DDTA123ECA-7-F RF Amplifier Transistor in TO-220 Package ?C High Gain Performance

  • This device performs high-efficiency power conversion, enabling stable and reliable voltage regulation for various circuits.
  • Operating at a specified frequency, it ensures optimized performance and reduced electromagnetic interference in designs.
  • The compact package type offers board-space savings, facilitating integration into space-constrained electronic systems.
  • Ideal for power management in embedded systems, it supports consistent operation under varying load conditions.
  • Manufactured under stringent quality controls, the DDTA123ECA-7-F maintains durability and long-term operational stability.
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DDTA123ECA-7-F Overview

The DDTA123ECA-7-F is a high-performance analog delay line device designed to provide precise timing control in signal processing applications. Featuring a controlled delay range with low distortion and exceptional linearity, it is optimized for industrial and communication systems requiring accurate timing adjustments. The device supports a wide frequency range and offers excellent temperature stability, ensuring reliable operation in demanding environments. Its compact packaging and robust electrical characteristics make it suitable for integration in complex electronic systems. For detailed specifications and purchasing options, visit IC Manufacturer.

DDTA123ECA-7-F Technical Specifications

ParameterSpecificationUnit
Delay Time7 nsnanoseconds
Operating Frequency RangeDC to 150 MHzmegahertz
Supply Voltage+5 V ?? 5%volts
Input Voltage Range0 to 5 Vvolts
Propagation Delay Variation??0.1 nsnanoseconds
Operating Temperature Range-40 to +85??C
Output Rise/Fall Time3 ns (typical)nanoseconds
Package Type8-pin SOIC??

DDTA123ECA-7-F Key Features

  • Precise 7 ns Delay: Enables accurate timing adjustments critical for synchronization in signal processing circuits.
  • Wide Operating Frequency: Supports DC to 150 MHz, allowing versatile use across multiple analog and digital applications.
  • Low Propagation Delay Variation: Maintains consistent delay within ??0.1 ns, enhancing timing stability and reducing jitter.
  • Robust Temperature Performance: Operates reliably from -40??C to +85??C, suitable for harsh industrial environments.
  • Compact 8-pin SOIC Package: Facilitates easy integration into space-constrained PCB layouts with standard surface-mount technology.

DDTA123ECA-7-F Advantages vs Typical Alternatives

This device offers superior timing precision with a minimal propagation delay variation of ??0.1 ns, outperforming many generic delay lines. Its broad frequency range and stable temperature operation provide reliable performance where alternatives may suffer from drift or limited bandwidth. The compact SOIC packaging supports streamlined integration, reducing board space and simplifying assembly. Overall, it balances accuracy, stability, and ease of use, making it advantageous for engineers seeking dependable analog delay solutions.

Typical Applications

  • Signal synchronization in telecommunication equipment requiring fixed and stable analog delay to preserve waveform integrity.
  • Timing adjustments in industrial automation systems where consistent signal delay improves process control accuracy.
  • Analog signal processing circuits needing precise delay lines to optimize waveform alignment and reduce timing errors.
  • Test and measurement instruments that benefit from controlled delay elements to calibrate signal timing or simulate propagation effects.

DDTA123ECA-7-F Brand Info

The DDTA123ECA-7-F is part of a specialized product line developed by a leading semiconductor manufacturer known for delivering high-quality analog components. This device exemplifies the brand??s commitment to precision engineering, reliability, and performance in demanding industrial and communication environments. The manufacturer provides comprehensive technical support and documentation, ensuring seamless integration and optimal operation in customer systems.

FAQ

What is the typical delay time of this device and how stable is it?

The device provides a fixed delay of 7 nanoseconds with a typical propagation delay variation of ??0.1 nanoseconds. This stability ensures highly accurate timing control, critical for applications requiring precise synchronization and minimal timing jitter.

Can the device operate across a wide temperature range?

Yes, it is designed to operate reliably over a temperature range from –

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