Resistor Arrays | Resistor Network | RS
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    Resistor Arrays

    Resistor arrays (also called array resistors) are a type of fixed resistor, a device commonly used in electrical circuits to limit the flow of electricity and where the resistance is set at a specific value that can't be changed. Resistors help to prevent other circuit components from being damaged or destroyed.

    How do resistor arrays work?

    Resistor arrays are made from a combination of several resistors that are configured into a pattern. Although most array resistors use resistors connected in series, some resistor arrays use resistors in parallel or series-parallel designs.

    Where are resistor arrays used?

    Resistor arrays are convenient when you need several resistors that all have one end connected to the same point in your circuit. They're widely used in electronic applications. The most common applications include:

    • Consumer electronics and computers
    • Analogue-to-digital and digital-to-analogue conversion
    • Voltage dividers for power supplies

    Resistor Networks

    A resistor network is a combination of several resistors that are configured into a pattern. They're used in electronic circuits to resist the flow of current and maintain safe currents in electrical devices. You can connect them to other components using solder.

    How do resistor networks work?

    Resistor networks are designed to drop the voltage of current as it flows from one terminal to another. In turn, this protects the electronic circuit against shock, heat and moisture. You can use them for analog-to-digital and digital-to-analogue conversion, as voltage dividers or in computers.

    Types of resistor networks

    There are several different kinds of resistor networks. These include:

    • Single row pins - isolated, individual resistors, each having two pins. Or one common pin with all resistors bussed to remaining pins.
    • Dual row pins - isolated, individual resistors each with two adjacent pins. Alternatively one common pin with all resistors bussed to remaining pins. Dual row pins can also feature isolated, individual resistors each with two adjacent pins.

    They're all comparable by resistance, tolerance and maximum working voltage.

    765 Products showing for Resistor Arrays

    Bourns
    100kΩ
    8
    Network
    SOM
    1.28W
    Standard SMT
    ±2%
    -
    Moulded
    0.16W
    ISOL
    11.18mm
    7.62mm
    2.03mm
    7.62 x 2.03 x 11.18mm
    16
    4800P
    Bourns
    4.7kΩ
    4
    Array
    1206 (3216M)
    0.25W
    Convex
    -
    -
    -
    -
    -
    -
    -
    -
    -
    -
    -
    Vishay
    9 MΩ, 9 kΩ, 90 kΩ, 100 Ω, 900 kΩ, 900Ω
    6
    Network
    SIP
    0.6W
    Pin
    ±0.1%
    -
    Conformal
    0.1W
    VOLT/D
    21.08mm
    2.54mm
    7mm
    2.54 x 7 x 21.08mm
    7
    CNS 471
    Vishay
    2 kΩ, 10kΩ
    4
    Network
    MS 012
    0.4W
    Standard SMT
    ±0.1%
    -
    Moulded
    0.1W
    VOLT/D
    4.93mm
    6.07mm
    1.73mm
    6.07 x 1.73 x 4.93mm
    8
    ORN
    Bourns
    -
    4
    -
    1206 (3216M)
    62.5mW
    -
    0.01
    -
    -
    -
    ISOL
    -
    -
    -
    -
    -
    CATCAY 16
    Bourns
    10kΩ
    8
    Network
    SOM
    1.28W
    Standard SMT
    ±2%
    -
    Moulded
    0.16W
    ISOL
    11.18mm
    7.62mm
    2.03mm
    7.62 x 2.03 x 11.18mm
    16
    4800P
    Bourns
    1kΩ
    7
    Network
    DIP
    2W
    Through Hole
    ±2%
    -
    Moulded
    0.125W
    BUS
    19.43mm
    7.87mm
    4.57mm
    19.43 x 7.87 x 4.57mm
    14
    4100R
    Bourns
    1.5kΩ
    8
    Network
    SIP
    1.13W
    Through Hole
    ±2%
    -
    Conformal
    0.2W
    BUS
    22.81mm
    2.49mm
    5.08mm
    2.49 x 5.08 x 22.81mm
    9
    4600X
    Bourns
    1kΩ
    8
    Network
    DIP
    2.25W
    Through Hole
    ±2%
    -
    Moulded
    0.25W
    ISOL
    21.97mm
    7.87mm
    4.57mm
    7.87 x 4.57 x 21.97mm
    16
    4100R
    Bourns
    47kΩ
    8
    Network
    SIP
    1.13W
    Through Hole
    ±2%
    -
    Conformal
    0.2W
    BUS
    22.81mm
    2.49mm
    5.08mm
    2.49 x 5.08 x 22.81mm
    9
    4600X
    Bourns
    10Ω
    8
    Network
    DIP
    2.25W
    Through Hole
    ±2%
    -
    Moulded
    0.25W
    ISOL
    21.97mm
    7.87mm
    4.57mm
    21.97 x 7.87 x 4.57mm
    16
    4100R
    Bourns
    47Ω
    4
    Array
    0804 (2010M)
    0.125W
    Convex
    ±5%
    -
    Moulded
    0.063W
    ISOL
    2mm
    1mm
    0.35mm
    2 x 1 x 0.35mm
    8
    CAY10
    Bourns
    10Ω
    4
    Array
    1206 (3216M)
    0.25W
    Convex
    -
    -
    -
    -
    -
    -
    -
    -
    -
    -
    -
    Bourns
    470Ω
    9
    -
    SIP
    1.25W
    Through Hole
    ±2%
    -
    Conformal
    0.2W
    BUS
    25.35mm
    2.49mm
    5.08mm
    2.49 x 5.08 x 25.35mm
    10
    4600X
    Bourns
    10kΩ
    4
    Array
    1206 (3216M)
    0.25W
    Convex
    ±5%
    -
    Moulded
    0.062W
    ISOL
    3.2mm
    1.6mm
    0.5mm
    3.2 x 1.6 x 0.5mm
    8
    CAY16
    Bourns
    4.7kΩ
    3
    Network
    SIP
    0.75W
    Through Hole
    ±2%
    -
    Conformal
    0.3W
    ISOL
    15.19mm
    2.49mm
    5.08mm
    2.49 x 5.08 x 15.19mm
    6
    4600X
    Bourns
    4.7kΩ
    8
    Network
    SIP
    1.13W
    Through Hole
    ±2%
    -
    Conformal
    0.2W
    BUS
    22.81mm
    2.49mm
    5.08mm
    2.49 x 5.08 x 22.81mm
    9
    4600X
    Bourns
    2.2kΩ
    8
    Network
    SIP
    1.13W
    Through Hole
    ±2%
    -
    Conformal
    0.2W
    BUS
    22.81mm
    2.49mm
    5.08mm
    2.49 x 5.08 x 22.81mm
    9
    4600X
    Bourns
    3.3kΩ
    8
    Network
    SIP
    1.13W
    Through Hole
    ±2%
    -
    Conformal
    0.2W
    BUS
    22.81mm
    2.49mm
    5.08mm
    2.49 x 5.08 x 22.81mm
    9
    4600X
    Bourns
    100kΩ
    3
    Network
    SIP
    0.75W
    Through Hole
    ±2%
    -
    Conformal
    0.3W
    ISOL
    15.19mm
    2.49mm
    5.08mm
    2.49 x 5.08 x 15.19mm
    6
    4600X
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