5kW Output Power Factor 0.9-1.0 Solar Power System Built-in MPPT
Solar Controller
Low Frequency Pure Sine Wave Solar Inverter with MPPT Solar Charge
Controller SPS3115C 1-6kW,
Low Frequency Solar Power Inverter, AC/Solar output priority,
PF=0.9/1, support generator, LCD display. Widely used to supply the
reliable long back up time power for the home appliances and office
appliances Solar power systems etc.
Key Features:
1. Built-in transformer.
2. Compatible to AC or generator power.
3. Over temperature protection.
4. Protection degree IP55.
5. 60A MPPT Solar Charge Controller.
Product Descriptions Of SPS3115C 1-6kW Solar Power Inverter
| MODEL | SPS3115C 1-6KW |
| 1KW | 1.5KW | 2KW | 3KW | 4KW | 5KW | 6KW |
| Input Wave form | Sine wave (utility or generator) |
| Nominal Voltage | 120VAC(option) 230VAC |
| Low voltage trip | 90v ±4% & 184v/154v ±4% |
| Low voltage reengage | 100v ±4% & 194v/164v±4% |
| High voltage trip | 140v ±4% & 253v ±4% |
| High voltage reengage | 135v ±4% & 243v ±4% |
| Nominal input frequency | 50Hz/ 60Hz (auto detection) |
| Frequency range | 47Hz ~ 65Hz |
| Output Wave form | (Bypass mode)same as input |
| Over-Load Protection | Circuit breaker |
| Short circuit Protection | Circuit breaker |
| Efficiency on line transfer mode | >95% |
| Line transfer time | 10ms Typical |
| Bypass without battery connected | Yes |
| Inverter output |
| Output wave form | Pure sine wave |
| Output continuos power watts | 1000 | 1500 | 2000 | 3000 | 4000 | 5000 | 6000 |
| Output continuos power VA | 3000 | 4500 | 6000 | 9000 | 12000 | 15000 | 18000 |
| Power factor | 0.9-1.0 |
| Nominal Output Voltage rms | 120VAC(option) 230VAC |
| Output Voltage regulation | +/- 10%rms |
| Output frequency | 50Hz ± 0.3Hz or 60Hz ± 0.3Hz |
| Short circuit protection | Yes,fault after 1 secs |
| Inverter input |
| Nominal input voltage | 24V/48V |
| Minimum start voltage | 20V/40V |
| Low battery alarm | 21V/42V |
| Low battery trip | 20V/40V |
| High voltage alarm | 32V/64V |
| Charger |
| Output voltage | Dependent on battery type |
| Charge current | 10-85A MAX |
| Battery initial voltage for start up | 0-15.7v for 12v(*2 for 24v;*4 for 48v) |
| Over charge protection | 15.7v for 12v(*2 for 24v;*4 for 48v) |
| Solar Charger |
| MPPT Range @ Operating Voltage | 30-115VDC/60-115VDC |
| Maximum PV Array Open Circuit Voltage | 145VDC |
| Maximum Charging Current | 60A |
| Macimum Effciency | >96% |
| Standby Power Comsumption | 2W |
SOROTEC All the Inverter Series :
 |  |  |
| Modified Sine Wave Inverter with charge | Pure Sine Wave Inverter for Solar System | Sine Wave Inverter with ISO transformer |
 |  |  |
| High Frequency Inverter with charger and AC power | SCC mppt solar charge controller | REVO Series Hybrid solar inverter
|
1. How to choose suitable inverter?
If your load is resistive loads, such as: bulbs, you can choose a
modified wave inverter. But if it is inductive loads and capacitive
loads, we recommend using pure sine wave power inverter.
For example: fans, precision instruments, air conditioner, fridge,
coffee machine, computer, and so on.
Modified wave can be started with some inductive loads, but effect
for load using life,because capacitive loads and inductive loads
need high quality power
.......................................................................................................................................................................
2. How do I choose the size of the inverter?
Different types of load demand for power are different. You can
view the load power values to determine the
size of the power inverter.
Notice:
Resistive load: you can choose the same power as the load.
Capacitive loads: according to the load, you can choose 2-5 times
power.
Inductive loads: according to the load, you can choose 4-7 times
power.
.......................................................................................................................................................................
3. How connection between batteries and an power inverter?
We usually believe that cables connecting battery terminal to
inverter shorter is better. If you are just standard cable should
be less than 0.5M, but should correspond to the polarity of the
batteries and inverter-side outside. If you want to lengthen the
distance between battery and inverter, please contact us and we
will calculate the recommended cable size and length. Due to long
distances using a cable connection, there will be a reduced
voltage, which means that the inverter voltage would be far below
the battery terminal voltage, this inverter will appear under
voltage alarm conditions
.......................................................................................................................................................................
4. How to calculate the load of working hours requires
configuration of the battery size?
We will usually have a formula to calculate, but it is not hundred
percent accurate, because there is also the battery's condition,
the old batteries have some loss,so this is only a reference value:
Work hours = battery capacity * battery voltage * 0.8/load power
(H= AH*V*0.8/W)
.......................................................................................................................................................................
