Pressure Systems user manual Pressure Systems, Inc Model 9046 User’s Manual

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Pressure Systems, Inc.

Model 9046 User’s Manual

 

 

When the hardware trigger is used to synchronize stream scans (sync = 0), it is assumed that the user would prefer to also synchronize internal data acquisition cycle. For this reason, when a stream utilizing hardware trigger is started, the module firmware switches out of the free- running continuous data acquisition mode described earlier. Instead, the module waits in an idle mode until a hardware trigger is received to initiate a host stream output. Only on the receipt of that hardware trigger will the module scan and EU convert all averaged scans of all attached channels. Following completion of the acquisition and EU conversion cycle, the module will also deliver the requested data channels to the host in any configured streams. In this manner, users are provided with highly synchronized data acquisition and delivery from one or more modules. If a module waits in the idle mode for an extended period of time without receiving a data request, it will periodically initiate its own internal data acquisition cycles to update internal Thermal Scan data and check UTR Thermal Alarms.

When all hardware triggered streams are complete or terminated, an individual module will return to the default mode of continuous scanning and EU conversion. When the internal software clock is used to control host stream output rates (sync=1), note that 1000 Hz clock frequency variances will result in slightly different timing between modules. Although these differences in timing are slight, they may result in noticeable differences in output timing between modules over a long period of time. If highly synchronized data output is required from multiple modules, a common hardware trigger wired to all modules should be used.

The period ‘per’ parameter is a positive decimal integer count (from 0 to 2147483647 (largest 32-bit positive number), specified with 1 to 10 numeric digits as needed), and its meaning depends on the sync type sync’ parameter described above.

syn meaning of ’per

c

0number of hardware trigger periods to wait before sending each scan

1delay period (in milliseconds) to wait before sending each scan NOTE: Values 0 to 9 will select a minimum 10 millisecond period.

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Contents Model Ethernet Intelligent Temperature Scanner User’s Manual Page Table of Contents Technical Support Our WarrantyMerchandise Return Procedures Our CompanyWebsite and E-Mail Our Firmware Our Publication Disclaimer This page left intentionally blank Introduction GeneralIntroduction Exploded View of Module Physical DescriptionThermocouple Cold Junction Compensation Theory of OperationOpen Circuit Detection Setup InstructionsEquipment Required Network Dialog Box Computer PreparationTCP/IP Properties Dialog Box Cable Connections Module ConnectionPressure Systems, Inc Model 9046 User’s Manual Network Status Screen IP Address AssignmentNetwork Status after connection ConfigureNetwork Options Pulldown Menu Pressure Systems, Inc Model 9046 User’s Manual Set Sensor Type Sensor Type Values Read Sensor Type Thermocouple Reference Temperature AlarmsC05 V0110b dd Set Temperature UnitsRead Temperature Units Write EU Filter ParameterV00152 U00152 Read EU Filter ParameterCalibration W08 H0001V00100 U00100Pressure Systems, Inc Model 9046 User’s Manual Sensor Type Gain Setting Engineering Va, Vb Units FirmwareDescription of Operation Thermistor VoltageThermocouple ResistanceUpdating the Firmware This page intentionally blank Command Quick Reference Command SetPressure Systems, Inc.Model 9046 User’s Manual Summary Information About All Commands Pressure Systems, Inc Model 9046 User’s Manual Pressure Systems, Inc Model 9046 User’s Manual No Operation Command ’A’ Reset Command ’B’ Dddd.. dddd Read Primary Transducer Volts Command ’V’Purpose Vppppf999999 -4.989500 0.005390 V11110Read Primary Transducer A/D Counts Command ’a’ 32767.000000 -32700.000000 10.000000 A11110Aaaabbbbcccc..pppp Read Primary Transducer E. U. Data at High Speed Command ’b’Nuss does not use this command normally. You may execute it Define/Control Autonomous Host Streams Command ’c’ Pressure Systems, Inc Model 9046 User’s Manual Pressure Systems, Inc Model 9046 User’s Manual Pressure Systems, Inc Model 9046 User’s Manual Pressure Systems, Inc Model 9046 User’s Manual Read response 00 1 000F 0 1 7 0 c 00 2 00F0 0 2 7 0 c 00 3 FF00 0 4 7 Pressure Systems, Inc Model 9046 User’s Manual Command ’c’- Sub-command Index 01 Start Streams Example Space Command ’c’- Sub-command Index 02 Stop StreamsExample 02 0 c 03 3 c 01 Command ’c’- Sub-command Index 03 Clear StreamsPressure Systems, Inc Model 9046 User’s Manual Character Command ’c’ Sub-command Index 04 Return Stream InformationFfff 0 20 7 32000 1 7002 200.200.200.1 DescriptionPrefix/Data Groups Enable UTR Temperature/Other Voltages Enable Primary Transducer Temperature/ResistanceEnable UTR Temperature/Other EU Data ûC Enable UTR Temperature/Other A/D Counts05 1 Command c 06 st pro remport ipaddr 06 0 06 0 1Nuss does not normally use this command since it generates This page intentionally left blank Model 9046 Ethernet Interface Cable Appendix a Cable DiagramsModel 9046 Ethernet Interface Cable Headquarters/Factory European Office

9046 specifications

Pressure Systems 9046 is a highly advanced pressure management solution designed to cater to various industrial and commercial applications. Renowned for its robust performance and reliability, this system is engineered to optimize pressure levels in a wide range of environments, ensuring efficiency and safety in operations.

At its core, Pressure Systems 9046 integrates cutting-edge technologies that enhance its functionality and user experience. One of its main features is the Smart Pressure Regulation Technology (SPRT), which utilizes intelligent algorithms to automatically adjust and maintain optimal pressure levels. This ensures that processes run smoothly, minimizing the risk of pressure fluctuations that can lead to equipment damage or operational downtime.

Another standout characteristic of the Pressure Systems 9046 is its modular design. This allows for easy scalability and customization, enabling users to configure the system according to their specific needs. Whether addressing low-pressure applications or high-pressure requirements, the modular setup can adapt and expand, providing flexibility for various industrial settings.

In addition, the system is equipped with advanced monitoring capabilities. With real-time data tracking and reporting, operators can monitor pressure levels, detect anomalies, and analyze trends. This proactive approach to pressure management enhances operational efficiency, reduces costs, and ensures compliance with safety standards.

Durability is another hallmark of Pressure Systems 9046. Built with high-quality materials, it can withstand harsh environmental conditions, including extreme temperatures and corrosive substances. This robust construction not only extends the lifespan of the system but also reduces maintenance needs, offering long-term reliability.

Moreover, Pressure Systems 9046 supports remote monitoring features, allowing users to access system data and control operations from anywhere. This connectivity simplifies management tasks and contributes to a more streamlined workflow, enabling industries to focus on core operations while ensuring pressure systems are performing optimally.

In conclusion, Pressure Systems 9046 stands out due to its innovative technologies, user-friendly design, and exceptional durability. Its combination of smart pressure regulation, modularity, real-time monitoring, and remote access makes it an indispensable tool for various industries looking to enhance their pressure management strategies. As industries continue to evolve, Pressure Systems 9046 is poised to meet the changing demands of the market, ensuring safe and efficient operations for years to come.
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