NTE Electronics, Inc NTE213
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- NTE213
- NTE Electronics, Inc
- TRANS PNP 60V 30A TO36
- Transistors - Bipolar (BJT) - Single
- NTE213 Datasheet
- TO-36 (2 Leads + Case)
- Bag
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Lead free / RoHS Compliant - 759
- Spot Inventory / Athorized Dstributor / Factory Excess Stock
- 1 year quality assurance 》
- Click to get rates
What is NTE213
NTE Electronics, Inc Part Number NTE213(Transistors - Bipolar (BJT) - Single), developed and manufactured by NTE Electronics, Inc, distributed globally by Jinftry. We distribute various electronic components from world-renowned brands and provide one-stop services, making us a trusted global electronic component distributor.
NTE213 is one of the part numbers distributed by Jinftry, and you can learn about its specifications/configurations, package/case, Datasheet, and other information here. Electronic components are affected by supply and demand, and prices fluctuate frequently. If you have a demand, please do not hesitate to send us an RFQ or email us immediately [email protected] Please inquire about the real-time unit price, Data Code, Lead time, payment terms, and any other information you would like to know. We will do our best to provide you with a quotation and reply as soon as possible.
NTE213 Specifications
- Part NumberNTE213
- CategoryTransistors - Bipolar (BJT) - Single
- ManufacturerNTE Electronics, Inc
- DescriptionTRANS PNP 60V 30A TO36
- PackageBag
- Series-
- Operating Temperature-65°C ~ 110°C (TJ)
- Mounting TypeStud Mount
- Package / CaseTO-36 (2 Leads + Case)
- Supplier Device PackageTO-36
- Power - Max170 W
- Transistor TypePNP
- Current - Collector (Ic) (Max)30 A
- Voltage - Collector Emitter Breakdown (Max)60 V
- Vce Saturation (Max) @ Ib, Ic300mV @ 2A, 25A
- Current - Collector Cutoff (Max)4mA (ICBO)
- DC Current Gain (hFE) (Min) @ Ic, Vce50 @ 5A, 2V
- Frequency - Transition-
Application of NTE213
NTE213 Datasheet
NTE213 Datasheet , Bag,-65°C ~ 110°C (TJ),Stud Mount,TO-36 (2 Leads + Case),TO-36,170 W,PNP,30 A,60 V,300mV @ 2A, 25A,4mA (ICBO),50 @ 5A, 2V
NTE213 Classification
Transistors - Bipolar (BJT) - Single
FAQ about Transistors - Bipolar (BJT) - Single
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1. What is the difference between bipolar transistors and CMOS transistors?
The main differences between bipolar transistors and CMOS transistors are in working principles, structures, application scenarios, and power consumption.
Working principle
Bipolar transistor: Bipolar transistors have two types of carriers (holes and electrons) involved in conduction, and they are made of three parts of semiconductors with different doping levels. In bipolar transistors, the emitter emits free electrons, the collector receives holes, and the base controls the on and off of the current.
CMOS transistor: CMOS transistors have only one type of carrier (electrons or holes) involved in conduction, usually using a combination of P-type semiconductors and N-type semiconductors. In CMOS transistors, when the gate voltage is zero, the current does not flow. Only when the gate voltage reaches a certain value, the current will flow, which makes the CMOS transistor consume almost no power when static.
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2. Are bipolar transistors still in use?
Bipolar transistors are still in use and play an important role in many fields. Bipolar transistors, the full name of which is bipolar junction transistor (BJT), commonly known as triode, are electronic devices with three terminals, made of three parts of semiconductors with different doping levels. Its working principle involves the flow of two carriers, electrons and holes, so it is called bipolar.
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3. Is BJT transistor a bipolar device?
BJT transistor is a bipolar junction transistor (Bipolar Junction Transistor, referred to as BJT), which is a bipolar device. BJT is composed of two PN junctions, divided into PNP and NPN types, and works through two PN junctions to achieve current amplification.
The working principle of BJT is to amplify the collector current by controlling the base current. When the base potential is higher than the emitter potential, the emitter junction is in a forward biased state, and the collector junction is in a reverse biased state. Since the majority carrier concentration in the emitter region is greater than that in the base region, most of the electrons injected into the base region pass over the collector junction and enter the collector region, forming a collector current, thereby achieving current amplification.
BJT is widely used in electronic circuits, such as amplifiers, switches, oscillators, etc., with amplification capabilities, linear amplification characteristics and high frequency response.
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