Product details of the graphene battery ev
Quick Detail
Any materials used in the production of graphene battery ev is 100% safe. Its unnecessary features are reduced to make it more professional. Its future market has long-term development potential.
Product Information
Compared with its peer products, graphene battery ev produced by has the following advantages.
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|
Parameter |
GT-EST06KH |
GT-EST08KH |
GT-EST10KH |
|
|
Efficiency |
Max Efficiency |
>98 2% |
>98 2% |
>98 2% |
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|
PV Input
|
Max. PV input power(W) |
7800 |
10400 |
13000 |
|
|
Max. PV input voltage(V) |
1000 |
1000 |
1000 |
||
|
MPPT Operation Voltage Range (V) |
180-950 |
180-950 |
180-950 |
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Number of MPPT/PV Strings |
2/1 |
2/1 |
2/1 |
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Max. PV input current(A) |
15/15 |
15/15 |
15/15 |
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|
Short- circuit current of PV input( A) |
18/18 |
18/18 |
18/18 |
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|
Battery
|
Max Input/Output Voltage(V) |
550 |
550 |
550 |
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|
Operating Voltage Range(V) |
180-550 |
180-550 |
180-550 |
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|
Max Charge/Discharge Current(A) |
25/30 |
25/30 |
25/30 |
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|
Max Input/Output Power(W) |
6000/6000 |
8000/8000 |
10000/10000 |
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Battery Type |
Li-ion/Lead-acid |
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AC Input and Output
|
Rated Power(W) |
6000 |
8000 |
10000 |
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|
Max. Apparent AC Power(VA) |
6000 |
8000 |
10000 |
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|
Nominal AC Voltage(Vac) |
380,3L/N/PE |
380,3L/N/PE |
380,3L/N/PE |
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AC Power Frequency ( Hz) |
50/60 |
50/60 |
50/60 |
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Max. AC Output Current(A) |
10 |
12 |
15 |
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Power Factor Range |
~1 (Adjusta |
ble from 0.8 leading |
to 0.8 lagging) |
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|
OutputTHDi(@Nominal Output) |
<3% |
<3% |
<3% |
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Genaral Data |
Operating Temperature |
-25C …+60C(>45C derating) |
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Range Topology |
Transformerless |
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Cooling Method |
Natural convection |
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Ingress Protection Rating |
IP65 |
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Relative Humidity |
0-100%, no condensation |
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DC Connection Type |
MC/ Amphenol/ Phoenix |
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AC Connection Type |
Plug-in Connector |
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Display |
LCD |
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Communication With Portal |
RS485 (WiFi/GPRS Optinal) |
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Communication With BMS |
CAN |
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Communication With Meter |
RS485 |
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Certification |
Safety |
IEC62109-1/-2 |
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|
EMC |
EN61000-6-1/-2/-3,IEC61000 |
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On- Grid standard |
AS4777.2:2020 ,NRS097-2-1:2017 ,PN-EN50549-1:2019,VDE-AR-N 4105:2018,EN50549-1:2019+AC:2019-4 |
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|
Part Number |
GTEM-400V14.4K-W |
GTEF-345V10K-W |
|
Energy storage |
14.4kWh |
10.3kWh |
|
Nominal Voltage |
400V/DC |
345.6V/DC |
|
Maximum Charge Voltage |
453V/DC |
390V/DC |
|
Discharge Cut-off Voltage |
292V/DC |
300V/DC |
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ESR/AC @1KHz 50% SOC |
<150mΩ 50A |
<100mΩ 15A |
|
Max. Continuous Charge Current |
50A |
15A |
|
Max. Continuous Discharge Current |
50A |
30A |
|
Round Trip Efficiency |
96% |
97.7% |
|
Charge Temperature |
0 C~ + 5 5 C |
0 C~ + 4 5 C |
|
Discharge Temperature |
-20C~+60C |
-30C~+60C |
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Self- discharge Rate |
2% per month |
2% per month |
|
Recommended Depth of Discharge |
≤90% |
≤90% |
|
Maximum Depth of Discharge |
100% |
100% |
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Cooling Method |
Natural |
Natural |
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Mounting Options |
Wall/floor |
Wall/floor |
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Shell Material |
Metal & ABS plastic |
Metal & ABS plastic |
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Communication |
CANbus |
CAN,RS485 |
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Monitoring Data |
System voltage,current,temperature,SOC,SOH,cycle,cell’s voltage |
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|
Compliance Information |
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|
|
Certificate Options |
IEC62619:2017,IEC62040, EN 62133:2013, EN 55032:2015+AC:2016, EN 55035:2017,EN 61000-3-2:2014, EN 61000-3-3:2013, RoHS, UN38.3, MSDS |
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|
Module type |
|
|
YLxxxDF54e/2(xxx=Pmax) |
|||||
|
Power output |
Pmax |
W |
390 |
395 |
400 |
405 |
410 |
415 |
|
Power output tolerances |
△Pmax |
W |
0/+5 | |||||
|
Module efficiency |
ηm |
% |
19.97 |
20.23 |
20.48 |
20.74 |
21.00 |
21.25 |
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Voltage at Pmax |
Vmpp |
V |
30.27 | 30.42 | 30.56 | 30.71 | 30.86 | 31.00 |
|
Current at Pmax |
Impp |
A |
12.89 | 12.99 | 13.09 | 13.19 | 13.29 | 13.39 |
|
Open-circuit voltage |
Vac |
V |
36.80 |
36.90 |
37.00 |
37.10 |
37.20 |
37.30 |
|
Short-circuit voltage |
Isc |
A |
13.68 |
13.77 |
13.86 |
13.95 |
14.04 |
14.13 |
*STC:1000W.m-2 irradiance,25℃ cell temperature,AM 1.5 spectrum according to EN 608904-3
|
Power output |
ηm |
% |
296.85 |
300.63 |
304.34 |
308.17 |
312.03 |
315.80 |
|
Voltage at Pmax |
Vmpp |
V |
28.87 |
29.01 |
29.01 |
29.14 |
29.43 |
29.56 |
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Current at Pmax |
Impp |
A |
10.28 |
10.36 |
10.44 |
10.52 |
10.60 |
10.68 |
|
Open- circuit voltage |
Voc |
V |
34.98 |
35.08 |
35.17 |
35.27 |
35.36 |
35.46 |
|
Short- circuit voltage |
Isc |
A |
11.02 |
11.09 |
11.17 |
11.24 |
11.31 |
11.38 |
*NOCT:open-circuit module operation temperature at 800W.m-2 irradiance,20℃ ambient temperature,1m*s-1 wind speed.
|
Power output |
Pmax |
% |
426.86 |
432.33 |
437.80 |
443.27 |
448.75 |
454.22 |
|
Voltage at Pmax |
Vmpp |
V |
30.27 |
30.42 |
30.56 |
30.71 |
30.86 |
31.00 |
|
Current at Pmax |
Impp |
A |
14.10 |
14.21 |
14.33 |
14.43 |
14.54 |
14.65 |
|
Open- circuit voltage |
Voc |
V |
36.80 |
36.90 |
37.00 |
37.10 |
37.20 |
37.30 |
|
Short- circuit voltage |
Isc |
A |
14.97 |
15.07 |
15.17 |
15.27 |
15.37 |
15.47 |
*Bifaciality coefficient is 70% ±5%,rear irradiance is 135W.m-2
|
Nominal operating cell temperature |
NOCT |
C |
39±2 |
|
Temperature coefficient of Pmax |
γ |
% / C |
-0.35 |
|
Temperature coefficient of Voc |
β |
% / C |
-0.28 0.05 |
*Bifaciality coefficient is 70% ±5%,rear irradiance is 135W.m-2
Compatible Protocol: CAN, RS485
Company Introduction
Lying in is a company that integrates product development, packaging and sales. The main products are With the rapid development of the economy, customer service management no longer merely belongs to the core of service-oriented enterprises. It becomes the key point for all enterprises to be more competitive. In order to follow the trend of the times, runs an outstanding customer service management system by learning advanced service idea and know-how. We promote customers from satisfaction to loyalty by insisting on providing quality services. We have high production efficiency, and we look forward to the cooperation with you.
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