American Technical Ceramics (ATC) is a leading manufacturer of advanced electronic components and materials. Based in the United States, ATC specializes in the design, development, and production of high-performance ceramic-based products for a wide range of industries. The company's extensive product portfolio includes multilayer ceramic capacitors (MLCCs), single-layer capacitors, thin film components, custom RF/microwave components, and more. These products are utilized in various applications such as telecommunications, medical devices, aerospace, defense, and automotive electronics. ATC's commitment to innovation and technology leadership is evident in its continuous research and development efforts, resulting in cutting-edge solutions that meet the ever-evolving demands of the industry. The company's manufacturing facilities are equipped with state-of-the-art equipment and processes, ensuring exceptional quality control throughout the production cycle. ATC also offers customized solutions, working closely with customers to develop products tailored to their specific requirements. With a strong focus on customer satisfaction, ATC provides comprehensive technical support and application assistance, ensuring seamless integration of its products into customer designs. Additionally, ATC places a significant emphasis on environmental sustainability, striving to minimize its carbon footprint through responsible manufacturing practices and the use of recyclable materials. With a global presence and a reputation for excellence, American Technical Ceramics is a trusted partner for businesses seeking reliable, high-performance electronic components and materials. Through its dedication to innovation, quality, and customer service, ATC continues to drive advancements in the field of ceramics and contribute to the success of its customers.
Products within this family are designed to combine multiple passive components into a single device, resulting in a frequency-dependent opposition to the flow of current. While there are alternative types available, the majority of these products are classified as low-pass devices, specifically designed to suppress the transmission of high-frequency signals that could potentially cause interference or disrupt desired operation. These integrated devices offer a compact solution by incorporating various passive components, such as resistors, capacitors, and inductors, into a single unit. The arrangement and characteristics of these components are carefully engineered to create a frequency-dependent impedance. This impedance acts as a barrier to the flow of current for high-frequency signals, effectively attenuating or blocking them while allowing lower-frequency signals to pass through with minimal disruption. By utilizing these low-pass devices, the undesired transmission of high-frequency signals can be effectively suppressed. This is particularly important in situations where the presence of high-frequency signals may interfere with the proper functioning of electronic systems. The integration of multiple components into a single device not only simplifies the design process but also enhances the overall reliability of the system. These products find widespread application in various industries, including telecommunications, audio equipment, data transmission systems, and electronic circuits, where the prevention of high-frequency interference is crucial. They play a vital role in maintaining the integrity of signals, minimizing noise, and ensuring the optimal operation of electronic systems. To summarize, the products in this family integrate multiple passive components into a single device that creates a frequency-dependent opposition to current flow. While other types exist, the majority of these products are low-pass devices specifically designed to suppress the transmission of high-frequency signals that could otherwise result in interference or undesired operation. By incorporating these devices into electronic systems, unwanted high-frequency signals can be effectively mitigated, ensuring reliable operation and optimal performance.