Carrier Container Refrigeration Unit manual Topic 14 Probe Calibration

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TOPIC 14 PROBE CALIBRATION

Describes how to calibrate the probe sensors. Probe calibration allows the user to calibrate the probe sensors using two different methods; external and internal. The following screen is displayed when this option is chosen.

The following is a summary of the options available in Probe Calibration.

<P> Select Probes - Allows the user to select which probes to calibrate. Only used for external and internal probe calibration.

<C> Calibration Types - Allows the user to select the calibration method. Only one probe calibration method can be chosen.

1.External - Upon selecting this option the External Probe Calibration popup is displayed. In this calibration mode, the user simply enters a new calibration offset value for each probe selected. It is completely the user’s responsibil- ity to enter the offset values correctly. A valid offset value is within the temperature range of -2.00_C to 2.00_C.

2.Internal - Upon selecting this option the Internal Probe Calibration popup is displayed. In this calibration mode, the user must place the probes to be calibrated into an ice bath. The user then enters the bath temperature to calibrate the probes. A valid bath temperature value is within the range of -1.00_C to 1.00_C.

3.Automatic - This is a special case of the Internal calibration in which the probe offsets will be calculated using a non-changeable water bath temperature of 0.0_C.

<S> Send - Sends the probe calibration to the recorder. Upon completion the DataView program informs the user that the probe calibration was successfully sent to the recorder.

<H> Help - Displays the help screen.

<ESC> Cancel - Cancels the probe calibration and returns the user to the System Tools Screen.

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Contents Container Refrigeration Unit Operating Instructions Data Retrieval Table of Contents Table of Contents List of Illustrations Section Description Controller Expansion Module Micro-Link 1 Controller DataCORDER Capabilities Micro-Link 2 and Micro-Link 2i only DHE DHSBulbe EconsEcone BulbsCA-PS NWRCA-SP CA-ALCA-VE CA-VSUsda Recording Section System Setup Printer Support Section Dataview Program Instructions COREMON.EXE DATAVIEW.EXERPTVIEW.EXE PRNTFILE.EXEAdditional Steps For The HP Palmtop Topic 3 Menu Basics Topic 4 RAW File Conversion Topic 5 MICRO-LINKS Selection Screen Topic 6 Main Menu Screen Topic 7 Interrogation Menu Topic 8 Datareader Topic 9 System Tools Topic 10 Controller Utilities Control Setpoint This feature allows the user to view the compressor run time Topic 11 Controller Configuration Fixed Configuration Variables Custom Controller Configuration Topic 12 Recorder Utilities Configuration Date And Time Update ISO Trip Header Topic 13 Recorder Configuration Standard Configuration Generic Configuration Recorder Sensors Controller Sensors Topic 14 Probe Calibration Topic 15 Controller Monitor Topic 16 Program Setup Topic 17 Directory Screen Topic 18 Printer Setup Topic 19 View Data Topic 20 Sensor Configuration Cals CaalCadl CaulEvent Data ALT-R Next Report Topic 23 Print Data 62-02575-07 Section Optional Hardware Menu Interface Item. To select the desired item, press Configuration sub-menu Cargo Usda

Container Refrigeration Unit specifications

Carrier Container Refrigeration Units are essential components in the logistics and transportation of temperature-sensitive goods. These specialized refrigeration units ensure that perishable items, such as food, pharmaceuticals, and chemicals, maintain their required temperature throughout their journey, whether by sea, land, or air.

One of the primary features of Carrier Container Refrigeration Units is their advanced temperature control capability. These units can easily maintain temperature ranges from -30°C to +30°C, ensuring optimal conditions for various products. This flexibility is crucial for transporting diverse cargo, from frozen foods that require strict low-temperature settings to temperature-sensitive pharmaceuticals that may need to be kept at a steady room temperature.

Moreover, Carrier units are equipped with cutting-edge technologies aimed at improving efficiency and reliability. The use of electronic controls enhances the precision with which temperatures can be set and maintained. Integrated sensors continuously monitor conditions, allowing for real-time adjustments based on external temperature variations or changes in cargo load.

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Energy efficiency is another hallmark of Carrier Container Refrigeration Units. Many models incorporate high-efficiency compressors and evaporators, resulting in lower energy consumption compared to traditional refrigeration systems. This efficiency not only reduces operational costs but also contributes to a lower carbon footprint, making it an attractive option for environmentally conscious companies.

The design of these refrigeration units prioritizes durability and ease of maintenance. Robust construction materials withstand harsh maritime environments, minimizing the risk of damage during transit. Maintenance-friendly designs ensure that servicing is straightforward and can often be performed with minimal downtime, keeping logistics operations running smoothly.

In summary, Carrier Container Refrigeration Units combine advanced temperature control, energy efficiency, and sustainability with a focus on durability and ease of maintenance. Through innovative technologies and eco-friendly practices, Carrier continues to lead the way in providing reliable refrigeration solutions for the global supply chain, ensuring that temperature-sensitive goods reach their destination safely and efficiently.
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