NI SCXI-1102

Description

NI SCXI – 1102 Product Description

Detailed Parameter Table

NI SCXI-1102

Product Introduction

The NI SCXI – 1102 is a high – performance 32 – differential – channel voltage input module tailored for the SCXI system. Renowned for its capabilities in high – accuracy thermocouple measurements, it also efficiently handles millivolt, volt, and current signals, including 0 to 20 mA and 4 to 20 mA inputs.

Each of its 32 channels is equipped with a 2 Hz low – pass filter and an instrumentation amplifier. This architecture enables the module to scan its analog input channels, along with the cold – junction compensation sensor, at a remarkable rate of up to 333 ks/s (3 µs per channel). The module multiplexes all 32 channels into a single output, which can be easily connected to a controlling data acquisition (DAQ) device, significantly enhancing the DAQ system’s channel capacity. The 96 – pin male DIN C front connector and 50 – pin male ribbon cable rear connector facilitate seamless integration with other components within the SCXI setup.

Core Advantages and Technical Highlights

Exceptional Thermocouple Measurement Capabilities: The SCXI – 1102 is engineered to provide highly accurate thermocouple measurements. The built – in cold – junction compensation, achieved through a dedicated temperature sensor, ensures precise temperature readings. The cold – junction reference can be flexibly multiplexed with the 32 channels on the module or jumper – connected to a different channel on the data acquisition board. This feature, combined with the 2 Hz low – pass filter on each channel, effectively reduces noise interference, resulting in reliable and accurate temperature data, making it an ideal choice for applications where precise temperature monitoring is crucial.

Flexible Gain Settings: With software – configurable gain settings of 1 or 100 per channel, the SCXI – 1102 can adapt to a wide spectrum of input signal levels. Whether dealing with small millivolt signals from delicate sensors or larger volt – level signals, users can easily select the appropriate gain to optimize the signal conditioning process. This flexibility in gain adjustment not only enhances the module’s adaptability but also contributes to more accurate data acquisition across different applications.

High – Speed Multiplexing and Scanning: The ability to multiplex 32 differential channels into a single output and scan at a high rate of up to 333 ks/s makes the SCXI – 1102 highly efficient in handling multiple input signals simultaneously. This is particularly beneficial in applications where real – time monitoring of numerous sensors is required. For example, in industrial process monitoring, it can quickly acquire data from a large number of temperature, pressure, and strain sensors distributed throughout a production line, enabling immediate response to any changes in the process variables.

Wide Compatibility: The SCXI – 1102 is compatible with a diverse range of terminal blocks, such as the SCXI – 1300, SCXI – 1303, and SCXI – 1308. Each of these terminal blocks has its own unique features. For instance, the SCXI – 1303, an isothermal terminal block, is especially recommended for precise thermocouple measurements. This wide compatibility allows users to choose the most suitable terminal block based on their specific application requirements, further expanding the module’s versatility. Additionally, it is compatible with SCXI chassis and E series DAQ devices, ensuring seamless integration into existing data acquisition systems.

Typical Application Scenarios

Industrial Temperature Monitoring in Manufacturing: In manufacturing plants, maintaining accurate temperature control is essential for product quality. The SCXI – 1102 can be connected to a large number of thermocouples installed in various parts of the production equipment, such as ovens, furnaces, and cooling systems. The 32 differential channels enable simultaneous monitoring of multiple temperature points. The high – speed scanning and accurate thermocouple measurement capabilities ensure that any temperature variations are quickly detected. This real – time temperature data can be used to adjust the manufacturing process, preventing product defects and optimizing production efficiency.

Laboratory Research in Material Science: In material science research, understanding how materials respond to different temperature conditions is crucial. The SCXI – 1102 can be used to connect to thermocouples placed on samples during experiments. The module’s ability to handle multiple channels and provide accurate temperature measurements allows researchers to study the behavior of materials at different locations simultaneously. The flexible gain settings also enable the module to adapt to the small voltage signals generated by thermocouples, ensuring reliable data collection for in – depth material analysis.

Power Generation Equipment Monitoring: In power plants, monitoring the temperature of generators, transformers, and other critical equipment is vital for ensuring safe and efficient operation. The SCXI – 1102 can be deployed to connect to temperature sensors and current transducers. It can measure the temperature of various components using thermocouples and monitor the current in power lines. The high – speed multiplexing and accurate signal conditioning features enable the module to collect data from multiple sensors in real – time, providing early warnings of potential equipment failures due to overheating or abnormal current levels.

NI SCXI-1102

Related Model Recommendations

NI SCXI – 1100: Similar to the SCXI – 1102, the SCXI – 1100 is also a voltage input module. However, it has a different set of features. For example, it has a jumper – selectable 4 Hz low – pass filter compared to the SCXI – 1102’s 2 Hz low – pass filter per channel. The SCXI – 1100 may be more suitable for applications where a slightly higher – frequency filter is acceptable and where the jumper – selectable gain ranges meet the application’s needs.

NI SCXI – 1125: This 8 – channel isolated analog input module offers electrical isolation between the sensors and the DAQ system. If the application involves high – voltage or noisy environments where isolation is necessary to protect the DAQ system and ensure accurate signal acquisition, the SCXI – 1125 would be a better choice than the SCXI – 1102. Although it has a lower channel count, its isolation feature can be crucial in specific applications.

NI SCXI – 1000 Chassis: As with other SCXI modules, the SCXI – 1000 chassis is an essential component when using the SCXI – 1102. It provides power and a communication backplane for the module. The SCXI – 1000 chassis allows for the integration of multiple SCXI modules, creating a comprehensive data acquisition or control system. When building an SCXI – based setup with the SCXI – 1102, the SCXI – 1000 chassis is a fundamental element to consider.

Installation, Commissioning and Maintenance Instructions

Installation Preparation: Before installing the SCXI – 1102, ensure that the SCXI chassis is properly set up and powered off to avoid electrical hazards. Gather the necessary tools, such as a screwdriver for any mechanical adjustments. Identify the appropriate slot in the SCXI chassis for the module installation. Also, ensure that you have the correct cable adapters, especially if connecting to an E series DAQ device. Familiarize yourself with the module’s user manual, which contains important information about jumper settings and initial configuration.

Commissioning: Insert the SCXI – 1102 into the designated slot in the SCXI chassis. Connect the appropriate cables between the module and the DAQ device, following the wiring diagrams provided in the manual. Use NI Measurement & Automation Explorer (MAX) to configure the hardware settings. Set the gain and other relevant parameters according to your application requirements. Power on the SCXI chassis and verify that the module is recognized by the system. Conduct initial tests by connecting known input signals, such as a precision voltage source, and check if the module is accurately acquiring and conditioning the signals using software like NI – DAQ.

Maintenance Suggestions: Regularly inspect the SCXI – 1102 for any signs of physical damage, such as cracks on the housing or loose connectors. Check the software – configured gain settings to ensure they have not been accidentally changed. Since the module does not store user – adjustable calibration constants, it is recommended to calibrate the module at least once a year using a high – precision voltage source with appropriate accuracy (e.g., at least 50 ppm). Use shielded copper wire for all cable connections to the module and twisted – pair wire to minimize noise and thermal offsets. Allow sufficient warm – up time (at least 15 minutes for the SCXI module) before taking measurements to ensure stable operating conditions.

Service and Guarantee Commitment

Although NI has announced the obsolete status of the SCXI – 1102, some sources still offer it for purchase and repairs. While NI’s standard warranty coverage may be limited due to its obsolete status, some third – party suppliers may provide their own warranties. Technical support may still be available through NI’s official channels, including online resources and user forums. However, for in – depth support, users may need to rely on third – party service providers. In case of any issues, users can refer to the NI documentation available at ni.com/manuals, which includes the SCXI – 1102 user manual and calibration documents. If the module is found to be defective within the warranty period (if applicable), contact the supplier for repair or replacement options.