Best Price Pure Sine Wave Inverter DC AC Power Inverter 30kw DC220V to AC110V AC120V AC220V Inverter
- Home
- Best Price Pure Sine Wave Inverter DC AC Power Inverter 30kw DC220V to AC110V AC120V AC220V Inverter
Best Price Pure Sine Wave Inverter DC AC Power Inverter 30kw DC220V to AC110V AC120V AC220V Inverter
- DEMING
- Category
- Date
Overview Projects










Product Description
Power Frequency Pure Sine Wave Inverter Features:
1.Complete isolation-type inverter technology, noiseless output.
2.Adoption of advanced SPWM technology, pure sine wave output.
3.Dynamic current loop control technology to ensure inverter reliable operation.
4.Wide DC input voltage range.
5.Excellent EMC design.
6.Low output harmonic distortion (THD≤3%).
7.LED indicators for input voltage range, load power range, normal output & failure state.
8.Optional energy saving mode.
9.Extensive protections: reverse polarity, short-circuit, overload, under/over input voltage, over-temperature, and inverter’s inner fault identification protections.
Application
1. For desolate area like mountain, island, pasturing area, etc.
2. For transportation system like beacon light, traffic light, street light, etc.
3. For communication system: unattached operation microwave middle station, optical
cable maintenance station, etc.
4. For photovoltaic power station, wind-solar power station, park charging station, family
power house, factory power station, etc.
5. For solar building: has good business future.
6. For the new technology application project.
off grid solar power system
off grid wind turbine power system
30KVA off grid single phase inverter technical parameters
| Model | NB110-30KDZ | NB220-30KDZ | NB380-30KDZ | |
| DC input |
Input rated voltage | 110 VDC | 220 VDC | 380 VDC |
| Input rated current | 303A | 151.5 A | 87.7A | |
| Input DC voltage allowing range | 90- 140VDC | 180-280 VDC | 320-500VDC | |
| AC input (AC bypass) |
Allow input voltage range | 110 VAC / 120 VAC / 220 VAC / 240 VAC ± 15% | ||
| Input rated current | 272A / 250A / 136 A /125A | |||
| Bypass transfer time | ≤40 ms (4ms optional) | |||
| AC output | Rated capacity | 30KVA | ||
| Output rated voltage and frequency | 110 VAC / 120 VAC / 220 VAC / 240 VAC,50Hz / 60Hz | |||
| Output rated current | 272A / 250A / 136 A /125A | |||
| Output voltage accuracy | 110 VAC / 120 VAC / 220 VAC / 240 VAC± 2% | |||
| Output frequency accuracy | 50Hz / 60Hz ± 0.05% | |||
| Wave | Pure sine wave (Isolation transformer) | |||
| THD. | ≤3%(Linear load) | |||
| Power factor (PF) | 0.8 | |||
| Overload capacity | 120%,10 minutes | |||
| Overcurrent capacity | 200%,10 seconds | |||
| Crest factor (CF) | 3:1 | |||
| Inverter efficiency | >92% | |||
| Working Environment | Dielectric strength | 1500VAC,1minute | ||
| Noise (1m) | ≤50dB | |||
| Ambient temperature | -10ºC~+50ºC | |||
| Humidity | 0~90%, No condensation | |||
| Altitude | <2000m Higher than 2000m rated power should be reduced |
|||
| Production function | Input reverse protection, input under-voltage protection, output overload protection, output short circuit protection, thermal protection | |||
| Communication interface | RS485/WIFI/GPRS/Ethernet (optional) | |||
| Equipped With Copper Transformer | Yes | |||
| Solar Charger | Optional | |||
| AC Charger | Optional | |||
| Generator Port | Optional | |||
| Size | 630*1000*1430 mm | |||
| Weight | 295 Kg | |||
20KW off grid three phase inverter technical parameters
| Type | NB216-20KSZ | |
| DC input | Input rated voltage | 216VDC |
| Input rated current | 102.9A | |
| Input DC voltage allowing range | 180-280VDC | |
| AC bypass | Allow input voltage range | 380VAC± 15% VAC |
| Input rated current | 30.4A | |
| Bypass transfer time | ≤100ms(4ms optional) | |
| AC output | Rated capacity | 20KW |
| Output rated voltage and frequency | Three phase 380VAC,50Hz/60HZ | |
| Output rated current | 30.4A | |
| Output voltage accuracy | 380VAC ± 2% | |
| Output frequency accuracy | 50Hz ± 0.05% | |
| Wave | Pure sine wave (Isolation transformer) | |
| THD. | ≤3%(Linear load) | |
| Power factor (PF) | 1 | |
| Overload capacity | 120%,10 minutes | |
| Overcurrent capacity | 200%,10 seconds | |
| Crest factor (CF) | 3:1 | |
| Inverter efficiency | >92% | |
| Working Environment | Dielectric strength | 1500VAC,1minute |
| Noise (1m) | ≤50dB | |
| Ambient temperature | -10ºC~+50ºC | |
| Humidity | 0~90%, No condensation | |
| Altitude | <2000m Higher than 2000m rated power should be reduced |
|
| Production function | Input reverse protection, input under-voltage protection, output overload protection, output short circuit protection, thermal protection | |
| Communication interface | RS485/WIFI/GPRS/Ethernet (optional) | |
| Ac charger | (optional) | |
| Battery, City grid (generator) priority | (optional) | |
| Size | 550×1050×1340mm | |
| Weight | 220KG | |
50KW off grid three phase inverter technical parameters
| Type | NB384-50KSZ | |
| DC input | Input rated voltage | 384VDC |
| Input rated current | 144.7A | |
| Input DC voltage allowing range | 320-480VDC | |
| AC bypass | Allow input voltage range |
th style=”border:1px solid #ccc;padding:10px;background:#f5f5f5;text-align:left;font-size:13px;font-weight:bold;” >[‘Nature of Source Flow:’, ‘Passive inverter’] th style=”border:1px solid #ccc;padding:10px;background:#f5f5f5;text-align:left;font-size:13px;font-weight:bold;” >[‘Certification:’, ‘ISO9001, RoHS, CE’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘DCinput’, ‘Input rated voltage’, ‘110 VDC’, ‘220 VDC’, ‘380 VDC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input rated current’, ‘303A’, ‘151.5 A’, ‘87.7A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input DC voltage allowing range’, ’90- 140VDC’, ‘180-280 VDC’, ‘320-500VDC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘AC input(AC bypass)’, ‘Allow input voltage range’, ‘110 VAC / 120 VAC / 220 VAC / 240 VAC ± 15%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input rated current’, ‘272A / 250A / 136 A /125A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Bypass transfer time’, ‘≤40 ms (4ms optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘AC output’, ‘Rated capacity’, ’30KVA’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output rated voltage and frequency’, ‘110 VAC / 120 VAC / 220 VAC / 240 VAC,50Hz / 60Hz’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output rated current’, ‘272A / 250A / 136 A /125A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output voltage accuracy’, ‘110 VAC / 120 VAC / 220 VAC / 240 VAC± 2%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output frequency accuracy’, ’50Hz / 60Hz ± 0.05%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Wave’, ‘Pure sine wave (Isolation transformer)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘THD.’, ‘≤3%(Linear load)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Power factor (PF)’, ‘0.8’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Overload capacity’, ‘120%,10 minutes’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Overcurrent capacity’, ‘200%,10 seconds’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Crest factor (CF)’, ‘3:1’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Inverter efficiency’, ‘>92%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Working Environment’, ‘Dielectric strength’, ‘1500VAC,1minute’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Noise (1m)’, ‘≤50dB’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Ambient temperature’, ‘-10ºC~+50ºC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Humidity’, ‘0~90%, No condensation’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Altitude’, ‘<2000mHigherxa0thanxa02000m ratedxa0powerxa0shouldxa0bexa0reduced’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Production function’, ‘Input reverse protection, input under-voltage protection, output overload protection, output short circuit protection, thermal protection’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Communication interface’, ‘RS485/WIFI/GPRS/Ethernet (optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Equipped With Copper Transformer’, ‘Yes’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Solar Charger’, ‘Optional’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘AC Charger’, ‘Optional’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Generator Port’, ‘Optional’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Size’, ‘630*1000*1430 mm’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Weight’, ‘295 Kg’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘DC input’, ‘Input rated voltage’, ‘216VDC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input rated current’, ‘102.9A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input DC voltage allowing range’, ‘180-280VDC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘AC bypass’, ‘Allow input voltage range’, ‘380VAC± 15% VAC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input rated current’, ‘30.4A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Bypass transfer time’, ‘≤100ms(4ms optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘AC output’, ‘Rated capacity’, ’20KW’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output rated voltage and frequency’, ‘Three phase 380VAC,50Hz/60HZ’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output rated current’, ‘30.4A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output voltage accuracy’, ‘380VAC ± 2%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output frequency accuracy’, ’50Hz ± 0.05%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Wave’, ‘Pure sine wavexa0 (Isolation transformer)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘THD.’, ‘≤3%(Linear load)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Power factor (PF)’, ‘1’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Overload capacity’, ‘120%,10 minutes’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Overcurrent capacity’, ‘200%,10 seconds’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Crest factor (CF)’, ‘3:1’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Inverter efficiency’, ‘>92%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Working Environment’, ‘Dielectric strength’, ‘1500VAC,1minute’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Noise (1m)’, ‘≤50dB’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Ambient temperature’, ‘-10ºC~+50ºC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Humidity’, ‘0~90%, No condensation’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Altitude’, ‘<2000m Higherxa0thanxa02000m ratedxa0powerxa0shouldxa0bexa0reduced’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Production function’, ‘Input reverse protection, input under-voltage protection, output overload protection, output short circuit protection, thermal protection’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Communication interface’, ‘RS485/WIFI/GPRS/Ethernet (optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Ac charger’, ‘(optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Battery, City grid (generator) priority’, ‘(optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Size’, ‘550×1050×1340mm’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Weight’, ‘220KG’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘DC input’, ‘Input rated voltage’, ‘384VDC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input rated current’, ‘144.7A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input DC voltage allowing range’, ‘320-480VDC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘AC bypass’, ‘Allow input voltage range’, ‘380VAC± 15% VAC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input rated current’, ’76A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Bypass transfer time’, ‘≤100ms(4ms optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘AC output’, ‘Output rated power’, ’50KW’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output rated voltage and frequency’, ‘Three phase 380VAC,50HZ(Three phase four wire)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output rated current’, ’76A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output voltage accuracy’, ‘380VAC ± 2%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output frequency accuracy’, ’50Hz ± 0.05%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Wave’, ‘Pure sine wavexa0 (Isolation transformer)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘THD.’, ‘≤3%(Linear load)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Power factor (PF)’, ‘1’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Overload capacity’, ‘120%,10 minutes’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Overcurrent capacity’, ‘200%,10 seconds’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Crest factor (CF)’, ‘3:1’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Inverter efficiency’, ‘>92%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Working Environment’, ‘Dielectric strength’, ‘1500VAC,1minute’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Noise (1m)’, ‘≤50dB’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Ambient temperature’, ‘-10ºC~+50ºC’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Humidity’, ‘0~90%, No condensation’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Altitude’, ‘<2000m Higherxa0thanxa02000m ratedxa0powerxa0shouldxa0bexa0reduced’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Production function’, ‘Input reverse protection, input under-voltage protection, output overload protection, output short circuit protection, thermal protection’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Communication interface’, ‘RS485/WIFI/GPRS/Ethernet (optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Ac charger’, ‘(optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Battery, City grid (generator) priority’, ‘(optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Size’, ‘630*1310*1573mm’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Weight’, ‘430KG’] |
Key Features
- Manufacturer/Factory & Trading Company: Manufacturer/Factory & Trading Company