Serie HV610 inverter specialis pro levatione
Attributa principalia
| Marca | RW Energy |
| Numerus Modeli | Serie HV610 inverter specialis pro levatione |
| Frequenta nominata | 50/60Hz |
| Series | HV |
Descriptiones productorum a fornitori
Praegressus
Ut melius ad applicationis necessitates clientium in industria levantis respondeat, productum ex perspectiva applicationis levantis, integrans controllem anti-sway, protectionem contra solutionem funis, protectionem contra discessum uncini, controllem brakae, limitem decelerationis, celeritatem cum onere, parametris macro et aliis functionibus specialibus, plene securitatem, efficientiam, et stabilitatem operationis instrumentorum levantium assecurans.
Characteres praestantiae
Specialia characteres
Controllem anti-sway, nutationem spreaderis reprimens et operationem efficientem
Celeritatem cursum in reali tempore secundum mutationem oneris cum onere • Protectionem uncini, detectionem brakae uncini, controllem output motoris hover
Facilem positionem per limitem decelerationis et limitem stop cooperationem
Protectionem contra solutionem funis, ascendendo ad celeritatem fixam, lente accelerando et leviter ascendendo quando ponderosum detexit
Mechanismum levantis correspondens potest eligi secundum valorem macro parametri levantis
Switching multi-motor, et quatuor set parametri motoris interne supportantur.
Alta fidelitas
Design ductus aeris independentis totius machinae ad efficaciter impedimenta impuritatum pulveris intrantes • Platforma software simulationis thermicae efficientis et accuratae
Technologia et dispositiva testandi et verificandi thermicae ad efficaciter verificanda resultata theoretica design thermici
Procedura testandi et verificandi rigora plena oneris et superoneris
Producta sunt vetusta ad altam temperaturam et onus, efficaciter qualitatem fabrilis assecurans
Protectio circuiti tabulae est design fortificata, contra putrescentiam, humiditatis, pulveris, etc
Alta adaptabilitas
Design latitudinis tensionis latae, triphasica 380V~480V (-15%~+10%)
Filtrum C3 internum, efficaciter harmonicos altae frequentiae generatos ab convertere frequentiae reprimens
Design simplicis et amicabilis EMC ground break, qui efficaciter reducit currentem effluvii ad pavimentum
Design librorum, qui volumen modello traditionali circa 40% minuit
Totum machinam posse instalari iuxta se ad spatiolum installationis salvandum.
Optima control praestantiae
Support controllem drive motoris asynchroni triphasici et motoris synchroni permanentis magnetis
Support V/F control, vectoring apertum, controllem vector clausum
Torque grande initiale, OLVC: 0.5Hz/150%, CLVC: 0Hz/200%
Capacitas superoneris magna, 150% currentis nominatae 60s, 180% currentis nominatae 10s
Commoda et facile utendum
132kW et supra standard machina fabrilis instructa clavis LED potest supportare introductionem externam
110kW et infra clavis externa introducibilis potest instrui clavis LED independente
Quando converter frequens incipit et cessat, motor potest controlari per tenentem brakam • Functionem controllem multispeed, quae operatio 16-speed per terminalem controllem perficitur
Functionem servo zero, motor
Profunditatem PWM casualem ad asperitatem motoris meliorandam
Modus operationis redundantis encoder, qui automatico transmutat ad operationem OLVC quando encoder defecit
Expandere diversificationem
Support variarum card codicis disci、Support card expansionis terminalis I/O
Support Profibus-DP, Profinet IO, CANopen, Modbus-TCP/IP, EtherNet IP, Ethercat et alia communicationes
Commissionem autonomicam et rapidam
Support connectionem ad software background, faciendo debugging et maintenance commodius
Support recordationem eventi et fault recordingem
Parametri principales
project |
Specifications and technical data |
|
Power input and output |
Input voltage |
380V(-15%)~480V(+10%) three-phase |
Input power frequency |
50Hz/60Hz ±5% |
|
Input voltage imbalance |
≤3% |
|
Output voltage |
0V~input voltage |
|
Output frequency |
0~600Hz |
|
Mainly control performance |
Motor type |
Asynchronous motor, synchronous motor |
Control mode |
V/F, OLVC (Open-Loop Vector Control), CLVC (Closed-Loop Vector Control) |
|
speed regulation range |
1:10 V/F; 1:100 OLVC; 1:1000 CLVC |
|
Start torque |
OLVC:150%(0.5Hz);CLVC:200%(0Hz) |
|
Torque accuracy |
≤±5%, under vector control mode |
|
Torque pulsation |
≤±5%, under vector control mode |
|
Steady speed accuracy |
OLVC: 0.2%; CLVC :0.01% |
|
Torque response |
≤5ms, under vector control |
|
acceleration and deceleration time |
0.0s~3200.0s;0.0min~3200.0min |
|
Torque increase |
0.0%~30.0% |
|
Overload capacity |
150%1min/5min、180%10s/5min |
|
VF curve |
Straight type, multi-point type |
|
Input frequency resolution |
Digital setting 0.01Hz; Analog setting: Maximum frequency ×0.025% |
|
Dedicated features |
Anti-shake function |
Prevents accidents caused by large swings of the load during acceleration or deceleration |
Anti-loose rope protection |
Accelerate slowly and rise smoothly according to whether the weight is lifted |
|
Hook protection |
After holding the gate, it detects whether the heavy object is hooked, and an alarm is issued, and the motor hovers |
|
Holding the brake control |
Control the brake holding device and loosening the brake through the judgment of frequency, current, etc., to avoid accidents such as slipping |
|
Joystick zeroing detection |
Determine whether the joystick is in neutral or not |
|
Command reverse control |
When the brake control is effective, it supports holding the brake to stop during the forward and reverse switching process, or running directly to the reversal frequency without holding the brake |
|
Accelerate and deceleration switching |
Support 3 frequency switching points to switch acceleration and deceleration time |
|
Deceleration limit |
Realize simple positioning function, automatic optimization of deceleration time |
|
Voltage suppression |
Automatically change the frequency to stabilize the bus voltage to prevent fault reporting |
|
Overload protection |
Prevents excessive loads from damaging the equipment |
|
Low-speed operation protection |
The main application is not suitable for machines that run at low speed for a long time |
|
Load as you go |
Automatically adjust the operating speed according to load changes to improve work efficiency |
|
Macro parameters |
According to the on-site application scenario, different lifting mechanisms choose different lifting macros |
|
Basic features: |
acceleration and deceleration curves |
Straight line, S-curve |
Simple PLC, multi-terminal speed |
16 speed operation is achieved through the control terminal |
|
Master-slave control |
It can realize the master-slave synchronous control function of two or more motors |
|
Automatic voltage adjustment |
When the grid voltage changes within a certain range, it can automatically keep the output voltage constant |
|
Multi-motor switching |
Four sets of motor parameters, which can realize the switching control of four motors |
|
Overvoltage and overcurrent stall control |
Automatic current and voltage limit during operation to prevent frequent overcurrent and overvoltage tripping |
|
Power outage and restart |
After the frequency converter is powered off, when it is powered on again, it will automatically run after the set time is reached |
|
Fast current throttling |
Avoid frequent overcurrent failures of the frequency converter |
|
Power input and output |
Frequency setting method |
Operation panel given, UP/DOWN terminal, multi-speed give, terminal pulse given, communication |
Analog input terminals |
AI1、AI2:0V~10V/ 0 (4)mA~20mA |
|
Digital input terminals |
DI1-DI5, 5 programmable digital inputs, optocoupler-isolated, drain/source compatible inputs |
|
The DI5 supports high-speed pulse input with a maximum input frequency of 100kHz |
||
Digital output terminals |
open-circuit collector output; Output Voltage Range: 0V~24V; Current load capacity: 50mA |
|
DO1 supports high-speed pulse output, maximum output frequency: 100kHz |
||
Analog output terminals |
1 way 0V~10V/0(4)mA~20mA |
|
Relay output |
1 contact type: FormC normally open + normally closed |
|
communication |
Communication protocol |
Modbus RTU (standard); Profibus-DP, Profinet IO, CANopen, Modbus TCP/IP, Ethercat, EtherNet/IP (optional) |
Usage environment |
altitude |
no derating is required within 1000 meters above sea level; At an altitude of 1000 meters ~ 3000 meters, the current must be reduced by 1% for every 100 meters of elevation |
Ambient temperature |
-25°C~+40°C (40°C to 55°C derating is allowed) |
|
humidity |
15%~95%, no condensation |
|
vibration |
0.75~110kW is the 3M3 standard, 2Hz≤f<9Hz, displacement 1.5mm, 9Hz≤f<200Hz, acceleration 5m/s2 |
|
132kW~400kW is the 3M5 standard, 2Hz≤f<9Hz, displacement 3mm, 9Hz≤f<200Hz, acceleration 10m/s2 |
||
Storage temperature |
−40°C~+70°C |
|
Place of use |
Indoors, there is no direct sunlight, no flammable and corrosive gases, liquids and conductive particles |
|
Options: |
code disk card, communication expansion card, I/O terminal expansion card |
|
Protection function |
Short circuit, overcurrent, overload, overvoltage, undervoltage, phase loss, overheating, external faults, etc |
|
Installation method: |
Loading machines and containers |
|
Protection level |
IP20 |
|
Cooling method |
Air cooling |
|
Producta Connexa
-
Serie GD3000 trium nivellorum medii tensionis converter
-
Series GD1000 converter specialis ad usum truncatoris IEE-Business
-
Serie GD2000 converter specialis ad usum in fodinis
-
Serie HV500 ingenieriae conversor unius frequentiae
-
Serie HD2000 Conversor de Frecuencia de Ingeniería de Baja Tensión (Enfriado por Agua)
-
Serie HD2000 Conversor de Frecuencia de Ingeniería a Baja Tensión (Enfriado por Aire)
-
Serie HD8000 conversor de frecuencia de media tensión de ingeniería
Cognitio Connexa
-
Num potest punctus neutrales secundarius transformatoris controlis terrari?Terra secundarii transformatoris de controllo est res complexa quae plures aspectus involvit, sicut securitas electrica, design systematis et manutentio.Rationes pro terra secundarii transformatoris de controllo Considerationes de securitate: Terra praebet viam securam per quam currus ad terram fluere potest in casu faultae — sicut defectus insulationis aut oneris excessivi — non per corpus humanum vel alias vias conductivias, ita reducens periculum electricitatis. Stabilitas systematis: In cert12/05/2025 -
Methodi et Parametri Conductorum Transformatorum TerraeConfiguraciones de Enrollado de Transformadores de Puesta a TierraLos transformadores de puesta a tierra se clasifican según la conexión del enrollado en dos tipos: ZNyn (zigzag) o YNd. Sus puntos neutrales pueden conectarse a un bobinado supresor de arco o a una resistencia de puesta a tierra. Actualmente, el transformador de puesta a tierra zigzag (tipo Z) conectado vía un bobinado supresor de arco o una resistencia de bajo valor es más comúnmente utilizado.1. Transformador de Puesta a Tierra12/05/2025 -
Cur Quo Usu Tenemur Ad Terram Transformatorem Et Ubi Is Usus EstCur Quaerimus Transformatorium Terrae?Transformatorium terrae est unum ex maximis apparatibus in systematibus electricitatis, primum ad connectendum vel separandum punctum neutrum systematis ad terram, sic ut securitas et fides systematis electricitatis conservetur. Sub iacent rationes cur transformatoria terrae necessaria sunt: Ut Accidentia Electrica Praeveniantur:In operatione systematis electricitatis, propter diversas causas, contingere possunt conditiones anormales sicut effusio tensionis12/05/2025 -
Quomodo Implementare Protectionem Interstitii Transformatoris et Passus Standard Shutdown Diligenter sequere passus infra descriptos ad protectionem interstitii transformatoris implementandam et procedendo ad shutdown standard Si quaeritur quomodo protectionem interstitii transformatoris implementare et quidem passus standard shutdown absolvere diligentia maxima est necessaria Ad haec effectum ducenda sunt passus qui in documentis IEE-Business tradunturQuomodo Implemententur Praesidia Neutralis Spatii Transformeris?In quadam rete electrico, cum occurrit faulta terrae unius phasalis in linea alimenti, simul operantur praesidium spatii neutralis transformeris et praesidium lineae alimenti, causantes disiunctionem transformeris sanum. Causa principalis est quod, durante faulta terrae unius phasalis systematis, overvoltage zero-sequence facit ut spatium neutralis transformeris confringatur. Currentus zero-sequence resultans per medium neutrale tra12/05/2025 -
GIS Bifurcatus Terrenus & Directus Terrenus IEE-Business: State Grid 2018 Contra Accidens Praesidia1. Quod attinet ad GIS, quomodo debet intelligi praescriptum in clausula 14.1.1.4 "Decem et Octo Antiacidentium Praescriptorum" (editio 2018) rete electricitatis statalis?14.1.1.4: Punctus neuter transformatoris duobus conductibus terrae ad duas diversas partes principis reticuli terrae per duos conductores terrae iungatur, et unusquisque conductor terrae requisitos stabilitatis thermicae verificandos impleat. Principia instrumenta et structurae instrumentorum singula duobus conductibus terrae a12/05/2025 -
Innovativae & Communes Structurae Convolutorum pro Transformeribus 10kV Alta Tensione Alta Frequencia1.Structurae novae involucrorum pro transformatoribus altae tensionis et altae frequentiae classe 10 kV1.1 Structura ventilata secta et partim incolata Duae ferritae formae U coniunguntur ad unitatem nucleum magneticum, vel ulterius assemblando in modulos nucleorum serie/serie-parallelo. Involucra prima et secunda montantur super crura recta nucleo, respectivo, cum plano coniunctionis nucleo servante ut stratum limitale. Involucra eiusdem generis colligantur eodem latere. Filius Litz praefertur12/05/2025
Solutiones Relatae
-
Systemata automationis distributionis solutioQuae sunt difficultates in operatione et maintenance lineae aereae?Difficultas una:Lineae distributionis aerea latam extensionem habent, terrain complicatam, multas ramificationes radiantis et supply power distributum, quod "multa culpa lineae et difficultas in reperiendo errore" producit.Difficultas duo:Reperire manu errorem tempus consumit et laboriosum est. Simul, currentem, tensionem et statum commutationis lineae non potest comprehendere in tempore reali, propter defectum mediorum technicor04/22/2025 -
Solutio Integratum Monitorationis Intelligentis Potentiae et Administrationis Efficienciae EnergeticaeVisio generalisHoc opus ad praebendum systema intelligentis monitorii electricitatis (Systema Managementis Electricitatis, PMS) centrum ponit in optimisatione termino ad terminum ressource electricitatis. Per constitutionem framework managementi clausi "monitoring-analysis-decision-execution," iuvat societates a simpliciter "electricitatem utendo" ad intelligenter "electricitatem administrando" transire, tandem ad fines usus energiae securi, efficientis, paucicarbonis et oeconomici perveniens.Po09/28/2025 -
Una Nova Solutio Modularis pro Systematibus Generationis Energiae Photovoltaicae et Storaginis1. Introductio et Background Investigativus1.1 Status Quodammodo Solaris IndustriaeUt una ex copiosissimis fontibus renovabilium, solis energiae developmentum et usus iam centrum factus est globali transitioni energeticae. Recentibus annis, impulsu politarum mundi, industria photovoltaica (PV) prodigiosa progressione gavisa est. Statistica indicant quod PV industria Sinica vidiit incrementum 168-plex durante "Duodecimo Quinquennio". Ad finem 2015, installata PV capacitas excessit 40,000 MW, tres09/28/2025
