BENTLY 133819-01

Description

Detailed parameter table

BENTLY 133819-01

Product introduction

The BENTLY NEVADA 133819 – 01 is a high – performance RTD/TC Temperature I/O Module, meticulously designed for precise temperature monitoring in a wide array of industrial applications. As an integral part of the BENTLY NEVADA 3500 machinery protection system, it serves as a reliable interface between temperature sensors and the overall monitoring infrastructure.

In industrial settings, the accurate measurement of temperature is crucial for the safe and efficient operation of machinery. Whether it’s the bearings of a high – speed turbine, the coils of an industrial motor, or the reaction vessels in a chemical plant, temperature fluctuations can indicate early signs of wear, overheating, or impending mechanical failure. The 133819 – 01 module addresses these challenges by providing a comprehensive solution for temperature monitoring. It can interface with various types of temperature sensors, including resistance temperature detectors (RTDs) and thermocouples (TCs), ensuring compatibility with different industrial requirements.

Core advantages and technical highlights

Versatile sensor compatibility: With the ability to work with a wide range of RTDs (such as platinum, nickel, or copper) and multiple types of thermocouples (E, J, K, T, C, R, S, or B), the 133819 – 01 offers unrivaled flexibility. This means that in a large – scale manufacturing facility where different types of equipment may use different sensor technologies, a single 133819 – 01 module can be deployed to monitor all of them, reducing the need for multiple specialized monitoring devices.

High – precision measurement: Boasting a high input impedance of 10 MΩ for each lead input, the module ensures accurate signal measurement. This is especially important in industrial environments where electrical noise can interfere with sensor signals. In a power generation plant, the 133819 – 01 can precisely measure the temperature of turbine bearings, even in the presence of strong electromagnetic fields generated by the generator, providing reliable data for machinery health assessment.

Programmable alarm thresholds: The module allows users to set programmable alert and danger alarm thresholds, along with configurable time delays. This enables proactive identification of potential temperature – related issues. For example, in a petrochemical plant, if the temperature of a critical reactor starts to approach a dangerous level, the 133819 – 01 can be programmed to send out an alert well in advance, giving operators time to take corrective actions and prevent a costly process interruption.

Robust construction for harsh environments: Designed to withstand harsh industrial conditions, the 133819 – 01 has an operating temperature range of – 40 °C to + 85 °C. Its durable build can endure extreme temperatures, vibrations, and humidity. In a pulp and paper mill, where the environment is often hot, humid, and filled with mechanical vibrations, the module continues to operate flawlessly, ensuring continuous temperature monitoring of key equipment such as paper drying cylinders.

Typical application scenarios

Power generation: In gas and steam turbine power plants, the 133819 – 01 is used to monitor the temperature of various components. Turbine bearings, for instance, need to be maintained within a specific temperature range to prevent excessive wear and potential catastrophic failure. The module can connect to RTD sensors installed on the bearings, providing real – time temperature data. If the temperature exceeds the set alarm thresholds, it can trigger actions such as activating additional cooling systems or notifying maintenance personnel, helping to avoid costly downtime and equipment damage.

Petrochemical processing: In petrochemical plants, there are numerous processes that require precise temperature control. The 133819 – 01 can be used to monitor the temperature of reactors, distillation columns, and heat exchangers. For example, in a catalytic cracking unit, the temperature of the catalyst bed is critical for the efficiency of the cracking process. The module can interface with thermocouple sensors in the catalyst bed, providing accurate temperature readings. Any deviation from the optimal temperature range can be detected early, allowing for adjustments to the process parameters to maintain product quality and prevent equipment damage.

Manufacturing: In manufacturing industries, such as automotive or electronics, the temperature of machinery and production processes is closely monitored. In an automotive assembly plant, the temperature of robotic welding arms can affect the quality of welds. The 133819 – 01 can be used to monitor the temperature of these welding arms using RTD sensors. By ensuring that the temperature remains within the appropriate range, the plant can produce high – quality welds consistently, reducing the number of defective products and improving overall production efficiency.

BENTLY 133819-01

Related model recommendations

3500/20 Frame Interface Module (RIM): The RIM is an essential part of the 3500 system infrastructure. The 133819 – 01 can be installed in the 3500 frame along with the RIM. The RIM provides the necessary electrical and mechanical connections for the 133819 – 01 to communicate with other modules in the system and receive power.

330703 – 000 – 060 – 10 – 02 – 00 Velocity Sensor: Although a velocity sensor, in some industrial setups, it may be used in conjunction with the 133819 – 01 to provide a more comprehensive view of machinery health. For example, in a large – scale industrial fan, the 133819 – 01 can monitor the temperature of the motor bearings, while the 330703 – 000 – 060 – 10 – 02 – 00 can monitor the vibration of the fan blades. This combined data can help in early detection of potential mechanical failures.

136188 – 01 Sensor Cable Assembly: This cable assembly can be used to connect the 133819 – 01 to temperature sensors in the field. Its high – temperature resistance and excellent shielding properties make it suitable for use in harsh industrial environments, ensuring reliable signal transmission between the sensors and the 133819 – 01 module.

3500/33 149992 – 01 Relay Output Module: In cases where the temperature data from the 133819 – 01 needs to trigger certain actions, the 3500/33 149992 – 01 can be used. For example, if the temperature of a critical piece of equipment exceeds a dangerous level, the 133819 – 01 can send a signal to the 3500/33 149992 – 01, which can then activate relays to shut down the equipment or start emergency cooling systems.

1701/15 Vibration Transmitter: In some industrial applications, vibration and temperature monitoring are closely related. The 1701/15 vibration transmitter can be used in parallel with the 133819 – 01 to provide a more complete picture of machinery health. The 1701/15 can amplify and condition vibration signals, while the 133819 – 01 focuses on temperature monitoring, helping operators to detect and diagnose potential problems more effectively.

Installation, commissioning and maintenance instructions

Installation preparation: Before installing the 133819 – 01, ensure that the 3500 rack is properly grounded and all other modules in the rack are correctly installed. Check the physical condition of the 133819 – 01 module for any signs of damage during transit. Use appropriate anti – static precautions to avoid electrostatic discharge that could damage the module. When inserting the module into the 3500 rack, align the connectors carefully and push the module firmly into place until it clicks, indicating a proper connection. Connect the temperature sensors to the module using appropriate cables, ensuring that the wiring is neat and free from any sharp bends or twists.

Commissioning: After installation, power on the 3500 system. Use the BENTLY NEVADA software or the system’s control interface to configure the 133819 – 01. Set the alarm thresholds, sensor types, and other relevant parameters according to the specific requirements of the industrial application. Calibrate the module using known – temperature sources to ensure accurate temperature measurement. Test each channel by applying a known temperature to the connected sensors and verifying that the module displays the correct temperature value. Check the alarm functionality by simulating over – temperature conditions and ensuring that the alarms are triggered correctly.

Maintenance suggestions: Regularly inspect the 133819 – 01 for any signs of overheating, such as discoloration of the module or abnormal heat emission. Check the connectors for looseness or corrosion monthly. Every six months, perform a comprehensive diagnostic test using the BENTLY NEVADA diagnostic tools. This test should include checking the accuracy of temperature measurement, the functionality of the alarm system, and the integrity of the module’s internal circuitry. If any issues are detected, replace the faulty components promptly using genuine BENTLY NEVADA replacement parts. Keep the module clean and free of dust and debris, as these can affect its performance.

Service and guarantee commitment

BENTLY NEVADA offers a 1 – year warranty for the 133819 – 01, covering any defects in materials and workmanship under normal operating conditions. The company’s technical support team is available 24/7 to assist with installation guidance, configuration advice, and troubleshooting any issues related to the module. Customers can access detailed installation manuals, wiring diagrams, and software configuration guides through BENTLY NEVADA’s online industrial support portal. The company ensures the availability of spare parts for at least 10 years post – production, providing long – term support for critical industrial applications. Optional on – site services, such as module installation verification and performance testing, are also available to ensure the reliable operation of the 133819 – 01 in demanding industrial environments.