SOMC200110K0GEA Resistors |
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Allicdata Part #: | SOMC10KNTR-ND |
Manufacturer Part#: |
SOMC200110K0GEA |
Price: | $ 0.00 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | RES ARRAY 19 RES 10K OHM 20SOIC |
More Detail: | 10k Ohm ±2% 80mW Power Per Element Bussed 19 Resis... |
DataSheet: | SOMC200110K0GEA Datasheet/PDF |
Quantity: | 1000 |
Number of Pins: | 20 |
Height - Seated (Max): | 0.090" (2.29mm) |
Size / Dimension: | 0.540" L x 0.220" W (13.72mm x 5.59mm) |
Supplier Device Package: | -- |
Package / Case: | 20-SOIC (0.220", 5.59mm Width) |
Mounting Type: | Surface Mount |
Applications: | -- |
Operating Temperature: | -55°C ~ 150°C |
Temperature Coefficient: | ±100ppm/°C |
Power Per Element: | 80mW |
Series: | SOMC |
Resistor-Ratio-Drift: | -- |
Resistor Matching Ratio: | -- |
Number of Resistors: | 19 |
Tolerance: | ±2% |
Resistance (Ohms): | 10k |
Circuit Type: | Bussed |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
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SOMC200110K0GEA Resistor Networks, Arrays (RNAs) are a type of passive electronic component which are commonly used in a range of electronic applications, including circuit boards, power supplies, relays, transformers, etc. In its simplest form, an RNA consists of several resistors arranged in a network. The typical configuration consists of four, eight, or sixteen interconnected resistors. Some RNAs may also contain capacitors, diodes, or other passive components.
One of the most important applications of an RNA is to provide impedance matching between two circuits. This helps to reduce the reflection of energy from one circuit to another, improving the overall performance of the system. RNAs are also used to provide bias to components in order to balance the current flow. They are also used for signal splitting, voltage regulation, and filtering.
The working principle of a resistor network is quite simple. It consists of connected resistors which are arranged in an open or closed pattern. When current passes through a resistor, it creates an electrical resistance which is measured in ohms. This resistance affects the voltage that can be applied across the resistor. Voltage can be distributed in multiple directions, depending on the arrangement of the resistors.
The main advantage of using a resistor network is that it increases the overall resistance of a circuit. This is useful for reducing the electrical current flowing through a circuit, which can help to prevent problems such as overloading or overheating. Resistor networks are also often used in combination with other components, such as capacitors and transistors, in order to reduce noise and improve the signal-to-noise ratio.
RNAs can be built using various configurations and components. A common configuration is the four-terminal network, which is composed of two series connections and two parallel connections. These networks are often used for voltage-regulating operations, such as RF amplifiers. Other common configurations are the three-terminal range, which is used for filtering and splitting signals, and the eight-terminal network, which is used for impedance matching and signal isolation.
In addition to providing resistance to a circuit, RNAs often have other functionalities. For instance, some are designed to provide equal current sharing between multiple devices, while others are designed to provide noise-free operation. RNAs can also provide power-saving features such as temperature-dependent resistance, which can extend battery life and reduce the power requirements of a device.
Overall, SOMC200110K0GEA Resistor Networks, Arrays are very versatile and reliable components that can be used for a variety of applications. Their simple construction and easy-to-understand operation make them attractive for both beginners and experienced designers. RNAs can provide power savings, impedance matching, filtering, signal splitting, and other options for a variety of design applications.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
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SOMC16012K20GEA | Vishay Dale | 1.25 $ | 3067 | RES ARRAY 15 RES 2.2K OHM... |
SOMC2003100KGEA | Vishay Dale | 1.48 $ | 7374 | RES ARRAY 10 RES 100K OHM... |
SOMC16031K00GEA | Vishay Dale | -- | 6975 | RES ARRAY 8 RES 1K OHM 16... |
SOMC1603100KGEA | Vishay Dale | 1.25 $ | 7892 | RES ARRAY 8 RES 100K OHM ... |
SOMC160310K0GEA | Vishay Dale | -- | 9249 | RES ARRAY 8 RES 10K OHM 1... |
SOMC16016K80GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 15 RES 6.8K OHM... |
SOMC16013K01FEA | Vishay Dale | 0.56 $ | 1000 | RES ARRAY 15 RES 3.01KOHM... |
SOMC6748-10-1603AHCR | Logic | 222.08 $ | 100 | C6748 SOM-M1* Embedded Mo... |
SOMC6748-10-1602AHCR | Logic | 0.0 $ | 1000 | SYSTEM ON MODULE TMS320C6... |
SOMC1401100KGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 100K OHM... |
SOMC1401110RGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 110 OHM ... |
SOMC140115K0GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 13 RES 15K OHM ... |
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... |
SOMC14031K00GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 1K OHM 14... |
SOMC14031K50JEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 1.5K OHM ... |
SOMC14031M00GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 1M OHM 14... |
SOMC1403200KGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 200K OHM ... |
SOMC1403200RGEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 200 OHM 1... |
SOMC140333R0GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 33 OHM 14... |
SOMC14033K30GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 3.3K OHM ... |
SOMC14034K70GEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 4.7K OHM ... |
SOMC140362R0JEA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 7 RES 62 OHM 14... |
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...