NTE161 資料表 | 價格 | pdf

The 161 model is a versatile and reliable component commonly used in a variety of electronic applications. It stands out due to its durable construction and consistent performance. Whether you’re using it in consumer electronics, automotive systems, or industrial devices, the 161 delivers dependable functionality.

One of the key features of the 161 is its compact size, making it easy to integrate into various systems without taking up too much space. It’s known for its long-lasting performance, which makes it a great choice for devices that need to run for extended periods without constant maintenance or replacement.

Additionally, the 161 model offers great efficiency, ensuring that power consumption remains low while still providing solid performance. This is particularly important in energy-conscious applications where conserving battery life is crucial.

All in all, the 161 is a solid choice for anyone looking for a reliable, long-lasting, and efficient component. It’s trusted in many different fields and continues to be a go-to option for a wide range of projects.

Here’s the pinout for the 161 model:

Usage and Considerations:

When connecting the 161 model, always make sure that the VCC and GND pins are properly connected to your power source to ensure the device gets the right power for operation. The IN1 and IN2 pins are used to send data or signals into the device, so make sure these connections match the input requirements for your application.

The OUT pin is where the device outputs data or signals, so it’s important to connect it to the next component or system that will use that information. The EN pin is crucial because it activates or enables the device, so it should be properly connected to ensure the device works when needed.

Finally, always double-check the pinout before powering up your circuit. Incorrect connections can lead to malfunction or even damage to the components, so it’s better to be safe than sorry. Make sure all pins are securely connected and the voltage levels match the device’s requirements.

Here’s a comparison of alternative models that come in the same package as the 161 model, with important parameters listed for easy comparison:

Substitution Notes:

When substituting the 161 model with one of these alternatives, make sure to double-check the voltage and current ratings to ensure compatibility with your circuit. Since these models come in the same package type (TO-220) and have the same pin count (6 pins), they should physically fit in the same setup without any issues. However, slight variations in voltage or output capacity can affect performance, especially if your system is sensitive to those parameters.

For example, the 163 model offers a higher output capacity, which might be useful for applications requiring more power. Meanwhile, the 164 model is focused on power-saving and efficient thermal dissipation, which might be a better fit for heat-sensitive projects. Always verify the specifications of the replacement model to ensure that it meets the performance requirements of your device.

The “161” model encompasses a variety of components across different industries, each with its own unique circuit design and application. To provide a comprehensive overview, let’s explore some of these models and their respective circuit diagrams:

🧪 1. IET Labs Model 161 – Precision Capacitance Measurement System

This model is designed for high-precision capacitance measurements, commonly used in calibration laboratories. The circuit integrates a precision bridge circuit with a digital readout, ensuring accurate measurements of capacitors across a wide range. Key components include precision resistors, capacitors, and a microcontroller for data processing.

🔧 2. Broan-NuTone Model 161 – Ceiling Heater

This model is a ceiling-mounted heater designed for residential applications. Its circuit diagram includes components like heating elements, thermostats, and safety cutoffs. The design ensures efficient heating while maintaining safety standards. For detailed installation and wiring, refer to the official installation guide.

🎹 3. Yamaha YDP-161 Digital Piano

The YDP-161 is a digital piano that combines traditional aesthetics with modern technology. Its circuit diagram integrates audio processing units, power supply circuits, and user interface components to deliver high-quality sound and responsive touch. For a detailed circuit diagram, you can refer to the official Yamaha documentation.

🧪 4. Additel Model 161 – Intelligent Digital Pressure Module

This model is a digital pressure module used for calibration and testing in industrial applications. The circuit design incorporates a microprocessor, pressure sensor, and user interface elements to provide accurate pressure readings. For more information, refer to the official datasheet.

🧪 5. MACOM MD-161 – Termination-Insensitive Mixer

The MD-161 is a RF mixer used in communication systems. Its circuit diagram includes components like diodes, transformers, and amplifiers to mix signals without being affected by impedance mismatches. For detailed specifications and circuit information, refer to the official datasheet.

🧪 6. Additel Model 161Ex – Intrinsically Safe Digital Pressure Module

Similar to the standard Model 161, the 161Ex is designed for hazardous environments. The circuit design includes intrinsic safety barriers and certified components to ensure safe operation in explosive atmospheres. For detailed information, refer to the official datasheet.

⚠️ Important Considerations When Interfacing with the 161 Model

• Voltage Compatibility: Ensure that the operating voltage of the 161 model matches the requirements of your system to prevent damage.

• Signal Integrity: For models involving signal processing (e.g., IET Labs Model 161), maintain proper grounding and shielding to minimize noise and interference.

• Safety Standards: For models like the Broan-NuTone Model 161, adhere to local electrical codes and safety standards during installation to ensure safe operation.

• Environmental Considerations: For models designed for hazardous environments (e.g., Additel Model 161Ex), ensure that all components are certified for use in such conditions.

• Documentation: Always refer to the official datasheets and manuals for detailed specifications, wiring diagrams, and installation instructions to ensure proper integration and operation.

Each “161” model serves a unique purpose and comes with its own set of design considerations. By understanding the specific requirements and adhering to the provided guidelines, you can effectively integrate these components into your systems.