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Need help?Do you have a question about the Thermo Electron HAAKE Phoenix II P1 and is the answer not in the manual?
General| Heating Rate | Up to 10 °C/min |
|---|---|
| Temperature Accuracy | ±0.1 °C |
| Temperature Resolution | 0.01 °C |
| Sensor Type | Pt100 |
| Type | Viscometer |
| Viscosity Range | 0.1 mPa·s to 2, 000, 000 mPa·s |
| Measurement Principle | Rotational |
| Power Supply | 230 V / 50 Hz |
Explains symbols used within the instruction manual for clarity and warning.
Details symbols displayed on the front panel of the unit for user guidance.
Illustrates symbols located on the rear panel of the unit for connection identification.
Describes symbols that appear on the unit's digital display during operation.
Provides a visual representation of the unit's menu structure and navigation paths.
Details the company's certified Quality Management System and product testing processes.
Lists contact details for Thermo Electron offices worldwide for support and inquiries.
Certifies that the HAAKE Phoenix II P1 unit has passed specific tests according to quality standards.
Provides essential warnings and precautions for safe operation and handling of the unit.
Warns about risks of burns from hot unit parts and surfaces during operation.
Outlines protection measures against electric shock and guidelines for mains connection.
Describes the HAAKE Phoenix II P1 unit, its safety class, applications, and temperature ranges.
Details the comprehensive safety system designed on the 'single fault' principle for reliable operation.
Covers unit specifications including safety class, applications, and temperature operating ranges.
Guides users through unpacking, checking contents, and ambient condition requirements.
Provides instructions on handling transportation damage and ensuring proper unit ventilation.
Explains the meaning and application of the CE mark for electromagnetic compatibility.
Details the procedure for mounting the temperature control unit onto baths and bath bridges.
Identifies and describes the main components and controls located on the front panel of the unit.
Details the various ports and connectors available on the rear panel of the unit.
Illustrates different bath vessel models and their key features, like openings and nozzles.
Describes refrigerated bath models and highlights their components like handles and fuse locations.
Explains how to connect hoses for circulation, including nozzle types and recommended practices.
Guides users on choosing appropriate plastic, rubber, or metal hoses based on application needs.
Details the connection procedure for using tap water for cooling purposes.
Covers connecting the pressure pump for internal bath objects, external closed, and open systems.
Lists and describes suitable heat transfer liquids for various temperature ranges, including precautions.
Provides instructions on setting the correct filling level for the interior bath with different liquids.
Explains the step-by-step process for draining the temperature control unit using the nozzle.
Details requirements for connecting the unit to a grounded mains socket and voltage checks.
Instructs on verifying the liquid circuit connections before powering on the unit.
Provides guidance for qualified personnel on changing the mains plug for different regions.
Describes the automatic thermally-triggered fuses and the procedure for resetting them.
Covers display contrast, acoustic signals, reset, autostart, time/date, language, and self-test options.
Details how to set regulation parameters, temperature display format, and interface configurations.
Explains how to view unit status, version numbers, operation status, and adjust pump speed.
Covers switching on the unit, initial display, and basic operational commands like Start/Stop.
Explains how to set desired temperatures, RTA values, and change set values quickly.
Details creating, viewing, running, and managing ramp temperature programs and their segments.
Guides on using internal/external sensors, selecting control speeds, and differential control settings.
Covers working with or without cooling units and setting temperature limit values for safety.
Explains controlling heating/cooling cycles and operating the unit without active temperature control.
Explains the function of the excess temperature protection dial and its importance for safety.
Provides a step-by-step procedure for accurately setting the excess temperature cut-off point.
Details how to test the effectiveness of the excess temperature protection feature.
Describes common fault conditions like excess temperature, low liquid level, and motor overloading.
Covers faults related to sensor issues, external connections, and RS232C interface errors.
Details error messages related to cooling unit connection and operation.
Guides on how to periodically test the excess temperature safety feature for proper function.
Explains the procedure for testing the low liquid level safety feature to ensure it switches off the unit.
Describes the multi-function connection pin assignments for remote alarm and unit control.
Details the connection requirements and pin assignments for an external Pt100 sensor.
Emphasizes the importance of using shielded cables for maintaining signal integrity and preventing noise.
Details PC connection via RS232C, including pin assignments and interface parameters.
Outlines requirements for external units and how computer settings affect circulator operation.
Lists available command sets for controlling the circulator and retrieving status information.
Explains how to define and execute temperature programs on the circulator using a PC.
Explains how to retrieve operating status and error messages using serial commands.
Describes the function of the refrigerated bath and its role in temperature control.
Discusses potential causes for reduced cooling performance, such as ambient temperature or ventilation issues.
Provides instructions for cleaning the unit's surfaces and interior bath to ensure longevity.
Details how to clean the liquefier fins to maintain optimal cooling capacity.
Informs about the proper disposal of units containing refrigerants by authorized personnel.
Provides steps for safely disassembling the temperature control module and the bath vessel.
Lists technical specifications for various bridge circulator models, including temperature ranges and power.
Details technical specifications for the Heating Circulator P1 series, covering performance and dimensions.
Presents technical specifications for refrigerated circulator models, including cooling capacities and temperature ranges.
Lists technical specifications for cryostat models, highlighting their low-temperature capabilities.
Provides a table of fuse values for different unit types and mains voltages.
Explains how to connect an external analog box to the circulator for analog signal input/output.
Details the pin assignments for signal input and output via the I/O port for data exchange.
Guides on selecting the appropriate signal range and type (voltage/current) for analog inputs/outputs.
Explains how to adjust set temperatures and actual temperatures using offset correction values.
Describes how the thermostat should behave during an alarm condition or connection interruption.
