How do I find an equivalent component for a discontinued part?

Search for the discontinued component using its part number in our database. Once found, scroll to the 'Equivalent Components' section where you'll see a ranked list of suitable replacements. Look for components with 80%+ match confidence for the best alternatives. Pay special attention to voltage, current, and power ratings to ensure they meet or exceed the original specifications.

What does the match percentage mean when comparing components?

The match percentage represents how closely an alternative component's specifications align with the original part. A 100% match indicates identical or better specifications across all parameters. 90-99% matches have very minor differences that typically don't affect most applications. 80-89% matches are excellent alternatives with some specification variations. Below 80% requires careful verification for your specific use case.

Can I use a component with higher voltage or current ratings?

Yes, you can safely use a component with higher voltage and current ratings than the original. These are considered 'better specifications' and provide additional safety margin. However, ensure other parameters like package type, pin configuration, and switching characteristics are compatible with your circuit design. Higher-rated components may be physically larger or more expensive.

How often is the component database updated with new parts?

Our database is continuously updated with new component releases from major manufacturers. We add hundreds of new components monthly and regularly update specifications for existing parts. Discontinued component information is also maintained to help with legacy equipment repairs. Subscribe to our newsletter or check the 'Recently Added' section for the latest additions.

What should I check when replacing a transistor or MOSFET?

When replacing transistors, verify these critical parameters: maximum voltage (VCEO/VDS), maximum current (IC/ID), power dissipation (PD), package type, and pin configuration. For MOSFETs, also check gate threshold voltage and on-resistance (RDS(on)). For high-frequency applications, verify transition frequency (fT) or switching times. Always ensure the replacement meets or exceeds all critical specifications.

Can I substitute components from different manufacturers?

Yes, components from different manufacturers can often be substituted if their specifications match. Our database includes cross-references from major manufacturers like Texas Instruments, STMicroelectronics, Infineon, ON Semiconductor, and others. Always compare datasheets to verify compatibility, especially for precision or high-frequency applications where subtle differences may matter.

How do I use the specification filters to narrow my search?

Use the advanced filters on the left sidebar to specify exact requirements. Enter voltage ranges, current ratings, package types, or manufacturer preferences. You can combine multiple filters to find components that meet all your criteria. The search updates in real-time as you adjust filters. This is particularly useful when designing new circuits with specific constraints.

What is the difference between BJT and MOSFET transistors?

BJT (Bipolar Junction Transistor) is current-controlled and typically used in amplification circuits, while MOSFET (Metal-Oxide-Semiconductor FET) is voltage-controlled and preferred for power switching. MOSFETs generally have lower on-resistance, faster switching speeds, and higher input impedance. BJTs offer better transconductance for analog applications. Choose based on your application's switching speed, power efficiency, and drive circuit requirements.

Electronic Components Database - Find Transistors, MOSFETs & IC Equivalents

Browse our comprehensive database of 4,327+ electronic components. Find transistors, MOSFETs, ICs and their suitable equivalents for your electronics projects.

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Power MOSFETs for efficient switching and motor control

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2DA1213

PNP Bipolar Transistor 2DA1213

2DA1213O

PNP Bipolar Transistor 2DA1213O

2DA1213Y

PNP Bipolar Transistor 2DA1213Y

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PNP Bipolar Transistor 2N1131

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NPN Bipolar Transistor 2N1479

2N1480

NPN Bipolar Transistor 2N1480

2N1481

NPN Bipolar Transistor 2N1481

2N1482

NPN Bipolar Transistor 2N1482

2N1549

PNP Bipolar Transistor 2N1549

2N1550

PNP Bipolar Transistor 2N1550

2N1551

PNP Bipolar Transistor 2N1551

2N1552

PNP Bipolar Transistor 2N1552

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Op-Amps•BJT Transistors•Power MOSFETs•Timer ICs•General Purpose Transistors

What is an Electronic Components Database?

An electronic components database is a comprehensive digital repository that catalogs thousands of electronic parts, including transistors, integrated circuits (ICs), MOSFETs, diodes, resistors, and capacitors. Our database provides detailed technical specifications, pinout diagrams, datasheets, and most importantly - equivalent component suggestions that can replace discontinued or hard-to-find parts.

For electronics engineers, hobbyists, and technicians, finding the right component or a suitable replacement is crucial for circuit design, repair work, and product development. Our database streamlines this process by offering intelligent search capabilities, specification filtering, and cross-reference matching to help you identify compatible alternatives quickly and accurately.

Key Features of Our Component Database:

Extensive Coverage: Thousands of components from major manufacturers including Texas Instruments, STMicroelectronics, Infineon, and more
Detailed Specifications: Complete electrical parameters, package types, operating conditions, and performance characteristics
Smart Equivalence Matching: Advanced algorithms to find suitable replacements based on specifications and application requirements
Manufacturer Cross-References: Direct equivalent parts from different manufacturers with compatibility notes
Regular Updates: Continuously updated with new component releases and discontinued part information

How to Find Component Equivalents

Finding equivalent components requires understanding both the electrical specifications and the application context. Our database uses a sophisticated matching algorithm that considers multiple factors to suggest the best alternatives.

Step-by-Step Guide to Finding Equivalents:

Search for Your Component: Enter the part number (e.g., "2N2222", "BC547", "IRF540") in the search bar. The system will locate the component and display its complete specifications.
Review Specifications: Check the key parameters such as voltage ratings, current capacity, power dissipation, gain (for transistors), and package type. Understanding these helps evaluate suitable replacements.
Check Equivalent Matches: Our database automatically generates a list of equivalent components ranked by compatibility percentage. Higher percentages indicate closer matches.
Compare Critical Parameters: Review the side-by-side comparison to ensure voltage, current, and power ratings meet or exceed your original component's specifications.
Verify Application Suitability: Consider factors like switching speed, frequency response, and thermal characteristics based on your specific application (audio, power switching, RF, etc.).

Understanding Match Confidence Levels:

Exact Match (95-100%): Direct replacement from same or different manufacturer with identical specifications
High Match (80-94%): Excellent alternative with very similar specs, minor differences in secondary parameters
Good Match (65-79%): Suitable replacement with comparable performance, may have different package or minor spec variations
Acceptable Match (50-64%): Functional alternative that meets basic requirements but requires careful verification

Component Specifications Guide

Understanding component specifications is essential for proper part selection and replacement. Here's a comprehensive guide to the most important parameters you'll encounter in our database.

Transistor Specifications:

V_CEO (Collector-Emitter Voltage): Maximum voltage between collector and emitter when base is open
I_C (Collector Current): Maximum continuous current the collector can handle
P_D (Power Dissipation): Maximum power the component can dissipate as heat
h_FE (Current Gain): Ratio of collector current to base current (amplification factor)
f_T (Transition Frequency): Frequency at which current gain drops to unity

MOSFET Specifications:

V_DS (Drain-Source Voltage): Maximum voltage the MOSFET can block when off
I_D (Drain Current): Maximum continuous current through the device
R_DS(on) (On-Resistance): Resistance when fully turned on - lower is better for efficiency
V_GS(th) (Gate Threshold Voltage): Gate voltage needed to start conducting
Q_G (Gate Charge): Amount of charge needed to switch the device - affects switching speed

Integrated Circuit Specifications:

Supply Voltage Range: Minimum and maximum operating voltages
Operating Current: Typical current consumption during operation
Output Current Capability: Maximum current each output can source or sink
Operating Temperature Range: Temperature limits for reliable operation
Pin Configuration: Physical arrangement and function of pins

Common Use Cases and Applications

Electronic components serve various purposes in circuit design and electronics repair. Understanding common applications helps in selecting the right components for your projects.

Typical Applications by Component Type:

Small Signal Transistors (e.g., BC547, 2N2222):

Audio amplifiers, switching circuits, sensor interfaces, logic level conversion, oscillators, and general-purpose amplification

Power Transistors & MOSFETs (e.g., IRF540, TIP41C):

Motor control, power supplies, inverters, DC-DC converters, LED drivers, audio power amplifiers, and high-current switching

Operational Amplifiers (e.g., LM358, TL071):

Signal conditioning, active filters, instrumentation amplifiers, voltage followers, comparators, and precision measurement circuits

Voltage Regulators (e.g., 7805, LM317):

Power supply regulation, battery charging circuits, voltage references, and portable device power management

Timer ICs (e.g., NE555, LM556):

Pulse generation, oscillators, time delay circuits, PWM generators, LED flashers, and sequential timing control

Microcontrollers (e.g., ATmega328, STM32):

Embedded systems, IoT devices, robotics, automation control, sensor data logging, and programmable logic applications

Repair and Replacement Scenarios:

Finding substitutes for obsolete or discontinued components in vintage equipment
Sourcing locally available alternatives for imported components
Identifying higher-specification upgrades for performance improvement
Cross-referencing manufacturer-specific parts to generic equivalents
Matching components when original part numbers are illegible or unknown

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