Description
Backup power supply for AVANS 500 W circulators, cables included.
Specifications:
Maximum capacity: 800 VA
Maximum rated power: 500W
Main input power supply: 150 - 270 VCA
Input frequency: 45 - 65 Hz
Output power: 207 - 241 VCA
Input frequency: 50 - 60 Hz
Switching time: <4ms
Required voltage of the connected battery: 12V DC (battery is not part of the mains supply)
Maximum capacity of the connected battery: 120 Ah (battery not included)
Overload protection: 110% 130% (30 seconds)
Standby power consumption: 22W
Dimensions (H / W / D): 18.5x14.5x34 cm
The backup power supply is suitable for appliances with a maximum power of 250 W in total
This product belongs to a group of professional automatic uninterruptible power supplies (UPS) specially designed and manufactured for the continuous supply of solid fuel boilers in the event of a mains power failure. In the event of a power failure, the uninterruptible power supply (UPS) will provide immediate battery power so that the circulators will stay running and the boiler will cool down safely.
This backup power supply can be used to run other electrical appliances that require stability and stable power parameters. This product should not be used as a converter.
The main feature of this device is the input power curve when running on battery. The curve is a pure sinusoid, identical to the main source of electricity in your house. When the main power from your home is turned on, the backup power supply will charge the battery and ensure long battery life. The uninterruptible power supply (UPS) only works with an external 12V battery (for the 1050 W model with a 24V battery). Only a lead-acid battery type should be used, as the backup power supply is designed to charge this type of battery.
ATTENTION! Be careful when handling the battery. When connecting the backup power supply, assemble metal objects (eg bracelets, chains, watches, rings ... etc.). Due to the fact that there may be a short circuit of electric current and subsequent distribution of metallic materials on the consumer's body. Observe the polarity when connecting the battery: the red (+ positive) cable will be connected to the + terminal and the black (-negative) cable will be connected to the - terminal. Metal connectors are used to connect the cable to the battery terminals. It is recommended to clean the battery contacts with a brush before connecting. Tighten the connector with a wrench to ensure a firm contact.
Install the uninterruptible power supply (UPS) in a dry place, away from moisture, away from water or snow. The installation location of the uninterruptible power supply (UPS) must be large enough not to obstruct the cooling system of the uninterruptible power supply. Furthermore, this place should be free of dust or coal dust that could block the backup power supply fan. It should be well ventilated at the installation site to prevent the system from overheating. To prevent electric shock, make sure that all cables are in good condition and free of uninsulated parts. Uninterruptible power supply (UPS) operation can cause sparks. The backup power supply should not be installed in flammable environments.
ATTENTION! An uninterruptible power supply (UPS) only works when it is connected to an external battery. It should not be used without a battery connected. After connecting the battery, connect the mains cable to a mains socket (230V, 50 Hz). Connect the device on the back of the power supply that you want to operate in the event of a power outage. Follow these steps: connect the battery, connect the main power supply, and then connect the consumer (equipment) to the uninterruptible power supply (UPS). To turn on the power, press and hold the power (ON / OFF) button for 4 seconds.
System operation begins with automatic detection of mains battery status. If the battery voltage drops below 10.8V, it is possible that the battery is damaged and cannot be started.
In the event of a power failure or if its parameters are not within the normal range, the uninterruptible power supply (UPS) will automatically switch to the battery. Switching the backup power supply to the battery appears on the backup power supply (UPS) display. The device (UPS) also announces the switching of the backup power supply (UPS) to the battery by an audible signal.
When the battery voltage drops below the minimum value (the battery is discharged), the uninterruptible power supply (UPS) increases the frequency of the warning sound and disconnects the power supply.
If the equipment connected to the uninterruptible power supply (UPS) exceeds the maximum power by 110%, the uninterruptible power supply (UPS) will start to emit an intermittent acoustic signal and will automatically switch off. For induction equipment (eg water pumps and electric motors) it is recommended to use equipment up to 50% of the maximum power from the uninterruptible power supply (UPS), as induction equipment may need double the power value at start-up.
ATTENTION! Danger! Do not touch the battery terminals during operation.
To stop the uninterruptible power supply (UPS), hold down the ON / OFF button for 4 seconds. The backup source then beeps and stops. To prolong battery life, it is recommended that you run an empty and full battery at least once every 2 months. Perform this operation even if there were no outages within 2 months and the battery was still fully charged.
ATTENTION! This is only a safety device that is only used in the event of a power failure. Please do not leave it near fuel when using this device.
Main function:
The uninterruptible power supply (UPS) stops when the battery is low. If the battery is discharged to 10.8V, the backup power supply will disconnect the power supply to prevent damage to the battery. A quick audible alarm indicates: - Overload protection: If the load on the uninterruptible power supply (UPS) exceeds 110% of the rated power, the uninterruptible power supply (UPS) will stop to prevent damage.
Short-circuit protection: The uninterruptible power supply (UPS) stops in the event of a short-circuit. - The voltage regulator (AVR) ensures a constant voltage for the device in a given interval. Turning on the battery: the system switches to battery and provides uninterrupted power to the device. –Bypass function:
Automation: if there is a non-standard power supply in the network, the backup power supply automatically switches to the battery. - Job Start Conversion: In some cases, a higher starting power is required than the rated power of the uninterruptible power supply (UPS). In this case, the uninterruptible power supply (UPS) solves this problem by supplying 110% of its capacity. It shuts down when capacity is delivered.
High charging current: the initial charging current is about 10A. Charges the battery in less time than conventional chargers.
Keeping the battery in standby mode: When the battery is fully charged, the uninterruptible power supply (UPS) keeps the battery charged. For optimal results, the battery must have a capacity in the range of: 40 Ah -190 Ah. Do not use a battery with a capacity of less than 40Ah, as the initial charging current of the uninterruptible power supply (UPS) (up to 10A) may reduce the service life
For 100W consumption:
a backup power supply (UPS) with a 65 Ah battery will run for 3.5 hours.
a 120 Ah uninterruptible power supply (UPS) will operate for 6.5 hours.
a backup power supply (UPS) with a 150 Ah battery will operate for 8 hours.
For 200W consumption:
a backup power supply (UPS) with a 65 Ah battery will operate for 2 hours.
A 120 Ah backup power supply (UPS) will operate for 3 hours.
a backup power supply (UPS) with a 150 Ah battery will operate for 4 hours.
For 300W consumption:
a backup power supply (UPS) with a 65 Ah battery will run for 1.5 hours.
a 120 Ah uninterruptible power supply (UPS) will operate for 2.5 hours.
a backup power supply (UPS) with a 150 Ah battery will operate for 3 hours.
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