Allicdata Part #: | TIPL761C-S-ND |
Manufacturer Part#: |
TIPL761C-S |
Price: | $ 0.00 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | Bourns Inc. |
Short Description: | TRANS NPN 550V 4A SOT-93 |
More Detail: | Bipolar (BJT) Transistor NPN 550V 4A 12MHz 100W Th... |
DataSheet: | TIPL761C-S Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | -- |
Packaging: | Tube |
Part Status: | Obsolete |
Transistor Type: | NPN |
Current - Collector (Ic) (Max): | 4A |
Voltage - Collector Emitter Breakdown (Max): | 550V |
Vce Saturation (Max) @ Ib, Ic: | 1V @ 400mA, 2A |
Current - Collector Cutoff (Max): | 50µA |
DC Current Gain (hFE) (Min) @ Ic, Vce: | 20 @ 500mA, 5V |
Power - Max: | 100W |
Frequency - Transition: | 12MHz |
Operating Temperature: | -- |
Mounting Type: | Through Hole |
Package / Case: | TO-218-3 |
Supplier Device Package: | SOT-93 |
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Transistors - Bipolar (BJT) - Single are small semiconductor devices, consisting of three to five terminals and processed as two electronic components, a small Switch and an Amplifier. The application field and working principle of the TIPL761C-S can be further discussed here.
The TIPL761C-S is a general-purpose NPN, Bipolar, Transistor that offers good switching and amplification performance. It is particularly useful when a low gain and high frequency gain is required in medium power applications.
The application of TIPL761C-S is mainly for switching purposes or for providing current or voltage amplification, as it can provide a maximum current gain of 200 and maximum voltage gain of 2V/V. It can also be used for other purposes such as creating low current circuits, high frequency oscillators, voltage regulators, and comparable functions.
The main operating principle of TIPL761C-S is current gain, where the base current controls the collector current. The output current amplification is achieved by applying a low voltage bias (base current) to the base terminal, resulting in a larger current at the collector end. As a result, the voltage at the collector terminal is higher than the voltage at the base terminal and/or emitter terminal.
The working of TIPL761C-S is also influenced by the current flowing through the collector terminal. When a small current flows through the collector, the current gain or Beta is slightly reduced. However, when a large current flows through the collector terminal, the current gain is increased significantly.
The other operational features of TIPL761C-S depend upon the electrical parameters such as voltage and current ratings, device capacitances, and thermal properties. The device capacitances determine the speed of switching operations, while the thermal properties limit the maximum current flowing through the transistor.
A wide range of design techniques is available for improving the switching and amplification characteristics of TIPL761C-S. If a higher voltage gain is desired, a voltage divider can be used to reduce the input voltage. Similarly, its switching characteristics can be improved by using higher values of base current, collector current, and circuit power dissipation.
The TIPL761C-S provides a reliable and durable alternative to other transistor devices. It can be used either as an on/off switch or as an amplifier, providing excellent performance at both temperature extremes. It has various features such as low saturation voltage, low noise, good thermal stability, and wide operating voltage range. It is suitable for applications involving high-frequency pulse modulation. The transistor also offers high accuracy due to a well-defined current gain and transistor gain.
In conclusion, the TIPL761C-S is a popular and cost-effective bipolar Transistor, used in many electronic applications. Its application field includes switching and amplification applications, while its main operating principle is current gain. To improve the device performance, designers can use various design techniques including adding resistors, capacitors, and other components. The device offers excellent performance at temperature extremes and has a wide range of operating voltage.
The specific data is subject to PDF, and the above content is for reference
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