Product Manual: Volt Polska SinusPRO E Series
Pure Sine Wave Electronic Inverters with UPS
Introduction
Thank you for purchasing a UPS from the sinusPRO E series. Please read this user manual before starting the device.
Inverter Characteristics
- One device with a built-in DC/AC converter, an uninterruptible power supply unit, and an automatic battery charger.
- Toroidal transformer used in the converter ensures high efficiency and low idling current, making the device more energy-efficient than older constructions using E-type transformers.
- Fast 32-bit microprocessor ensures accurate and trouble-free operation.
- Intuitive and simple operation with a color LED display that informs about the current operating status (input and output voltage, battery capacity, charging, etc.).
- The converter generates a pure sinusoidal voltage at the output, allowing it to work with practically any type of load.
- High battery charging current (exact values in the table with technical specifications).
- Fast switching from mains supply to operating mode as a UPS enables uninterrupted operation of connected devices.
- Intelligent control of the cooling fan, depending on the actual temperature of the device and its operating status.
- Built-in AVR (Automatic Voltage Regulation).
- Adapted to work with AGM or GEL batteries.
First Time Start-Up
Starting Up the Inverter
- Open the carton and check if the device is undamaged. Disconnect the mains cable from the device.
- Connect the battery properly to the device according to the correct polarity (red wire +, black wire -).
- Connect the plug to the mains socket.
- Start the device with the ON/OFF button (hold down for 3 seconds until you hear a beep).
- Change the mains charger switch to the "I" or "ON" position to start charging the battery (AC/battery charging).
- Connect all devices that you want to use and turn them on one by one after connecting.
Switching Off the Inverter
- Turn off one by one all the devices connected to the inverter.
- Change the charger switch to the "0" position to stop the battery charging process.
- Hold down the ON/OFF button for 3 seconds to disconnect the inverter output.
- Disconnect the mains plug from the network.
- Disconnect the battery from the inverter.
Information on connecting CO gas stoves to the power supply
When connecting the power plug to the stove, first connect it to a socket with a grounding pin. If the magneto in the furnace does not work (ionization current error), switch the plug to the socket without the grounding pin (turning it 180 degrees from the previous connection).
Attention
- Be careful when connecting the battery; voltage generated with reverse polarity can damage the inverter.
- Do not overload the device above its nominal power. When connecting refrigerators, freezers, and other inductive appliances that consume more power on start-up, remember not to exceed 30% of the total power rating of the UPS.
- Do not connect the device outdoors; avoid contact with water.
- Remember to install the power supply in the right place, with access to fresh air and a minimum distance of 30 cm from each side of the housing.
- If you notice incorrect operation or damage to the inverter, contact the manufacturer's service department.
- To test the device, do not unplug the inverter from the mains. Instead, turn off the mains RCD switch in the building to observe the proper work of the device. By unplugging the inverter from the mains, the neutral "zero" is cut off from the inverter, which can cause incorrect operation.
Operation of the Device
| Name | Picture | Description |
|---|---|---|
| Output switch | [button] |
Pressing and holding the switch for more than 3 seconds will change the state of the inverter to ON or OFF. |
| AC input cord or terminal | [plug icon] |
Connecting the plug to an electrical outlet allows the battery to be charged and to power the output devices through the built-in voltage regulator. |
| Mains switch | [switch icon] |
If the device is connected to the mains supply and the switch is in the "I" position, the battery will be charged and the output devices will be supplied from the mains. Switching to the "0" position will start the inverter and supply the output devices from the battery. |
| Output socket or terminal | [socket icon] |
Connect output devices to the terminal or terminal strip. The maximum power of a single socket is 2000 W. If the power of the output devices is higher, please connect them to the terminal block. |
| Ventilation fan | [fan icon] |
The cooling fan starts when the UPS inverter is running or when the battery is being charged - when the transistors' temperature exceeds 45°C. |
| Battery input | [battery terminals] |
The red terminal should be connected to the positive pole of the battery (+), and black to negative (-). Reversing the cables will prevent proper operation of the device. |
LCD Display Elements
| Indicator | Description |
|---|---|
NORMAL WORKING BATTERY MODE OVERHEAT UNUSUAL INPUT VI VOLTAGE OVER LOAD BATTERY CAPACITY OUTPUT V |
Normal operation mode, devices powered directly from the 230V BYPASS network. No mains voltage; output devices powered from a connected battery. Overheating of the inverter; emergency output devices are disconnected. Incorrect battery voltage, short-circuit, or overheating of MOSFET transformers. Inverter overload, too high power output from connected devices. Inverter load level. Battery charge level; this indicator will flash during charging. Input voltage value. Output voltage value and frequency. |
NORMAL WORKING OVER LOAD BATTERY MODE to OVERHEAT BATTERY CAPACITY INPUT UNUSUAL VI VOLTAGE OUTPUT V UNDER VOLTAGE |
Normal operation mode, devices powered directly from the 230 V BYPASS network. Inverter overload, too high power output devices. No mains voltage, output devices powered from a connected battery. Overheating of the inverter, emergency output devices are disconnected. Incorrect battery voltage, short-circuit or overheating of MOSFET transformers. Mains voltage is too high. Mains voltage is too low. |
Technical Parameters
| MODEL | Max power | Max constant power | Idle current (battery mode) | Input Voltage | Input Frequency | AVR stabilizer | Output Voltage | Output Frequency | Voltage type | Distortions | Switching time AC / BATTERY | Battery voltage | Max charge current | Dimensions (LxWxH) | Weight |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 500 E | 500VA | 300W | < 1A | 170~270VAC | 45~65Hz | In AC mode, if the voltage supplied from the 230VAC AC mode to the power supply is in the range of 245-270VAC or 170-216VAC, the power supply will activate the built-in AVR mains voltage stabilizer. | 230VAC ± 1% in battery mode: 216-245VAC in AC mode with AVR | 50 Hz ± 0.5 Hz | PURE SINE WAVE | < 3% THD | ≤ 4ms | 12VDC | 10A | 146x237x170mm | 3,9kg |
| 800 E | 800VA | 500W | < 1A | 170~270VAC | 45~65Hz | In AC mode, if the voltage supplied from the 230VAC AC mode to the power supply is in the range of 245-270VAC or 170-216VAC, the power supply will activate the built-in AVR mains voltage stabilizer. | 230VAC ± 1% in battery mode: 216-245VAC in AC mode with AVR | 50 Hz ± 0.5 Hz | PURE SINE WAVE | < 3% THD | ≤ 4ms | 12VDC | 10A | 146x338x170mm | 4,6kg |
| 1000 E | 1000VA | 700W | < 1A | 170~270VAC | 45~65Hz | In AC mode, if the voltage supplied from the 230VAC AC mode to the power supply is in the range of 245-270VAC or 170-216VAC, the power supply will activate the built-in AVR mains voltage stabilizer. | 230VAC ± 1% in battery mode: 216-245VAC in AC mode with AVR | 50 Hz ± 0.5 Hz | PURE SINE WAVE | < 3% THD | ≤ 4ms | 12VDC | 10A | 220x335x230mm | 6,4kg |
| 1500 E | 1500VA | 1050W | < 1A | 170~270VAC | 45~65Hz | In AC mode, if the voltage supplied from the 230VAC AC mode to the power supply is in the range of 245-270VAC or 170-216VAC, the power supply will activate the built-in AVR mains voltage stabilizer. | 230VAC ± 1% in battery mode: 216-245VAC in AC mode with AVR | 50 Hz ± 0.5 Hz | PURE SINE WAVE | < 3% THD | ≤ 4ms | 12VDC | 20A | 220x425x230mm | 11,2kg |
| 2000 E | 2000VA | 1250W | < 1A | 170~270VAC | 45~65Hz | In AC mode, if the voltage supplied from the 230VAC AC mode to the power supply is in the range of 245-270VAC or 170-216VAC, the power supply will activate the built-in AVR mains voltage stabilizer. | 230VAC ± 1% in battery mode: 216-245VAC in AC mode with AVR | 50 Hz ± 0.5 Hz | PURE SINE WAVE | < 3% THD | ≤ 4ms | 12VDC | 20A | 220x335x230mm | 12,5kg |
| 2200 E | 2200VA | 1600W | < 1A | 170~270VAC | 45~65Hz | In AC mode, if the voltage supplied from the 230VAC AC mode to the power supply is in the range of 245-270VAC or 170-216VAC, the power supply will activate the built-in AVR mains voltage stabilizer. | 230VAC ± 1% in battery mode: 216-245VAC in AC mode with AVR | 50 Hz ± 0.5 Hz | PURE SINE WAVE | < 3% THD | ≤ 4ms | 48VDC | 10A | 220x425x230mm | 14,5kg |
| 3000 E | 3000VA | 2100W | < 1A | 170~270VAC | 45~65Hz | In AC mode, if the voltage supplied from the 230VAC AC mode to the power supply is in the range of 245-270VAC or 170-216VAC, the power supply will activate the built-in AVR mains voltage stabilizer. | 230VAC ± 1% in battery mode: 216-245VAC in AC mode with AVR | 50 Hz ± 0.5 Hz | PURE SINE WAVE | < 3% THD | ≤ 4ms | 48VDC | 10A | 220x335x230mm | 15,7kg |
Warranty Service Comments
Date of Purchase:
Shipping Address:
Signature / Stamp:
Damage Description:
Service Comments:
Fill in if needed:
- (*) Cross incorrect
- I agree to pay the cost of inverter repair due to: expiration of the warranty period / warranty void.
Before proceeding with the repair, service will inform by phone about the exact costs of the repair.
Please attach a copy of the purchase document (receipt or invoice) to the complaint.
The full regulations of service repairs can be found on our website: www.voltpolska.pl
[CE marking]
Contact: sales@voltpolska.pl (58) 341-05-06 | przemek@voltpolska.pl (58) 341-38-80 | bartek@voltpolska.pl (22) 100-42-99
Zasilanie awaryjne, akumulatory, przetwornice | VOLT Polska
