SVC-N Single-phase Wall-Mounted Voltage Stabilizer

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SVC-N Single-phase Wall-Mounted Voltage Stabilizer

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SVC-N Single-phase Wall-Mounted Voltage Stabilizer

The SVC-N automatic voltage stabilizer offers precise 220V output with ±3% accuracy, supporting a wide input range of 100–260V. This wall mounted single phase voltage regulator is ideal for protecting home appliances and electrical equipment. Equipped with digital display and multiple protections, it ensures stable, safe, and efficient power supply.

Product Details

General

SVC-N Voltage Stabilizer is a power supply circuit or equipment that can automatically adjust the output voltage.

Type designation

SVC-N-500VA

Model	New	Power
SVC	N	500VA
		500VA=500VA
Model		1000VA=1000VA
		1500VA=1500VA
	New	2000VA=2000VA
		3000VA=3000VA
		5000VA=5000VA
		8000VA=8000VA
		10000VA=10000VA

Operating conditions

1. Ambient temperature: -5°C~+40°C

2. Relative humidity: ≤20% at 40°C; ≤90% at 20°C

3. Altitude: ≤2000m

4. Environmental conditions: no harmful gases and vapors, no conductive or explosive dust,

no severe mechanical vibration

Technical date

Model	0.5kVA	1kVA	2kVA	3kVA	5kVA	7kVA	10kVA	15KVA	20kVA	30kVA
Input voltage	100V-260V
Frequency	50/60Hz
Output
Output voltage	220V
Output accuracy	±3%
Power factor	0.8
Efficiency	98%
Phase	Single-phase
Relative time	<1s(when external voltage changes by 10%)
Relative humidity	≤90%
Waveform distortion	No waveform distortion
Insulation resistance	>2M Ω
Digital display
Input voltage	Digital display shows the exact value
Output voltage	Digital display shows the exact value
Input current	Digital display shows the exact value(Digital display shows load percentage)
Abnormal display	Digital display can indicate overvoltage,undervoltage,overcurrent,and overheating.
Protection
Overload protection	The switch is automatically switched off.
AutomaticSwitch-off	Overvoltage protection
	Undervoltage protection
	Overcurrent protection
	Overheating Protection
	Power failure,interruption!
	Short circuit

Efficiency

If the input voltage is within the range of 100-260V the stabilizer can easily provide an output of 220 V ± 3%. The maximum output power is 100% when the input voltage is 200V. If the input voltage is below 200V, the maximum output power of the stabilizer changes according to the curve shown in the graph below. The power reserve of the stabilizer should be no less than 20-30% of the total connected load.

Model	Under Voltage-Over Voltage &Current(A)
	Input voltage	100V	110V	120V	130V	140V	150V	160V	170V	180V	190V	200-260V
	Load percentage	30%	35%	40%	45%	50%	55%	65%	75%	85%	90%	95%
SVC-N-0.5KVA(Input Current 2.3A)	Watt	150	175	200	225	250	275	325	375	425	450	475
SVC-N-0.5KVA(Input Current 2.3A)	Output Current(A)	0.65	0.75	0.9	1	1.1	1.25	1.45	1.7	1.9	2	2.15
SVC-N-1KVA(Input Current 4.5A)	Watt	300	350	400	450	500	550	650	750	850	900	950
SVC-N-1KVA(Input Current 4.5A)	Output Current(A)	1.3	1.5	1.8	2	2.2	2.5	2.9	3.4	3.8	4	4.3
SVC-N-1.5KVA(Input Current 6.8A)	Watt	450	525	600	675	750	825	975	1125	1275	1350	1425
SVC-N-1.5KVA(Input Current 6.8A)	Output Current(A)	1.95	2.25	2.7	3	3.3	3.75	4.35	5.1	5.7	6	6.45
SVC-N-2KVA(Input Current 9A)	Watt	600	700	800	900	1000	1100	1300	1500	1700	1800	1900
SVC-N-2KVA(Input Current 9A)	Output Current(A)	2.6	3	3.6	4	4.4	5	5.8	6.8	7.6	8	8.6
SVC-N-3KVA(Input Current 13.5A)	Watt	900	1050	1200	1350	1500	1650	1950	2250	2550	2700	2850
SVC-N-3KVA(Input Current 13.5A)	Output Current(A)	3.9	4.5	5.4	6	6.6	7.5	8.7	10.2	11.4	12	12.9
SVC-N-5KVA(Input Current 22.5A)	Watt	1500	1750	2000	2250	2500	2750	3250	3750	4250	4500	4750
SVC-N-5KVA(Input Current 22.5A)	Output Current(A)	6.5	7.5	9	10	11	12.5	14.5	17	19	20	21.5
SVC-N-8KVA(Input Current 36A)	Watt	2400	2800	3200	3600	4000	4400	5200	6000	6800	7200	7600
SVC-N-8KVA(Input Current 36A)	Output Current(A)	10.4	12	14.4	16	17.6	20	23.2	27.2	30.4	32	34.4
SVC-N-10KVA(Input Current 45A)	Watt	3000	3500	4000	4500	5000	5500	6500	7500	8500	9000	9500
SVC-N-10KVA(Input Current 45A)	Output Current(A)	13	15	18	20	22	25	29	34	38	40	43

Caution

• Avoid Overloading

Do not use the stabilizer beyond its maximum power capacity.

• When connecting to any device that operates with a compressor, the starting power (transient power) is usually several times higher than the power indicated by the device.

• Ensure that the total starting power of all connected devices does not exceed the specified maximum output power of the stabilizer.

• Ensure that the stabilizer’s output voltage and frequency match the connected device.

• Ensure that the power supply voltage is within the specified input voltage range of the stabilizer.

• Always place the stabilizer under the following conditions:

In a well-ventilated area.

Away from direct sunlight or heat sources.

Out of reach of children.

Away from water, moisture, oil, or grease.

Away from flammable substances.

Overall and mounting dimensions(mm)

Model and specification (VA)	Dimensions(mm)			Wall Mounted Installation(mm)
Model and specification (VA)	L	W	H	X(hole pitch)	ø
SVC-N-500	160	130	255	108	8.4
SVC-N-1000	190	150	275	108	8.4
SVC-N-1500	190	150	275	108	8.4
SVC-N-2000	220	175	315	135	8.4
SVC-N-3000	255	195	365	135	8.4
SVC-N-5000	255	195	365	135	8.4
SVC-N-8000	310	215	420	135	8.4
SVC-N-10000	310	215	420	135	8.4

AFD9-63 Arc Fault Detection Device（AFDD+Isolator） Overall and mounting dimensions

FAQ About Voltage Stabilizers

Below are the most SEO-friendly and high-intent FAQ topics for SVC-N Wall Mounted Voltage Stabilizer pages. These questions focus on what users most often search before choosing, using, or installing a voltage stabilizer.

What is a voltage stabilizer and how does it work?

A voltage stabilizer is a device that automatically regulates unstable input voltage and provides a steady output voltage for connected equipment. It detects voltage fluctuations and adjusts the output accordingly, helping protect electrical devices from overvoltage and undervoltage problems.

Do I need a voltage stabilizer for home appliances?

Yes, a voltage stabilizer is useful for home appliances in areas where voltage fluctuates frequently. It helps protect sensitive equipment such as refrigerators, televisions, air conditioners, computers, and other household devices from unstable power supply.

What size voltage stabilizer do I need?

The correct stabilizer size depends on the total power of the connected load. In general, it is recommended to choose a stabilizer with a capacity 20% to 30% higher than the total connected load to ensure stable and safe operation. This is also recommended in the SVC-N product data. :contentReference[oaicite:0]{index=0}

What is the difference between a voltage stabilizer and a voltage regulator?

The two terms are often used in similar ways. In practical applications, both are designed to maintain stable output voltage. Voltage stabilizer is the more common term for products used to handle wider voltage fluctuations and protect appliances or electrical equipment.

Can a voltage stabilizer protect against high and low voltage?

Yes, a voltage stabilizer is designed to protect connected devices from both overvoltage and undervoltage conditions. SVC-N also features protection against overload, overheating, overcurrent, and short circuit, helping improve electrical safety and equipment reliability. :contentReference[oaicite:1]{index=1}

Is a voltage stabilizer necessary for air conditioners?

Yes, air conditioners often require stable voltage, especially during startup when the compressor may draw higher transient power. Using a voltage stabilizer can help reduce the risk of damage caused by voltage fluctuation and improve operating stability.

What input voltage range is suitable for a voltage stabilizer?

A wide input voltage range allows the stabilizer to perform well in unstable power environments. SVC-N supports an input voltage range of 100V to 260V and can provide a 220V output with ±3% accuracy within that range, making it suitable for many residential and commercial applications. :contentReference[oaicite:2]{index=2}

Where should a wall mounted voltage stabilizer be installed?

A wall mounted voltage stabilizer should be installed in a well-ventilated, dry place, away from direct sunlight, moisture, oil, grease, and flammable substances. It should also be kept away from severe vibration and harmful gases to ensure reliable long-term performance. :contentReference[oaicite:3]{index=3}

Does a voltage stabilizer consume electricity?

Yes, a voltage stabilizer consumes a small amount of electricity during operation. However, efficient models are designed to minimize energy loss. SVC-N has a stated efficiency of 98%, which helps provide stable output with low power loss. :contentReference[oaicite:4]{index=4}

How accurate should a voltage stabilizer be?

Output accuracy is an important factor when selecting a voltage stabilizer, because it affects how stable the connected equipment will operate. SVC-N offers an output accuracy of ±3%, which is suitable for many general home and commercial applications requiring reliable voltage regulation. :contentReference[oaicite:5]{index=5}