Overview
The BCX 51-16 E6327 is a high-performance PNP bipolar junction transistor (BJT) manufactured by Infineon Technologies. This component is designed for a wide range of electronic applications, particularly in automotive and industrial sectors, due to its robust specifications and reliability. The transistor features a single dual collector configuration, making it versatile for various circuit designs. It is packaged in a surface-mount SOT-89-4 case, which is compact and suitable for modern electronic designs.
Key Specifications
| Parameter | Value | Parameter | Value |
|---|---|---|---|
| Transistor Type | PNP | Material | Silicon (Si) |
| Configuration | Single Dual Collector | Number of Elements per Chip | 1 |
| Maximum Collector-Base Voltage (V) | 45 V | Maximum Collector-Emitter Voltage (V) | 45 V |
| Maximum Emitter-Base Voltage (V) | 5 V | Maximum DC Collector Current (A) | 1 A |
| Minimum DC Current Gain (hFE) | 25 @ 5mA @ 2V, 100 @ 150mA @ 2V, 25 @ 500mA @ 2V | Maximum Power Dissipation (mW) | 2000 mW |
| Transition Frequency | 125 MHz | Package/Case | SOT-89-4 |
| Pin Count | 4 | AEC-Q101 Qualified | Yes |
| Automotive Qualified | Yes | ECCN Code | EAR99 |
Key Features
- High Performance: The BCX 51-16 E6327 offers high transition frequency of 125 MHz and a maximum power dissipation of 2 W, making it suitable for high-frequency applications.
- Reliability: It is AEC-Q101 qualified, ensuring its reliability in automotive and other demanding environments.
- Compact Packaging: The SOT-89-4 surface-mount package is compact and ideal for space-constrained designs.
- Versatile Configuration: The single dual collector configuration provides flexibility in circuit design.
- High Current Handling: The transistor can handle a maximum DC collector current of 1 A, making it suitable for applications requiring moderate to high current levels.
Applications
The BCX 51-16 E6327 is widely used in various applications, including:
- Automotive Systems: Due to its AEC-Q101 qualification, it is commonly used in automotive electronics such as power management, signal amplification, and switching circuits.
- Industrial Control Systems: It is used in industrial control systems for motor control, power supplies, and other high-reliability applications.
- Consumer Electronics: The transistor can be found in consumer electronics for audio amplifiers, power switches, and other general-purpose applications.
- Power Management: It is used in power management circuits for voltage regulation and current limiting.
Q & A
- Q: What is the maximum collector-emitter voltage of the BCX 51-16 E6327?
A: The maximum collector-emitter voltage is 45 V. - Q: What is the transition frequency of the BCX 51-16 E6327?
A: The transition frequency is 125 MHz. - Q: Is the BCX 51-16 E6327 AEC-Q101 qualified?
A: Yes, it is AEC-Q101 qualified, making it suitable for automotive applications. - Q: What is the maximum DC collector current of the BCX 51-16 E6327?
A: The maximum DC collector current is 1 A. - Q: What is the package type of the BCX 51-16 E6327?
A: The package type is SOT-89-4. - Q: How can I ensure the authenticity of the BCX 51-16 E6327?
A: Ensure you purchase from authorized distributors who rigorously test and verify the credentials of the suppliers. Companies like Ovaga and Lisleapex have strict quality control measures in place. - Q: Where can I find detailed information and datasheets for the BCX 51-16 E6327?
A: Detailed information, datasheets, and application notes can be found on the manufacturer's website or through authorized distributors like Ovaga and Lisleapex. - Q: What are the typical applications of the BCX 51-16 E6327?
A: Typical applications include automotive systems, industrial control systems, consumer electronics, and power management circuits. - Q: What is the maximum power dissipation of the BCX 51-16 E6327?
A: The maximum power dissipation is 2000 mW. - Q: Can I get free samples of the BCX 51-16 E6327 for testing?
A: Yes, some distributors like Lisleapex offer free samples for testing. You can fill out a sample request form to receive them.
