Foster QC 600, QC 11, BQCF 40 manual Function Menu

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Hard Chill +-. This program is for specialist chilling only and is not recommended for normal use. (Cy3)

 

dbC = no

iS1 = -6°C

iS2 = 3°C

iS3 = -18°C

dbH = no

 

 

 

 

rS1 = -15°C

rS2 = 2°C

rS3 = -30°C

HdS = 3°C

 

 

 

 

Pd1 = 1.1 hours

Pd2 = 0.2

Pd3 = OFF

 

 

 

 

Hard Chill Temperature - For general purpose chilling using the food probe. (Cy4)

 

 

 

 

 

 

 

 

 

 

 

 

 

dbC = no

iS1 = -6°C

iS2 = 3°C

iS3 = -18°C

dbH = no

 

 

 

rS1 = -15°C

rS2 = 2°C

RS3 = -30°C

HdS = 3°C

 

 

 

 

Pd1 = 1.1 hours

Pd2 = 0.2

Pd3 = OFF

 

 

Function Menu

To access the cycle parameters Press and Hold the Set and Down buttons for 2 seconds. The display will show “Prb”.

Prb: Probe Display.

Allows the probe temperatures to be displayed for ten seconds.

rPr: Displays temperature measured by the AIR probe.

Epr: Displays temperature measured by the EVAPORATOR probe.

IPr: Displays temperature measured by the FOOD probe.

Press SET to display the reading of the selected probe, press SET with the reading displayed returns to the probe labels.

Probe Fault Identification. rPF = AIR probe fault.

EPF = EVAPORATOR probe fault. iPF = Food probe fault.

Pr1: User Parameters.

Includes all user accessible parameters. If no parameters are present in the menu “Pr2” will be displayed.

Pr2: Installer Parameters.

Includes all the instrument parameters (at installer level). It can only be accessed using the security code. On entering the parameters it is possible to modify all parameters and add or remove parameters from “Pr1” (user level) by pressing “SET” + “UP”. When a parameter is enabled at user level, LED 5 (Alarm LED) is on.

Fcy: Cycle Managent.

The Fcy menu contains the Cy1, Cy2, Cy3 and Cy4 sub menus. Each of the sub menus should be set to the Standard Cycle Parameters as detailed on pages 6 and 7.

Sto: Cycle Length.

The “Sto” menu records the real length of a cycle and the real length of each single phase. It contains the following sub menu:

tCy: Cycle Duration. tP1: First Phase Duration. tP2: Second Phase Duration. tP3: Third Phase Duration.

rtC: Clock Managent. Real time clock parameters. SEC: Seconds (00 to 59). Min: Minutes (00 to 59). Hou: Hours (1 to 24).

7dY: Day of the week (Mon = Monday. tue = Tuesday. Wed = Wednesday. Thu = Thursday. Fri = Friday. Sat =

Saturday. Sun: Sunday)

dAY: Day of the Month (1 to 31).

Mon: Number of the month (1 to 12).

YEA: Year (0 to 99).

Alr: Alarms Display.

This function displays any alarm messages.

Prt: Printer Management.

Contains the parameters for the management of the printer. 8

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Contents Page Contents Longer Term Storage ‘Hold’ Mode Conservation Program Hard Chilling TemperatureCook Chill Operation Program Soft ChillingOperation QC 11, QC 600 & Bqcf 40 Blast Chill Operating InstructionsManual Defrost IntroductionTemporarily Stopping the Cycle Mode FunctionIlluminated Page Bqcf 40 Cycle Parameters QC 60 Cycle ParametersFunction Menu Bqcf Parameter SettingsDiC Digital input operating mode EAL, bAL, dor Parameter DefinitionsRPO OAt FnC Fans operating mode during the holding phaseOAS Set point for AUX output -50÷50 ris.1 C/ 1F OAiRPF Printer ManagementRefrigerant R404a Refrigerant Quantity Model Wiring Diagram Number Fuse RatingQC 11 Wiring Diagram QC 600 Wiring Diagram Bqcf 40 Wiring Diagram. Sheet 1 Bqcf 40 Wiring Diagram. Sheet2 Email commercial@fosterfrance.com

BQCF 40, QC 11, QC 600 specifications

Foster QC 600, QC 11, and BQCF 40 are advanced composite materials widely used across various industries for their unique properties and characteristics. Each of these products serves specific applications, bringing innovations that enhance performance, durability, and overall efficiency.

Starting with Foster QC 600, this product is recognized for its superior strength-to-weight ratio, making it an excellent choice for applications where minimizing mass is crucial. QC 600 is often utilized in aerospace and automotive industries, where weight reduction contributes to improved fuel efficiency and performance. The material features exceptional resistance to environmental factors, including UV, moisture, and chemicals, ensuring longevity and sustained application performance. Its unique formulation allows for easy machining and fabrication, providing flexibility in design and assembly.

Next, the Foster QC 11 is particularly noteworthy for its thermal insulation properties. This material is essential in applications requiring effective heat management, such as in industrial ovens, furnaces, and HVAC systems. QC 11 boasts low thermal conductivity, ensuring that heat is maintained where it is needed while preventing unwanted heat transfer. Additionally, it exhibits excellent fire resistance, making it a preferred choice in environments where fire safety is a priority. The ease of installation associated with QC 11 further enhances its usability, allowing for quick adaptations in various setups.

Finally, BQCF 40 stands out for its enhanced impact resistance and durability. This composite material is designed for applications subject to high-stress conditions, such as in construction, marine, and industrial equipment. BQCF 40 showcases outstanding abrasion resistance, making it suitable for environments where wear and tear from mechanical forces is prevalent. Moreover, the composite’s design integrates advanced fiber technology, providing a significant improvement in toughness compared to standard options available on the market. This characteristic ensures the material can withstand heavy loads and impact without compromising integrity.

In summary, Foster QC 600, QC 11, and BQCF 40 represent a cutting-edge collection of materials that cater to diverse industrial needs. With features like lightweight composition, heat insulation, and high impact resistance, these products demonstrate the potential for improved performance and reliability across various applications. Their advanced technologies and unique characteristics make them indispensable in today’s demanding industrial landscape. As industries continue to evolve, integrating such innovative materials will be key to achieving higher standards of performance and efficiency.