hot selling in Japan market 250w 300w 600w NEP micro inverter
$149
/piece
price excl.VAT
Negotiable
- Minimal order
- 100 pieces
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Product Specifications
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Product Description
Overview
Quick Details
Brand Name: NEP
Model Number: BDM600
Input Voltage: 22V-50V
Output Voltage: 110V/22V/230V/240V
Output Current: 2.17A
Output Frequency: 50HZ/60HZ
Output Type: Single, DUAL
Size: 277*132*50mm
Type: DC/AC Inverters
Weight: 2.9kg
Application: Solar System on-gird
MPPT range:: 22Vdc-55Vdc
Warranty: 10 Years / 25years
Environment:: -40°C to +65°C
Efficiency(CEC): 95.5%
Protection:: NEMA6/IP66/IP67
Packaging & Delivery
hot selling in Japan market 250w 300w 600w NEP micro inverter
Grid-tie Micro Inverter System |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
Specification
| Model | BDM-600 |
| INPUT (DC) | Max Recommended PV Power (Wp) | 380*2 |
| Max DC Open Circuit Voltage (Vdc) | 60 | |
| Max DC Input Current (Adc) | 12*2 | |
| MPPT Tacking Accuracy | >99.5% | |
| MPPT Tracking Range (Vdc) | 22-55 | |
| Isc PV (absolute maximum) (Adc) | 14*2 | |
| Maximum Inverter Backfeed Current to the Array0 | 0 |
OUTPUT ( AC) | Peak AC Output Power(Wp) | 550 | ||
| Rated AC Output Power(Wp) | 500 | |||
| Nominal Power Grid Voltage (Vac) | 240 | 208 | 230 | |
| Allowable Power Grid Voltage (Vac) | 211-264* | 183-229* | configurable* | |
| Allowable Power Grid Frequency (Hz) | 59.3-60.5* | configurable* | ||
| THD | <3%(at rated power) | |||
| Power Factor (cos phi, fixed) | >0.99% | |||
| Rated Output Current (Aac) | 2.3 | 2.64 | 2.39 | |
| Current (inrush) (Peak and Duration) | 24A,15us | |||
| Nominal Frequency (Hz) | 60 | 50 | ||
| Maximum Output Fault Current (Aac) | 4.4A peak | |||
| Maximum Output Overcurrent Protection (Aac) | 10 | |||
| Maximum Number of Units per Branch (20A)(ALL NEC adjustment factors have been considered ) | 7 | 6 | 7 | |
| SYSTEM EFFICIENCY | Weighted Averaged Efficiency (CEC) | 95.5% |
| Night Time Tare Loss (Wp) | 0.11 |
| PROTECTION FUNCTIONS | Over/Under Voltage Protection | YES | |
| Over/Under Frequency Protection | YES | ||
| Anti-Islanding Protection | YES | ||
| Over Current Protection | YES | ||
| Reverse DC Polarity Protection | YES | ||
| OverloadProtection | YES | ||
| ProtectionDegree | NEMA-6 / IP66 / IP67 | ||
| Ambient Temperature | -40℉to+149℉(-40℃to+65℃) | ||
| Operating Temperature | -40℉to+185℉(-40℃to+85℃) | ||
| Display | LED LIGHT | ||
| Communications | Power Line Communication | ||
| Dimension (W-H-D mm) | 10.91’*5.20’*1.97’(277*132*50mm) | ||
| Weight (Kg)(including AC cable) | 8.8 lbs.(4.0kg) | ||
| Environment Category | Indoor and Outdoor | ||
| Wet Location | Suitable | ||
| Pollution Degree | PD 3 | ||
| Overvoltage Category | II (PV), III (AC MAINS) | ||
| Product Saftey Compliance | California Rule 21 Certified UL1741 CSA C22.2 No.107.1 | IEC/EN 62109-1 IEC/EN 62109-2 | |
| Grid Code Compliance* (Refer to the label for the detailed grid code compliance) | IEEE 1547 | VDE-AR-N 4105* VDE V 0126-1-1/A1 G83/2, CEI 021 AS 4777.2 & AS 4777.3.EN50438 | |
| Grid parameters are configurable through a BDG-256 or BDG-256P3 gateway All NEC required adjustment factors have been considered for AC outputs.AC current outputs will not exceed stated values for Rated Output AC Current Compliance NEC 2014 Section 690.11DC Arc-Fault Circuit Protection NEC 2014 Section 690.12 Rapid Shutdown of PV System on Buildings NEC 2014 Section 705.12 Point of Connection (AC Arc-Fault Protection) |
Reated spare parts
 |
| weiland female connector | AC cable w/ female connector-12AWG | end cap for female connector | weiland male connector |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
Installation
Project
Packaging & Shipping
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
A solar micro-inverter is a device used in photovoltaics that converts direct current (DC) generated by a single solar module to alternating current (AC). Microinverters contrast with conventional string and central solar inverters, which are connected to multiple solar modules or panels of the PV system. Microinverters have several advantages over conventional inverters. 1.Small amounts of shading, debris or snow lines on any one solar module, or even a complete module failure, do not disproportionately reduce the output of the entire array. 2.Each microinverter harvests optimum power by performing maximum power point tracking for its connected module. 3.Simplicity in system design, lower amperage wires, simplified stock management, and added safety are other factors introduced with the microinverter solution. |
Our company
| Model | BDM-600 |
RFQ
| Model | BDM-600 |
| Model | BDM-600 |
| Model | BDM-600 |
| Model | BDM-600 |
| Model | BDM-600 |
| Model | BDM-600 |
| Model | BDM-600 |
| Model | BDM-600 |
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