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BJTs

Bipolar Junction Transistors (BJTs) are current-controlled devices used for signal amplification, switching, and voltage regulation in analog circuits, audio amplifiers, and legacy digital logic. Available in NPN and PNP configurations from Nexperia, onsemi, Vishay, Diodes Incorporated, and STMicroelectronics with parametric selection by collector-emitter voltage (VCEO), collector current (IC), gain (hFE), transition frequency (fT), and package.

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Product Series & Base Models

481 model families directly associated with BJTs. Browse the full catalog with search and filters.

Browse all 481
481 Base ModelsDiodes IncorporatedVishayROHM
Browse All Base Models

Browse BJTs Products

Showing 91–100 of 5,539 products
PART NUMBERMANUFACTURERDESCRIPTIONSTOCKQTY / ACTION
TIP107GonsemiPNP Darlington Transistor 100V 8A TO-220AB93,000
TIP102GonsemiNPN Darlington Power Transistor, 100V, 8A, TO-2204
TIL113SMonsemiTransistor Output Optocouplers SMD Darlington540
TIL113Monsemi6-pin DIP Photodarlington Output Optocoupler, 1000-BLKBG1,073
TIL111MonsemiTransistor Output Optocouplers 6-Pin DIP Optocplr Transistor Output1,000
TF412ST5GonsemiTrans JFET N-CH 30V 10mA Automotive 3-Pin SOT-883 T/R288,000
SZT1010T1GonsemiTRANSISTOR HV SOT223144,000
SSVMUN5312DW1T2GonsemiBipolar Transistors - Pre-Biased SS BRT COMPLEMENTARY14,495
SSVBC846BPDW1T1GonsemiBipolar Transistors - BJT SS DUAL GEN XSTR486,000
SS8550CTAonsemiPNP BJT Transistor, 25V, 1.5A, TO-92-3, 200MHz22,000

How to Choose BJTs

A practical selection framework for BJTs covering specifications, packaging, lifecycle, and sourcing on Octatronics.

  1. Define electrical and environmental requirements

    Start with the required function and operating conditions for BJTs, then lock in critical parameters such as breakover voltage, on-state current, gate trigger current, holding current, and dv/dt capability. Match these against datasheet limits, not catalog summaries alone.

  2. Validate package and land pattern compatibility

    Confirm the BJTs package matches your PCB footprint, pick-and-place constraints, and moisture sensitivity handling. Verify reel/tape or tube packaging for production.

  3. Check lifecycle, compliance, and alternates

    Review lifecycle status (Active, NRND, EOL), RoHS, and approved alternate sources for BJTs before committing to high-volume builds. Use Octatronics cross-reference data when a drop-in replacement is needed.

  4. Compare manufacturers and request pricing

    Filter BJTs by manufacturers such as onsemi and ROHM, compare key specs side by side, then submit an RFQ with quantity, target delivery, and traceability requirements.

About BJTs

Frequently Asked Questions

Octatronics can help source a wide range of BJTs from major manufacturers worldwide, including active production parts, long-lead-time items, and hard-to-find components.

Yes. You can submit a single part number or upload a BOM with multiple parts. Our team will check stock, date code, lead time, and pricing for each item.

Availability depends on the specific part number and supplier source. For important orders, buyers can request packaging photos, labels, date code information, and traceability documents.

Yes. Octatronics supports sourcing for active, end-of-life, obsolete, and hard-to-find components through our global supplier network.

Please provide the part number, manufacturer, quantity, required date code, target price, delivery country, and whether original packaging or COC is required.

Articles & Technology

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PNP Bipolar Junction Transistor (BJT): Definition, Working Principle, and Core Electronics Concepts

The PNP bipolar junction transistor is a current-controlled semiconductor device used in switching and amplification. This guide explains its working principle, structure, biasing behavior, and differences compared to NPN transistors in a clear, structured format for electronics learners and engineers.

2026-07-06
Field Emission Transistor Explained: Vacuum FETs, Field Emission Devices, and How They Differ from FETs

Field Emission Transistor Explained: Vacuum FETs, Field Emission Devices, and How They Differ from FETs

A field emission transistor is a device concept that uses strong electric fields to extract electrons from an emitter, often through quantum tunneling, and then controls or collects those electrons using nearby electrodes. Unlike a conventional field effect transistor, which controls current through a semiconductor channel, many field emission transistor concepts are related to vacuum electronics, vacuum field emission transistors, nanoscale vacuum channel transistors, and advanced field emission devices.

2026-06-28
What Is a Field Effect Transistor? FET Types, Working Principle, Applications, and Selection Guide

What Is a Field Effect Transistor? FET Types, Working Principle, Applications, and Selection Guide

A Field Effect Transistor, commonly called a FET, is a voltage-controlled semiconductor device that uses an electric field to control current flow between two terminals called the source and drain. Unlike bipolar junction transistors, which require input current at the base, FETs are controlled mainly by voltage at the gate terminal. This gives FETs high input impedance, low control power, and strong advantages in switching, amplification, power management, RF circuits, sensor interfaces, and modern integrated circuits.

2026-06-28