Serie HV500 ingenieriae conversor unius frequentiae
Attributa principalia
| Marca | RW Energy |
| Numerus Modeli | Serie HV500 ingenieriae conversor unius frequentiae |
| Frequenta nominata | 50/60Hz |
| Series | HV500 |
Descriptiones productorum a fornitori
Summarium
Serie HV500 est converter singularis frequentiae pro applicationibus transmissionis singularis industriales medio-alto gradus, fundatus super excellentem praestantiam controlatorum frequentiae engineering HD2000. Habet tres conceptus productorum: "universalis", "facilis ad usum" et "durus". Vastissime potest uti in metallurgia, metallis non ferreis, chemia, electricitate, caoutchouc, cemento, levatione, charta, metallurgia, textilia et municipalibus occasionibus industrialibus.
Characteres praestantis
Durabilitas
Nivelem vibrationis mechanicam 3M3
Design ductus aeris independens
Pulveris conformalis spargitio automatica
Modello iuncturae temperature dynamicae internae adiuvat in securitate applicationis producti
Versatilitas
Certificatum per plures normas internationales et congruens Directivae RoHS
Supportat control V/F, OLVC, CLVC
Supportat plures protocollos communicationis
Supportat motus asynchronos et permanentes magnetici synchroni
Facilitas usus
Supportat alimentationem externam 24V DC
Unitas interna freni potest uti ad salvari controles installationis
Design librorum supportat installationem laterali sine interruptione
Ad variata necessitates conveniens
Panel display LCD standard ad meliorandum experientiam usoris
Cum functione controlis magistri-servi
Cardina communicativa, cardina codicis, cardina detectionis voltage expandibilis
Praestantia excellens
Suspensio hover zero-speed
Responsum torque 1-3ms
Robustitas excellens
Dynamica cadentia et equivalentia cadentiarum dynamicae valde bassa
Recognitio accurata motoris modello off-line/in-line
Software celeris debugging in background
Potens et facilis ad usum
Characteres sicut setting parametrarum, oscilloscopium realis temporis, recordinga errorum, et recordinga eventuum
Parametri principes
project |
Specifications and technical data |
|
Power |
Input voltage Uin |
200V (-15%) ~ 240V (+10%) three-phase, 380V (-15%)~480V (+10%) three-phase, 500V (-15%)~690V (+10%) three-phase |
Input power frequency |
50Hz/60Hz±5% |
|
Input voltage imbalance |
≤3% |
|
Output voltage |
0V~input voltage |
|
Output frequency |
0Hz~500Hz |
|
Power range |
2.2kW~560kW |
|
Mainly |
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 |
VF:100%(0.5Hz);OLVC:150%(0.5Hz);CLVC:180%(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 |
|
Dynamic drop equivalent |
OLVC<0.5%*s; CLVC<0.3%*s |
|
Increase and deceleration time |
0.0s~3200.0s;0.0min~3200.0min |
|
Torque increase |
0.0%~30.0% |
|
Overload capacity |
150% 1min/5min for heavy-duty applications; Light load application 110% 1min/5min |
|
V/F curve |
Various methods: linear VF curve, 5 torque reduction characteristic curve methods; (2.0 powers, 1.8 powers, 1.6 powers, 1.4 powers, 1.2 powers) |
|
User-defined VF curves |
||
Input frequency resolution |
The digital setting is 0.01Hz, and the analog setting is 0.01Hz |
|
Main |
acceleration and deceleration curves |
Straight line, S-curve |
Multi-speed operation |
16 speed operation is achieved through the control terminal |
|
Automatic Voltage Regulation (AVR) |
When the grid voltage changes within a certain range, it can automatically keep the output voltage constant |
|
Fixed length control |
Given length control |
|
Built-in PID |
It can be easily formed as a closed-loop control system |
|
Enhancements |
Free function blocks |
|
Input |
Frequency setting method |
Keyboard given, UP/DOWN terminal, multi-speed give, terminal pulse given, communication |
Analog input terminals |
AI1: 0V~10V/-10V~10V; AI2 : 0V~10V/0(4)mA~20mA |
|
Digital input terminals |
DI1-DI6, 6 programmable digital inputs, optocoupler-isolated, drain/source compatible inputs |
|
Digital input and output terminals |
DIO1: Fast pulse output, normal input/output; DIO2: Fast pulse input, normal input/output |
|
Analog output terminals |
2 channels 0V~10V/0(4)mA~20mA |
|
Relay output |
2-way contact type FormC |
|
Motor temperature detection |
Support type PT100/PT1000/KTY84 |
|
STO interface |
SIL3/PLe level safety torque shutdown function |
|
communication |
Communication protocol |
Modbus RTU (standard), Profibus, CANopen, profinet, Devicenet, ControlNet |
Usage |
altitude |
no derating is required within 2000 meters above sea level; At an altitude of 2000 meters ~ 4000 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 |
3M3,IEC60721-3-3 |
|
Storage temperature |
-40℃~+70℃ |
|
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, voltage detection card |
|
Protection function |
Short circuit, overcurrent, overload, overvoltage, undervoltage, phase loss, overheating, external faults, etc |
|
efficiency |
5.5kW~22kW:≥93%; 30kW and above: ≥95% |
|
Installation method: |
Loading machines and containers |
|
Protection level |
IP20 |
|
Cooling method |
Forced wind cooling |
|
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