| Allicdata Part #: | BC2944-ND |
| Manufacturer Part#: |
NTCLE213E3303FHB0 |
| Price: | $ 1.29 |
| Product Category: | Sensors, Transducers |
| Manufacturer: | Vishay BC Components |
| Short Description: | THERMISTOR NTC 30KOHM 3935K BEAD |
| More Detail: | NTC Thermistor 30k Bead |
| DataSheet: |  NTCLE213E3303FHB0 Datasheet/PDF |
| Quantity: | 2835 |
| 1 +: | $ 1.16550 |
| 5 +: | $ 1.12140 |
| 10 +: | $ 0.91098 |
| 25 +: | $ 0.78498 |
| 50 +: | $ 0.67990 |
| 100 +: | $ 0.61677 |
| 500 +: | $ 0.51865 |
| 1000 +: | $ 0.46258 |
| 5000 +: | $ 0.42053 |
Specifications
| Series: | -- |
| Packaging: | Bulk |
| Part Status: | Active |
| Resistance in Ohms @ 25°C: | 30k |
| Resistance Tolerance: | ±1% |
| B Value Tolerance: | ±0.75% |
| B0/50: | -- |
| B25/50: | -- |
| B25/75: | -- |
| B25/85: | 3935K |
| B25/100: | -- |
| Operating Temperature: | -55°C ~ 150°C |
| Power - Max: | 100mW |
| Length - Lead Wire: | 1.22" (31.00mm) |
| Mounting Type: | Free Hanging |
| Package / Case: | Bead |
Description
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Temperature Sensors - NTC Thermistors
Temperature sensors play an important role in the modern world, as they enable us to measure the temperature of various places and objects. They come in many different forms, but one of the most commonly used types is called an NTC (Negative Temperature Coefficient) thermistor. The product code for this type of thermistor is NTCLE213E3303FHB0. In this article, we\'ll look at the application field and workings of NTCLE213E3303FHB0.
An NTC thermistor is a type of resistor that has a negative temperature coefficient, meaning its resistance decreases as temperature increases. This type of thermistor is used in a variety of industries and applications, such as automotive, medical, industrial, and consumer electronics. It is made of a special semiconductor that responds to changes in temperature and converts those changes into electrical signals.
In terms of application, NTCLE213E3303FHB0 thermistors are most commonly used to measure temperature changes over a wide range. They are also ideal for monitoring temperatures in harsh environments since they are highly resistant to moisture, dust, and other contaminants. The device features two main resistance values: the minimum resistance and the maximum resistance. The minimum resistance value is usually at room temperature, while the maximum resistance value is usually when the device is exposed to extremely high temperatures.
These thermistors are also used for temperature-control purposes. When the thermistor\'s internal resistance is altered, either by increasing or decreasing the temperature, its resistance also changes. This change in resistance is captured and used to control circuit components or relay signals to external devices. For example, if the temperature increases, the resistance of the NTC thermistor also increases, which means the current can be stopped from flowing to the components, thereby causing the equipment to switch off.
In terms of working principle, NTCLE213E3303FHB0 thermistors are very sensitive to changes in temperature. As the temperature increases, their resistance decreases as the electrons move more freely throughout the device. This decrease in resistance results in more current flowing through the thermistor. Conversely, when the temperature decreases, the electrons slow down, resulting in a higher resistance as less current is allowed to pass through the thermistor.
Overall, NTCLE213E3303FHB0 thermistors are useful temperature sensors for a variety of applications. They are designed to sense temperature changes over a wide range, and can also be used to control circuit components and relay signals to external devices. As the temperature increases, they decrease in resistance, allowing more current to flow, and as the temperature decreases, their resistance increases, allowing less current to pass. Therefore, they are reliable and accurate temperature sensors for a variety of applications.
Temperature sensors play an important role in the modern world, as they enable us to measure the temperature of various places and objects. They come in many different forms, but one of the most commonly used types is called an NTC (Negative Temperature Coefficient) thermistor. The product code for this type of thermistor is NTCLE213E3303FHB0. In this article, we\'ll look at the application field and workings of NTCLE213E3303FHB0.
An NTC thermistor is a type of resistor that has a negative temperature coefficient, meaning its resistance decreases as temperature increases. This type of thermistor is used in a variety of industries and applications, such as automotive, medical, industrial, and consumer electronics. It is made of a special semiconductor that responds to changes in temperature and converts those changes into electrical signals.
In terms of application, NTCLE213E3303FHB0 thermistors are most commonly used to measure temperature changes over a wide range. They are also ideal for monitoring temperatures in harsh environments since they are highly resistant to moisture, dust, and other contaminants. The device features two main resistance values: the minimum resistance and the maximum resistance. The minimum resistance value is usually at room temperature, while the maximum resistance value is usually when the device is exposed to extremely high temperatures.
These thermistors are also used for temperature-control purposes. When the thermistor\'s internal resistance is altered, either by increasing or decreasing the temperature, its resistance also changes. This change in resistance is captured and used to control circuit components or relay signals to external devices. For example, if the temperature increases, the resistance of the NTC thermistor also increases, which means the current can be stopped from flowing to the components, thereby causing the equipment to switch off.
In terms of working principle, NTCLE213E3303FHB0 thermistors are very sensitive to changes in temperature. As the temperature increases, their resistance decreases as the electrons move more freely throughout the device. This decrease in resistance results in more current flowing through the thermistor. Conversely, when the temperature decreases, the electrons slow down, resulting in a higher resistance as less current is allowed to pass through the thermistor.
Overall, NTCLE213E3303FHB0 thermistors are useful temperature sensors for a variety of applications. They are designed to sense temperature changes over a wide range, and can also be used to control circuit components and relay signals to external devices. As the temperature increases, they decrease in resistance, allowing more current to flow, and as the temperature decreases, their resistance increases, allowing less current to pass. Therefore, they are reliable and accurate temperature sensors for a variety of applications.
The specific data is subject to PDF, and the above content is for reference
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