DDTC123JE-7-F Overview
The DDTC123JE-7-F is a precision dual transistor designed for high-performance switching and amplification in industrial and consumer electronics. Featuring a complementary NPN and PNP transistor pair within a compact SOT-363 package, it supports efficient signal processing with low saturation voltage and fast switching capabilities. This device delivers reliable operation under varying thermal conditions, making it ideal for integrated circuits requiring precise current control and amplification. Sourcing engineers and design professionals value its robust electrical characteristics and compact form factor, ensuring seamless integration into complex systems. For detailed technical support, visit IC 製造商.
DDTC123JE-7-F Technical Specifications
| 參數 | 規格 |
|---|---|
| 電晶體類型 | Dual Complementary (NPN & PNP) |
| 包裝 | SOT-363 (SC-70 6-pin) |
| Collector-Emitter Voltage (NPN) | 50 V |
| Collector-Emitter Voltage (PNP) | 50 V |
| Collector Current (Continuous) | 150 mA |
| 直流電流增益 (hFE) | 100 to 300 (varies with test conditions) |
| 轉換頻率 (fT) | 100 MHz (typical) |
| 功率耗散 | 350 mW (max) |
| 操作溫度範圍 | -55 ??C to +150 ??C |
| Base-Emitter Voltage | 1.2 V (max) |
DDTC123JE-7-F Key Features
- Complementary dual transistor pair: Enables compact, efficient push-pull amplifier designs, reducing board space and component count.
- 低飽和電壓: Minimizes power loss during switching, improving energy efficiency in power-sensitive applications.
- Wide frequency response: Supports high-speed switching up to 100 MHz, ideal for RF amplification and signal modulation tasks.
- Thermal stability: Reliable operation across a broad temperature range ensures consistent performance in harsh industrial environments.
DDTC123JE-7-F Advantages vs Typical Alternatives
This dual transistor device offers superior integration with its complementary NPN and PNP pair in a single compact package, reducing circuit complexity compared to discrete components. Its low saturation voltage and high current gain deliver enhanced switching efficiency and signal integrity. The broad operating temperature range further increases reliability over typical alternatives, making it well-suited for demanding industrial and communication applications.
暢銷產品
典型應用
- Signal amplification in audio and RF circuits, where precise complementary transistor pairs improve linearity and reduce distortion for high-fidelity output.
- Low-power switching circuits requiring fast transition times and low voltage drop to maximize battery life and system efficiency.
- Push-pull amplifier stages in small form-factor devices, leveraging the integrated complementary pair to save PCB space and simplify design.
- General-purpose industrial control and interface circuits, benefiting from the device??s robustness and stable operation over wide temperature ranges.
DDTC123JE-7-F Brand Info
The DDTC123JE-7-F is part of a series of high-quality dual complementary transistor devices manufactured by a leading semiconductor supplier known for delivering reliable, performance-optimized components. Designed for precision amplification and switching in industrial and consumer electronics, this product reflects the brand??s commitment to innovation, consistency, and support for engineers seeking efficient and compact transistor solutions.
常見問題
What is the maximum collector current rating of this dual transistor?
The maximum continuous collector current for each transistor within the device is rated at 150 mA. This ensures it can handle moderate current loads typical in amplification and switching circuits without risk of damage under normal operating conditions.
精選產品
Can the device operate reliably at high temperatures?
Yes, the transistor pair is specified to operate reliably across a temperature range from -55 ??C to +150 ??C, supporting industrial applications where thermal conditions may vary significantly.
What package does this dual transistor use, and why is it beneficial?
The device is housed in a SOT-363 package, a compact 6-pin SC-70 form factor. This package reduces PCB footprint and facilitates high-density circuit design, making it ideal for space-constrained electronic assemblies.
