Allicdata Part #: | TZX16A-TAPGITB-ND |
Manufacturer Part#: |
TZX16A-TAP |
Price: | $ 0.00 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | Vishay Semiconductor Diodes Division |
Short Description: | DIODE ZENER 16V 500MW DO35 |
More Detail: | Zener Diode 16V 500mW Through Hole DO-35 |
DataSheet: | TZX16A-TAP Datasheet/PDF |
Quantity: | 1000 |
Series: | Automotive, AEC-Q101 |
Packaging: | Tape & Box (TB) |
Part Status: | Active |
Voltage - Zener (Nom) (Vz): | 16V |
Tolerance: | -- |
Power - Max: | 500mW |
Impedance (Max) (Zzt): | 45 Ohms |
Current - Reverse Leakage @ Vr: | 1µA @ 16V |
Voltage - Forward (Vf) (Max) @ If: | 1.5V @ 200mA |
Operating Temperature: | -65°C ~ 175°C |
Mounting Type: | Through Hole |
Package / Case: | DO-204AH, DO-35, Axial |
Supplier Device Package: | DO-35 |
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When it comes to diodes and their respective applications, the TZX16A-TAP is considered by many in the industry as one of the leading devices. This diode type is a single Zener diode with a plethora of useful features and capabilities. Understanding what this diode type can do, and how it works is key to unlocking its potential. With this in mind, let’s take a closer look at what makes the TZX16A-TAP unique and how it can be used in various applications.
The TZX16A-TAP is an avalanche breakdown Zener diode. It has an isolation voltage of 500V and a break down voltage of between 11.4 and 12.6 with a 5% tolerance. It is constructed using silicon and molded plastic and measures in at 1.3 x 0.8 x 0.85mm. The maximum power dissipation a TZX16A-TAP can handle is 250mW. It also features a maximum surge current of 1A.
Now, let’s take a look at the various application fields for the TZX16A-TAP. It is primarily seen in field-programmable gate array (FPGA) designs. It is also primarily seen in voltage regulation, where it can be used to help maintain a steady output voltage. It can also be found in constant-voltage/constant-current (CV/CC) applications. It is often used for motor control, LED dimming and LCD panel driving applications. Lastly, it can be found in RF communication products, such as low-noise amplifiers (LNAs) and local oscillators (LOs).
Next, let’s discuss the working principle of the TZX16A-TAP. This diode is used in the revised avalanche breakdown mechanism to keep a consistent breakdown voltage across its wide range of temperatures and illumination angles. This helps to ensure reliability and reduce the risk of potential applications failure. When the reverse voltage rises to a certain point, it will cause the total current to surge and the junction-to-junction voltage to be saturated. As the junction-to-junction voltage increases, the voltage across the device also increases. This further increases the current, which then creates an avalanche effect, breaking down the diode and establishing the device’s voltage breakdown value.
Not only does the TZX16A-TAP have a wide range of applications, but it also has the capacity to improve the performance of existing designs. It’s small size, coupled with its reliable performance and respectable temperature range makes it suitable for most projects. It is energy efficient and has low power consumption, making it ideal for small, low-power applications. With its high isolation, it can also be used to provide protection from static disturbances in your electronic systems.
In conclusion, the TZX16A-TAP is an excellent diode option for anyone looking to get more out of their existing designs. Its small size and high isolation voltage make it suitable for a range of applications, while its reliable performance at a variety of temperatures and illumination angles make it a safe choice. Add to this its low power consumption and energy efficiency, and you have a device that can provide stability and protection from static disturbance. All of these factors make it an ideal choice for any situation.
The specific data is subject to PDF, and the above content is for reference
Part Number | Manufacturer | Price | Quantity | Description |
---|
TZX10A-TAP | Vishay Semic... | -- | 30000 | DIODE ZENER 10V 500MW DO3... |
TZX12A-TAP | Vishay Semic... | 0.02 $ | 30000 | DIODE ZENER 12V 500MW DO3... |
TZX12D-TAP | Vishay Semic... | 0.02 $ | 20000 | DIODE ZENER 12V 500MW DO3... |
TZX16C-TAP | Vishay Semic... | -- | 30000 | DIODE ZENER 16V 500MW DO3... |
TZX18A-TAP | Vishay Semic... | -- | 30000 | DIODE ZENER 18V 500MW DO3... |
TZX10A-TR | Vishay Semic... | 0.02 $ | 30000 | DIODE ZENER 10V 500MW DO3... |
TZX11B-TR | Vishay Semic... | 0.02 $ | 30000 | DIODE ZENER 11V 500MW DO3... |
TZX16C-TR | Vishay Semic... | 0.02 $ | 30000 | DIODE ZENER 16V 500MW DO3... |
TZX18A-TR | Vishay Semic... | 0.02 $ | 30000 | DIODE ZENER 18V 500MW DO3... |
TZX18B-TAP | Vishay Semic... | -- | 20000 | DIODE ZENER 18V 500MW DO3... |
TZX14B-TAP | Vishay Semic... | -- | 20000 | DIODE ZENER 14V 500MW DO3... |
TZX15B-TAP | Vishay Semic... | -- | 20000 | DIODE ZENER 15V 500MW DO3... |
TZX13B-TR | Vishay Semic... | 0.02 $ | 20000 | DIODE ZENER 13V 500MW DO3... |
TZX15X-TAP | Vishay Semic... | 0.02 $ | 1000 | DIODE ZENER 15V 500MW DO3... |
TZX10B-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 10V 500MW DO3... |
TZX10C-TAP | Vishay Semic... | -- | 1000 | DIODE ZENER 10V 500MW DO3... |
TZX10D-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 10V 500MW DO3... |
TZX11A-TAP | Vishay Semic... | -- | 1000 | DIODE ZENER 11V 500MW DO3... |
TZX11B-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 11V 500MW DO3... |
TZX11C-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 11V 500MW DO3... |
TZX11D-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 11V 500MW DO3... |
TZX12B-TAP | Vishay Semic... | -- | 1000 | DIODE ZENER 12V 500MW DO3... |
TZX12C-TAP | Vishay Semic... | -- | 1000 | DIODE ZENER 12V 500MW DO3... |
TZX13A-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 13V 500MW DO3... |
TZX13B-TAP | Vishay Semic... | -- | 1000 | DIODE ZENER 13V 500MW DO3... |
TZX13C-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 13V 500MW DO3... |
TZX14A-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 14V 500MW DO3... |
TZX14C-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 14V 500MW DO3... |
TZX15A-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 15V 500MW DO3... |
TZX15C-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 15V 500MW DO3... |
TZX16A-TAP | Vishay Semic... | -- | 1000 | DIODE ZENER 16V 500MW DO3... |
TZX16B-TAP | Vishay Semic... | -- | 1000 | DIODE ZENER 16V 500MW DO3... |
TZX18C-TAP | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 18V 500MW DO3... |
TZX10B-TR | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 10V 500MW DO3... |
TZX10C-TR | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 10V 500MW DO3... |
TZX10D-TR | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 10V 500MW DO3... |
TZX11A-TR | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 11V 500MW DO3... |
TZX11C-TR | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 11V 500MW DO3... |
TZX11D-TR | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 11V 500MW DO3... |
TZX12A-TR | Vishay Semic... | 0.01 $ | 1000 | DIODE ZENER 12V 500MW DO3... |
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