Allicdata Part #: | H4P3K32DZA-ND |
Manufacturer Part#: |
H4P3K32DZA |
Price: | $ 0.35 |
Product Category: | Resistors |
Manufacturer: | TE Connectivity Passive Product |
Short Description: | RES 3.32K OHM 1W 0.5% AXIAL |
More Detail: | 3.32 kOhms ±0.5% 1W Through Hole Resistor Axial Pu... |
DataSheet: | H4P3K32DZA Datasheet/PDF |
Quantity: | 1000 |
250 +: | $ 0.31880 |
Series: | Holco, Holsworthy |
Packaging: | Bulk |
Part Status: | Active |
Resistance: | 3.32 kOhms |
Tolerance: | ±0.5% |
Power (Watts): | 1W |
Composition: | Metal Film |
Features: | Pulse Withstanding |
Temperature Coefficient: | ±100ppm/°C |
Operating Temperature: | -55°C ~ 155°C |
Package / Case: | Axial |
Supplier Device Package: | Axial |
Size / Dimension: | 0.146" Dia x 0.394" L (3.70mm x 10.00mm) |
Height - Seated (Max): | -- |
Number of Terminations: | 2 |
Failure Rate: | -- |
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Through Hole Resistors
Through Hole Resistors have a wide variety of use cases ranging from low power to high power applications, and are one of the simplest and most commonly used electrical components. The H4P3K32DZA is a type of Through Hole Resistor, and serves as a voltage divider. It is widely used in power, engineering, circuit, signal, and communications-related applications, and its working principle is based on Ohm’s Law of Voltage, Resistance and Current.
H4P3K32DZA Application Field and Working Principle
The H4P3K32DZA chip provides many features and advantages that make it suitable for a variety of applications. One of its advantages is that it can withstand high temperature levels, with an operational temperature range of -55°C to +150°C. It is also able to handle high current withstanding up to 500mA, which makes it a good choice for high current circuits. In addition, its design features a low profile that allows for efficient heat dissipation.
The main use of the H4P3K32DZA chip is as a voltage divider, which is a type of resistor network. Voltage dividers are used in electrical circuits to divide a single voltage source into two, with each section having a different voltage than the other. This is done by connecting two resistors in series. When the input voltage is connected to the input terminals, the output voltage will be equal to the voltage drop across one of the resistors. In this way, a voltage divider can provide voltage regulation and isolation between two different sections of a circuit.
The H4P3K32DZA is an example of a voltage divider network. Its working principle is based on Ohm’s law of voltage, resistance and current. Ohm’s law states that the current in a circuit is proportionally related to the voltage across it and the resistance of the circuit. In the H4P3K32DZA chip, current passes through two resistors connected in series. The input voltage is divided between the two resistors, and so the output voltage will be equal to the voltage drop across one of the resistors, while the other resistor acts as a current limiting resistor. This makes the H4P3K32DZA chip an economical and efficient solution for voltage regulation and signal isolation, as it is able to provide a stable output voltage with a minimum of components.
In addition to voltage dividers, the H4P3K32DZA is also used for temperature sensing and control applications. By using the chip’s temperature sensing element, the chip can provide an output voltage that corresponds to the temperature being sensed. This allows for accurate temperature measurement and control of power circuits, which are important features in many modern applications.
Overall, the H4P3K32DZA is a versatile and effective chip, suitable for various projects and applications. Its low profile allows for efficient heat dissipation, while its temperate sensing element provides high accuracy temperature measurement and control. In terms of power applications, the chip is able to handle high current and can provide reliable voltage regulation and signal isolation. All of this makes the H4P3K32DZA chip a suitable choice for many Through Hole Resistor applications.
The specific data is subject to PDF, and the above content is for reference
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H4P383RDZA | TE Connectiv... | 0.35 $ | 1000 | RES 383 OHM 1W 0.5% AXIAL... |
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H4P3K16DZA | TE Connectiv... | 0.35 $ | 1000 | RES 3.16K OHM 1W 0.5% AXI... |
H4P3K32DZA | TE Connectiv... | 0.35 $ | 1000 | RES 3.32K OHM 1W 0.5% AXI... |
H4P3K48DZA | TE Connectiv... | 0.35 $ | 1000 | RES 3.48K OHM 1W 0.5% AXI... |
H4P3K65DZA | TE Connectiv... | 0.35 $ | 1000 | RES 3.65K OHM 1W 0.5% AXI... |
H4P3K83DZA | TE Connectiv... | 0.35 $ | 1000 | RES 3.83K OHM 1W 0.5% AXI... |
H4P30K1DZA | TE Connectiv... | 0.35 $ | 1000 | RES 30.1K OHM 1W 0.5% AXI... |
H4P31K6DZA | TE Connectiv... | 0.35 $ | 1000 | RES 31.6K OHM 1W 0.5% AXI... |
H4P33K2DZA | TE Connectiv... | 0.35 $ | 1000 | RES 33.2K OHM 1W 0.5% AXI... |
H4P34K8DZA | TE Connectiv... | 0.35 $ | 1000 | RES 34.8K OHM 1W 0.5% AXI... |
H4P36K5DZA | TE Connectiv... | 0.35 $ | 1000 | RES 36.5K OHM 1W 0.5% AXI... |
H4P38K3DZA | TE Connectiv... | 0.35 $ | 1000 | RES 38.3K OHM 1W 0.5% AXI... |
H4P301KDZA | TE Connectiv... | 0.35 $ | 1000 | RES 301K OHM 1W 0.5% AXIA... |
H4P316KDZA | TE Connectiv... | 0.35 $ | 1000 | RES 316K OHM 1W 0.5% AXIA... |
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H4P365KDZA | TE Connectiv... | 0.35 $ | 1000 | RES 365K OHM 1W 0.5% AXIA... |
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H4P31R6DCA | TE Connectiv... | 0.39 $ | 1000 | RES 31.6 OHM 1W 0.5% AXIA... |
H4P33R2DCA | TE Connectiv... | 0.39 $ | 1000 | RES 33.2 OHM 1W 0.5% AXIA... |
H4P34R8DCA | TE Connectiv... | 0.39 $ | 1000 | RES 34.8 OHM 1W 0.5% AXIA... |
H4P36R5DCA | TE Connectiv... | 0.39 $ | 1000 | RES 36.5 OHM 1W 0.5% AXIA... |
H4P38R3DCA | TE Connectiv... | 0.39 $ | 1000 | RES 38.3 OHM 1W 0.5% AXIA... |
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