MJE13001. NPN SILICON TRANSISTOR. UNISONIC TECHNOLOGIES CO., LTD . 2 of 3 www.unisonic.com.tw. QW-R201-055.I. ▫ ABSOLUTE MAXIMUM. 13001-A Transistor Datasheet pdf, 13001-A Equivalent. Parameters and Characteristics. Transistors MJE13001 (marking MJE13001) and TS13001(marking 13001) in the package TO-92 have different pin assignment. Moreover, transistors mje13001 in TO-92 and SOT-89 packages can also have MJE13001 Datasheet (PDF).

    Author:GREGORIO COLLORA
    Language:English, Spanish, Arabic
    Country:Rwanda
    Genre:Health & Fitness
    Pages:782
    Published (Last):14.02.2016
    ISBN:338-5-59484-477-3
    Distribution:Free* [*Register to download]
    Uploaded by: IGNACIA

    73388 downloads 147395 Views 23.46MB PDF Size Report


    Transistor 13001 Pdf

    13001 Datasheet - Vcbo=600V, 200mA, NPN Transistor - Elite, 13001 pdf, 13001 pinout, 13001 manual, 13001 schematic, 13001 equivalent. 13001 Datasheet, 13001 PDF, 13001 Data sheet, 13001 manual, 13001 pdf, 13001, datenblatt, Electronics 13001, NPN Silicon Epitaxial Planar Transistor. MJE13001. NPN Silicon. Plastic-Encapsulate. Transistor. Features. • Capable of 1.0Watts of Power Dissipation. • Collector-current 0.2A.

    Follow More by the author: About: So basically i am a crazy person, who loves to think the most odd way ever possible,who makes what he thinks and also let other also make those. But recently one of my friend from ethiopia said that he wanted to do something that does not includes a microcontroller or arduino but still its worth making in a weekend and also in a small budget. So the idea came why not make a collection of 5 such projects that you can make with a universal transistor. Why transistor??? Basically ever since i started electronics. So what is actually a transistor? A transistor is a semiconductor device used to amplify and switch electronic signals and electrical power. It is composed of semiconductor material with at least three terminals for connection to an external circuit.

    Once the transistor specifications and parameters have been ascertained, it is possible to check for other replacement transistor types with similar parameters that will be able to operate within the circuit in question. When considering any possible replacement transistors, it is necessary to look at a variety of parameters.

    These will include the basic parameters of the transistor operation performance. They will also include the environmentally related parameters, and the physical parameters.

    Choosing Transistor Replacements

    All these need to be taken into account when choosing a suitable replacement transistor. Other types are normally only used in very specialist applications. It is important to know what type the transistor is because there is a difference in the base emitter forward bias voltage drop.

    For germanium it is around 0.

    The circuit will be designed around a particular voltage drop. Install the incorrect type and it experience the inverse of all the voltages it would expect and is likely to be destroyed. Possible application types may include: switching, analogue, low power, RF amplifier, low noise, etc.

    Put in the correct type and it may not perform well. For example a low power general-purpose transistor is unlikely to work well in a switching application even if it has a high ft or frequency limit. It is often necessary to match the replacement transistor package as closely as possible to enable the transistor to physically fit.

    Also the package may give an indication of other parameters. Transistor parameters such as Vceo, etc need to be checked. Although they are slightly different, for all circuit equivalences of this nature these transistor parameters are the same. Choosing a replacement transistor with approximately the same current gain is necessary.

    Normally it is not a problem to choose a replacement transistor with a higher gain.

    13001 Transistor | Transistor | Bipolar Junction Transistor

    Often a lower current gain may be acceptable. It is normally important to ensure that the transistor can meet any frequency limits. Often the package type is a good indication of this. These are the main parameters that are of importance in most applications, but be on the look out for any other transistor parameters that may need to be included in the selection of the replacement transistor.

    Picking a replacement transistor When choosing a suitable replacement transistor for use within an electronic circuit, there are several stages that must be considered when making the choice.

    These can be progressed in a logical order to narrow down the choice and enable the best alternative for the replacement transistor to be made. As bias voltages and other features are different it is necessary to select a replacement transistor with the same material. The replacement should have the same application if possible. Ensuring with pin-out is the same most but not all transistors have their leads in order - EBC will save many problems with fitting. Current gain values normally vary widely even for transistors of the same type so some variation will be acceptable.

    Don't go for a transistor with a much higher Ft as this may increase the risk of oscillation. Choosing a replacement transistor with a similar can style will often mean that both transistors have a similar power dissipation.

    These are normally required when transistors are used in specialist applications. Once the choice of replacement transistor has been made, then it can be installed in the circuit, and the performance checked. In most cases it will operate satisfactorily, but occasionally there may be a problem.

    If this is the case, it is necessary to re-visit the way in which the choice of the replacement transistor was made and see if any mistakes were made or look for other parameters that may affect the operation of the transistor circuit. These are the main parameters that are of importance in most applications, but be on the look out for any other transistor parameters that may need to be included in the selection of the replacement transistor.

    Picking a replacement transistor When choosing a suitable replacement transistor for use within an electronic circuit, there are several stages that must be considered when making the choice. These can be progressed in a logical order to narrow down the choice and enable the best alternative for the replacement transistor to be made.

    As bias voltages and other features are different it is necessary to select a replacement transistor with the same material. The replacement should have the same application if possible. Ensuring with pin-out is the same most but not all transistors have their leads in order - EBC will save many problems with fitting. Current gain values normally vary widely even for transistors of the same type so some variation will be acceptable.

    13001-A Datasheet, Equivalent, Cross Reference Search

    Don't go for a transistor with a much higher Ft as this may increase the risk of oscillation. Choosing a replacement transistor with a similar can style will often mean that both transistors have a similar power dissipation. These are normally required when transistors are used in specialist applications.

    Once the choice of replacement transistor has been made, then it can be installed in the circuit, and the performance checked.

    In most cases it will operate satisfactorily, but occasionally there may be a problem. If this is the case, it is necessary to re-visit the way in which the choice of the replacement transistor was made and see if any mistakes were made or look for other parameters that may affect the operation of the transistor circuit. What if I can't find the original transistor details? Sometimes it is very easy to find out the parameters of a particular transistor as it may be possible to find them on the Internet or in a transistor data book.

    If this is not possible, either because the markings are not visible, or the data cannot be found, then not all is lost. It is still possible to find out a lot about the transistor from its package and also the circuit in which it is being used.

    In this way it is usually possible to find a suitable replacement transistor. The step by step instructions below should help the essential parameters of the transistor to be discovered. Step by step instructions: These instructions are set out in an approximate order of the most significant parameters first followed by the less significant ones: Is it a transistor?

    This may appear to be an obvious question, but occasionally some devices may appear to be a transistor at first sight. It may be a field effect transistor, a Darlington transistor or even some other form of device. Alternatively, sometimes small voltage regulators are contained in packages similar to that of a transistor. Other devices may also appear in what may appear to be transistor packages at first sight. Careful examination of the application will enable this to be verified.

    It may be possible to discover this in a number of ways. If the original transistor is still working then this can be discovered by measuring the voltage across the base emitter junction when it is forward biased. This should be about 0. Alternatively it may be possible to ascertain the type by looking at other transistors in the circuit. Often the same technology will be used throughout the equipment. This is not always true so beware!

    Look at the specifications for other transistors in the same packages and this will give a good guide. Those packages designed for mounting on heatsinks will be more variable because they can often dissipate more power dependent upon the heatsink. It is best to be more cautious with these packages. High power transistors often offer lower gains - older power transistor types may be as low as 20 - 50, whereas the smaller transistors may offer gains anywhere between 50 and 1000.