HIS - SNOWINER

How is the payment?

Generally, we require a 30% deposit, and the remaining 70% is paid before shipment.

How long is your delivery time?

If it is a regular quantity, it is usually delivered within 30 days. If the quantity is large, we can discuss it in detail.

Can you provide warranty service? How long is the warranty period?

Yes, we provide 6 months warranty

Can you provide OEM or ODM services?

Yes, we have a dedicated product development team and we can work together to develop.

What are the advantages of high inverter stabilizers over relay stabilizers?

1.Immediate response to network fluctuations, avoiding 5-10ms delay;

2.Continuous voltage regulation vs. discrete (step) regulation;

3.High output signal stability accuracy (±2%), error 5-10%;

4.Pure sine wave output vs. harmonic-free output.

Does the voltage stabilizer need protection for long-term operation?

The high inverter stabilizer does not need any additional device installed in front of it because it has a full set of protection functions:

Short circuit;

Network fault (input voltage is lower than 90V or higher than 310V);

Long-term output overload;

Internal overheating;

Internal fault during operation;

High-frequency interference;

Pulse overvoltage

Where can I install the high-frequency inverter stabilizer?

The high inverter stabilizer needs to be installed in a place without direct sunlight and danger of flooding. The device should be placed so air can circulate freely around and inside the enclosure.

1.It is prohibited to install and operate the stabilizer in the following cases:

2.In rooms with explosive or chemically active atmospheres;

3.In open (outdoor) areas under conditions of high humidity, vibrations, dust, body exposure to dripping or splashing;

4.Where it is not possible to provide sufficient air exchange for natural or forced (depending on the model) cooling of the heating parts of the stabilizer;

5.On soft , velvety surfaces and within 1 meter of the heating system.

How much worse is the non-sine output voltage waveform of the regulator than the sine output voltage waveform?

Non-sine output voltage waveforms hurt most electrical appliances. The following may be the cause:

Operational errors in electrical devices with microprocessors (e.g., heating boilers or washing machines);
Improper functioning of electric motors, manifested by uneven shaft rotation or vibrations and overheating (e.g., water supply pumps, refrigerators or air conditioners).

High inverter stabilizers can be installed to protect electrical equipment from non-sine voltages. These devices can continuously supply a high-quality signal with an ideal pure sine wave to the load, regardless of the signal's shape at the input.

What is the working principle of high inverter stabilizer?

High inverter stabilizers use transformerless dual energy conversion technology. A rectifier and an inverter do voltage correction in these devices. You can learn more about the working principle of high inverter stabilizers in the article What’s the difference between high inverter stabilizers?

How to choose a suitable stabilized power supply?

When connecting household appliances, the output power of the stabilizer must be greater than their total maximum power consumption and leave a margin of 20-30%. The starting current should be considered to determine the maximum possible power consumption of the load. Otherwise there is a risk of overloading the stabilizer at startup.

What is the response speed of the high-frequency inverter regulator?

0 milliseconds. This technical parameter does not apply to high inverter stabilizers because the dual energy conversion is carried out continuously without delay, even under sharp voltage surges. This operation is achieved by the continuous charge accumulation in the built-in capacitor (energy storage device). You can learn more about the working principle of the double conversion inverter voltage stabilizer in the article What’s the difference between high inverter stabilizers?