• 1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1 System 1
  • 1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1 System 2
  • 1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1 System 3
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  • 1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1 System 5
1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1

1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1

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Loading Port:
Guangzhou
Payment Terms:
TT OR LC
Min Order Qty:
30 unit
Supply Capability:
300000 unit/month

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ModelRT-1KSRT-1KLRT-2KSRT-2KLRT-3KSRT-3KL
Rated power1KVA2KVA3KVA
DisplayLED or LCD, depends on user's choice
INPUT
Voltage110V:80~138VAC/220V:115~300VAC
Frequency110V:46~54Hz or 56~64Hz/220V:40~60Hz/Adjustable by software
OUTPUT
Voltage110V:110±2%VAC/220V:220±2%VAC
Frequency110V:46~64Hz/220V:46~54Hz/Same as AC(AC mode)
110V: 50 or 60±0.2Hz/220V:50±0.2Hz(Batt. mode)
Wave formSine wave
BATTERY
QTY. & capacity of battery12V/7.5AH*3pcs—————2V/7.5AH*8pcs—————12V/7.5AH*8pcs—————
Nominal DC input voltage—————36VDC—————96VDC—————96VDC
Transfer time0 ms
Overload capability110%~150% for 30% seconds then transfer to bypass output, 150% above for 300 milliseconds.
ENVIRONMENT
Environment of performanceTemperature 0℃~40℃, Humidity 20%~90%
PHYSITAL
(kg) / Net weight (kg)110V:19   220V:16.3110V:11.8 220V:9.138.1kg(10.3kg for US+27.8kg for battery pack)110V:14.2 220V:11.539kg(11.2kg for US+27.8kg for battery pack)110V:15 220V:12.3
(mm) / Unit dimention (mm)441*445*88441*445*88(*2 sets, there into 1 set for battery pack)441*445*88441*445*88(*2 sets, there into 1 set for battery pack)441*445*88
MANAGEMENT
Interface110V:USB+RS232 220V:RJ45/11+RS232, Intelling slot selectable.

 

 

1. Wide range of input voltage

The UPS can offer normal and stable service voltage under its input voltage range. When the input voltage is out of its range the machine will switch to battery mode automatically to keep the output power in order to protect the equipment, such as computers, ensure they will not be damaged by the over high or over low voltage, users can continue the operation of equipment for a while or save the data on computers while the power network is abnormal.

 

2. Wide range of AVR(Automatic voltage regulation)

In the product’s input voltage range and under 3 steps of intelligent AVR function, it can provide a stable output voltage.

 

3. Automatic self detection when UPS on(LED).

Before the UPS on, red, yellow, blue LED will light up two times by cycle turns, after self detection UPS switch to AC mode/battery mode or working mode. 

 

4. Silence function

In the "battery mode", shortly press the switch to turn off the buzzer. But the battery is about to run out or the load is too heavy, the buzzer sound cannot be muted.

 

5. Overload protection

In the battery mode, output voltage turn down correspondingly when it is overload, after the capacity of load is lower than the rated power then output voltage will back to rated value, it ensures the UPS will not shut down by abrupt overload which caused by surging current during the computer is working and other equipment is added.

 

6. Short circuit protection

When the mis-operation caused the load short circuit or computer failure (such as power tube breakdown of switch) cause short circuit, the UPS will shutdown automatically for protection.

 

7. The low current switch

This UPS adopts low current switch to extend the service life which is longer than conventional battery and high current switch in AC current path.

 

8. Automatic charging

There are two charging mode, charging time is faster than ordinary charging mode, higher efficiency, and greatly prolonging the service life of the battery.

 

9. With a bypass output

Independent bypass output socket for external printers or scanners of computer peripherals, with surge protection of the load.

 

1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1

1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1

1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1

1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1

1KVA Rack / Tower Puresine Wave Online Extensible G-sensor LCD UPS 1

FAQ

1.    Where can I buy your products?

You could find our products from dealers or contact our sales team directly. We will provide you with detailed services.

2.    How to contact us?

Contact details can be found from website www.okorder.com to contact us. We look forward to providing you with professional services.

3.    What is the application field of your products?

Our current GW1500~4600-SS series and GW3000~4600-DS, with the flexible expansion ability and allocation capability, can be used in the small photovoltaic (PV) grid power generation systems of family units as well as the commercial photovoltaic system such as BIPV, BAPV and etc.

4.    What kinds of modules do your inventers support?

Our inventers support most of mainstream components and modules in the market. Should you require more details, please do not hesitate to contact our technical personnel.

Q:How do you calculate the power output of a solar inverter?
To calculate the power output of a solar inverter, you need to multiply the input voltage by the input current. This will give you the input power. Then, multiply the efficiency of the inverter by the input power to get the output power.
Q:Can a solar inverter be repaired or replaced if it malfunctions?
Yes, a solar inverter can be repaired or replaced if it malfunctions. In many cases, minor issues can be fixed through repairs, such as replacing faulty components or updating firmware. However, if the inverter is extensively damaged or beyond repair, it may need to be replaced with a new one. Ultimately, the course of action will depend on the severity of the malfunction and the expertise of the technician assessing the situation.
Q:What is the maximum AC output power of a solar inverter?
The maximum AC output power of a solar inverter can vary depending on the specific model and size. Generally, residential solar inverters have a maximum AC output power ranging from 1 kilowatt (kW) to 10 kW, while commercial and utility-scale inverters can have much higher maximum AC output power, reaching up to several megawatts (MW).
Q:Can a solar inverter be used in standalone power systems?
Yes, a solar inverter can be used in standalone power systems. Standalone power systems, also known as off-grid systems, are not connected to the main electricity grid and rely on alternative energy sources like solar panels. A solar inverter converts the direct current (DC) generated by the solar panels into usable alternating current (AC) electricity, which can power various electrical devices in standalone power systems.
Q:How do you calculate the payback period for a solar inverter?
To calculate the payback period for a solar inverter, you need to determine the initial cost of the inverter and then calculate the annual savings or earnings generated by the inverter. Divide the initial cost by the annual savings to get the payback period, which is the time it takes to recoup the investment through savings or earnings.
Q:Are there any disadvantages of using a solar inverter?
Yes, there are some disadvantages of using a solar inverter. One disadvantage is the initial cost of purchasing and installing the inverter, which can be quite expensive. Additionally, solar inverters are dependent on sunlight, so if there is a lack of sunlight or during nighttime, the inverter may not be able to generate electricity. Another potential disadvantage is the need for regular maintenance and potential repairs, which can add to the overall cost of using a solar inverter. Finally, the efficiency of solar inverters can be affected by factors such as shading, dust, or dirt on the solar panels, which can decrease their overall performance.
Q:Are solar inverters compatible with different solar panel technologies?
Yes, solar inverters are generally compatible with different solar panel technologies. Most modern solar inverters are designed to work with a wide range of solar panel technologies, including monocrystalline, polycrystalline, and thin-film panels. However, it is always recommended to check the specifications and compatibility of the specific inverter with the desired solar panel technology before making a purchase.
Q:How does a solar inverter handle electromagnetic interference (EMI)?
A solar inverter typically handles electromagnetic interference (EMI) by incorporating various measures and technologies to minimize its impact. This includes using shielding materials and techniques to prevent EMI from affecting the internal electronics of the inverter. Additionally, filters and surge suppressors are employed to reduce EMI generated by the inverter from interfering with other electronic devices. Overall, the solar inverter aims to mitigate EMI issues to ensure optimal performance and minimize disruptions.
Q:What is the role of an anti-islanding feature in a solar inverter?
The role of an anti-islanding feature in a solar inverter is to ensure the safety of utility workers and prevent damage to the electrical grid. It detects when there is a power outage or grid disturbance and immediately shuts off the solar inverter to prevent it from continuing to generate electricity. This feature is crucial as it prevents the solar system from operating independently and feeding power back into the grid, which can be dangerous for utility workers trying to repair the power outage.
Q:Can a solar inverter be used with solar-powered remote sensing systems?
Yes, a solar inverter can be used with solar-powered remote sensing systems. A solar inverter is responsible for converting the direct current (DC) generated by solar panels into alternating current (AC) that can be used to power various devices and systems. In the case of solar-powered remote sensing systems, the solar inverter would be an essential component in converting the DC power from the solar panels into the required AC power to operate the remote sensing equipment.

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