Cleveland Range inverter manual Motor i2t Characteristic Curve

Page 52

Chapter 4 - Parameter Description [FU1]

FU1-50: Electronic Thermal (Motor i2t) Selection

FU1-51: Electronic Thermal Level for 1 Minute

FU1-52: Electronic Thermal Level for Continuous

FU1-53: Electronic Thermal Characteristic (Motor type) Selection

These functions are to protect the motor from overheating without using additional thermal overload relay. Inverter calculates the temperature rise of the motor using several

Load Current [%]

FU1-51 [ETH 1min]

FU1-52 [ETH cont]

1 minute

Trip Time

parameters and determines whether or not the motor is overheating. Inverter will turn off its output and display a trip message when the electronic thermal feature is activated.

This function activates the ETH parameters by setting ‘Yes’.

This is the reference current when the inverter determines the motor has overheated. Inverter trips in 1 minute when 150% of rated motor current established in FU2-33 flows for 1 minute.

Note: The set value is the percentage of FU2-33 [Rated Motor Current].

This is the current at which the motor can run continuously. Generally, this value is set to ‘100%’ and which means the rated motor current set in FU2-33. This value must be set less than FU1-51 [ETH 1min].

Note: The set value is the percentage of FU2-33 [Rated Motor Current].

[Motor i2t Characteristic Curve]

To make the ETH function (Motor i2t) work correctly, the motor cooling method must be selected correctly according to the motor.

[Self-cool] is a motor that has a cooling fan connected directly to the shaft of the motor. Cooling effects of a self-cooled motor decrease when a motor is running at low speeds. The motor current is derated as the motor speed decreases.

[Forced-cool] is a motor that uses a separate motor to power a cooling fan. As the motor speed changes, the cooling effect does not change.

Output Current

Forced-Cool

100%

 

95%

 

 

Self-Cool

65%

 

20Hz

60Hz

[Load Current Derating Curve]

Note: Despite the motor current changing frequently due to load fluctuation or acceleration and deceleration, the inverter calculates the i2t and accumulates the value to protect the motor.

46

Image 52
Contents Installation, Operation Maintenance Instruction 4 HPSafety Instructions Otherwise, electric shock could occurOtherwise, you may get an electric shock Otherwise, fire could occurOtherwise, it could result in a secondary accident and fire Otherwise, fire or accident could occurOperating Precautions Page Page Contents 100 104105 106User Selection Guide Actionmaster Specifications 230V Class 0.5~5.4HP460V Class 0.5~ 5.4HP Motor Rating1 Output Capacity2 kVAControl Method ControlInstallation Inspection008 Environmental ConditionsOther Precautions InstallationDimensions Inverter100 128 117.5 130.9 130 118 128 117.5 152.9SV037ACtionMaster 150 138 128 117.5 155.0 Basic Wiring MccbPower Terminals Wiring Power Terminals Precautions on WiringGrounding Warning Screw Ring Terminals Wire6 Inverter Torque5 Mm2 Wires and Terminal LugsMotor should be connected to the U, V, and W Terminals 30A 30C 30B Control TerminalsKgf·cm/lb-in Inside Inverter Wiring Control Terminals Precautions on WiringControl Circuit Terminal Keypad Wiring the Keypad Keypad Connector Pin Configuration Inverter SidePin No DescriptionKeypad and Parameter Group Setting OperationSegment RUN KeyParameter Setting and Change ProceduresSetting the DRV Group Data OperationAdjusting Function and I/O Group Data Example Changing the F5 data toFrequency Trip CurrentParameter Group Group Name DescriptionMoving Through DRV Group Codes Moving Through Function Group Codes Moving Through I/O Group CodesOperation From Keypad and Control Terminal OperationOperation From Control Terminal Operation From Keypad Parameter List Drive Group DRVFunction Group 1 FU1 Parameter ListFU1-52 50 / 60 Hz FU1-37FU1-53 Function Group 2 FU2 FU2-3214 FU2-33FU2-3415 FU2-36FU2-83 FU2-85FU2-88 FU2-89Input/Output Group I/O 50 /60 HzYes For Step Frequency Deceleration Time To 999.9 sec Yes For Step Frequency Acceleration Time To 999.9 secYes Deceleration Time To 999.9 sec Yes Acceleration Time To 999.9 secAcceleration Time To 999.9 sec Yes FM Frequency Meter Output Current Selection VoltageStall Yes Reference Free RunYes Modbus-RTU BitRelated Functions DRV-04 Freq Mode FU1-20 Max Freq Parameter DescriptionDRV-00 Output Frequency DRV-01 Acceleration Time DRV-02 Deceleration TimeParameter Description DRV DRV-03 Drive Mode Run/stop Method DRV-04 Frequency Mode Frequency Setting MethodSelect the source of Run/Stop command Select the source of frequency settingParameter Description DRV DRV-05 ~ DRV-07 Step Frequency 1 ~DRV-08 Output Current DRV-09 Motor SpeedDRV-12 Fault Display Fault ContentsDRV-10 DC Link Voltage DRV-11 User Display SelectionPage Function 1 Group FU1 Parameter Description FU1FU1-00 Jump to Desired Code # FU1-03 Run PreventionFU1-07 Stop Mode Selects the stopping method for the inverterStop Mode ‘Free-run’ Output Frequency FU1-22 Time Output Voltage Freq. limit ‘Yes’ Parameter Description FU1 FU1-29 Volts/Hz Pattern FU1-30 ~ FU1-37 User V/F Frequency and VoltageFU1-38 Output Voltage Adjustment FU1-39 Energy Save LevelMotor i2t Characteristic Curve FU1-54 Overload Warning Level FU1-55 Overload Warning Time FU1-59 Stall Prevention Mode Selection St bitParameter Description FU1 FU1-99 Return Code This code is used to exit a group. Press Func key to exitFunction 2 Group FU2 Parameter Description FU2FU2-00 Jump to Desired Code # FU2-07 Dwell Frequency FU2-08 Dwell TimeFU2-19 Input/Output Phase Loss Protection Bit Set FU2-10 ~ FU2-16 Frequency JumpFU2-20 Power on Start Selection FU2-21 Restart After Fault ResetFU2-19 Phase Loss Protection Select Setting RangeFU2-22 Speed Search Select Motor Speed Time Output Frequency Output Voltage FU2-39 Carrier Frequency This is to select the control method of inverter Parameter Description FU2 FU2-40 Control Method SelectionOutput frequency = Reference freq. + Delta freq FU2-70 Reference Frequency for Accel/Decel Delta freqFU2-72 Power On Display Parameter Description FU2 FU2-71 Accel/Decel Time ScaleFU2-73 User Display Selection FU2-74 Gain for Motor Speed DisplayFU2-76 Duty of DB Dynamic Braking Resistor FU2-79 Software VersionFU2-81 ~ FU2-90 2nd Motor Related Functions Displays the software versionFU2-91 Parameter Read FU2-92 Parameter Write FU2-93 Parameter InitializeFU2-94 Parameter Write Protection FU2-99 Return CodeParameter Description FU2 01 ~ I/O-05 Analog Voltage Input V1 Signal Adjustment 06 ~ I/O-10 Analog Current Input I Signal AdjustmentParameter Description I/O 00 Jump to Desired Code #11 Criteria for Analog Input Signal Loss Following table shows the selection in I/O-48Speed-L, Speed-M, Speed-H Step Parameter Speed-H Speed-M Speed-LDC-Brake 2nd FunctionAccel/Decel Parameter TimeWire V1-ExtUp, Down Ext Trip-A15 Terminal Input Status 16 Terminal Output Status 20 Jog Frequency21 ~ I/O-24 Step Frequency 4, 5, 6 Analog Hold25 ~ I/O-38 1st ~ 7th Accel/Decel Time 40 FM Frequency Meter Output 41 FM AdjustmentMulti-Accel/Decel Time Operation 42 FDT Frequency Detection Level 43 FDT Bandwidth 44 Multi-function Output define MO-MGFDT-1 FDT-2FDT-3 FDT-4IOL Stall45 Fault Output Relay 30A, 30B, 30C 46 Inverter Number 47 Baud Rate50 Communication Protocol Selection 99 Return Code 7-Segment KeypadMODBUS-RTU Communication SpecificationsIntroduction Installation Items SpecificationsConnecting the communication line System configurationOperating Communication Protocol Modbus-RTUFunction Code Name Exception Code NameBasic Format Command Message Request Error Response Negative Acknowledge ResponseCommunication Protocol CMC-BUS Ascii Normal Response Acknowledge ResponseAcknowledge Response Detail Communication ProtocolNegative Acknowledge Response Request for Write Request for Registration of ‘n’ numbers of AddressError Code Parameter Code List Common Parameter Description Unit Read/Write Data value HEXRead/Write Data value HEX Parameter DescriptionValue Description Default Max. value Min. value Unit Retry delay 630A180 SS I-GainDescription Default Max. value Min value Unit Group ParameterParameter Description Default Max. value Min value Unit Troubleshooting Refer to this chapter when a trouble is occurredMODBUS-RTU Communication Character Hex Ascii Code ListSpace Fault Display Troubleshooting & MaintenanceDisplay Protective Description Troubleshooting & Maintenance Fault Inverter Fault Reset Fault Remedy Protective Cause RemedyCondition Check Point How to Check Power Components Elements Test Polarity Measured ValueShort ModuleMaintenance PrecautionsRoutine Inspection Periodical InspectionPeriod Inspection Daily and Periodic Inspection ItemsInspection Method Criterion Measuring Instrument Fan Troubleshooting & Maintenance Braking Resistor Options400V Class Model Number 004-4 008-4 015-4 022-4 037-4 Phase 230V, or Phase 230/460V 50/60HzOptions DB Resistor2DIN Rail Base Unit mm103 Appendix a Functions Based on the USE Use Related Parameter CodeAppendix B- Peripheral Devices InverterDeclaration of Conformity CD 73/23/EEC and CD 89/336/EECSafety of information technology equipment Characteristics of information technology equipmentEN 50178 EN 55022EMC Installation Guide Essential Requirements for CE Compliance109 RFI Filters Footprint Standard for ACtionMaster Series Footprint FiltersRevision History Revision Date Remarks112 Cleveland Motion Controls

inverter specifications

The Cleveland Range inverter is a state-of-the-art piece of kitchen equipment designed to elevate cooking efficiency and precision in commercial kitchens. This versatile appliance is particularly well-suited for establishments such as restaurants, cafeterias, and catering operations, where high-performance and reliability are critical to success.

One of the standout features of the Cleveland Range inverter is its innovative inverter technology. Unlike traditional cooking equipment that utilizes standard heating elements, the inverter system allows for continuous, variable power control. This means that cooks can seamlessly adjust the cooking temperature, offering unparalleled control over the cooking process. The result is more consistent cooking outcomes and a significant reduction in food preparation time, ensuring that dishes are cooked just right every time.

Another characteristic that sets the Cleveland Range inverter apart is its energy efficiency. The inverter technology not only enhances cooking precision but also utilizes energy more effectively, leading to reduced power consumption. This is particularly beneficial for commercial kitchens where energy costs can quickly add up. By minimizing energy waste, the Cleveland Range inverter contributes to a more sustainable kitchen operation.

Safety is also a prime focus of the Cleveland Range inverter. With built-in safety features such as automatic shut-off functions, the appliance ensures that accidental overheating or overcooking is avoided, safeguarding both the kitchen staff and the food being prepared. Additionally, the design of the inverter is user-friendly, making it accessible for cooks at all experience levels.

Durability and ease of maintenance are further characteristics of the Cleveland Range inverter. Built with high-quality materials and a robust construction, it is designed to withstand the rigors of a busy kitchen environment. The straightforward design allows for easy cleaning and maintenance, ensuring that the inverter remains in top working condition over its lifespan.

In conclusion, the Cleveland Range inverter stands out in the commercial kitchen landscape due to its innovative inverter technology, energy efficiency, safety features, and durability. It is an excellent investment for any culinary operation looking to enhance its cooking capabilities while maintaining high standards of food quality and safety. This appliance not only meets the demands of modern kitchens but also sets a benchmark for others in the industry.