IBM M/02-212 operating instructions III.3.2 Mounting of the measuring device ME-CP/PP

Page 14

-20 °C to +250 °C

thermostat oil

Thermostatic fluids can be ordered from BROOKFIELD.

During measurements in the temperature range below -10°C and above +90°C the temperature control device “FTK-CC” may be put into operation only if the cooling liquid flows through the “KE” in order to prevent overheat of the measuring sensor.

III.3.2 Mounting of the measuring device ME-CP/PP

-Turn off the R/S Rheometer with the mains switch “POWER” at the instrument back side.

-When using cooling device KE mount cooling device first (see chapter 3.3.3)

-Set the “ME-CP/PP” from below on the mounting flange of measuring cup and tighten the thread. Check that before tightening the guide pin of the measuring device must be in the slot of the R/S Rheometer mounting flange!

-Fix the hoses of liquid circulation thermostat at the “ME-CP/PP” (see below).

-Insert the cable “VK-MB” supplied to the “ME-CP/PP” in the built-in Pt100 and in the connector “PT 100” at the instrument back side of the R/S Rheometer.

-For mounting the cone/plate or plate/plate measuring systems to measuring device refer to chapter 5.

Thermostat connection to temperature control device FTK-CC

Hoses’ connections are necessary to join a liquid circulation thermostat by operation of the R/S Rheometer with liquid circulation measuring device “ME-CP/PP”.

The hoses of liquid circulation thermostat are connected with the help of quick fitting couplings with the measuring device “ME-CP/PP” (below: inlet; above: outlet). For this purpose it is necessary to move back the coupling’s bush, insert the hose and release the coupling. It fixes the hose (without screwing or rotation) by groove. Check by pulling gently whether the hoses’ connections are securely fixed.

The measuring device “ME-CP/PP” without cooling device KE must only be used in the temperature range -10°C ...+90°C.

The measuring device “ME-CP/PP” can be used in the temperature range -20°C ... +180°C in case of using optionally obtainable cooling device “KE.

It is recommended urgently to preset at liquid circulation thermostat the upper temperature limitation: when using water at 90°C and when using oil at 180°C (only with cooling device KE).

As thermostatic liquids are usually used:

-10 °C ... +90 °C

Water (deionized) - glycol-mixture

 

 

-20 °C ... +180 °C

Thermostat oil

 

 

The proper thermostatic liquids can be ordered from BROOKFIELD.

Brookfield Engineering Labs., Inc.

Page 14

M/02-212

Image 14
Contents Brookfield R/S Rheometer Brookfield Engineering Labs., Inc 02-212 Contents Appendix Measuring Principle General DescriptionUse of the Rheometer II. System Configuration II.1 R/S RheometerRheometer main instrument minimum configuration II.2 Measuring Devices II.3 Computer SystemIII.1 Stand Mounting III. Instrument InstallationHints for height adjustment of the stand III.2.1 Temperature Sensor Pt100 III.2 Electrical ConnectionsIII.2.4 Computer Connection III.2.2 AC-AdaptorIII.2.3 Printer Connection Use data link cable of Brookfield delivery onlyIII.3 Mounting of temperature controlled measuring devices FTK-CCThermostat connection to temperature control device FTK-CC Thermostat connection to temperature control device FTK-CC III.3.2 Mounting of the measuring device ME-CP/PPBrookfield Engineering Labs., Inc 02-212 Brookfield Engineering Labs., Inc 02-212 III.3.3 Mounting of the cooling device KE MountingIV.1 Operating environment, Storage IV. Environment, handling, cleaning and maintenanceIV.3 Cleaning IV.2 HandlingIV.4 Maintenance Measuring Systems Measurement directly in the substanceMeasurement with substance in measuring system Depth of immersionMeasurement with temperature control device FTK-CC Turn left Turn right Lower Lift Brookfield Engineering Labs., Inc 02-212 Voltage check VCC15.25 VI. Operation and Menue SystemRheometer Ver .02 #xxxxxx 07.05.98 Brookfield VI.1 Keyboard BrookfieldKey-function dependent to executed operation Define/edit program VI.2 Menu System of R/S RheometerZero-point calibration Print programs from memoryVI.3 Selecting from Lists CONFIGURATION-,emie Set time/date Set RS232 Param LanguageMenu handling Main-menue Run Single Run Program RemoteInput Values Val.1/s0100.00 Nr. of MP010 Times VI.4 Input of numerical values and alphanumeric textsSelect Measuring system CC48 CC45 Input Values Val.1/s0200.00 Nr. of MP010 Times0100Input Values Val.1/s0200.00 Nr. of MP Times0100 Input Values Val.1/s0290.00 Nr. of MP Times0100VI.5 Menue entries Main menue VI.5.1 MAIN-Menue → Run SingleOutput of MPs to No output device Memory Menu ST Start Prog. Running Wait for 1.MPNo valid program Enter program first Program end Single mode Total time100s Total #MP10VI.5.2 MAIN-Menue → Run Program Select program Prog xyz Test Prog ÖlOutput of MPs to Printer Memory Menue Prog. running Wait for 1.MP #1VI.5.4 Main menue → Utilities VI.5.5 Main menue → ConfigurationVI.5.3 Main menue → Remote Program end Test Total time200s Total #MP40VI.6.2 Utilities → Edit Programs VI.6 Menue entries in the Utilities-MenueVI.6.1 Utilities → Zero Calibration D1/s=ft Nr. of steps Select Prog to edit Prog xyz Test NEWSelect Meas. system CC45 CC25 CC14 Select Input-Mode -D1/s Nrpm TauPaEdit Program name Range-Error Range-Error Start-Value min 0.90 maxInput Step Nr time s Test Press OK to save VI.6.3 Utilities → Print ProgramsVI.6.4 Utilities → Measuring systems Printer not ready OK cont. ST stopPress OK to save Name CC25 tauprom 01.1418 kgamma VI.6.5 Utilities → Print memoryEnter Meas. Sys. #4 Name CP25 tauprom 01.1418 kgamma Sel. Output-device Printer RS232VI.6.7 Utilities → Measure temperature VI.6.6 Utilities → Clear memoryService, Service2 for service personnel only VI.7 Menu entries of the Configuration menuVI.7.1 Configuration → Set output mode Select output device No output device Printer RS232VI.7.4 Configuration → Set Time/Date VI.7.2 Configuration → MeasCount modeVI.7.3 Configuration → Reset meascount RS232 4800,8,n,1 Change RS232-Par.? Okyes Stno VI.7.5 Configuration → Set RS232 ParameterNew Time/Date 1715 Press OK to save VI.8 Serial Data transfer via Interface RS232 VI.7.6 Configuration → LanguageVI.7.7 Configuration → Service, Service Baudrate -4800 9600Brookfield Engineering Labs., Inc 02-212 Brookfield Engineering Labs., Inc 02-212 Measurement control VII.1 Measuring in manual modeVII. Measurements Measurement with FTK-CCMeasurement in remote control mode VII.2 Measuring in Remote-modeVIII. Technical data Weight Temperature range Measured or evaluated valuesIX. Guarantee A1Data sheets of standard measuring systems Given ranges are standard values not maximum valuesDG DIN Measuring system C25-1 C25-2 C50-1 C50-2 C75-1 C75-2 Table Plate/Plate measuring systems DINPrinter Error A2 Error messagesRange Error Range error End value min 0.90 maxBreak torque max! Single mode Total MP Total time Zero Calibration ErrorError #3 Zero cal. error Please retry cal ST stop Break Speed max! Single mode Total MP Total time Break Speed MAXPC Side A3 Pin-layout of the serial data cableRheometer side USA and Canada A4 Requirements to the mains connecting cablesGeneral information Other countriesA5 Language cross reference EnglishGermanEnglishGermanGerman menue system of RC20 Index

M/02-212 specifications

The IBM M/02-212 is a cutting-edge platform that showcases the company’s dedication to excellence in technology and innovation. Designed for both enterprise performance and flexibility, this model adheres to IBM's high standards for processing power and reliability, making it a standout option for businesses looking to enhance their operations.

One of the main features of the M/02-212 is its powerful multi-core processor, which provides exceptional speed and efficiency. This architecture enables the system to handle multiple tasks simultaneously without compromising performance, making it ideal for data-intensive applications and complex processing tasks. It supports a range of workloads, from traditional enterprise applications to modern cloud-based solutions.

In terms of memory, the M/02-212 offers extensive capacity options, utilizing high-speed RAM technology that ensures swift data access and reduced latency. The combination of powerful processing and ample memory resources allows organizations to execute demanding applications and large-scale databases seamlessly.

The system is designed with advanced security features that are integral for protecting sensitive information. Encryption capabilities, secure boot options, and comprehensive identity management functionalities are built-in, providing a robust defense against potential cyber threats. This is particularly valuable for industries like finance and healthcare, where data integrity is paramount.

Moreover, the IBM M/02-212 leverages state-of-the-art virtualization technologies, enabling companies to optimize resource utilization and increase operational efficiency. Through virtualization, multiple virtual machines can run on a single physical server, allowing businesses to reduce hardware costs and improve overall system management.

The M/02-212 also emphasizes scalability, which means organizations can easily expand their capabilities as their needs evolve. This flexibility allows businesses to adapt to changing market conditions without requiring a complete overhaul of their existing infrastructure.

Additionally, it comes equipped with a user-friendly management interface, providing administrators with the tools necessary to monitor system performance, allocate resources, and troubleshoot issues efficiently.

In summary, the IBM M/02-212 combines powerful processing capabilities, robust security measures, advanced virtualization, and exceptional scalability. These characteristics make it an excellent choice for enterprises looking to enhance their IT infrastructure while ensuring efficiency and data security.