SOMC160361K9FEA Resistors |
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Allicdata Part #: | SOMC61.9KGTR-ND |
Manufacturer Part#: |
SOMC160361K9FEA |
Price: | $ 0.56 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | RES ARRAY 8 RES 61.9K OHM 16SOIC |
More Detail: | 61.9k Ohm ±1% 160mW Power Per Element Isolated 8 R... |
DataSheet: | SOMC160361K9FEA Datasheet/PDF |
Quantity: | 1000 |
2000 +: | $ 0.50375 |
6000 +: | $ 0.49783 |
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: | ±1% |
Resistance (Ohms): | 61.9k |
Circuit Type: | Isolated |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
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。Resistor networks, arrays, and SOMC160361K9FEA application field and working principle are closely related as resistor networks and arrays are two types of circuit elements that are related to one another. Resistor networks, or generally known as arrays, are circuits consisting of resistors that are arranged in a specific network pattern determined by the designer. This pattern is then used to perform some specific function based on the values of the resistors within the network, e.g. providing a specific overall resistance value or filtering noise or voltage. All of these functions rely on the interconnected nature of the network, and the values of the resistors contained therein. SOMC160361K9FEA is an example of a particular type of resistor network.
The particular resistor network that is represented by the SOMC160361K9FEA consists of various resistors interconnected in order to form an array. The exact values of each individual resistor may vary depending on the type of application for which it is being used. Generally, this type of resistor network is used for a variety of purposes such as providing a voltage reference, filtering and amplifying signals, or providing a constant current source. As the name implies, this type of resistor network is mainly used in industrial applications due to its reliability and practicality.
In terms of its working principle, the SOMC160361K9FEA is based on the design of an array of resistors connected in a network. This means that each resistor in the array is connected to others in the same pattern formed by the arrangement of the resistors in the network. As such, each resistor in the array serves its own purpose in the network by providing resistance in the direction it is facing based on the values of each resistor. This, in turn, will provide a certain outcome depending on the type of application for which the resistor network is designed for.
As previously mentioned, the practical applications for the SOMC160361K9FEA are quite diverse. For example, this type of resistor network is often used as a voltage reference in the form of a voltage divider. Additionally, it can also be used as a current source or to filter and amplify signals in order to provide a more accurate form of signal transmission. Furthermore, this type of resistor network can also be used in the automotive and aerospace industries for specific purposes such as providing feedback from sensors, controlling current levels, or providing a regulated current source.
In conclusion, the SOMC160361K9FEA is a type of resistor network that is used for various industrial purposes. It consists of an array of resistors connected in a specific pattern in order to perform certain functions such as providing voltage reference, filtering and amplifying signals, or providing a constant current source. These functions rely on the interconnected nature of the network and the resistance values of each individual resistor in the array. This makes the SOMC160361K9FEA an attractive solution for a number of industrial applications due to its practicality and reliability.
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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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...