ECS-SR1-4.19-B-TR

Series:	ECS-SR1-B
Packaging:	Tape & Reel (TR)
Part Status:	Active
Type:	Ceramic
Frequency:	4.19MHz
Frequency Stability:	±0.3%
Frequency Tolerance:	±0.5%
Features:	Built in Capacitor
Capacitance:	30pF
Operating Temperature:	-20°C ~ 80°C
Mounting Type:	Surface Mount
Package / Case:	3-SMD, Non-Standard
Size / Dimension:	0.295" L x 0.130" W (7.50mm x 3.30mm)
Height:	0.087" (2.20mm)

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Introduction to ECS-SR1-4.19-B-TR Resonators

ECS-SR1-4.19-B-TR resonators are an industry leading piezoelectric component. They can be used to convert electrical energy into acoustic energy and vice versa. They are widely used in a variety of applications, such as medical imaging equipment, radar detection, automotive electronics, communications, and safety systems.

Application Fields of ECS-SR1-4.19-B-TR Resonators

Due to its wide variety of uses, ECS-SR1-4.19-B-TR resonators are widely used in various industries and applications. Some of the most common applications include medical imaging equipment, radar detection, automotive electronics, communications, and safety systems. In medical imaging applications, ECS-SR1-4.19-B-TR resonators are used to transmit and detect acoustic signals from ultrasound scanners. These ultrasound signals are used to detect and diagnose different medical ailments in patients. ECS-SR1-4.19-B-TR resonators are also used in radar detection systems. They are used to detect and distinguish between different types of sound waves, such as civilian aircraft and military aircraft. This helps to ensure the safety and security of individuals as well as public property. In automotive electronics, ECS-SR1-4.19-B-TR resonators are used to control a variety of electronic components. This includes control of air bags, air conditioning systems, and powertrain systems. This helps to ensure the safety and efficiency of the vehicle. ECS-SR1-4.19-B-TR resonators are also used in communication systems. They are used to transmit and receive signals between two points, such as between a cell phone and a base station. This allows the cell phone user to communicate with others. Finally, ECS-SR1-4.19-B-TR resonators are used in safety systems. They can be used to detect alarms, provide warning signals, or control automatic disaster systems. This helps to ensure the safety of individuals in a variety of situations.

Working Principle of ECS-SR1-4.19-B-TR Resonators

ECS-SR1-4.19-B-TR resonators use piezoelectricity to transfer electrical energy into acoustic energy and vice versa. Piezoelectricity is the phenomenon of one material becoming electrically charged when subjected to an external mechanical force. The ECS-SR1-4.19-B-TR resonator contains a piezoelectric element, generally a crystal, which is responsive to electrical fields. When a voltage is applied to the crystal, it becomes electrically charged and vibrates at a specific frequency. This frequency is determined by the size and shape of the ECS-SR1-4.19-B-TR resonator. The vibration of the crystal in turn creates an acoustic wave which is used to produce sound. On the other hand, when an acoustic wave is directed at the crystal, it vibrates at a specific frequency. This frequency is also determined by the size and shape of the ECS-SR1-4.19-B-TR resonator. The vibration of the crystal in turn creates an electrical signal which can be used to detect sound.

Conclusion

ECS-SR1-4.19-B-TR resonators are a versatile and powerful tool for converting electrical energy into acoustic energy and vice versa. They are used in a wide variety of applications, including medical imaging equipment, radar detection, automotive electronics, communications, and safety systems. They use piezoelectricity to convert between electrical and acoustic energy, and their frequency is determined by their size and shape.

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