Allicdata Part #: | CSC10A03180KGPA-ND |
Manufacturer Part#: |
CSC10A03180KGPA |
Price: | $ 0.45 |
Product Category: | Resistors |
Manufacturer: | Vishay Dale |
Short Description: | RES ARRAY 5 RES 180K OHM 10SIP |
More Detail: | 180k Ohm ±2% 300mW Power Per Element Isolated 5 Re... |
DataSheet: | CSC10A03180KGPA Datasheet/PDF |
Quantity: | 1000 |
2000 +: | $ 0.40851 |
5000 +: | $ 0.40370 |
Number of Pins: | 10 |
Height - Seated (Max): | 0.195" (4.95mm) |
Size / Dimension: | 0.990" L x 0.098" W (25.15mm x 2.49mm) |
Supplier Device Package: | 10-SIP |
Package / Case: | 10-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: | 5 |
Tolerance: | ±2% |
Resistance (Ohms): | 180k |
Circuit Type: | Isolated |
Part Status: | Active |
Packaging: | Bulk |
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Engineering is a vast and varied discipline, and the world of resistor networks and arrays is no exception. In order to properly understand the application field and working principle of the CSC10A03180KGPA (KGPA) resistor network, it is first necessary to provide a brief overview of resistor networks and resistor arrays.
A resistor network is a patterned configuration or arrangement of resistors that is used to divide currents among different paths. The network is typically composed of two or more resistors connected in a unique way such that the inputs, or sum of the currents, is then divided among the different paths or components of the network. The advantage of using a resistor-network arrangement is that it allows for easy manipulation and adjustment of current paths. This is because a resistor network can be used to create a specific current profile or pattern for a particular system.
Resistor arrays are made up of two or more resistors in a predetermined pattern, providing a predetermined set of current paths. A common example is the Wheatstone bridge, which uses a parallel X–Y–R network to measure an unknown resistance. The Wheatstone bridge is useful for electrical systems that require precision current management and in most cases, once one of the resistors is adjusted, the other resistors adjust accordingly.
The KGPA resistor network is a patterned configuration composed of two or more resistors. It is typically used to control current flow in a system, as well as provide added insulation and protection against voltage surges. The KGPA resistor network is designed to precisely adjust current paths without the use of a defined array. This allows the user to precisely adjust the system’s current flow for specific applications, such as in power systems that require precise current monitoring.
The KGPA resistor network is composed of two or more resistors, such as a common resistor and pass resistor. The input current to the network is divided among the two resistors, allowing the user to manipulate the current flow to a certain degree. In addition, the KGPA resistor network also provides additional protection against voltage surges.
The KGPA resistor network has a variety of applications. It is commonly used in automotive applications, where a precise control of current flow is needed. It is also used in industrial applications, such as controlling motors, and is especially useful in power distribution systems. Its versatile use as well as its ability to provide precise current flow make it a popular choice among engineers.
In conclusion, the KGPA resistor network is a valuable tool in the world of resistor networks and arrays. Its ability to provide precise control of current flow, as well as additional protection against voltage surges make it an ideal choice for engineers. It is an important component of many industrial and automotive applications, and is well suited for use in power distribution systems.
The specific data is subject to PDF, and the above content is for reference
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CSC10A01120KGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 120K OHM ... |
CSC10A0112K0GPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 12K OHM 1... |
CSC10A01150RGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 150 OHM 1... |
CSC10A0115K0GPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 15K OHM 1... |
CSC10A01180RGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 180 OHM 1... |
CSC10A011M00GPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 1M OHM 10... |
CSC10A01220KGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 220K OHM ... |
CSC10A01270RGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 270 OHM 1... |
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CSC10A012K70GPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 2.7K OHM ... |
CSC10A016K80GPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 6.8K OHM ... |
CSC10A01820RGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 9 RES 820 OHM 1... |
CSC10A03180KGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 5 RES 180K OHM ... |
CSC10A031K50GPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 5 RES 1.5K OHM ... |
CSC10A03270KGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 5 RES 270K OHM ... |
CSC10A032K00GPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 5 RES 2K OHM 10... |
CSC10A032K70GPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 5 RES 2.7K OHM ... |
CSC10A03330RGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 5 RES 330 OHM 1... |
CSC10A03470RGPA | Vishay Dale | 0.45 $ | 1000 | RES ARRAY 5 RES 470 OHM 1... |
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CSC10A0110K0FPA | Vishay Dale | 0.49 $ | 1000 | RES ARRAY 9 RES 10K OHM 1... |
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CSC10B0110K0GEK | Vishay Dale | 0.47 $ | 1000 | RES ARRAY 9 RES 10K OHM 1... |
CSC10A01100KGPA | Vishay Dale | 0.5 $ | 1000 | RES ARRAY 9 RES 100K OHM ... |
CSC10A0110K0GPA | Vishay Dale | 0.5 $ | 1000 | RES ARRAY 9 RES 10K OHM 1... |
CSC10A01120RGPA | Vishay Dale | 0.5 $ | 1000 | RES ARRAY 9 RES 120 OHM 1... |
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...