XTR105P
14-pin current loop transmitters for sensor signal processing
Manufacturer: ['rochester', 'ti']
series introduction
# XTR105P Product Series Introduction
## Overview
The XTR105P product series represents a cutting - edge line of instrumentation amplifiers and signal conditioning solutions engineered to meet the most demanding requirements in industrial, automotive, and measurement applications. These devices are designed to provide high - precision signal processing, exceptional reliability, and ease of integration, making them an ideal choice for a wide range of systems.
## Key Features
### High Precision
- **Accurate Signal Amplification**: The XTR105P series offers extremely accurate amplification of input signals. With a low offset voltage and high gain accuracy, it can precisely amplify weak signals from sensors such as thermocouples, strain gauges, and pressure sensors. This high precision ensures that the output signal accurately represents the input, enabling reliable measurement and control in various applications.
- **Low Drift**: Over time and across different operating temperatures, the XTR105P maintains a low drift in its performance. This means that the accuracy of the signal amplification remains consistent, reducing the need for frequent recalibration and ensuring long - term stability in measurement systems.
### Wide Input Range
- **Flexible Signal Handling**: These devices can handle a wide range of input signals, from very small millivolt - level signals to larger voltage signals. This flexibility allows the XTR105P to be used with different types of sensors and in various measurement scenarios. Whether it's measuring the small changes in a strain gauge or the larger output of a thermopile, the XTR105P can adapt and process the signals effectively.
### Excellent Noise Performance
- **Low Noise Floor**: The XTR105P series is designed with advanced noise - reduction techniques. It has a very low noise floor, which means that it can amplify signals without introducing significant additional noise. This is crucial in applications where the input signal is already weak, as noise can easily corrupt the measurement and lead to inaccurate results. By minimizing noise, the XTR105P ensures high - quality signal processing and reliable data acquisition.
### Robustness and Reliability
- **High - Quality Components**: The XTR105P is built using high - quality semiconductor components and advanced manufacturing processes. This results in a product that is highly resistant to environmental factors such as temperature variations, humidity, and electrical interference.
- **Over - Voltage and Over - Current Protection**: To protect the device and the connected system, the XTR105P is equipped with over - voltage and over - current protection features. These safeguards prevent damage to the amplifier in case of abnormal input conditions, ensuring the long - term reliability of the system.
### Ease of Integration
- **Simple Circuit Design**: The XTR105P is designed to be easily integrated into existing circuits. It comes in a standard package with well - defined pinouts, making it straightforward to connect to other components such as microcontrollers, analog - to - digital converters (ADCs), and power supplies.
- **Minimal External Components**: The device requires only a few external components for proper operation, reducing the complexity and cost of the overall system design. This simplicity also makes it easier to troubleshoot and maintain the system.
## Applications
### Industrial Automation
- **Process Control**: In industrial process control systems, the XTR105P can be used to amplify and condition signals from various sensors such as temperature sensors, pressure sensors, and flow sensors. The accurate and reliable signal processing provided by the XTR105P ensures precise control of industrial processes, improving product quality and efficiency.
- **Machine Monitoring**: For monitoring the health and performance of industrial machines, the XTR105P can process signals from vibration sensors, strain gauges, and other sensors. By accurately detecting changes in these signals, it can help in early detection of machine faults
Images for reference
14-DIP
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