The BD135 transistor is part of the popular BD series, which includes other models like BD131, BD137, and BD139, along with their PNP versions. This transistor is widely used because of its flexibility in different tasks. It can handle a collector current of up to 1.5A and a maximum collector dissipation of 12.5W, which makes it ideal for many switching and amplification purposes.
When you use the BD135 as a switch, it can control loads up to 1.5A, making it suitable for managing various components in electronic circuits. For instance, you could use it to drive high-power LEDs, relays, or other transistors. In addition, the BD135 can amplify signals, such as audio signals or other electronic inputs, to strengthen their output.
You’ll find this transistor useful in circuits that have microcontrollers or integrated circuits, particularly when these have low current outputs. The BD135 is also available in different gain versions, indicated by a number at the end of its part number. For example, BD135-6 has a gain between 40-100, BD135-10 has a gain of 63-160, and BD135-16 offers a higher gain of 100-250.
The BD135 transistor works well in various settings, whether you are working on commercial projects, educational circuits, or hobby electronics. You can use it as a switch or driver to control loads of up to 1.5A. This versatility makes it a helpful component in many types of circuits.
You might use the BD135 in an audio amplifier circuit, where it can boost the sound signal. It is also suitable for other stages in electronic circuits where signal amplification is needed. By understanding the transistor’s capabilities, you can easily find places in your designs where the BD135 fits perfectly, whether for switching or amplifying tasks.
To get the most out of the BD135 transistor in the long run, you should avoid pushing it beyond its limits. Do not use it to drive loads that exceed 1.5A or require more than 45V. If you are working with loads that draw more than 200mA, it’s a good idea to use a heatsink to keep the transistor from overheating.
In addition, always make sure you use a proper base resistor with the transistor. The operating temperature should stay between -55°C and +150°C to ensure stable and reliable performance. Following these simple guidelines will help maintain the efficiency and lifespan of your BD135 transistor in any circuit.
The BD135 comes in a TO-126 package, which is compact and easy to work with. This package helps manage heat and allows you to easily integrate the transistor into your projects.
This transistor is an NPN type, which means it allows current to flow from the collector to the emitter when a positive voltage is applied to the base. NPN transistors are commonly used in various switching and amplification circuits.
The BD135 can handle a maximum collector current of 1.5A, allowing it to control larger loads without any issues. This makes it suitable for driving components like LEDs, motors, and relays.
The transistor can withstand a maximum voltage of 45V between its collector and emitter. This voltage rating ensures the BD135 can be used in circuits where higher voltage switching is required.
Just like the collector-emitter voltage, the maximum collector-base voltage is also 45V. This gives the BD135 the flexibility to work in circuits where it must handle a range of voltage levels.
The maximum voltage allowed between the emitter and the base is 5V, so you’ll need to make sure that the base-emitter voltage stays within this range for proper operation.
The transistor can dissipate up to 12.5W of power, which means it can handle heat well and maintain stable performance in your circuit, as long as proper cooling measures, like a heatsink, are used.
With a transition frequency of 190 MHz, the BD135 is fast enough for many high-speed switching applications. This feature makes it a good choice for circuits requiring quick responses.
The BD135 provides a wide range of DC current gain, between 40 and 250, depending on the version you choose. This flexibility allows you to select the gain value that best suits your application needs.
The BD135 can operate in a wide temperature range, from -55°C to +150°C. This makes it reliable in various environments, from cold to hot, ensuring stable performance in many applications.
You can use the BD135 in circuits that require audio amplification or other signal boosting tasks. It strengthens the signal, making it louder or clearer in audio applications, or enhancing the quality of other electronic signals.
This transistor is excellent for switching and controlling loads of up to 1.5A, such as LEDs, motors, and relays. Its ability to handle these loads makes it versatile in many electronic projects.
The BD135 can also be used in motor driver circuits, providing control over motors in various devices. This application is especially useful when you need to drive small motors in robotic or mechanical projects.
You can integrate the BD135 into battery charger circuits, where it helps regulate the charging process. This is useful in devices that require controlled and safe charging of batteries.
The transistor can be part of power supply circuits, where it helps manage and regulate power distribution to different components in the circuit.
The BD135 is often used in Darlington pairs, a configuration that boosts current gain. This allows you to use it in applications that need higher current output without sacrificing efficiency.
• BD137
• BD139
• BD230
• 2SC5171S
• BD349
• BD379
The BD135 is produced by STMicroelectronics, a well-known company in the semiconductor industry. They specialize in creating solutions for various microelectronics applications. STMicroelectronics stands out for its expertise in both silicon and systems, as well as its strong manufacturing abilities and good relationships with key partners. These strengths have helped them lead the way in developing System-on-Chip (SoC) technology, playing a major role in today's electronics landscape. The company’s focus on innovative products has allowed them to shape how technology is evolving in many fields.
A detailed comparison of STMicroelectronics BD135 technical specifications, attributes, parameters, and components with similar specifications.
Type | Parameter |
Lifecycle Status | ACTIVE (Last Updated: 8 months ago) |
Factory Lead Time | 8 Weeks |
Contact Plating | Tin |
Mount | Through Hole |
Mounting Type | Through Hole |
Package / Case | TO-225AA, TO-126-3 |
Number of Pins | 3 |
Weight | 4.535924g |
Transistor Element Material | SILICON |
Collector-Emitter Breakdown Voltage | 45V |
Number of Elements | 1 |
hFE Min | 25 |
Operating Temperature | 150°C TJ |
Packaging | Tube |
JESD-609 Code | e3 |
Part Status | Active |
Moisture Sensitivity Level (MSL) | 1 (Unlimited) |
Number of Terminations | 3 |
ECCN Code | EAR99 |
Max Power Dissipation | 1.25W |
Base Part Number | BD135 |
Pin Count | 3 |
Element Configuration | Single |
Power Dissipation | 1.25W |
Case Connection | ISOLATED |
Transistor Application | AMPLIFIER |
Polarity/Channel Type | NPN |
Transistor Type | NPN |
Collector Emitter Voltage (VCEO) | 45V |
Max Collector Current | 1.5A |
DC Current Gain (hFE) (Min) @ Ic, Vce | 40 @ 150mA 2V |
Current - Collector Cutoff (Max) | 100nA ICBO |
Vce Saturation (Max) @ Ib, Ic | 500mV @ 50mA, 500mA |
Transition Frequency | 250MHz |
Max Breakdown Voltage | 45V |
Collector Base Voltage (VCBO) | 45V |
Emitter Base Voltage (VEBO) | 5V |
Height | 10.8mm |
Length | 7.8mm |
Width | 2.7mm |
REACH SVHC | No SVHC |
Radiation Hardening | No |
RoHS Status | ROHS3 Compliant |
Lead Free | Lead Free |
The PNP equivalent of the BD135 is the BD136. While the BD135 is an NPN transistor, the BD136 is its PNP counterpart, meaning it functions similarly but with opposite current flow. Both transistors are widely used in circuits that need complementary pairs for switching or amplification tasks.
The BD136 is a general-purpose PNP transistor designed for medium-power applications. It is often used in circuits for audio amplification or switching purposes. Like the BD135, the BD136 can amplify signals, but as a PNP transistor, it has a different current flow. It comes in a TO-126 package, which helps in managing heat and makes it easy to use in different types of electronic circuits.