the circuit. Isolated bussed resistor arrays, on the other hand, offer the benefits of a bussed resistor array, but with the added isolation of the resistors from each other, which can be beneficial in certain applications.

Thick film resistor networks and arrays are made of a ceramic substrate on which a resistive film is deposited. Thin film resistor networks and arrays, on the other hand, are made by depositing a thin film of metal or metal oxide on a ceramic substrate. These technologies offer different performance characteristics, such as power handling, temperature coefficient, and noise performance.