Introduction to 2N3772
Hello friends! I hope you all will be absolutely fine and having fun. Today, I am going to give you an elaboration on
Introduction to 2N3772. I have already shared basic knowledge about different IC's and transistors in my previous tutorials e.g. Introduction to
IRF540,
BC547,
MMBD914,
LM339,
LM224 and
LM386. You must have alook at these tutorials before going into the details of this tutorials. It will be quite helpful in the better understanding of this article. 2N-3772 is basically a type of central semiconductor. It is basically a Negative Positive Negative (NPN) semiconductor. This semiconductor is designed by the process named as epitiaxial process. The main purpose behind its designing is to provide the high power based amplification process and fast switching applications.
The structure of 2N-3772 is mounted in JEDEC TO-3 metalic case. It is most suitable for inductive switching as well as linear amplifiers. 2N-3772 has a lot of amazing and unique features. These features include low saturation voltage for collector emitter junction. This voltage is around 4 volts. Capability of forward biased 2nd breakdown current is it another unique features among its competitors. 2N-3772 is also available in lead (Pb) free packages in the market these days. It has a wide range of applications in real life. Its most common real life applications include its use in linear amplifiers, fast switching devices, inductive switching, series pas regulators and many more that may be discussed later. This is the brief introduction to 2N3772. Thee further information about the basic use of 2N-3772 will be given later in this tutorial.
Introduction to 2N3772
2N3772 is an Negative Positive Negative (NPN) transistor. It belongs to the family of central semiconductors. It is enveloped in JEDEC TO-3 metalic structure. It is available at low cost while providing higher efficiency as compared to the other similar devices. It is easily available in the market and most of the time it is known on the basis of its applications. It has several different amazing features including low collector-emitter junction voltage, capable of forward biased current break-down. Its applications are include inductive switching, General Purpose (GP) linear amplifiers, series pas regulators and a lot more. "N-3772 is given in the figure shown below.
1. 2N3772 Pins
- Similar to the other transistor, it also has total three (3) pins.
- The names of all the pins are listed in the table given in the figure shown below.
2. 2N3772 Pin Symbols
- In order to avoid the complexity, each pin is simply assigned with the first letter of its name.
- The symbols assigned to each pin are provided in table given in the figure shown below.
3. 2N3772 Pin Symbolic Representation
- Symbolic representation of a device shows its symbol for theoretical use.
- 2N-3772 symbolic representation is shown in the figure below.
4. 2N3772 Pinout
- One must know about the pin configuration of any electronic device before using it.
- Pins configuration can be easily estimated via pinout diagram of an electronic device.
- I have also shared pinout diagram of different electronic devices in Introduction to L293D, L298, LM117, LM339, NE555, NE556, TL431 and TL072
- 2N-3772 pinout diagram is given in the figure shown below.
- From the above figure, you can see that I have provided the pins information as well as its real image for the better understanding.
5. 2N3772 Ratings
- Power requirements of each electronic device are very important parameters to operate them appropriately.
- If we don't know about the power requirements of a particular device, then providing slight higher voltage or current, it may be damaged immediately.
- Power requirements can be estimated from the power ratings of any device.
- Power ratings of 2N-3772 are listed in the table shown in the figure given below.
6. 2N3772 Electrical Characteristics
- It shows the electrical requirements of any electronic device.
- 2N-3772 electrical characteristics are listed in the table shown in the figure below.
7. 2N3772 Features
- Features belong to such parameters which are normally considered to be the most important key to success of any device while designing it.
- Unique features can make a device more popular.
- 2N-3772 common features are provided in the table shown in the figure given below.
8. 2N3772 Applications
- Applications are directly related to the popularity and sale of a product in the market.
- Larger the area of applications, higher will be chance of its sale.
- 2N-3772 application are listed in the table given in the figure shown below.
- Charging test time circuit for 2N-3772 is shown in the figure given below.
The tutorial
Introduction to 2N3772, has provided the platform consisting of all the necessary and important details about the basics of 2N3772, that one must know before its use. I hope you have enjoyed the tutorial. If there is something missing in this article, please do let me know. I will immediately update it correspondingly so that the future convenience can be avoided. If you have any sort of issue, you can ask us inn comments anytime you want to! Our team is 24/7 available to support you. We will try our level best to sort out your problems as soon as possible. I will share a lot of interesting as well as informative topics in my upcoming tutorials. So, till my next tutorial, take care and bye bye :)
Introduction to 2SC3320
Hello friends! I hope you all will be absolutely fine and having fun. Today, I am going to give you an elaboration on
Introduction to 2SC3320. I have shared the basic knowledge of different electronic devices in my previous articles like
Introduction to ULN2003,
LM317,
LM393,
IRF540,
BC547,
UA741 and
MC34063. 2SC-3320 is a Negative Positive Negative (NPN) transistor. It is made up of silicon. It is basically a power transistor. Power transistor is an electronic device which is able to handle certain level of power. 2SC-3320 has three terminals whose detail will be given later. Its an efficient device with higher efficiency available at at lower cost in the market these days. Due to cost efficiency and its unique features it is more popular device among the similar transistors. It is available in TO-3PN packages. It has different features due to which it is famous in the market. These features include its capability of handling high voltages, capability of high speed/fast switching. Moreover, higher reliability is its major and the most common feature that makes it different from the standard transistors. It has a wider range of its application area which include General Purpose (GP) power amplifiers, high frequency inverters, switching regulators, ultrasonic generators and many more. This was thr brief introduction to 2SC-3320. The further deatil about the basic use of this device will be given later in this section.
Introduction to 2SC3320
2SC3320 is an NPN transistors i.e. its emitter arrow, in its symbolic representation, will be directed towards outside of the structure. Its symbolic representation is given below. It is a power amplifier, capable of handling a particular power level. It is a silicon transistor available at low cost in the market these days. It is having three terminals as explained below. It features include high reliability, high voltage, fast speed switching and a lot more. It real life application are switching regulators, general purpose amplifiers, inverters with higher frequencies, ultra sonic generators etc. 2SC-3320 is shown in the figure given below.
1. 2SC3320 Pins
- Like the other transistors, it has total three (3) terminals.
- All of its pins are listed in the table shown in the figure given below.
2. 2SC3320 Pins Symbols
- Each terminals is assigned with the first letter of its name in order to avoid complication.
- Symbol associated with each pin is given in the table shown in the figure below.
3. 2SC3320 Symbolic Representation
- Symbolic representation helps us to represent a particular device in theoretical use.
- 2SC-3320 symbolic representation is given in the figure shown below.
4. 2SC3320 Pinout
- Pin configuration of any device must be known before its usage.
- If we do not know the pin configuration, we will not be able to use that device.
- Pinout diagram helps us to provide the information about pins configuration.
- I have also shared the pinout diagrams of different devices in my previous tutorials e.g. Introduction to LM317, BC547, IRF540, ULN2003, MMBD914 and L298.
- 2SC-3320 pinout diagram is given in the figure shown below.
5. 2SC3320 Ratings
- Power requirements of any device must be known for its proper operation.
- Ratings list provides the information about the power requirements of a particular device.
- 2SC-3320 ratings is provided in the table shown in the figure below.
6. 2SC3320 Features
- Features of a device are the most important parameters that play a vital role in its popularity.
- 2SC-3320 major features are listed in the table given in the figure shown below.
7. 2SC3320 Applications
- Many electronic devices are usually known on the basis of their applications.
- Application area and the sale of a product are directly related to each other.
- Larger the application area larger will be chances of its sale.
- 2SC-3320 major applications are listed in the table given in the figure shown below.
The tutorial
Introduction to 2SC3320, has elaborated the all the necessary information about the basic use of NPN silicon power transistor named as 2SC-3320. I hope you have enjoyed the tutorial hoping for your appreciation as well ;) If something is missing in this article, please let me know as soon as possible so that I can immediately update it correspondingly. If you are feeling any sort of problem, you can ask us anytime in comments. Our team is always available for your support. We will try our level best to solve your issues. I will share different interesting topics in my upcoming tutorials. Take care and bye bye till my nest tutorial :)
Introduction to 20N60
Hello friends! I hope you all will be absolutely fine and having fun. Today, I am going to give you an elaboration on
Introduction to 20N60. 20-N-60 is basically a power Metal Oxide Semiconductor Field Effect Transistor (MOSFET). Power MOSFET is a device that can handle a specific level of power. I have already shared information about MOSFET in my previous tutorials e.g.
Introduction to 75N75,
SG3524,
50N06,
IRFZ44N,
C945 and
TL072. Before going into the details of this article you must have a look at these articles. They will result in the better understanding of this article.
MOSFET family is divided into two categories. P-channel MOSFET and N-channel MOSFET. 20-N-60 belongs to the N-channel MOSFET. It is based on United Technologies Corporation (UTC) technology. This technology is used in order to provide minimum on state resistance. It also provides the fast switching applications at different places. 20-N-60 has a lot of amazing features. These features include capability of handling higher currents, higher switching speed, low on state resistance and many more. It has a wider range of real life applications associated with it. Its applications area include DC chopper, servo motor drivers, AC motor control speed, Uninterruptible Power Supply (UPS), switch mode power supply, resonant mode power supply etc. The further detail about the basics of MOSFET 20-N-60 will be given later in this tutorial.
Introduction to 20N60
20N60 belongs to the family of N-channel MOSFET. Its basically a power MOSFET that means it can handle certain levels of power. Its working principle is based on UTC technology. It provides the fast switching application and the minimum on state resistance as well. handling of high current, high speed of switching and low on sate resistance are its major features. Its real life applications include servo motor drivers, UPS, speed control of AC motor and many more. 20-N-60 is given in the figure shown below.
1. 20N60 Pins
- Similar to the other MOSFET's it also has three (3) pins in total.
- All of these three pins along with their names are provided in the table given in the figure shown below.
2. 20N60 Pins Symbol
- In order minimize the complications, each pins is assigned the first letter of its name, as a symbol.
- All the pins with corresponding symbols are listed in the table shown in the figure given below.
3. 20N60 Symbolic Representation
- Symbolic representation of an electronic device helps us to understand the internal structure with the help of a symbol and its theoretical use.
- 20N60 symbolic representation is given in the figure shown below.
4. 20N60 Pinout
- Before using any electronic device we must know about its pins configuration.
- Pinout diagram of an electronic device helps us to better understand the pin configurations of the particular device.
- I have already shred pinout diagrams of many IC's in Introduction to TL081, TL431, TL494, UA741, UC3843 and ULN2003, you ust have a look at these tutorials.
- 20-N-60 pinout diagram is given in the figure shown below.
5. 20N60 Ratings
- Ratings of a device tells us about the estimation of its power requirements.
- 20-N-60 ratings are provided in the table shown in the figure given below.
6. 20N60 Features
- The features of a device are such parameters that can make it popular on the basis of their uniqueness.
- 20-N-60 some of the most common features are listed in the table given in the figure shown below.
7. 20N60 Advantages
- Advantages play vital role in the device's importance.
- Advances basically help us to do our real life problems using a particular device.
- Advantages associated with 20-N-60 are listed in the table given in the figure shown below.
8. 20N60 Applications
- Applications area is very important for the importance of a product in today's market.
- Most of the devices are available on the basis of their applications, in the market these days.
- The common real life applications of 20-N-60 are provided in the table shown in the figure given below.
In the tutorial
Introduction to 20N60, I have provided all the basic knowledge about the use of 20N60 power MOSFET. The discussion includes the pins related information, its features, application area, symbolic representation and pinout diagram. I hope you have enjoyed the tutorial and hoping for your appreciation ;) If you have any problem regarding any engineering related topic, you can ask us in comments anytime, Our team is always available for you to provide you with the better support. If you found something missing in this article, please let me know immediately. So that, I can update it correspondingly to avoid any kind of future inconvenience. I will share different interesting and informative topic in my upcoming tutorials. Till my next article take care and bye bye :)