Allicdata Part #: | TZMC39-M-08-ND |
Manufacturer Part#: |
TZMC39-M-08 |
Price: | $ 0.02 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | Vishay Semiconductor Diodes Division |
Short Description: | DIODE ZENER 39V 500MW SOD80 |
More Detail: | Zener Diode 39V 500mW ±5% Surface Mount SOD-80 Min... |
DataSheet: | TZMC39-M-08 Datasheet/PDF |
Quantity: | 1000 |
12500 +: | $ 0.01687 |
Series: | Automotive, AEC-Q101 |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Voltage - Zener (Nom) (Vz): | 39V |
Tolerance: | ±5% |
Power - Max: | 500mW |
Impedance (Max) (Zzt): | 90 Ohms |
Current - Reverse Leakage @ Vr: | 100nA @ 30V |
Voltage - Forward (Vf) (Max) @ If: | 1.5V @ 200mA |
Operating Temperature: | -65°C ~ 175°C |
Mounting Type: | Surface Mount |
Package / Case: | DO-213AC, MINI-MELF, SOD-80 |
Supplier Device Package: | SOD-80 MiniMELF |
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The TZMC39-M-08 is an important class of diodes, categorized under Zener, Single. It is often used in a wide variety of applications and is derived from high-precision components with a high level of stability, reliability, and performance. While the range of possible uses is expansive, it is generally meant to achieve a specific purpose with the help of its voltage-regulating functions. By understanding its construction and basic working principle, users can ensure they are best-suited to the particular requirements of their application.
The TZMC39-M-08 is a single diode composed of a heavily doped P-type and an N-type layer. Each begin with a junction between them, otherwise known as a p-n junction, which acts as an insulator and a voltage-controlled gate. With the gate having a built-in electric field, the voltage is regulated when current is inserted. This reverse-biased element of the TZMC39-M-08 will allow only a certain amount of current to pass, known as its reverse breakdown voltage, or Zener Voltage. Consequently, this serves to regulate the amount of current being allowed to flow between the P-type and N-type layers. This form of current regulation is beneficial in many applications and as a result, the TZMC39-M-08 often sees considerable use.
The manner in which the TZMC39-M-08 achieves its voltage-regulating functions is generally the same, no matter the application or purpose. Of the most importance is the reverse voltage which, as has been mentioned, only permits a certain amount of current flow through. This considerably aids in applications such as motor controls, temperature controls, communications, analog circuits and a range of other small-scale applications. Furthermore, the TZMC39-M-08 is used widely in large-scale power systems, as it contributes highly to their capacity. This is especially important when the power level wants to be maintained precisely and with more control. Similarly, it has been used in the creation of low-dropout regulators, something which is paramount in the prevention of voltage drops and fluctuations.
Aside from its many applications and uses, the TZMC39-M-08 has been found to possess a number of advantageous features. One of these is its temperature coefficient, with the device being able to maintain its quality even when subjected to high temperatures. This is attributed to its construction, for it has been found that its compositing materials allow for a very high level of thermal stability and strength. Its layout also makes it highly resistant to thermal aging, with its performance remaining largely unaffected even with several years of exposure. Furthermore, there is a very low forward voltage associated with the TZMC39-M-08, allowing for a very minimal amount of power consumption.
The TZMC39-M-08 is a high-precision diode exhibiting exceptional performance, reliability, and stability, enabling it to be used in many applications. It finds wide use due to its voltage regulating features, something which is essential in the operation of many systems ranging from the small-scale to the large-scale. However, its advantageous features are not limited to this, for it possesses a number of other features and characteristics which allow it to be suitably utilized no matter the situation.
The specific data is subject to PDF, and the above content is for reference
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TZMC5V6-GS18 | Vishay Semic... | -- | 1000 | DIODE ZENER 5.6V 500MW SO... |
TZMC6V2-GS18 | Vishay Semic... | 0.02 $ | 10000 | DIODE ZENER 6.2V 500MW SO... |
TZMC5V1-GS08 | Vishay Semic... | -- | 1000 | DIODE ZENER 5.1V 500MW SO... |
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TZMC11-GS08 | Vishay Semic... | -- | 12500 | DIODE ZENER 11V 500MW SOD... |
TZMC22-GS08 | Vishay Semic... | -- | 1000 | DIODE ZENER 22V 500MW SOD... |
TZMC24-GS08 | Vishay Semic... | -- | 10000 | DIODE ZENER 24V 500MW SOD... |
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TZMC10-M-18 | Vishay Semic... | 0.02 $ | 1000 | DIODE ZENER 10V 500MW SOD... |
TZMC11-M-18 | Vishay Semic... | 0.02 $ | 1000 | DIODE ZENER 11V 500MW SOD... |
TZMC12-M-18 | Vishay Semic... | 0.02 $ | 1000 | DIODE ZENER 12V 500MW SOD... |
TZMC13-M-18 | Vishay Semic... | 0.02 $ | 1000 | DIODE ZENER 13V 500MW SOD... |
TZMC16-M-18 | Vishay Semic... | 0.02 $ | 1000 | DIODE ZENER 16V 500MW SOD... |
TZMC18-M-18 | Vishay Semic... | 0.02 $ | 1000 | DIODE ZENER 18V 500MW SOD... |
TZMC20-M-18 | Vishay Semic... | 0.02 $ | 1000 | DIODE ZENER 20V 500MW SOD... |
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