MS1612 Ficha técnica | Precio (PDF)

Here’s the pinout for the 161 model:

Pinout Usage and Tips:

The 161 model is designed to be simple to use, with clear power and ground pins (VCC and GND) that you’ll want to connect correctly. The IN1 and IN2 pins allow you to send control signals to the device, while the OUT1 and OUT2 pins are used to receive feedback or data. Be sure to pay attention to the RESET pin, which is important for restarting the system if needed. The NC pin doesn’t serve any function yet, but it’s included for potential future updates or upgrades. Always double-check the pinout when wiring the device, as improper connections can cause issues with functionality or power delivery.

Here’s a comparison table with alternative models that can replace the 161, all using the same package. The key parameters are listed to help you compare them at a glance:

Replacement Notes:

If you’re considering replacing the 161, Models A, B, and C are all suitable alternatives, as they use the same package type (TQFP-8) and are designed to operate at 5V. However, there are slight differences in current and power consumption. Model A has a slightly lower current draw and power consumption, making it ideal for applications where energy efficiency is a priority. On the other hand, Model C supports a slightly higher current, which could be beneficial for devices that require more power. Be sure to check your device’s power requirements to ensure the replacement will perform well under load. Additionally, ensure the input and output types are compatible with your system for smooth integration.

Certainly! Here’s a practical overview of the Model 161 circuit, focusing on its application in signal conditioning for vibration monitoring systems.

🔧 Model 161 Signal Conditioner Circuit Overview

El Model 161 is a 4-channel signal conditioning amplifier designed for use with piezoelectric accelerometers, such as IEPE or charge type sensors. It’s commonly utilized in applications like vibration and shock testing, process monitoring, and field testing.

🧩 Key Features:

• 4 Channels: Simultaneous processing of up to four sensor inputs.

• Wide Bandwidth: Supports frequencies up to 100 kHz, suitable for high-speed measurements.

• Filter Options: Incorporates both low-pass and high-pass filters to tailor the frequency response.

• Output Options: Provides acceleration, velocity, and displacement outputs.

• Power Options: Operates on AC (110/220V) or battery power, offering flexibility for different setups.

• TEDS Support: Compatible with IEEE 1451.4 TEDS (Transducer Electronic Data Sheet) for automatic sensor identification.

🔌 Typical Circuit Configuration:

1. Sensor Input: The accelerometer connects to the input terminals of the Model 161.

2. Signal Conditioning: The internal amplifier processes the raw sensor signal, applying necessary gain and filtering.

3. Output Signal: The conditioned signal is available at the output terminals, ready for further analysis or display.

4. Fuente de alimentación: The unit is powered via an external AC source or internal battery, depending on the model variant.

⚠️ Usage Tips:

• Proper Grounding: Ensure all components share a common ground to prevent noise and signal interference.

• Cable Shielding: Use shielded cables for sensor connections to minimize electromagnetic interference.

• Filter Settings: Adjust the filter settings based on the frequency range of interest to optimize signal clarity.

• TEDS Compatibility: When using TEDS-enabled sensors, verify that the Model 161 is correctly configured to read sensor data.

For detailed technical specifications and wiring diagrams, refer to the official datasheet:

If you have further questions or need assistance with specific applications, feel free to ask!