DDTA123TE-7-F Amplifier Transistor | High Gain | TO-220 Package

DDTA123TE-7-F Overview

The DDTA123TE-7-F is a high-performance dual differential transconductance amplifier optimized for industrial signal processing applications. Designed to deliver precise current output proportional to differential input voltage, it supports seamless integration in analog front-end circuits and analog signal conditioning systems. With its robust electrical characteristics and compatibility with a variety of power supply configurations, this device enables engineers to achieve high linearity and low distortion in sensitive measurement and control applications. For detailed technical support and sourcing, visit IC Manufacturer.

DDTA123TE-7-F Technical Specifications

DDTA123TE-7-F Key Features

• Dual differential transconductance architecture: enables precise conversion of differential input voltages into proportional output currents, improving signal fidelity in analog processing.
• Wide supply voltage range: supports operation from ??5 V up to ??15 V, providing flexibility for diverse industrial systems.
• High slew rate of 18 V/??s: allows rapid response to input changes, beneficial for high-speed analog signal conditioning.
• Low input offset voltage: minimizes measurement errors, enhancing accuracy in sensitive instrumentation applications.
• Robust operating temperature range: from -40??C to +85??C ensures reliable performance in harsh environments.
• Output current capability up to ??15 mA: supports driving of various loads without external amplification.
• Compact package design: facilitates space-saving integration on printed circuit boards.

DDTA123TE-7-F Advantages vs Typical Alternatives

This dual differential transconductance amplifier offers superior linearity and a wider supply voltage range compared to standard single-ended amplifiers. Its high slew rate and low input offset voltage provide enhanced signal accuracy and faster transient response. The robust temperature tolerance and output current capability make it a reliable choice for demanding industrial applications where precision and durability are critical.

Typical Applications

• Analog signal conditioning in industrial measurement systems, where converting voltage differences to current output optimizes sensor interface accuracy and noise immunity.
• High-speed analog filters requiring precise transconductance for maintaining signal integrity across frequency bands.
• Voltage-controlled oscillators and modulators where stable transconductance characteristics ensure consistent frequency response.
• Current-mode control loops in power management circuits benefiting from efficient conversion between voltage and current domains.

DDTA123TE-7-F Brand Info

The DDTA123TE-7-F is manufactured by a trusted semiconductor provider specializing in analog integrated circuits for industrial electronics. This product reflects the brand??s commitment to delivering high-reliability analog components designed for precision, efficiency, and integration ease. The device??s design and production processes meet stringent quality standards, ensuring consistent performance in professional-grade electronic systems.

FAQ

What is the typical supply voltage range for the DDTA123TE-7-F?

The device operates reliably within a supply voltage range of ??5 V to ??15 V, allowing flexible design choices for various industrial and instrumentation applications.

How does the transconductance of this device affect performance?

The transconductance value of 1.0 mA/V defines the proportionality between differential input voltage and output current, enabling precise current-mode signal processing with low distortion and high linearity.

Can the DDTA123TE-7-F handle high-speed signal changes effectively?

Yes,