SN600GF
Photovoltaic water pump Converter USERMANUAL
Preface
Thank you for purchasing an inverter product developed and produced using our company's technology!
This series of photovoltaic inverters isa high-performance heavy-load vector inverter,mainlyused to control and regulate three-phase ACasynchronous Motor speed.This series of photovoltaic inverters adopts high-performance vector control technology,low-speed and high-torque output,and has good Dynamic characteristics,super load capacity,user-programmable functionsand background software monitoring and communication control functions,combined functions Function,rich multi-function terminals.Fully functional,stableandreliable.Widelyusedintextile,papermaking,drawing,machine tools,packaging,Motor drives for food,fans,water pumps and various automated production equipment.
Inthemorning,whenthe light intensity rises toacertain level and the outputvoltageof thephotovoltaicpanelreaches40oV(the220V photovoltaicinverterreaches2ooV),thephotovoltaicinverter automaticallystartstodrivetheloadtorunatlowfrequency,andas thelight intensitycontinuestoincrease,theoperatingfrequency continuestoincrease,withouthumaninteryention; Intheevening,whenthelight intensitydropstoacertainleveland theoutputvoltageofthephotovoltaicpaneldropsto4ooV(the220V photovoltaicinverterdropsto20oV),thephotovoltaicinverter automaticallystopsdrivingtheloadwithouthumanintervention. Whenthelight intensityrecovers,itstartsagain,andsoon.
Built-in MPPTcontroller
MPPT:Thefull nameis "MaximumPowrPoint Tracking".Itcan detectthepowergenerationvoltageofsolarpanelsinreal timeand track the highestvoltageand currentvalue(VI),so that thesystemcan drivetheloadwithmaximumpoweroutput.Itisusedinsolar photovoltaic systemstocoordinatethework betweensolarpanelsand loads.Itisthebrainofthephotovoltaicsystem.
Things to note:
Themaincircuitof thephotovoltaicwaterpumpinvertersupportsDCpowerinputmodeandretainstheACpowerinput mode,butDCandACcannotbeinputatthesametime,otherwisetheinverterandsoarpanelswillbedamaged; { \mathbb { O } } Thephotovoltaicwaterpumpinvertercanonlydrivemotorloadsandcannotbeusedasapowersupply forother electrical equipment;
Thephotovoltaicwaterpumpinverterhasabuilt-inMPPTfunction,whichcanautomaticalladjustthepoweroutput according tothelightintensityandrealizeautomaticstartand stopcontrol withouthumanintervention;
Please be sure to read and understand the safety precautions in this manual before using this product.To ensure correct and safe use of this product.If you have any questions during the installation,use,and maintenance of the product,please contact our technical support and we will serve youwholeheartedly.
Please keep this instruction manual in a safe place so that you can refer to it when necessary.
Chapter1SafetyPrecautions
1.1Installation Statement
1.This chapter explains the safety precautions required for the proper use of this product. Before using the product,please read the user manual and fully understand the safety-related information. Failure to comply with the precautions may result in equipment damage or other safety hazards.
2.The terms "Danger,""Warning,"and "Caution" in the manual do not cover all safety measures but serve as supplementary reminders to all safety precautions.
3.This product should be used in environments that meet the specified design requirements. Otherwise,malfunctions may occur. Functional abnormalities or component damage caused by non-compliance with regulations are not covered under the product quality warranty.
4.Our company shall not be held legally liable forany personal injuries,property losses,or other accidents resulting from failure to follow the instructions in this manual or improper operation of the product.We assume no responsibility for any incidents unrelated to the frequency converter.
1.2Safety Precautions
| Environment | Conditions |
| Installation Location | Indoors |
| Temperature | Installation/Operating Temperature:-10C to +40C,with good ventilation Storage/Transport Temperature:-20Cto +60℃ To improve device reliability,please use this product in an environment where temperature doesnot fluctuate drastically. When used in enclosed spaces such as control cabinets,employ cooling fans or air conditioning to keep the intake air temperature below 40C;otherwise, overheating or firemay occur. Install the product on a flame-retardant surface with sufficient surrounding space for heat dissipation. |
| Temperature | Avoid exposing the product to freezing conditions. Below 95% RH, non-condensing |
| Environment | Pollution level2orbelow Please install the product in the following locations: Areas not exposed to direct sunlight,free from dust,corrosive gases,flammable or explosive gases,oil mist,water vapor,dripping water,or salt, etc. Install ina location with minimal vibration (especially keep away from equipment such as punch presses) Prevent metal powder,oil,water,or other foreign objects from entering the product interior Avoid areaswith radioactive materials,flammable substances,harmful gasesor |
| Altitude | liquids,and high salt corrosion No derating required for useat 1oo0mand below Forevery100mabove1000m,derateby1% Maximum altitude is 3ooom; if exceeding 3ooom,please contact the manufacturer |
| Unpacking acceptance |
| AWarning |
| Do not install the product if you noticeany damage,rust,or signs of prior useon the product or its |
| accessoriesuponunboxing. |
| Do not install the product if you find internal water damage,missng parts,or damaged components |
| insidethepackage. Carefully check the packing list.If the items listed do not match the product name,do not proceed withinstallation! |
| ANote Before unboxing,please inspect the external packaging of the equipment for any damage,breakage, |
| moisture,deformation,or otherabnormalities. Open the packaging in the specified order,and avoid violent impacts! During unboxing,check the equipment and accessories for any defects,rust,scratches,or other |
| damage. Afterunboxing,carefully compare the contents with the packing list to verify that all equipment, accessories,and documentation are complete. |
| Storage and Transportation A Warning |
| Alwaysuseprofessional lifting equipment and ensure that large or heavy products are handled by qualified personnel.Failure to do so may result in injury or product damage! Before lifting the product vertically,ensure that components such as the front cover and terminal block are securely fastened with screws.Loose parts may falland cause injury or product damage! Do not stand or linger under the product while it is being lifted by lifting equipment. When lifting the product with wire ropes,do so smoothly and evenly.Avoid subjecting the product to vibration,impact,or tilting.Do notleave the product suspended for extended periods,as this may lead to injury or product damage! ANote |
| Whenmoving products,always lift and place them gently,and be mindful of objects underfoot to prevent tripping or falling,as failure to do so may result in injury or product damage! When manually carrying products,ensure a firm grip on the product casing to prevent parts from falling,as dropping themmaylead to injury! Strictly adhere to the specified storage and transportation conditions for the product.Failure to do so mayrisk product damage. Avoid storing or transporting the product in areas exposed to water splashes,rain,direct sunlight, strong electric fields,strong magnetic fields,or severe vibrations. Do not store the product for more than 3 months.If extended storage is necessary,implement stricter protective measures and conduct necessary inspections. Ensurethe product is securely packaged before vehicle transportation,and use enclosed containers for long-distance transport. It isstrictly prohibited to transport thisproduct alongsideequipment or items that may adversely |
| during Installation |
| ADANGER Only trained professonals with electrical expertise are permited to operate this equipment. Unauthorized personnel are strictlyprohibited fromhandling it! |
| ADANGER |
| Before installation, carefully read the product manual and safety precautions! Do not install this product in areas with strong electric fields or electromagnetic interference! Prior to instalation,ensure the mounting location has sufficient mechanical strength to support the device's weight.Failure to do so may result in mechanical hazards. |
| When instaling the product in an enclosed space (e.g., inside a cabinet or chassis),use cooling devices(such as cooling fans or air conditioning)to maintain adequate cooling and meet environmental requirements.Otherwise,the product may overheat or cause a fire.Unauthorized modificationsto theproductarestrictlyprohibited! Do not loosen fixed bolts or tamper with bolts marked with adhesive! Install the product on flame-resistant materials (e.g.,metal) and ensure no flammable materials come into contact with or |
| adhere to the product,asthismaycreatea firehazard. ADANGER During installation,cover the top of the product with cloth or paper to prevent metal shavings,oil, water,or other foreign objects from entering the device during driling,which could cause |
| malfunctions.After installation,remove the covering to avoid blocking ventilation holes,as this may lead to overheatingand abnormal operation. Wiring Precautions |
| ADANGER Unauthorized personnel are strictly prohibited from performing equipment installation,wiring, maintenance,inspection,or component replacement!Before wiring,ensure all equipment power is disconnected.After power-of,residual voltage may remain in internal capacitors-wait at least for the duration specified on the product’swarning label before proceedingwith wiring. |
| Ensure proper grounding of equipment and products to prevent electric shock hazards. |
| ADANGER Never connect input power to the output terminals of equipment or products,as this may cause equipment damage or even fire. When connecting drive equipment to motors,ensure correct phase sequence alignment between the product and motor terminals to prevent reverse motor rotation.Cables used for wiring must meet specified requirements for wire gaugeand shielding.Shielded cables must have their shielding layer reliably grounded at one end. Tighten terminal screws according to the torque specified in the manual.Insufficient or excessive torquemay lead tooverheating,damage,or fire hazardsat connectionpoints. After wiring,verifyall cablesare correctly connected and that no loose screws,washers,or exposed |
Chapter2Product Information
| echnicalSpecificationsTable Items | Technical Specifications | |
| Control Method | Sensor-less vector control (SVC) V/Fcontrol | |
| Starting Torque | 0.5Hz/1150%(SVC) 0.5Hz/100%(V/F) | |
| Speed Regulation Range | 1:100(SVC) 1:50 (V/F) | |
| Speed Stability Accuracy | ±0.5%(SVC) +1%(V/F) | |
| CarrierFrequency | 05HzCa | |
| Model G:150% rated output current for 60s | ||
| Overload Capacity | Model P: 120% rated output current for 60s | |
| Automatic torque boost; Manual torque boost 0.1% | ||
| Basic Functions | Torque Boost V/F curve | ~30.0% Three modes: Linear,Multi-point,and Square |
| Acceleration/deceleration curve | Acceleration/deceleration with linear or S-curve | |
| pattern Four acceleration/deceleration time options Adjustable range: 0.0~6500.0s | ||
| DC braking | DC braking starting frequency: 0.0oHz~maximum frequency | |
| Braking time: 0.0s~36.0s | ||
| Braking current setting: 0.0%~100.0% | ||
| Jog control | Jog frequency range: 0.0oHz~50.00Hz | |
| Jog acceleration/deceleration time: 0.Os~ 6500.0s | ||
| Simple PLC,multi-speed operation | Up to 16-speed operation achievable via built-in PLC or control terminals | |
| Built-in PID | Easily enables closed-loop process control systems | |
| Automatic Voltage Regulation (AVR) | Automatically maintains constant output voltage during grid voltage fluctuations Auto-limiting of current and voltage during | |
| Over-voltage/over-current stall control | operation to prevent frequent over-current/over-voltage trips | |
| Fast current limiting function | Minimizes over-current fault to ensure normal inverter operation | |
| Torque limiting and control | Auto torque limiting during operation to prevent frequent over-current trips During instantaneous power outages,the voltage | |
| Personalized Features | Instant stop without interruption | drop is compensated by feeding back energy from the load to maintain the inverter. |
| Continue operation for a short period | ||
| Rapid current limiting | Air | |
| Timing control | Timing control function: time range setting 0.0Min ~6500.0Min | |
| Dual digital tube display | Can monitor two sets of operating data simultaneously | |
| Communication interface | RS485 communication interface,Modbus-RTU communication protocol | |
| Running | Running command | Operation Panel Setting, Control Terminal Setting, Serial Communication Port Setting;Multiple SwitchingModes Available |
| Frequency command | 10 Frequency Command Modes: Digital Setting, Analog Voltage Setting,Analog Current Setting, Pulse Setting, Serial Port Setting. Switchable via | |
| Auxiliary frequency command | Multiple Methods Multiple Auxiliary Frequency Commands for Flexible Fine-Tuningand Frequency Synthesis | |
| Input terminal | Standard: 5 digital inputs,with one channel capable of high-speed pulse input; 2 analog input terminals | |
| Output terminal | Standard: 2open-collector outputs,with one channel capable of high-speed pulse output; 2 | |
| Phase loss protection | analog outputs; 2 relay outputs Input phase loss protection, output phase loss protection | |
| Protection | Instantaneous overcurrent | Shutdown when the rated output current exceeds |
| protection Over-voltage protection | 150% Shutdown when the main circuit DC voltage is above 800V | |
| Under-voltage protection | Shutdent | |
| Over-heat protection | When the inverter bridge overheats,it willtrigger protection | |
| Overcurrent protection | Shutdown protection for exceeding twice the rated | |
| Short circuit protection | current of the frequency converter Output phase to phase short circuit protection, | |
| Usage Location | output to ground short circuit protection Indoor use,not exposed to direct sunlight, free from dust,corrosive gases,flammable gases,oil | |
| Environment | Altitude | mist,steam,dripping water,orsalt,etc. No derating required for use at altitudes up to 1,000m. oe |
| of3,000m. For altitudes exceeding 3,Ooom,please contact the manufacturer. | ||
| Ambient Temperature |
| 50℃,deratingisrequired-derate by1.5% for every1C increase,withamaximumlimitof50℃. | ||
| Humidity | Relative humidity:Less than 95%RH (non-condensing). | |
| Vibration | Vibration:Less than 5.9 m/s2(0.6g). | |
| Storage Temperature | -20℃~+60℃ |
2.2Nameplate and Model No.Description
① Company Code: SN ④ CompatibleMotor Type G:Constant torque load; P:Variable torque load ② Series Code:600GF ⑤ Voltage Level 4T:Three-phase 380V; 2T:Single-phase 220V ③ Inverter Power (5D5:5.5KW;7D5:7.5KW)
⑥ Built-in Braking Unit Without B:No built-in braking unit; WithB:Built-in braking unit
Instruction:
Modelswitha "B"in their designationcome with a built-in brakingunit in the frequency converter.For rapid stopping,simply connect an external braking resistor.Models without a "B"do not have a built-in braking unit and require both an external brakingunit and braking resistor to be installed.
| Frequency ConverterMode | Input Voltage | Rated Pow (KW) | Rated Inpu Current(A | Rated Outpu Current (A) | Matched Motor(KW) |
| SN600GF-0D75G-2TB | Single-phase 220V | 0.75KW | 8.2 | 4.5 | 0.75KW |
| SN600GF-1D5G-2TB | 1.5KW | 14 | 7 | 1.5KW | |
| SN600GF-2D2G-2TB | 2.2KW | 23 | 9.6 | 2.2KW | |
| SN600GF-0D7G/015P-4TB | Three-phase 380V | 0.75KW | 2.414.6 | 2.1/3.8 | 0.75KW |
| SN600GF-1D5G/2D2P-4TB | 1.5KW | 4.6/5.8 | 3.8/5.1 | 1.5KW | |
| SN600GF-2D2G/3D0P-4TB | 2.2KW | 5.817.6 | 5.117.0 | 2.2KW | |
| SN600GF-3D0G/4D0P-4TB | 3.KWV | 7.6/10.0 | 7.0/9.0 | 2.2KW | |
| SN600GF-4D0G/5D5P-4TB | 4.0KW | 10.0/15.0 | 9.0/13.0 | 4KW | |
| SN600GF-5D5G/7D5P-4TB | 5.5KW | 15.0/20.0 | 13.0/17.0 | 5.5KW | |
| SN600GF-7D5G-4TB | 7.5KW | 20.0 | 17.0 | 7.5KW | |
| SN600GF-7D5G/011P-4TB | 7.5KW | 20.0/26.0 | 17.0/25.0 | 7.5KW | |
| SN600GF-011G/015P-4TB | 11KW | 26.0/35.0 | 25.0/32.0 | 11KW | |
| SN600GF-015G-4TB | 15KW | 35.0 | 32.0 | 15KW | |
| SN600GF-015G/018P-4TB | 15KW | 35.0/38.5 | 32.0/37.0 | 15KW | |
| SN600GF-018G/022P-4TB | 18.5KW | 38.5/46.5 | 37.0145.0 | 18.5KW | |
| SN600GF-022G-4TB | 22KW | 46.5 | 45.0 | 22KW | |
| SN600GF-022G/030P-4T | 22KW | 46.5/62.0 | 45.0/60.0 | 22KW | |
| SN600GF-030G/037P-4T | 30KW | 62.0176.0 | 60.0/75.0 | 30KW | |
| SN600GF-037G/045P-4T | 37KW | 76.0/92.0 | 75.0/91.0 | 37KW | |
| SN600GF-045G/055P-4T | 45KW | 92.0/113 | 91.0/110 | 45KW | |
| SN600GF-055G/075P-4T | 55KW | 113/157 | 110/150 | 55KW | |
| SN600GF-075G/090P-4T | 75KW | 157/180 | 150/170 | 75KW |
If there areany changes to the product dimensions,no further notice will be given,and the final product shall prevail.
2.5Installation Space
Depending on the power rating,the required installation space and clearance around this product vary.
Single unit installation
| PowerLevel | Space Requirements (Unit: mm) | ||
| 0.75kw~15kw | AI≥10 | B1≥100 | C1≥40 |
| 18.5kw~22kw | AI≥10 | B1≥200 | C1≥40 |
| 30kw~37kw | AI≥50 | B1≥200 | C1≥40 |
| 45kw~160kw | AI≥50 | B1≥300 | C1≥40 |
InstallationofMultiple Units
During operation,heat dissipation of this product flows upward from the bottom.When multiple units are working simultaneously,they should generallybe installed sideby side with the tops aligned, especially for units of different sizes.
| Power Level | SpaceRequirements(Unit:mm) |
| 0.75kw~15kw | A≥20 |
| 18.5kw~22kw | A≥20 |
| 30kw~37kw | A≥50 |
| 45kw~160kw | A≥50 |
UpperandLowerRow Installation
When instaling this product in upper and lower row configurations,the heat generated by the lower row equipment may cause the temperature of the upper row equipment to rise,potentially leading to overheating or overload fault.Therefore,measures such as installing heat insulation baffles should be taken as required in the "Upper and LowerRow Instalation Requirements"shown in the diagram below.
Installation Orientation
Please installthe unit in an upright position with the top facing upward.Installation in horizontal, sideways,or inverted orientationsis strictly prohibited,asshown in the "Figure 2-6:Installation Orientation Diagram ( { T } 1 ~ { T } 9 ) ."If vertical placementisrequired,avoid applying force to the side of theunit orplacing itonan inclined surface.Due to the product's large size and heavy weight (approximately 2 0 0 {kg } ) ,tiltingitbeyond 5 ^ { \circ } maycause itto tip over,potentiallyleadingto themachine falling.
Chapter 3 Installation and Wiring
3.1MainCircuitTerminalsandFunctions
| TerminalMarking | Terminal Name | Instructions |
| R、S、T | Inverter input terminal | Connected to a three-phase 380V AC power supply |
| U、V、W | Inverter output terminal | Connected to three-phase asynchronous motor |
| P+、PB | Braking resistor connection terminal | External braking resistor |
| P+、P- | Positive and negative poles of DC bus | External braking unit |
| (+)、P1 | Positive pole of DC bus | DC reactor connection terminal |
| Ground terminal | Safetyground | |
| L、N | Inverter input terminal | Connect to a single-phase 220V power supply |
3.2Control Circuit Terminalsand Functions
| FunctionDescriptionofControlCircuitTerminals | ||||
| Category | Terminal Symbol | Terminal name | Function Description | |
| Power Supply | +10V-GND | +10V power supply | Provides an external +10V power supply with a maximum output current of 10mA. Typically used as a working power source for external potentiometers, with a resistance range of 1kΩ to 10kΩ. | |
| +24V-COM | +24V power supply | It provides an external +24V power supply, typically used as the working power for digital input/output terminals and as an external sensor power supply. | ||
| OP | External power input terminal | Maximum output current: 150mA. Factory default connection with 24V When drivingX1 to X5 using an external power supply model, the OP must be connected to the external power supply; | ||
| AI1-GND | Analmgiaput | The jumper between OP and 24V should be removed. Iput | ||
| Analog Input | AI2-GND | Analog input terminal | or250Ω for current input,determined byH4-37. Optocoupler isolation,compatible with bipolar | |
| X1-COM | Switch input 1 | |||
| Switching Input | X2-COM | Switch input 2 | input Input impedance:1.39kΩ Voltage range for active level input:9V~30V | |
| X3-COM | Switch input 3 | |||
| X4-COM | Switch input 4 | In addition to switch input,HDI can also be used as high-speed pulse input Maximum input frequency: 50kHz, input | ||
| HD1-COM HD1-COM | Switch input 5 or high-speed pulse | |||
| (X5 terminal) A01-GND | input Analog output 1 | impedance:1kΩ Output voltage range: 0V~10V Output current range:0mA~20mA,4mA~ | ||
| Analog Output | A0m dputsminedbyH5.)nt,determied by jumper J1 AO2 outputs voltage or current, determined by jumper J3 | |||
| A02-GND | Analog output 2 | |||
| Digital Output | Y1-COM | Open collector output | It is constrained by function code H5-Oo "FM Terminal Output Mode Selection" | |
| HDO-COM | Higpuspced pulse output | When used as high-speed pulse output (FMR), the maximum frequency is 100 kHz. When used as open-collector output (FMP), the specifications are the same as those of Y1. | ||
| Relay Output | K1A-K1B | Normally closed terminal | K1A is the common terminal,K1B is the normally closed terminal,andK1C is the normally open terminal. Contactcapacity:AC250V/3A,DC30V/1 |
| K1A-K1C | Normally open terminal | ||
| K2A-K2B | Normally closed terminal | K2Ais the common terminal,K2B is the normally closed terminal,and K2C is the normally open terminal. Contactcapacity:AC250V/3A,DC30V/1A | |
| K2A-K2C | Normally open terminal | ||
| Communication | A+B- | Communication interface | Standard 485 communication interface- please use twisted-pair or shielded wire. |
3.2.1Jumper Cap Instructions J1Jumper Cap:AO2 Terminal Function Selection J1 short pins1and2 for voltage signal;short pins 2and 3 forcurrent signal.(Factory default:
current signal) J3Jumper Cap:AO1 Terminal Function Selection J3 short pins1and2 for voltagesignal;short pins2and3 forcurrent signal.(Factory default:
voltage signal) J4JumperCap:485TerminalMatchingResistor Selection J4 short pins1and 2 for no termination resistor;short pins 2 and 3 to add a 1 2 0 \Omega termination
resistor. (Factory default: no resistor added)
| Model | RST/UVW | Grounding | Recommended Specificationsfor Contactors | Recommended Specificationsfor CircuitBreakers |
| Recommended Cable (mm²) | Recommended Cable (mm²) | Rated Current (A) | Ratedcurrent (A) | |
| Single-phase220V±10%input,three-phase220Voutput | ||||
| 0.75KW-220V | 1.5 | 1.5 | 16 | 20 |
| 1.5KW-220V | 2.5 | 1.5 | 16 | 20 |
| 2.2KW-220V | 4 | 2.5 | 25 | 32 |
| Three-phase380V±10% input,three-phase220Voutput | ||||
| 0.75KW-380V | 1.5 | 0.75 | 10 | 16 |
| 1.5KW-380V | 1.5 | 0.75 | 10 | 16 |
| 2.2KW-380V | 2.5 | 0.75 | 10 | 16 |
| 3.0KW-380V | 2.5 | 1.5 | 16 | 25 |
| 4.0KW-380V | 2.5 | 1.5 | 16 | 25 |
| 5.5KW-380V | 4 | 2.5 | 16 | 25 |
| 7.5KW-380V | 6 | 4 | 25 | 40 |
| 11KW-380V | 10 | 6 | 32 | 63 |
| 15KW-380V | 16 | 10 | 50 | 63 |
| 18.5KW-380V | 16 | 10 | 63 | 100 |
| 22KW-380V | 25 | 16 | 80 | 100 |
| 30KW-380V | 25 | 16 | 95 | 125 |
| 37KW-380V | 25 | 16 | 120 | 160 |
| 45KW-380V | 35 | 16 | 135 | 200 |
| 55KW-380V | 35 | 25 | 170 | 200 |
| 75KW-380V | 70 | 35 | 230 | 250 |
| Model | Suitable motor (kW) | BrakeUnit | 100% braking torque (10% ED, maximum 10 seconds) Recommended No. of | Remarks | |
| specifications for braking resistors | braking resistors | ||||
| 0.75KW-380V | 0.75 | Builtinstandard configuration | 300W400Ω | 1 | Add "B"after th frer mocyel |
| 1.5KW-380V | 1.5 | 300W400Ω | 1 | ||
| 2.2KW-380V | 2.2 | 400W150Ω | 1 | ||
| 3.0KW-380V | 3.0 | 400W150Ω | 1 | ||
| 4.0KW-380V | 4.0 | 500W100Ω | 1 | ||
| 5.5KW-380V | 5.5 | 500W100Ω | 1 | ||
| 7.5KW-380V | 7.5 | 1000W50Ω | 1 | ||
| 11KW-380V | 15 | 1500W50Ω | 1 | ||
| 15KW-380V | 18.5 | 2000W40Ω | 1 | ||
| 18.5KW-380V | 22 | Not built-in, separately equipped | 4000W30Ω 6000W30Ω | 1 | |
| 22KW-380V | 30 | 6000W20Ω | 1 | ||
| 30KW-380V | 37 | 1 | |||
| 37KW-380V | 45 | 9600W13.6Ω | 1 | ||
| 45KW-380V | 55 | 9600W13.6Ω | 1 | ||
| 55KW-380V 75KW-380V | 75 0.75 | 9600W13.6Ω 15000W7.7Ω | 1 1 | ||
Note:
Please select the resistance value and power rating of the braking resistor according to the data provided by our company.
The braking resistor increases the braking torque of the frequency converter.The resistor power inthe table aboveisdesigned based on 1 0 % braking torque and 1 0 % brakingduty cycle.If the user wishesto increase the braking torque,the resistance value may be appropriately reduced while increasing the resistor power.
For applications requiring frequent braking,the power rating of the braking resistor should be appropriately increased based on the specific operating conditions.
Chapter 4: Display Panel and Operation
4.1DisplayPanel Overview
The LED operation panel displays operational status,allows parameter configuration,and shows fault information,among other functions.The operation panel is illustrated in the figure below.
| KeySymbols | Name | FunctionDescription |
| PRG | Programming key | First level menu entry or exit |
| ENTER | Confirm key | Step by step enter the menu screen,set parameters and confirm |
| UP increment key | Incremental increase ofdata or function code | |
| DOWN decreasing key | Decreaseindata or function codes | |
| Shift key | Displayed parameterscanbecyclicallyselected; When modifying parameters,the modification bit of the parametercanbeselected | |
| RUN | Run key | Inkeyboard operationmode,used for runningoperations |
| STOP RST | Stop/Reset button | When in operation,it is used to stop running operations, When there is a fault alarm,itcan be used for fault reset |
| MFK | Multiple Use Key | The function is determined by the settings of H7-01 Please refer to the detailed description of function code H7-01 |
4.1.2IndicatorLightDescriptions
Functional IndicatorLightDescriptions:
RUN:When the light isoff,itindicates the inverter isinastopped state.When the light is on,it indicates the inverter is in an operating state.
L/R (LOCAL/REMOTE): Indicator for keypad operation,terminal operation,and remote operation (communication control)
LOCAL/REMOTEoff:Panel start/stopcontrol LOCAL/REMOTE steady on:Terminal start/stop control LOCAL/REMOTE flashing:Communication start/stop control
R/F(FWD/REV):Forward/reverse rotation indicator light.Iluminated light indicates reverse operationstatus.
TU/TC:Tuning/torque control/fault indicator light.Iluminated light indicates torque control mode;
slowflashingindicatestuningstatus;rapid flashingindicates faultstatus. DigitalDisplayArea:
5-digitLED display,capable of showing set frequency,output frequency,function codes,various monitoringdata,and alarm codes.
Dual Digital Tube Display Switching
The upper digital tube can switch between displayed parameters by pressing the shift key.
The lower digital tube can be configured via parameters H7-17and H7-18 in the function codes.The corresponding values are in the Uo group.
| Hz | FrequencyUnit |
| A | CurrentUnit |
| V | VoltageUnit |
| Hz+A | SpeedUnit |
| A+V | Percentage |
4.2 Operation Process
4.2.1Parameter SettingMethod
The three-level menusareas follows:
1.Functioncode group No.(first-level menu):Ho,H1,H2,HA,HE,AO,etc. 2.Function code label (second-level menu):Ho.01,H1.01,H4.05,H7.13,etc. 3.Function code setting value (third-level menu):This value is the parameter modification value. Example:Changing the { { H 0 . 1 0 } } maximum frequency from { 5 0 . 0 0 } { H z } to 8 0 . 0 0 { H z } .While the system is in a stopped state,
Programming keys Confirm key Up key Confirm key
50.00 HO H0.00 H0.10 50.00 Switch to the primary Enter the secondary Enter the secondary Enter the third level menu menu menu menu Switch the cursor to 5 Displacement Programming keys Programming keys Confirm key Up key ?
80.00 HO H0.12 80.00 50.00 Return to the previous Return to the previous menu menu Modification completed Modify the set value
| Project | Content |
| Confirmation of powersupply voltage | Please confirm if the power supply voltage is suppressed to the rated voltage of the frequency converter (AC 3PH380V,1PH220V) |
| Confirm that the frequency converter and motor are correctly grounded | |
| Confirmation of frequency converter output terminals | Please confirm that the frequency converter terminal (RST) is securely connected to the power terminal |
| Load confirmation | Please confirm that the frequency converter terminal (UVW) is securely connected to the motor terminal |
| Confirmation of power supply voltage | Please confirm if the motor power matches the frequency converter andisinanunloaded state |
| State | Display | Instructions |
| Under normal circumstances | 50.00 | The default display at the factory isanumerical setting of 50.00Hz |
| When there is a malfunction | Err03 | When the frequency converter is in a shutdown state during a fault, the fault type is displayed |
Press the stop button to directly stop the operation of the frequency converter Restore factory settings
Aftersetting parameter HP.01 to 1,the functional parameters of the frequency converter are restored to the manufacturer's factory parameters,but themotor parameter group,fault recorc information, cumulative running time,cumulative power on time,etc.are not restored.
Chapter5 Fault Inquiry and Handling
| 5.1Commonfaultandhandlingmethods | |||
| Serial | Fault phenomena | Possible reasons | Workaround |
| 1 | No display when powered on | Thewotetoit | Check the input power supply and measure the voltage of each two phases with a multi-meter |
| The connecting wires between the disprabadierondand | Seeking manufacturer services | ||
| Damage to frequency converter rectifier bridge,switching power supply, etc | |||
| 2 | After power on,the power supply air switch tripped | There is a short circuit between the | Check if there is a short circuit or grounding wire between the power |
| power sources Rectifier bridge breakdown | supplies Seeking manufacturer | ||
| The connecting wires between the control board,driver board,and | services Please disconnect the power and unplug the | ||
| 3 | Always displaying Ha" when | display board are disconnected | connecting cable again Remove the motor |
| Motor or motor wire short circuit The voltage of the power grid is too | from the freqgeney replace it Check the voltage of | ||
| low | the power grid Seeking | ||
| 4 | The power on display is normal, butafter running,it shows "Hc"and shuts down | The frequency converterisdamaged | manufacturer services Replace or clean the |
| Fan damage or air duct blockage Short circuit of peripheral control terminal connection | fan Troubleshoot external control line | ||
| Output terminal U/V/W shortcircuit | short circuit fault Seeking | ||
| 5 | After the power on display shows normal operation, the air circuit breaker trips | manufacturer services | |
| Short circuit between motor terminals or connecting wires | Please use a multi-meter to | ||
| measure and troubleshoot | |||
| dcasieehh frequency converter is relatively far | Consider adding an output reactor | ||
| 6 | The motor does not rotate after the frequency converter is running | Incorrect selection of empty switch specifications | Replace the air switch Reconfirm whether the motor is |
| Inverter and motor connection error | connected to the frequency converter U/VNVV Measure the resistance of each | ||
| Motor burnt out Variable frequency three-phase | phase of the motor with a multi-meter | ||
| output imbalance The frequency converter is already running and has frequency,but no | Seeking manufacturer services | ||
| 7 | Frequent reporting of "Err14" overheating protection | output Fan damage or air duct blockage | Replace the fan and clean the air duct |
| The ambient temperature is too high (exceeding 45℃) | Reduce ambient temperature and | ||
| The internal temperature detection of the frequency converter is damaged | enhance ventilation Seeking manufacturer services | ||
| 8 | Display Con | Poor contact between display panel and motherboard | Re-plug and unplug the panel,and check if the interface is bent |
| The communication chip of the motherboard or display board is damaged | Seeking manufacturer services |
5.2Fault protection and countermeasures
During the use of the product,the following types of fault may be encountered.Please refer to the following methods for troubleshooting and handling.
| Fault Name | Operation Panel Display | Troubleshooting of the Malfunction Cause | Faulthandlingmeasures |
| Accelerated overcurrent | Err01 | Short circuit in the output circuit of the frequency converter | Eliminate peripheral fault |
| The wiring between the motor | Install reactors or output filters |
| too long | |||
| Module overheating | Check if the air duct is blocked, if the fan is working properly, and eliminate any problems | ||
| Loose internal wiring of the frequency converter | Plug in all connecting wires | ||
| Main control board abnormality | Seeking technical support | ||
| Inverter module abnormality | Driver board abnormality | Seeking technical support | |
| The power of the frequency | Seeking technical support | ||
| Accelerated overcurrent | Choose a frequency converter | ||
| converter is too low Low voltage of the power | with a higher power output Check the input power supply | ||
| grid Rapid acceleration condition, | Increase acceleration time | ||
| acceleration time set too short The output circuit of the frequency converter is | (H0-17) Check if there is ashort circuit in the motor orinterruption | ||
| grounded or short circuited The control mode is FVC or SVC,and parameter identification has not been | contactor Set the motor parameters according to the motor nameplate and tune the motor | ||
| carried out Manual torque increase or inappropriate V/F curve | parameters Adjust manual torque or V/F curve | ||
| Start the rotating motor | Choose to start with speed tracking or wait for the motor to | ||
| Deleation | Ttequtput cireuit f the grounded or short circuited | stop before starting again Check whether the motor has a short circuit or open circuit | |
| Control modeFVC or SVC withotfiaraieter | Set the motor parameters namecpordin the hnetogtor | ||
| parameters Inerease dcelea i tie | |||
| Sudden increase in load during deceleration process | Cancel sudden load | ||
| Low voltage | Adjust the voltage to the normal range | ||
| No brake unit or brake resistor installed | Install brake unit and resistor | ||
| Constant speed | Err04 The output circuit of the | Check whether the motor has a |
| grounded or short circuited The control mode is FVC or SVC,and parameter | short circuit or open circuit Set the motor parameters | ||
| identification has not been carried out | nameplate and tune the motor parameters | ||
| Sudden increase in load during operation | Cancel sudden load Adjust the voltage to the normal | ||
| Low voltage The selection of frequency converter is too small | range In a stable operating state, if the operating current exceeds the rated current of the motor or the rated output current of the | ||
| Accelerated over-voltage | Err05 | Input voltage is too high | choose a frequency converter with a higher power level. Adjust the voltage to the |
| During the acceleration process,there is an external force dragging the motor to | steady-state range Cancel additional power or install braking resistors | ||
| run The acceleration time is too short | Increase acceleration time | ||
| No brake unit or brake resistor installed | Install brake unit and resistor | ||
| Err06 | The acceleration time is too short | Increase acceleration time Adjust the voltage to the normal | |
| Input voltage is too high During the deceleration process,there is an external | range | ||
| force dragging the motor to operate The deceleration time is too | Cancel additional power or install braking resistors | ||
| short No brake unit or brake | Increase deceleration time Install brake unit and resistor | ||
| Constant speed over-voltage | Err07 | resistor installed Input voltage is too high | Adjust the Voltage to the normal range |
| There is external force dragging the motor during operation | Cancel additional power or install braking resistors | ||
| Buffer power failure | Err08 | The bus voltage fluctuates up and down at the under-voltage point | Seeking technical support |
| Under-voltage fault | Err09 | Instantaneouspoweroutage The input voltage of the | Reset fault |
| frequency converter is too low | Adjust the voltage to the normal range | ||
| Abnormal bus voltage Abnormalities in rectifier | Seeking technical support | ||
| bridge,buffer resistor,driver board,etc | Seeking technical support | ||
| Inverter overload | Err10 | Is the load too large or is there motor stalling? | Reduce the load,check the motor and mechanical condition |
| The selection of frequency converter is too small | Choose a frequency converter with a higher power level | ||
| Motor overload | Err1 | Is the setting of motor protection parameter H9-01 appropriate? | Correctly setting this parameter and increasing H9-01 can prolong the motor overload time |
| Is the load too large or is there motor stalling? | Reduce the load and check the motor and mechanical condition | ||
| Input phase loss | Err12 | The three-phase input power supply is abnormal | Check if the input RST wiring and three-phase input voltage are normal |
| Abnormal driving board, lightning protection board, main control board, rectifier bridge | Seek technical support | ||
| Output phase loss | Err13 | Motor fault | Check if the motor is open circuited |
| The lead from the frequency converter to the motor is abnormal | Eliminate peripheral fault | ||
| The thre-phase output of the frequency converter is unbalanced during the operation of the motor | Check if the three-phase winding of the motor is normal, and eliminate the fault | ||
| Abnormal driver board and IGBT module | Seek technical support | ||
| Module overheating | Err14 | The ambient temperature is too high | Reduce ambient temperature |
| Air duct blockage | Clean the air duct | ||
| Fan damaged | Replace the fan | ||
| Module thermistor damaged Inverter module damaged | Seek technical support Seek technical support | ||
| External device malfunction | Err15 | Multi-functional terminal X inputs external fault signals | Reset operation |
| Input external fault signals through virtual IO function | Reset operation |
| Communication | Err16 | The upper computer is not working properly | Check the wiring of the upper computer |
| The communication line is abnormal | Check the communication connection cable | ||
| The communication parameter HD group is not set correctly | Set communication parameters correctly | ||
| Contactor malfunction | Err17 | Abnormal driverbard ad | Seek technical support |
| Abnormal contactor | Seek technical support | ||
| Current detection fault | Err18 | Check for abnormal Hall devices | Seek technical support |
| Driver board abnormality | Seek technical support | ||
| Motor tuning fault | Err19 | The motor parameters are not set according to the nameplate | Set the motor parameters correctly according to the nameplate |
| Paramer identiain | Check the leads from the frequency converter to the motor | ||
| EEPROM read/write failure | Err21 | EEPROMchip damaged | Seek technical support |
| Hardware malfunction of frequency converter | Err22 | 1: There isovryuane | 1: Handle according to ove-ongogram: Hadle program |
| Short circuit fault to ground | Err23 | Motor short circuit to ground | Replace the cable or motor |
| Accumulated running time reached | Err26 | Accumulated running time reaches the set value | Use parameter initialization function to clear record information |
| User defined fault 1 | Err27 | Input user-defined fault 1 signal through multifunctional terminal X | Reset operation |
| User defined fault 2 | Err28 | Input the signal of user-defined fault 2 through the multifunctional terminal DI | Reset operation |
| Accumulated power on time reaches fault | Err29 | Accumulated power on time reaches the set value | Use parameter initialization function to clear record information |
| Load shedding fault | Err30 | The operating current of the frequency converter is less than H9-64 | Confirm whether the load is detached or whether the H9-64 and H9-65 parameter settings are in line with actual operating conditions |
| PID feedback loss fault during runtime | Err31 | PID feedback is less than the set value ofHa-26 | Check the PID feedback signal or set Ha-26 to an appropriate value |
| Wave-by-wave current limiting fault | Err40 | Is the negative cutting too large or has there been motor stalling? | Reduce the load and check the condition of the motor and machinery. |
| The selection of frequency converter is too small | Choose a frequency converter with a higher power level | ||
| Motor fault during runtime switching | Err41 | Change the current motor selection through terminals during the operation of the frequency converter | Perform motor switching operation after shutting down the frequency converter |
| Motor overheating fault | Err45 | Loose wiring of temperature sensor | Check the wiring of the temperature sensor and troubleshoot any issues |
| Motor temperature is too high | Raise the carrier frequency or takeother heat dissipation measures to dissipate heat from the motor | ||
| Initial velocity position error | Err51 | The deviation between the motor parametersand the actual situation is too large | Reconfirm whether the motor parametersare correct, especially the rated current setting |
Chapter6 Daily Maintenance and Care
6.1Routine InspectionItems
Due to the effects of environmental temperature,humidity,dust,and vibration,internal components of the equipment may deteriorate,potentially leading to malfunctions or reduced service life.Therefore,it is necessary to perform daily and periodic maintenance on the equipment.In particular,the intervals between regular inspections should be shortened in the following environments: high-temperature conditions,frequent start-stop operations,presence of AC power and load fluctuations,significant vibration or impact,and exposure to dust/metal particles/hydrochloric acid corrosive substances.
To ensure the proper functioning of the equipment and prevent product damage,please Verify the following items daily.You mayphotocopy this inspectionchecklist for use.After each inspection, stamp the "Confirmed"seal in the verification column.
| Inspection Items | Inspection Content | CountermeasuresinCaseof Malfunction |
| Motor | Is there any abnormal sound or vibration in the motor? | Confirm if the motor fixing screws are secure Confirm if the mechanical connection is abnormal Confirm if the motor is missing phase |
| Fan cooled | Is the cooling fan of the frequency converter and motor used abnormally? | Confirm if the cooling fanon the device side is running Confirm if the cooling fan on the motor side is abnormal Confirmif the ventilation channel is blocked Confirm if the ambient temperature is within the allowable range |
| Installation environment | Are the electrical cabinets and cable trays abnormal? | Confirmif there is insulation damage on the incoming and outgoing cables of the frequency converter Confirm if there isany vibration during theinstallationofthefixedbracket Confirm if the copper bars and connecting cable terminals are loose or corroded |
| Load | Does the operating current of the frequency converter exceed the rated current of the frequency converter and the motor? | Confirm if the motor parameter settings arecorrect Determine if the motoris overloaded Confirm if themechanical vibration is too large (normal condition |
| Input voltage | Is the power supply voltage between the main circuit and the control circuit abnormal? | Confirmwhether the input voltage is within the allowable range Confirmif there isa heavy load starting around |
6.2ListofRegularInspectionItems
The following table shows the key items for regular inspection of this product.Generally, it is recommended to conduct regular maintenance once a year.Please determine the actual maintenance cycle based on the product's usage and working environment during actual maintenance.Regular
maintenance helps prevent product functionality from deteriorating and product damage.
Please make a copy of the regular maintenance project list during maintenance,and stamp the "Confirmation" seal on the inspection column after each confirmation.
A Note:
To prevent electric shock,do not perform inspections or wiring work while the power is on. Before conducting any wiring or repair work,be sure to turn off the power toall equipment.After power-off,residual voltageremains in thecapacitors inside the device.Wait at least for the duration specified on the product’s warning label before proceeding with wiring,repairs,or other operations. Measure the DC voltageof the main circuit toconfirm thatit is atasafe level; otherwise,there isa risk of electric shock.
| Inspection Items | Inspection Content | Countermeasuresin Case of Malfunction |
| The whole machine | Is there any accumulation of garbage,dirt,or dust on the surface? | Confirm if the controller cabinet is poweredoff Useavacuum cleaner to remove garbage or dust to avoid contact with components When surface dirt cannot be removed,it can be wiped with alcohol and left to dryand evaporate completely |
| Cable | Has the power line and connection changed color? Is the insulation layer aging or cracking? | Replace the cracked cable Replace the damaged connection terminals |
| Electromagnetic contactorperiphery | Is there any loose suction or abnormal noise during the action? Are there any peripheral components that are short circuited,contaminated by water,swollen or broken? | Replace abnormal components |
| Air duct vent | Are the air ducts and heat sinks blocked? Is the fan damaged? | Clean the air duct Replace the fan |
| Control loop | Are there any poor contacts in the control components? Is the terminal screw loose? Is there insulation cracking in the control cable? | Clean up foreign objects on the surface of control circuits and connection terminals Replace the damaged and corroded control cables |
Chapter7ParameterList
7.1BasicFunctionParametersTable
When HP-Oo is set to a non-zero value,a user password is enabled.In both function parameter mode and user parameter modification mode,the parameter menu can only be accessed after entering the correct password.To cancel the password,set HP-O0 to O.The inverter user password isonly used to lock panel operations.After setting the password,each time parametersareread or written via the keyboard,password verification is required again upon re-entry after exiting.However,during communication operations,parameters can be read or written directly without password verification (except for the HP and FF groups).
The parameter menu in user-customized parameter mode is not password-protected.
Group H, Group A,and Group Bare basic function parameters,while Group U is for monitoring function parameters.Thesymbolsin the parameter table are explainedas follows:
"☆" indicates that the parameter value can be modified whether the inverter is in a stopped or running state.
"★" indicates that the parameter value cannot be modified while the inverter is running.
"" indicates that the parameter is an actual detected/recorded value and cannot be modified.
"O"indicates that the parameterisa "manufacturer parameter," reserved exclusively for manufacturersettingsand prohibited fromusermodification.
| Function | Name | Setting Range | Factory | Change |
| H0 Basic Function Group | ||||
| H0-00 | GP-type display | 1:G-type 2:Reserved 0:Speed sensor-free daily control | 1 | ★ |
| H0-01 | The first motor control method | (SVC) 1: Reserved 2:V/F control | 2 | ★ |
| H0-02 | Operation instruction selection | 0:Panel command channel (LED off) 1:Terminal command channel (LED on) 2:Communication command channel (LED flash) 0: Digital setting (preset frequency | 0 | ☆ |
| H0-03 | X selection of main frequency source | H0-08,no memory in case of power failure) 1: Digital setting (preset frequency H0-08,powerdownmemory),while the panel encoded potentiometer is valid 2:AI1 3:AI2 5:Pulse setting (HD) 6:Multi-line instruction 7:Simple PLC 8:PID 9:Communication given | 1 | ★ |
| H0-04 | Selection of auxiliary frequency source Y | Same as Ho-03 (main frequency command input selection) | 0 | ★ |
| H0-05 | Selection of auxiliary frequency command range during superposition | 0: Relative to maximum frequency 1: Relative to the main frequency command | 0 | ☆ |
| H0-06 | Range of auxiliary frequency instruction during superposition | 0%~150% | 100% | ★ |
| H0-07 | Frequency instruction superposition selection | Ones digit: Frequency command selection O: Main frequency command 1:Main and auxiliary operation results (operation relationship determined by ten digits) 2: Switching between main frequency command and auxiliary frequency command 3:Switching between main frequency instruction and main/auxiliary operation results 4: Switching between auxiliary frequency instruction and main/auxiliary operation results Ten digit: frequency instruction main auxiliary operation relationship 0: Primary+Secondary 1: Primary-Secondary 2:The maximum value of both | 00 | ☆ |
| H0-08 Preset frequency | 3:The minimum value of both 0.00Hz~maximum frequency (H0-10) | 50.00Hz | ☆ | |
| H0-09 | Running direction | O:Default direction of operation 1: Run in the opposite direction to the default direction | 0 | ★ |
| H0-10 | maximum frequency | 50.00Hz~320.00Hz (H0-22=2) 50.0Hz~3200.0Hz (H0-22=1) | 50.00Hz | ★ |
| H0-11 | Upper limit frequency instruction selection | 0: H0-12 setting 1:AI1 2:AI2 3: Panel potentiometer 4: Pulse given | 0 | ★ |
| H0-12 | Upper limit frequency | 4: Communication given Lower limit frequency H0-14~ maximum frequency H0-10 | 50.00Hz | ☆ |
| H0-13 | Upper frequency offset | 0.00Hz~maximum frequency H0-10 | 0.00Hz | ☆ |
| H0-14 | Lower limit frequency | 0.00Hz~upper limit frequency H0-12 | 0.00Hz | ☆ |
| H0-15 | Carrier Frequency | Model determination | Model determinati on | ☆ |
| H0-16 | 0: No 1: Yes | 0 | ☆ | ||||
| H0-17 | Acceleration time 1 | 0.0s-6500.0s (H0-19=1) 0s-65000s (H0-19=0) (If the time is too short, it will cause frequent protection of the frequency | Model determinati on | ☆ | |||
| H0-18 | Deceleration time 1 | converter) 0.0s-6500.0s (H0-19=1) 0s-65000s (H0-19=0) (Time is too short, braking resistor must | deMominati on | ☆ | |||
| H0-19 | Acceleration and deceleration time unit | be added) 0:1 second 1: 0.1 seconds | 1 | ★ | |||
| H0-21 | Auxiliary frequency instruction bias frequency during superposition | 0.00Hz~maximum frequency H0-10 | 0.00Hz | ☆ | |||
| H0-22 | Frequency command resolution | high-frequency output) 2:0.01Hz | 1: 0.1Hz (note: changing to 1 can achieve | 2 | ★ | ||
| H0-23 | Digital setting frequency shutdown memory selection | 0: Not remembering 1: Remembering | 1 | ☆ | |||
| H0-24 | Selection of motor parameter group | Reserved | 0 | ★ | |||
| H0-25 | Acceleration and deceleration time reference frequency | 0: maximum frequency (H0-10) 1: Set frequency | 0 | ★ | |||
| H0-26 | 2:Reserved | 0 | ★ | ||||
| H0-27 | Running instruction bundling main frequency instruction selection | Ones digit: Operation panel binding frequency source selection 0: No binding 1: Digital frequency setting 2:AI1 3:AI2 4:Reserved 5:Pulse setting (DI5) 6: Multi-speed 7: Simple PLC 8:PID 9: Communication given | Ten digit: Terminal binding frequency | 0000 | ★ | ||
| H0-29 | Application macro | Note1:Before selecting the macro No.,first execute H0-29 =10000 to restore factory settings,then select the macro No.. Note 2: For multi-pump water supply configurations,refer to parameter group b0. 1: Single-pump constant pressure water supply macro 2: Three-pump constant pressure water supply macro (1 VFD +2 fixed-speed) 4:Five-pump constant pressure water supply macro (1 VFD+4 fixed-speed) 7: Fire inspection water supply macro 11:CNC machine tool 100Hz macro 1 | 0 | ☆ |
| H1 Motor Control Group | 21: Spindle engraving 40oHz macro 1 | |||
| H1-00 | Type selection of motor | O: Ordinary asynchronous motor 1:Variable frequency asynchronous | 0 | ★ |
| H1-01 | Rated power of motor | motor 0.1kW~1000.0kW | Model determination | ★ |
| H1-02 | Rated voltage of motor | 1V~380V | Model determination | ★ |
| H1-03 | Rated current of motor | 0.01A~655.35A (inverter 0.1A553.5A (inerter ower> | detemination | ★ |
| H1-04 | Rated frequency of motor | 55kW) 0.00Hz~maximum frequency | Model determination | ★ |
| H1-05 | Rated speed of motor | 1rpm~65535rpm | dete mination | ★ |
| H1-10 | Asynchrous motor | 0.01A~H1-03 (inverter power≤ 5.1AH-03(nverte owr> | detemination | ★ |
| H1-37 | Tuning (motor self-learning) selection | 55kW) 0: No operation 1: Parameter tuning on the static part of asynchronous machine 2: Asynchronous machine dynamic complete tuning 3: Asynchronous machine static | 0 | ★ |
| H2 Vector Reference Group | complete tuning | |||
| Spe ooproprional | 1~100 | 30 | ☆ | |
| H2-00 | SPeed opintgration tie | |||
| H2-01 | 0.01s~10.00s | 0.50s | ☆ | |
| H2-02 | Switching frequency 1 | 0.00~H2-05 | 5.00Hz | ★ |
| H2-03 | Sgpe oproportional | 1~100 | 0 | ☆ |
| H2-04 | Speed loop integration time 2 | 0.01s~10.00s | 1.00s | ★ |
| H2-05 | Switching frequency 2 | H2-02~maximum frequency | 10.00Hz | ☆ |
| H2-06 | Vector control slip gain | 50%~200% | 150% | ☆ |
| H2-07 | SVC speed feedback filtering time | 0.000s~0.100s | 0.05s | ☆ |
| H2-08 | Vectorcontrolouer | 0~200 | 64 | ☆ |
| H2-09 | speed control mode | O: Parameter H2-10 setting 1:AI1 2:A12 6:MIN(AI1,AI2) 7:MAX(AI1,AI2) The full range of options 1 to 7 corresponds to H2 to H10 | 0 | ☆ |
| H2-10 | Numerical setting of torque upper limit under speed control mode | 0.0%~200.0% | 150.00% | ☆ |
| H2-12 | Reserved | ☆ | ||
| H2-13 | Exeitationregalaion | 0~60000 | 2000 | ☆ |
| H2-14 | Excitation regulation integral gain | 0~60000 | 1300 | ☆ |
| H2-15 | Torque adjustment proportional gain | 0~60000 | 2000 | ☆ |
| H2-16 | Integral gain of torque regulation | 0~60000 | 1300 | ★ |
| H2-17 | Integral attribute of speed loop | Oo ni: Itgra satic 1: Effective | 0 | ☆ |
| H3 V/F Control Parameter Group | ||||
| H3-00 | V/F curve setting | O: Straight line V/F 1: Multi-point V/F 2: Square V/F 3: 1.2 square V/F 4:1.4Power V/F 6:1.6 Power V/F 8:1.8 power V/F 10:V/F complete separation mode 11:V/F semi separation mode | 0 | ★ |
| H3-01 | Torque boost | 0.0%:(Autmatic torqueost | Model determinati | ☆ |
| H3-02 | Torqe inreascot o | 0.00Hz~maximum frequency | on 50.00Hz | ★ |
| H3-03 | MltipointV/f sreguency | 0.00Hz~H3-05 | 1.3Hz | ★ |
| H3-04 | Multi point V/F voltage point 1 | 0.0%~100.0% | 15.0% | ★ |
| H3-05 | Mlti pintV/f freueney | H3-03~H3-07 | 5.0Hz | ★ |
| H3-06 | Multi point V/F voltage | 0.0%~100.0% | 20.0% | ★ |
| H3-07 | point 2 Multi point V/F frequency | H3-05~Rated frequency of motor | 50.0Hz | ★ |
| H3-08 | point3 MltipointV/F ypdtagegg | (H1-04) 0.0%~100.0% | 100% | ★ |
| H3-09 | V/F slip compensation gain | 0.0%~200.0% | 0.00% | ☆ |
| H3-10 | V/F over-excitation gain | 0~200 | 64 | ☆ |
| H3-11 | V/F oscillation suppression gain | 0~100 | deMrminati | ★ |
| on H4 input terminal group | ||||
| H4-00 | Xx1terial fungtion | : Rufora | 01 | ★ |
| H4-01 | X terminal funtion | diretiorseruningREVorfowardand reverse running direction (note:when set | 02 | ★ |
| H4-02 | Xx terminl fnetion | toi description fordetails) | 04 | ★ |
| H4-03 | X4 terminal function selection | 3:Three-line operation control 4: Forward turning jog (FJOG) 5:Reverse Jogging (RJOG) | 09 | ★ |
| H4-04 | HDI (X5) terminal function selection | 6:Terminal UP 7: Terminal DOWN 8: Free parking 9: Fault reset (RESET) 10: Pause operation 11: External fault normally open input 12: Multi-segment instruction terminal 1 13:Multi-segment instruction terminal 2 14:Multi-segment instruction terminal 3 Multi-segment instruction terminal 4 16.Acceleration and deceleration time selection terminal1 | 12 | ★ |
| selection terminal 2 18:Frequency command switching 19:UP/DOWN reset (terminals,keyboard) | 20: Control command switching terminal | ||
| 1 21: Acceleration and deceleration are prohibited 22: PID pause 23:Simple PLC state reset 24: Swing frequency pause 25: Counter input 26: Counter reset 27: Length count input | |||
| 28:Length reset 29:Torque control prohibited HDI) 31: Reserved 32:Immediate DC braking 2 | 30:Pulse frequency input (only valid for 33:External fault normally closed input 37: Control command switching terminal | ||
| 34:Frequency modification enable 35:PID action direction is reversed 36:External parking terminal 1 38:PID points suspended 39:Switching between main frequency and preset frequency 40: Switching between auxiliary frequency and preset frequency 41:Reserved 42:Reserved 43: PID parameter switching 44:User defined fault 1 45:User defined fault 2 | |||
| 46: Switching between speed control and torque control 47: Emergency stop 48:External parking terminal 2 49: Deceleration DC braking 50:This run time is reset to zero 51: Two wire/three wire switching 52:Reverse frequency prohibition | |||
| 53~59:Reserved X terminal filtering time 0.000s~1.000s | 0.010s | ||
| H4-10 | 0: Two-line type 1 1: Two-line type 2 2: Three-line type 1 | ||
| H4-11 | 3: Three-line type 2 | ||
| Terminal command method H4-12 Terminal UP/DOWN | |||
| 0.001Hz/s~65.535Hz/s change rate | 1.00Hz/s 0.00V |
| H4-13 | AIcurve1minimuminput | 0.00V~H4-15 | 0.00% | ☆ |
| H4-14 | AI curve 1 minimum input corresponding setting | -100.0%~+100.0% | 10.00V | ☆ |
| H4-15 | Al curve 1 maximum input | H4-13~+10.00V | 100.0% | ☆ |
| H4-16 | AI curve 1 maximum input corresponding setting | -100.0%~ +100.0% | 0.10s | ☆ |
| H4-17 | AI1 filtering time | 0.00s~10.00s | 0.00V | ☆ |
| H4-18 | AI curve 2 minimum input | 0.00V~H4-20 | 0.00% | ★ |
| H4-19 | Alcurve2minimumimput | -100.0%~ +100.0% | 10.00V | ☆ |
| H4-20 | AI curve2 maximum input | H4-18~+10.00V | 100.0% | ☆ |
| H4-21 | AI curve 2 maximum input corresponding setting | -100.0%~ +100.0% | 0.10s | ☆ |
| H4-22 | AI2 filtering time | 0.00s~10.00s | 0.5V | ☆ |
| H4-23 | AI curve 3 minimum input Al curve 3 minimum input | -10.00V~H4-25 | 0.0% | ★ |
| H4-24 | corresponding setting | -100.0%-+100.0% | 9.7V | ☆ |
| H4-25 | AI curve 3 maximum input | H4-23-+10.00V | 100.0% | ☆ |
| H4-26 | Acurve3 maximum input | -100.0%~ +100.0% | 0.10s | ★ |
| H4-27 | AI3 filtering time HDI pulse input minimum | 0.00s~10.00s | 0.00kHz | ☆ |
| H4-28 | frequency HDI pulse minimum input | 0.00kHz~H4-30 | 0.00% | ★ |
| H4-29 | frequency setting HDI pulse maximum input | -100.0%~100.0% | 50.00kHz | ☆ |
| H4-30 | frequency | H4-28~100.00kHz | 100.0% | ★ |
| H4-31 | HDI pulse maximum input frequency setting | -100.0%~100.0% | 0.10s | ☆ |
| H4-32 | HDI pulse filtering time | 0.00s~10.00s Ones digit: AIl curve selection | 0.010s | ★ |
| H4-33 | AI curve selection | 1: Curve 1(2 points,see H4-13~H4-16) 2: Curve 2(2 points,see H4-18~H4-21) 3:Curve 3(2 points,see H4-23~H4-26) Tenth digit:AI2 curve selection,as above Ones digit: AIl below minimum input | 321 | ★ |
| H4-34 | Al bngow miniumipt | setting selection 0:Corresponding minimum input setting 1ndi: A elominmiput setting selection O: Corresponding minimum input setting 1:0.0% | 000 | ☆ |
| H4-35 | X termialeffetiye m de | 0: Log leveleietie | 00000 | ★ |
| Ones digit: X1 Ten digit: X2 Hundred digit: X3 Thousand digit: X4 Ten thousand digit: HDI | ||||
| H4-37 | AI input voltage/current selection | Ones digit: AI1 Ten digit: AI2 0: Voltage input 1: Current input | 10 | ★ |
| H4-38 | X1 conduction delay time | 0.0s~6553.5s | 0.0s | ★ |
| H4-39 | X2 conduction delay time | 0.0s~6553.5s | 0.0s | ★ |
| H4-40 | X3 conduction delay time | 0.0s~6553.5s | 0.0s | ★ |
| H4-41 | X4 conduction delay time | 0.0s~6553.5s | 0.0s | ★ |
| H4-42 | HDI conduction delay time | 0.0s~6553.5s | 0.0s | ★ |
| H4-48 | X1 disconetio delay | 0.0s~6553.5s | 0.0s | ★ |
| H4-49 | X2 disconnection delay time | 0.0s~6553.5s | 0.0s | ★ |
| H4-50 | X3 disconnection delay time | 0.0s~6553.5s | 0.0s | ★ |
| H4-51 | Xx4disconection deay | 0.0s~6553.5s | 0.0s | ★ |
| H4-52 | HDI disconnection delay time | 0.0s~6553.5s | 0.0s | ★ |
| H5 Output Terminal Group | ||||
| H5-00 | HD teminaloutut mode | 0: Pule wtOut) | 0 | ★ |
| H5-01 | HDO terminal switch output function selection (FMR) | 0: No output 1: Inverter in operation 2:Fault output (fault shutdown) | 00 | ☆ |
| H5-02 | Relay K1 Fu1A-K1B-K 1C) | 3 Frequency level detectin 1 5: Zero-speed operation (no output during | 02 | ☆ |
| H5-03 | Relac iKn FunA-K2B-K2C) | sh Motor overload arning 7: Inverter overload warning 8:The set record value reached | 00 | ☆ |
| H5-04 | Y1 output function selection | 9:The specified record value reached 11:Simple PLC cycle completion 12:Accumulated running time reached 13:Under frequency limitation 14:Torque limitation 15:Ready for operation 16:AI1>AI2 17:The upper limit frequency reached 18:The lower limit frequency reached (related to operation) | 01 | ★ |
| 20: Communication settings 23:Zero-speed operation 2 (also output when stopped) 24: Accumulated power on time reached 25:Frequency level detection 2 26: Frequency l arrived 27:Frequency 2 arrived 28:Current 1 arrives 29:Current 2 arrives 30:Scheduled arrival 31:AIl input exceeds the limit 32: Falling load 33: Running in reverse 34:Zero-current state 35:The module temperature has reached 36:Output current exceeds the limit 37:The lower limit frequency has been reached (output even when stopped) 38: Alarm (all faults) 40:The current running time has arrived 41: Fault (free-stop fault, no output under under-voltage) 42:Frequency1≤Operating frequency≤ Frequency 2 43:Frequency 1≥Operating frequency ≥ Frequency 2 44: Frequency 1≤Set frequency≤ Frequency 2 45:Frequency 1≥ Set frequency ≥ Frequency 2 46: Linked to D11 terminal output 47:Linked to D12 terminal output 48:Linked to D13 terminal output | ||
| HDO high-speed pulse | 49:Linked to D14 terminal output 50: Auxiliary motor pump 1 51: Auxiliary motor pump 2 52: Auxiliary motor pump 3 53: Auxiliary motor pump 4 O: Operating frequency | |
| H5-06 AO1 output function H5-07 | output function selection 1: Set frequency 2: Output current 3: Motor output torque (absolute value, | 00 00 |
| selection | percentage relative to the motor) 4: Output power 5: Output voltage 6:Pulse input (1o0.0% corresponds to 100.0kHz) 7:AI1 | |
| H5-08 AO2 output function selection 8:A12 | 11:Record numerical values 12: Communication settings | 01 ☆ |
| 14: Output current (100.0% corresponds to 1000.0A) 15: Output voltage (100.0% corresponds to 1000.0V) 16: Motor output torque (actual value, percentage relative to the motor) | ||||||
| H5-09 | HDO output maximum frequency | 0.01kHz~100.00kHz | 50.00kHz | ★ | ||
| H5-10 | AOl zero bias coefficient | -100.0%~ +100.0% | 0.00% | ★ | ||
| H5-11 | AO1 gain | -10.00~+10.00 | 1.0 | ☆ | ||
| H5-12 | AO2 zero bias coefficient | -100.0%~+100.0% | 0.00% | ☆ | ||
| H5-13 | AO2 gain | —10.00~ +10.00 | 1.0 | ☆ | ||
| H5-17 | FMR action delay time | 0.0s~3600.0s | 0.0s | ☆ | ||
| H5-18 | K1 relay action delay time | 0.0s~3600.0s | 0.0s | ☆ | ||
| H5-19 | K2 relay action delay time | 0.0s~3600.0s | 0.0s | ★ | ||
| H5-20 | Y1 action delay time | 0.0s~3600.0s 0: Positive Logic | 0.0s | ☆ | ||
| H5-22 | Effective state selection of output terminal | 1: Anti-logic Ones digit: HDO Ten digit: K1 Hundred digit: K2 Thousand digit: Y1 | 0 | ☆ | ||
| H5-23 | Alctret gutput | Ones digit: AO1 Ten iqgit:AO02 1:4~20mA | 00 | ☆ | ||
| H5-24 H5-25 | FMR delayed reset time K1 relay delay reset time | 0.0s~3600.0s | 0.0s | ☆ | ||
| 0.0s~3600.0s | 0.0s | ☆ | ||||
| H5-26 | K2 relay delayed reset time | 0.0s~3600.0s | 0.0s | ☆ | ||
| H5-27 | Y1 output delay reset time | 0.0s~3600.0s | 0.0s | ☆ | ||
| H6 Start/Control Group | ||||||
| H6-00 | Start mode | 0: Directly start 1: Preedt(Co | 0 | ☆ | ||
| H6-01 | Speed tracking method | machine) O: Machine frequency starts 1: Starting from the power frequency | 0 | ★ | ||
| H6-02 | Speed tracking speed | 2: Starting from the maximum frequency 1~100 | 20 | ★ | ||
| H6-03 | Starting frequency | 0.00Hz~10.00Hz | 0.00Hz | ★ | ||
| H6-04 | Start frequency holding time | 0.0s~100.0s | 0.0s | ★ | ||
| H6-05 | Start DC braking current/pre-excitation current | 0%~100% | 0% | ★ | ||
| H6-06 | Start DC braking time/pre-excitation time | 0.0s~100.0s | 0.0s | ★ |
| H6-07 | Acceleration and deceleration methods | Li deceleration | 0 | ★ |
| H6-08 | Proportion of time at the beginning of the S-curve | 0.0%~ (100.0%-H6-09) | 30.00% | ★ |
| H6-09 | Proportion of time at the end of the S-curve | 0.0%~ (100.0%-H6-08) | 30.00% | ★ |
| H6-10 | Shutdown mode | O: Slow down parking 1: Free parking | 0 | ★ |
| H6-11 | Startion DC bakig | 0.00Hz~maximum frequency | 0.00Hz | ☆ |
| H6-12 | Shutdown DC braking waiting time | 0.0s~100.0s | 0.0s | ☆ |
| H6-13 | Shutdown DC brake current | 0%~100% | 000 | ☆ |
| H6-14 | Shutdown DC braking time | 0.0s~100.0s | 0.0s | ☆ |
| H6-15 | Brake utilization rate | 0%~100% | 100% | ★ |
| H7-00 | Display Function Extension 1 | H7 Keyboard and Display Group Ones digit: Power supply voltage monitoring method 0: DC bus voltage 1: Input AC voltage (preceded by the | 0 | 。 |
| H7-01 | MF.K key function selection | letter U) 0:MF.K is invalid 1: Switching between operation panel and remote (terminal or communication) command channel 2: Forward and reverse switching 3: Forward turning jog | 0 | 。 |
| H7-02 | STOP/RESET button | 4:Reverse jog 0: The STOP/RES shutdown function is effective in any operating mode | 1 | 。 |
| H7-03 | Run display parameter 1 | 0000-FFFF Bit00: Operating frequency 1 (Hz) Bit01: Set frequency (Hz) Bit02: Bus voltage (V) Bit03: Output voltage (V) Bit04: Output current (A) Bit05: Output power (kW) Bit06: Output torque (%) Bit07: D1 input status Bit08:DO output status Bit09: AI1 Voltage (V) Bit10:AI2 voltage (V) | 001F | 。 |
| Bit11:Al3Voltage(V) Bit12: Count value Bit13:Length value Bit14:Load speed display Bit15: PID setting (constant pressure water supply display pressure value) 0000-FFFF | ||||
| H7-04 | Run display parameter 2 | Bit00: PID feedback (constant pressure water supply pressure value) Bit01: PLC Stage Bit02: HDMI input pulse frequency Bit03:Operating frequency 2 (Hz) Bit04: Remaining running time Bit05:AIl pre-calibration voltage (V) Bit06: AI2 pre-calibration voltage (V) BitO: Line speed Bit09: Current power on time (Hour) Bit10: Current running time (Min) Bit11: HDI input pulse frequency (Hz) Bit12: Communication settings Bit13:Encoder feedback speed (Hz) Bit14: Main frequency X display (Hz) Bit15:Auxiliary frequencyY display | 0000 | |
| H7-05 | LED shutdown display parameters | (Hz) 0000-FFFF Bit00: Set frequency (Hz) Bit01: Bus voltage (V) Bit02:X input status Bit03:Y output status Bit04: AI1 voltage (V) Bit05: AI2 voltage (V) Bit06: Panel potentiometer voltage (V) Bit07: Count value Bit08: Line speed Bit09: PLC Stage Bit10: Load speed Bit11: PID setting (pressure) Bit12: HDI input pulse frequency (kHz) | 0033 | 。 |
| H7-06 | Loedspedisplay | Bit13:PID feedback (pressure) 0.0001~6.5000 | 1.0000 | 。 |
| H7-07 | Inverter module heat sink temperature | 0.0℃~100.0°℃ | Real time | . |
| H7-09 | Accumulated running time | 0h~65535h 0: 0 decimal places | Real time | · |
| H7-12 | sp ofdecimrl plaesed | 1: 1 decimalplaces 3:3 decimal places | 1 |
| time | ||||
| H7-14 | Accumulated power consumption | 0~65535 degrees | · | |
| H7-17 | Digital tube 2 shutdown monitoring selection | 00~65 (U0 group) | 02 | |
| H7-18 | Digital tube 2 operation monitoring selection | 00~65 (U0 group) | 04 | 。 |
| H8: Auxiliary Function Group | ||||
| H8-00 | freqingopgating | 0Hz~maximum frequency | 2.00Hz | ☆ |
| H8-01 | Jogging acceleration time | 0.0s~6500.0s | 20.0s | ★ |
| H8-02 | Jogging deceleration time | 0.0s~6500.0s | 20.0s | ☆ |
| H8-03 | Acceleration time 2 | 0.0s~6500.0s | Model determinat ion | ☆ |
| H8-04 | Deceleration time 2 | 0.0s~6500.0s | Model determinat ion | ☆ |
| H8-05 | Acceleration time 3 | 0.0s~6500.0s | Model determinat ion | ☆ |
| H8-06 | Deceleration time 3 | 0.0s~6500.0s | Model determinat ion | ☆ |
| H8-07 | Acceleration time 4 | 0.0s~6500.0s | Model determinat ion | ☆ |
| H8-08 | Deceleration time 4 | 0.0s~6500.0s | Model determinat | ☆ |
| H8-09 | Jump frequency 1 | 0Hz~maximum frequency | ion 0.00Hz | ★ |
| H8-10 | Jump frequency 2 | 0Hz~maximum frequency | 0.00Hz | ☆ |
| H8-14 | Set the operating mode with a freqwe iy 1ower | O:Running at the lower limit frequency 1: Shutdown | 0 | ☆ |
| H8-15 | frequency Droop Control | 2: Zero-speed operation 0.00Hz~10.00Hz | 0.00Hz | ☆ |
| H8-16 | Set the cumulative power on arrival time | 0h~65000h | 0h | ☆ |
| H8-17 | Set the cumulative | 0h~65000h | 0h | ☆ |
| H8-18 | runningarrival time Activate protection | O: Not protected 1: Protected | 0 | ★ |
| H8-19 | selection Frequency detection | 0Hz~maximum frequency | 50.00Hz | ☆ |
| H8-20 | value (FDT1) Frequency detection lag | 0.0%~100.0% (HDT1level) | 5.00% | ★ |
| rate1 | ||||
| H8-21 | Frequenay paiches the | 0.0%~100.0% (maximum frequency) | 0.00% | ☆ |
| H8-22 | Is the jumping frequency effetire duarind deceleration? | O: Invalid 1: Valid | 0 | ☆ |
| H8-25 | Switching frequency points ratontime and acceleration time 2 | 0Hz~maximum frequency | 0.00Hz | ☆ |
| H8-26 | Switching frequency peints ration time ad | 0Hz~ maximum frequency | 0.00Hz | ☆ |
| H8-27 | deceleration time 2 Terminal jog priority | 0: Invalid1: Valid | 0 | ☆ |
| H8-28 | Frequ(FDTletection | 0Hz~maximum frequency | 50.00Hz | ☆ |
| H8-29 | Frequency detection lag rate2 | 0.0%~100.0%(HDT2 level) | 5.00% | ☆ |
| H8-30 | Randomarrival frequency detection value 1 | 0Hz~ maximum frequency | 50.00Hz | ☆ |
| H8-31 | Detetionamyltude at | 0.0%~100.0% (maximum frequency) | 0.00% | ☆ |
| H8-32 | Random arrival frequency detection value 2 | 0Hz~maximum frequency | 50.00Hz | ☆ |
| H8-33 | Deyertioneamylitude at | 0.0%~100.0% (maximum frequency) | 0.00% | ☆ |
| H8-34 | Zero-current detection level | 0.0%~300.0% 100.0% corresponds to the rated current of the motor | 5.00% | ☆ |
| H8-35 | Zero-curet detetoo | 0.01s~600.00s | 0.10s | ☆ |
| H8-36 | ht limituaretexces | 0.% | 200.0% | ☆ |
| H8-37 | Delay time for detecting output current exceeding | 0.00s~600.00s | 0.00s | ☆ |
| H8-38 | limit Any current reaching 1 | 0.0%~300.0% (rated current of motor) | 100.0% | ☆ |
| H8-39 | Any current reaching 1 amplitude | 0.0%~300.0% (rated current of motor) | 0.0% | ★ |
| H8-40 | Any current reaching 2 | 0.0%~300.0% (rated current of motor) | 100.0% | ☆ |
| H8-41 | Any current reaching 2 amplitude | 0.0%~300.0% (rated current of motor) | 0.0% | ☆ |
| H8-42 | Timer function selection | 0: Invalid1:Valid | 0 | ★ |
| H8-43 | Timed running time selection | 0.0Min~6500.0Min | 0 | ★ |
| H8-44 | Timed running time | 0.00V~H8-46 | 0.0Min | ★ |
| H8-45 | Lower litefAl iatut | H8-45~10.00V | 3.10V | ☆ |
| H8-46 | AI icput opta eiait | 0°C-100℃ | 6.80V | ☆ |
| H8-47 | IGBTmoduletemperature reached | 0:Fanrunningduringoperation 1: Fan running continuously | 75℃ | ☆ |
| H8-48 | Cooling fan control | Sleep frequency (H8-51)~maximum frequency (H0-1.0) | 0 | ☆ |
| H8-49 | Wake-up frequency | 0.0s~6500.0s | 0.00Hz | ☆ |
| H8-50 | Wake-up delay time | 0.00Hz~Wake-up frequency (H8-49) | 0.0s | ☆ |
| H8-51 | Sleep frequency | 0.0s~6500.0s | 0.00Hz | ☆ |
| H8-52 | Sleep delay time | 0.0~6500.0 Min | 0.0s | ☆ |
| H8-53 | Arrival time of this run | 0.0Min~6500.0Min | 0.0Min | ★ |
| H9 Fault and Protection Group | ||||
| H9-00 | Selection of motor overload protection | 0: Prohibit 1: Allow | 1 | ☆ |
| H9-01 | Motor over-cutting protection gain | 0.20~10.00 | 1.00 | ☆ |
| H9-02 | Waringecoeftcien for | 50%~100% | 80% | ★ |
| H9-03 | Over-voltage stall gain | 0~100 200VDC~2000VDC | 30 | ★ |
| H9-04 | Orver-vion g sa | 760V | ☆ | |
| H9-05 | Overcurrent stall gain | 0~100 | 20 | ☆ |
| H9-06 | Overcurrent stall protection current | 100%~200% | 150% | ☆ |
| H9-07 | Selection of ground short circuit protection | 0: Invalid 1: Valid | 0 | ☆ |
| H9-08 | Starting voltage of braking unit action | 200VDC~2000VDC | deMrmeati on | ★ |
| H9-09 | No.of atomati fault | 0~20 | 0 | ☆ |
| H9-10 | Fault DO action selection during automatic fault reset | 0: No action 1: Action | 0 | ★ |
| H9-11 | Fault automatic reset waiting time | 0.1s~100.0s | 1.0s | ☆ |
| H9-12 | Input phase loss protection selection | 00:Prohibited 11:Permitted | 11 | ☆ |
| H9-13 | Outpet ohaseso | 0: Prohibit 1: Allow | 1 | ☆ |
| H9-14 | First fault type | 0: No malfunction 2: Rcereratedovercurret 3:Deceleration overcurrent | · | |
| H9-15 | Second fault type | · | ||
| Third (most recent) fault | · | |||
| H9-16 type | 4: Constant speed overcurrent 5:Accelerate the electric home | |||
| 7: Constant speed over-voltage 8:Buffer positive overload 9: Under-voltage 10: Inverter overload 11:Motor overload 12: Input phase loss 13: Output phase loss 14:Module overheating 15: External malfunction 16:Communication abnormality 17: Abnormal contactor 18:Abnormal current detection 19: Abnormal motor tuning 20:Encoder/PG card abnormality 21:Parameter read/write exception 22: Hardware abnormality of frequency converter 23:Motor short circuit to ground 24: Reserved 25:Reserved 26:The running time has arrived 27:User defined fault 1 28: User defined fault 2 29: The power on time has arrived 30: Load shedding 31: P1D fedback lost during runtime | ||
| 40:Fast current limiting timeout 41:Switch the motor when seeing off 42:Excessive speed deviation 43:Motor over-speed 45: Reserved | ||
| Frequency during the third | 51: Reserved 55:Reserved | |
| H9-17 | (most recent) malfunction Current during the third (most recent) malfunction | |
| H9-18 Bus voltage during the H9-19 | third (most recent) fault | |
| Input terminal status during H9-20 the third (most recent) malfunction | ||
| Output terminal status H9-21 during the third (most recent) malfunction | ||
| The status of the frequency H9-22 converter during the third (most recent) malfunction |
| third (most recent) malfunction | ||||
| H9-24 | Running time during the third (most recent) malfunction | . | ||
| H9-27 | Frequency during the second malfunction | · | ||
| H9-28 | Curent durighe second | · | ||
| H9-29 | Bussyoltae duringthe | · | ||
| H9-30 | · | |||
| H9-31 | Output terminal status during the second fault | · | ||
| H9-32 | The status of the frequency converter during the second malfunction | |||
| H9-33 | Power-on time during the second malfunction | |||
| H9-34 | Running time during the second malfunction | · | ||
| H9-37 | Frequency during the first malfunction | |||
| H9-38 | Current during the first malfunction | 1 | ||
| H9-39 | Bus voltage during the first malfunction | |||
| H9-40 | · | |||
| H9-41 | drig teminal afuntion | |||
| H9-42 | The status of the frequency converter during the first | |||
| H9-43 | malfunction Power-on time during the first malfunction | |||
| H9-44 | Runingtine duringtheg | |||
| H9-47 | Fault protection action selection 1 | Ones digit: Motor overload (Err11) 0: Free Parking 1: Stop the machine according to the shutdown method 2: Continue running ten digits: Input phase loss (Err12) Hundred digit: Output phase loss (Err13) | 00000 | ★ |
| Thousand digit: External fault (Err15) Ten thousand digit: Communication | ||||
| H9-54 | Continue operating fremalfuysetioni case | abnormality (Err16) O: Run at the current operating frequency 1: Run at the set frequency 2:Opraeatitee | 0 | ☆ |
| H9-55 | Abqormal acup | 4: Operating at an abnormal backup frequency 60. | 100.0% | ☆ |
| H9-59 | Instatsop funeton | 0~2 : Ilvwidown | 0 | ★ |
| H9-60 | Instantly stop and continuously restore | 2: Slow down and stop the machine H9.62~100% | 85% | ★ |
| H9-61 | voltage Instant non-stop voltage recovery judgment time | 0.0~100.0s | 0.5S | ★ |
| H9-62 | Instntneosnonustsp | 60%~100% (standard bus voltage) | 80% | ★ |
| H9-63 | Leadroprotetonon | 0: Invalid 1: Valid | 0 | ☆ |
| H9-64 | Load drop detection level | 0.0~100.0% | 10.00% | ☆ |
| H9-65 | Load drop detection time | 0.0~60.0s | 1.0S | ☆ |
| HA PID Function Group | ||||
| HA-00 | PID given source | 0: Ha-01 setting 1:AI1 2:A12 3:Reserved 4: HDI pulse setting (X5) 5: Communication given 6:Multi-segment instruction given 7: Given by the pressure of water supply | 0 | ☆ |
| HA-01 | PID value given | group b0-01 0.0%~100.0% | 50.0% | ☆ |
| HA-02 | PID feedback source | 0:AI1 1:AI2 2:Reserved 3:AII-AI2 4: HDI pulse setting (X5) 5: Communication given 6:AI1+AI2 7:MAX(|AI1|,|AI2|) | 0 | |
| HA-03 | PID action direction | 8:MIN(AI1|,|AI2|) 0: Positive effect | 0 | ☆ |
| 1:Reaction effect | ||||
| HA-04 | PID given feedback range | 0~65535 | 1000 | ★ |
| HA-05 | Proportional gain KP1 | 0.0~100.0 | 20 | ★ |
| HA-06 | Integral time T11 | 0.01s~10.00S | 2.00s | ★ |
| HA-07 | Differential time TD1 | 0.000s~10.000s | 0.000s | ☆ |
| HA-08 | PID iversio cut-r | 0.00~maximum frequency | 0.00Hz | ★ |
| HA-09 | PID deviation limit | 0.0%~100.0% | 0.00% | ★ |
| HA-10 | HD differential limiting | 0.00%~100.00% | 0.10% | ☆ |
| HA-11 | PID given change time | 0.00~650.00s | 0.00s | ☆ |
| HA-12 | PID feedback filtering time | 0.00~60.00s | 0.00s | ☆ |
| HA-13 | PID output filtering time | 0.00~60.00s | 0.00s | ☆ |
| HA-15 | Proportional gain KP2 | 0~100.0 | 20.0 | ☆ |
| HA-16 | Integral time T12 | 0.01s~10.00s | 2.00s | ★ |
| HA-17 | Differential time TD2 | 0.000s~10.000S 0: Do not switch | 0.00s | ☆ |
| HA-18 | PID parameter switching conditions | 1: Switching through X terminal 2:Automatically switch based on deviation | 0 | ☆ |
| HA-19 | PID parameter switching deviation 1 | 0.0%~HA-20 | 20.00% | ☆ |
| HA-20 | PID trameterswiching | HA-19~100.0% | 80.00% | ★ |
| HA-21 | PID initial value | 0.0%~100.0% | 0.0% | ☆ |
| HA-22 | PID initial value retention time | 0.00~650.00S | 0.00% | ☆ |
| HA-23 | Maximum positive deviation between two outputs | 0.00~100.00% | 1.00% | ☆ |
| HA-24 | devimu ftwosatputs | 0.00~100.00% | 1.00% | ★ |
| HA-25 | PID integral attribute | Ones digit: Integral separation 0: Invalid 1: Effective ten digit: whether to stop integrating after outputing to the limit value O:Continue to accumulate points 1: Stop accumulating points | 00 | ☆ |
| HA-26 | PI fed bak loss | 0.0%csd | 0.0% | ★ |
| HA-27 | PID fenbak lss | 0.0s~20.0s | 0.0s | ☆ |
| HA-28 | PID shutdown calculation | 0: Shutdown without calculation 1: Calculation during shutdown | 1 | ★ |
| HBFixed Length andCounting Lines | ||||
| HB-00 | Swingfrequency eting | : Reatve | 0 | ★ |
| HB-01 | Swing frequency amplitude | 0.0~100.0% | 0.0% | ☆ |
| HB-02 | Juping tregueney | 0.0~50.0% | 0.0% | ★ |
| HB-03 | Oscillation frequency cycle | 0.1~3000.0s | 10.0s | ☆ |
| HB-04 | Rise time of triangular wave in oscillation | 0.1~100.0% | 50.0% | ★ |
| HB-05 | frequency Set length | 0m~65535m | 1000m | ☆ |
| HB-06 | Actual length | 0m~65535m | 0m | ☆ |
| HB-07 | Pulse count per meter | 0.1~6553.5 | 100 | ☆ |
| HB-08 | Set the count value | 1~65535 | 1000 | ☆ |
| HB-09 | Specify the count value | 1~65535 | 1000 | ☆ |
| HC Multi-stage Instructions,Simple PLC Group | ||||
| HC-00 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-01 | Multi-stage instruction | 100.0%~100.0% | 0.0% | ☆ |
| HC-02 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-03 | Multi-stage instruction | 100.0%~100.0% | 0.0% | ☆ |
| HC-04 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-05 | Multi-stage instruction | 100.0%~100.0% | 0.0% | ☆ |
| HC-06 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ★ |
| HC-07 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-08 | Multi-stage instruction | 100.0%~100.0% | 0.0% | ★ |
| HC-09 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-10 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-11 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-12 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-13 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-14 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-15 | Multi-stage instruction | -100.0%~100.0% | 0.0% | ☆ |
| HC-16 | Simple PLC operation mode | O: Shutdown at the end of a single run 1:Maintain the final value at the end of a single run 2: Continuously looping | 0 | ☆ |
| HC-17 | Simple PLC power down | Ones digit: Power-down memory selection 0: omeoryerr gldue Ten digit: Shutdown memory selection 0: Shutdown without memory | 00 | ★ |




