Allicdata Part #: | CSC1.0KT-ND |
Manufacturer Part#: |
CSC08A031K00FPA |
Price: | $ 0.51 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | RES ARRAY 4 RES 1K OHM 8SIP |
More Detail: | 1k Ohm ±1% 300mW Power Per Element Isolated 4 Resi... |
DataSheet: | CSC08A031K00FPA Datasheet/PDF |
Quantity: | 1000 |
2000 +: | $ 0.46262 |
5000 +: | $ 0.45717 |
Number of Pins: | 8 |
Height - Seated (Max): | 0.195" (4.95mm) |
Size / Dimension: | 0.790" L x 0.098" W (20.07mm x 2.49mm) |
Supplier Device Package: | 8-SIP |
Package / Case: | 8-SIP |
Mounting Type: | Through Hole |
Applications: | -- |
Operating Temperature: | -55°C ~ 125°C |
Temperature Coefficient: | ±100ppm/°C |
Power Per Element: | 300mW |
Series: | CSC |
Resistor-Ratio-Drift: | ±50 ppm/°C |
Resistor Matching Ratio: | -- |
Number of Resistors: | 4 |
Tolerance: | ±1% |
Resistance (Ohms): | 1k |
Circuit Type: | Isolated |
Part Status: | Active |
Packaging: | Bulk |
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.Resistor Networks, Arrays
CSC08A031K00FPA is a type of resistor network which combines multiple resistor elements into an array format. This type of network is commonly used in high voltage power grids, for example in power plants or substations. The main benefit of using a resistor network is that it offers a less complicated way to control a large number of individual resistors. By combining multiple elements into a single assembly, the number of individual wires and connections is greatly reduced, as well as the amount of space required to fit the components.
The design of a CSC08A031K00FPA resistor network consists of a number of series-connected resistors arranged in a pattern, with each resistor having a specific resistance value. The overall resistance value of the network is the sum of all the individual resistors, making it a simple task to calculate the network resistance based on the individual resistor values. The resistor network can be further divided into several sub-networks, where each sub-network consists of a certain number of resistors and have a designated resistance value. This allows for more flexibility and customization depending on the application.
A CSC08A031K00FPA resistor network can be used in a variety of applications. The most common use of this type of network is to provide a low-resistance path for high-voltage currents in power grids. The individual series resistors provide a distributed impedance to the high-voltage currents, ensuring that the voltage level is maintained without the risk of damage to the component. This type of network can also be used in electric motor control, serving as a current limit or overload device. In addition, the resistor network can be used to protect sensitive components from over-voltage transients in the power grid.
The working principle of a CSC08A031K00FPA resistor network is relatively simple. When a voltage is applied to the network, the individual resistors will see the difference in voltage at their terminals, resulting in a current through each resistor. This current, in turn, causes a voltage drop at each resistor, producing an overall voltage drop across the network. The overall resistance of the network is then calculated based on the individual resistors, providing the user with an easy way of controlling the voltage level in the application.
In conclusion, CSC08A031K00FPA is a type of resistor network that combines multiple resistor elements into a single array. This network offers a less complicated way to control a large number of individual resistors, and is commonly used in high voltage power grids for protection and current control. The working principle of the network is based on a simple voltage drop across the individual resistors, allowing for an easy way of controlling the voltage levels in the application.
The specific data is subject to PDF, and the above content is for reference
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CSC09B01910RGEK | Vishay Dale | 0.42 $ | 1000 | RES ARRAY 8 RES 910 OHM 9... |
CSC08A05131AGPA | Vishay Dale | 0.5 $ | 1000 | RES NETWORK 12 RES MULT O... |
CSC04A03560RGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 2 RES 560 OHM 4... |
CSC05A01100KGPA | Vishay Dale | 0.46 $ | 1000 | RES ARRAY 4 RES 100K OHM ... |
CSC05A0110K0GPA | Vishay Dale | 0.46 $ | 1000 | RES ARRAY 4 RES 10K OHM 5... |
CSC05A014K70GPA | Vishay Dale | 0.46 $ | 1000 | RES ARRAY 4 RES 4.7K OHM ... |
CSC06A01100KGPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 5 RES 100K OHM ... |
CSC06A0110K0GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 5 RES 10K OHM 6... |
CSC06A011K00GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 5 RES 1K OHM 6S... |
CSC06A0122K0GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 5 RES 22K OHM 6... |
CSC06A0147K0GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 5 RES 47K OHM 6... |
CSC06A014K70GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 5 RES 4.7K OHM ... |
CSC06A01510RGPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 5 RES 510 OHM 6... |
CSC06A03100KGPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 3 RES 100K OHM ... |
CSC06A0310K0GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 3 RES 10K OHM 6... |
CSC06A031K00GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 3 RES 1K OHM 6S... |
CSC06A0322K0GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 3 RES 22K OHM 6... |
CSC06A032K20GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 3 RES 2.2K OHM ... |
CSC06A034K70GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 3 RES 4.7K OHM ... |
CSC06A0333K0GPA | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 3 RES 33K OHM 6... |
CSC07A0110K0GPA | Vishay Dale | 0.48 $ | 1000 | RES ARRAY 6 RES 10K OHM 7... |
CSC07A0147K0GPA | Vishay Dale | 0.48 $ | 1000 | RES ARRAY 6 RES 47K OHM 7... |
CSC08A01100KGPA | Vishay Dale | 0.48 $ | 1000 | RES ARRAY 7 RES 100K OHM ... |
CSC08A0110K0GPA | Vishay Dale | 0.48 $ | 1000 | RES ARRAY 7 RES 10K OHM 8... |
CSC08A011K00GPA | Vishay Dale | 0.48 $ | 1000 | RES ARRAY 7 RES 1K OHM 8S... |
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...