SOMC160322K0JEA Resistors |
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Allicdata Part #: | SOMC22KJTR-ND |
Manufacturer Part#: |
SOMC160322K0JEA |
Price: | $ 0.47 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | RES ARRAY 8 RES 22K OHM 16SOIC |
More Detail: | 22k Ohm ±5% 160mW Power Per Element Isolated 8 Res... |
DataSheet: | SOMC160322K0JEA Datasheet/PDF |
Quantity: | 1000 |
2000 +: | $ 0.42458 |
6000 +: | $ 0.41958 |
10000 +: | $ 0.40793 |
Number of Pins: | 16 |
Height - Seated (Max): | 0.090" (2.29mm) |
Size / Dimension: | 0.440" L x 0.220" W (11.18mm x 5.59mm) |
Supplier Device Package: | -- |
Package / Case: | 16-SOIC (0.220", 5.59mm Width) |
Mounting Type: | Surface Mount |
Applications: | -- |
Operating Temperature: | -55°C ~ 150°C |
Temperature Coefficient: | ±100ppm/°C |
Power Per Element: | 160mW |
Series: | SOMC |
Resistor-Ratio-Drift: | -- |
Resistor Matching Ratio: | -- |
Number of Resistors: | 8 |
Tolerance: | ±5% |
Resistance (Ohms): | 22k |
Circuit Type: | Isolated |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
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SOMC160322K0JEA resistor networks, arrays can be used in a wide range of applications. These devices can be used to provide power control, limit current, match impedances and provide high frequency stability. The basic operating principle behind these devices is the use of electrical resistors to create resistive networks and arrays. This allows the electrical circuit to control the rate at which the current flows through the resistive network.
In general, SOMC160322K0JEA resistor networks, arrays are composed of a number of electrical components called resistors. Resistors are typically made from a variety of materials such as carbon, glass, and metal. The type of resistor used in a particular circuit design will depend on what parameters, such as resistance, temperature coefficient, power rating, etc., need to be controlled. The resistors are then connected together in various configurations to form a network or array.
Once the resistive network or array is established, the current can now be regulated at different levels within the network. This can be done by controlling the amount of voltage applied to the resistors. When the applied voltage is increased, the current flowing through the network or array will increase. When the applied voltage is decreased, the current flowing through the network or array decreases.
SOMC160322K0JEA resistor networks and arrays can be used in many applications in electronic circuits. One such application is as a voltage divider. Voltage dividers are used to divide the voltage in an electronic circuit into two or more discrete voltage levels. This is done by placing a resistor in series with the voltage source. As the voltage supply is increased, the voltage across the resistors connected in series will also increase, resulting in a voltage divider.
Another common application for resistor networks, arrays are in power control circuits. These circuits help regulate the amount of power delivered to a load. The resistance of the resistors will vary depending on the power requirements of the load. By controlling the amount of resistance of the resistors, the power delivery to the load can be maintained at the desired level.
Last but not least, SOMC160322K0JEA resistor networks, arrays can be used to match impedances. They are used to provide a stable equivalent impedance over a wide range of frequencies. This is done by connecting resistors in series and parallel combinations to form a network. By adjusting the resistance of each resistor in the network, the equivalent impedance of the overall network can be accurately determined.
SOMC160322K0JEA resistor networks, arrays have many applications in the field of electronics. They can help provide precise control over the power delivered to a load, limit current, voltage, and help match impedances. In addition, these networks can provide high frequency stability, allowing for accurate control over an electronic circuit over a range of frequencies.
The specific data is subject to PDF, and the above content is for reference
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SOMC140122K0GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 22K OHM ... |
SOMC14012K70GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 2.7K OHM... |
SOMC1401330RGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 330 OHM ... |
SOMC140133K0GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 33K OHM ... |
SOMC14013K30GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 3.3K OHM... |
SOMC1401430RGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 430 OHM ... |
SOMC140147K0GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 47K OHM ... |
SOMC1401560RGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 560 OHM ... |
SOMC14015K10GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 5.1K OHM... |
SOMC14015K60GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 5.6K OHM... |
SOMC1401680RGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 680 OHM ... |
SOMC1403100RGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 100 OHM 1... |
SOMC140310R0GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 10 OHM 14... |
SOMC1403150KGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 150K OHM ... |
SOMC1403150RGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 150 OHM 1... |
SOMC1403180RGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 180 OHM 1... |
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SOMC14031K50JEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 1.5K OHM ... |
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SOMC140391R0GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 91 OHM 14... |
SOMC160322K0GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 8 RES 22K OHM 1... |
SOMC140110K0JEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 10K OHM ... |
RES NTWRK 18 RES 47 OHM 36LBGA47 Ohm 1% ...
RES NTWRK 32 RES 56 OHM 36LBGA56 Ohm 1% ...
RES ARRAY 4 RES 39 OHM 120639 Ohm 5% 62....
RES ARRAY 4 RES 43 OHM 080443 Ohm 5% 62....
RES ARRAY 4 RES 120 OHM 0804120 Ohm 5% 6...
RES ARRAY 2 RES 300 OHM 0606300 Ohm 5% 6...