Advice and guidance on how to ensure you select the most appropriate power protection system at a cost efficient price. If you are not familiar with choosing the right Power Protection system for your needs it can be a daunting and at times frustrating task. Over engineer the solution and it can be very expensive. Select a system that does not address all your identified power problems, or consider locally available resources, and you can so easily waste money.

For those unfamiliar in the selection process it is essential that you:

Know clearly your own requirements

Know the right questions to ask of a potential supplier

Know the advantages and disadvantages of the various design types

Mains Supply Voltage Problems - Symptoms, Causes & Solutions

Sags: are short duration decreases in the mains supply voltage which generally last for several cy-cles.

Formal Definition – Voltage below 80 to 85% of rated RMS voltage for 2 or more cycles.

Typical symptoms - Sensitive equipment can lock or hang causing data loss and system resets.

Common Causes – Heavy equipment turned on, starting large electrical motors, switching of the mains supply.

Solutions - AC Voltage Stabiliser, AC Power Con-ditioner & Uninterruptible Power Supply.

Voltage Sags

Brownouts: are long term sags in the mains supply voltage which can last up to several days.

Formal Definition – A steady state of RMS voltage under nominal by a relatively constant percentage.

Typical Symptoms -Equipment can reset or even shutdown.

Common Causes – Heavy equipment turned on, starting large electrical motors, switching of the mains supply or just low voltage output from the generating source.

Solutions - AC Voltage Stabiliser, AC Power Condi-tioner & Uninterruptible Power Supply.

Brownouts

Over-Voltage & Surges: are short duration in-creases in the mains supply voltage which generally

Formal Definition – Voltage above 110% of the rated voltage for 1 or more cycles.

Typical Symptoms - When surges occur equipment can suffer from premature failure. The high voltage causes wear and tear and general component degra-dation. This is often unnoticeable until failure occurs. Unusual heat output can be an early sign of problems ahead.

Common Causes – Heavy equipment being turned off.

Solutions - AC Voltage Stabiliser, AC Power Condi-tioner & Uninterruptible Power Supply.

Over-Voltage & Surges

To assist in ensuring that you are ‘In the Know’, and as a result are able to choose the most appropriate and cost efficient solution to solve your power quality problems, we offer advice and guidance on ten of the most frequently asked questions.

Why is Power Quality important? For electrical systems to function properly, it is necessary to make sure that the quality of the power feeding them is of a sufficient quality to ensure that perform-ance is not impaired or system life expectancy reduced.

Without the proper power, an electrical device or load may malfunction, fail prema-turely or not operate at all. There are many ways in which electric power can be of poor quality and many more causes of such poor quality.

1.

2. Do you actually know the mains supply problems you are experiencing?

To identify the most appropriate solution it is always recommended that you first identify exactly the problems you are experiencing. You may of course already have a good idea as to the problems being encountered. If not, it will be necessary to monitor the supply over a period of time to identify the types, duration and magnitude of power problems experienced.

Power supply problems are caused by various sources, for example distribution net-work faults, system switching, weather and environmental conditions, heavy plant and equipment, or simply faulty hardware.

Regardless of the cause of the problem, the resulting power quality issue will include one, or more, of the power problems detailed on the right and following page.

3. How do you determine the power sizing of the equipment you wish to protect?

When determining the total power rating for the solution you require do not forget to allow for possible future expansion of the load you wish to protect over the medium to long term.

You will need to check the rating of the equipment to be protected. Such ratings are normally quoted in Amps or kVA, and whether single or three phase. You will also need to determine the nominal voltage line to neutral and line to line if three phase, plus the frequency and power factor.

Such information is usually shown on the rating plate attached to the equipment, otherwise you will need to consult the manufacturers of the equipment or take measurements. It is always recommended that you measure the loads true RMS value.

2.

Mains Supply Voltage Problems - Symptoms, Causes & Solutions

High Voltage Spikes

Electrical Noise: this is a high frequency noise either common or normal mode.

Formal Definition – Electrical noise is high-frequency interference on the incoming mains

Typical Symptoms - Processing errors, com-puter lock-up, burned circuit boards, degradation

Common Causes – Electric motors, relays, motor control devices, broadcast transmission

Solutions - Isolation Transformer, AC Power Conditioner & Online Uninterruptible Power Sup-

High Voltage Spikes: these are very fast high energy surges or spikes in voltage lasting only a few milliseconds.

Formal Definition – Rapid Voltage peak up to 6,000 volts with a duration of 100msec to ½ a cycle.

Typical Symptoms - Equipment can lock or hang, crash and even suffer damage which inevi-tably causes data loss and corruption.

Common Causes - Switching of equipment, especially heavy inductive loads, arcing faults or atmospheric electrical disturbance, such as light-ning strikes and static discharges.

Solutions - AC Voltage Stabiliser, AC Power Conditioner, Isolation Transformer, Uninterruptible Power Supply.

Electrical Noise

Blackout and Mains Failures: when the mains supply fails completely this is known as a total

Formal Definition – Loss of incoming mains supply

Typical Symptoms - Complete disruption of equipment operation. A break in the mains supply of only several milliseconds is sufficient enough to crash, lock or reset many of the components that make up a typical data or voice processing IP network, such as PC, terminal, console, server, PBX, printer, modem, hub or router.

Common Causes - Storms, lightning, wind and utility equipment failure. Typically occurs as a result of loss of power, a mechanical failure, or overloading by consumers.

Solutions - Uninterruptible Power Supply & Diesel Generator

Blackouts & Mains Failure

4. What is the best solution for you?

If you have a good idea as to the mains problems you are experiencing and the power requirements of the equipment you wish to protect you are in a very strong position to identify clearly the best and most cost efficient solution.

If you are experiencing all of the Power Quality issues identified in Question 2 an online UPS (Uninterruptible Power Supply) will often be viewed as the obvious choice. But be warned, these are usually expensive to buy and have high ongoing mainte-nance and support costs. In many less developed countries the high technology skill sets required to maintain such systems are not readily and inexpensively available.

For most applications where the loss of mains is not really a critical issue, or can be accommodated by the use of a standby generator, the deployment of an Automatic Voltage Stabiliser / Regulator or AC Power Conditioner will be a far more cost efficient solution both in terms of initial outlay, ongoing maintenance, support costs and the required local skill sets required to install, maintain and support the solution.

Be Warned - Over engineering a solution due to a lack of understanding on the power quality issues being experienced is an all too common mistake that can deeply im-pact your wallet!

5. What exactly is the difference between a Voltage Stabilizer and Power Conditioner? One of the most common questions we get asked is what exactly is the difference between a Voltage Stabiliser and an AC Power Conditioner. In essence both protect against voltage transients, spikes, sags and brownouts, but an AC Power Conditioner also offers additional protection against Electrical Noise and higher level defence against transients and spikes.

In most cases an AC Power Conditioner (Power Line Conditioner) is simply a Voltage Stabiliser with the inclusion of an isolation transformer.

When a good earth cannot be provided ‘Common Mode’ Noise (E to L and E to N) can be a problem. With the inclusion of a shielded isolating transformer in a Power Condi-tioner, this interference will be suppressed to harmless levels. The output of an AC Power Conditioner is commonly referred to as a ‘Clean’ supply.

As you would expect an AC Power Conditioner is normally more expensive than a Voltage Stabilizer / Regulator.

6. Why is determining the input voltage variation you are experiencing and output voltage accuracy required important? Choosing a stabiliser with the right input variation capability is important because if its input voltage range is exceeded, then its output will increase or decrease by the same amount by which it has gone "out of limit".

In situations where there is a good mains supply, a stabiliser offering an input variation swing of ±15% (Our S15 models) will usually be more than acceptable, but in more remote locations, or countries where the national supply infrastructure is less devel-oped, variations of ±20% or greater may be needed to be accommodated by the stabi-liser.

As a general rule the greater the input voltage swing the stabiliser / conditioner needs to correct the greater the price.

An output voltage to within ± 1% / ±1.5% of the preset output voltage is the norm when specifying a Voltage Stabiliser or Power Conditioner. However if a lower output voltage accuracy can be accommodated by the load equipment, then the input voltage range can be extended proportionally. As the cost of the stabiliser is linked to the input volt-age range it has to handle, accepting a lower output accuracy may prove to be a more economical solution.

7. Is Supply Frequency Important?

With most supplies operating on 50 or 60 Hz, your normal mains supply frequency is unlikely to vary more than +/- 2%, and this is well within the capability of most stabilis-ers and conditioners. But if the supply is from a local generator it is possible that the frequency could deviate beyond this range and suitable protection should be consid-ered to protect both the load and the power protection system.

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3.

a.

8. Are there any other factors you should consider when choosing a Volt-age Stabiliser / Power Conditioner?

Input Output Circuit Breaker: We recommend the specifying of an input or output Circuit breaker which, in addition to giving over current protection, will trip if the out-put / input deviates above or below a preset level. Certain models in our ranges are supplied as standard with input circuit breakers and on others the facility is available as an option.

Bypass Facility: You may also wish to consider fitting a bypass switch that will facili-tate the inspection and maintenance by isolating the stabiliser and connecting your load directly to the mains supply. Certain models in our ranges are supplied as stan-dard with an inbuilt bypass facility and on others we can supply suitable inbuilt or wall mountable external switches to requirements.

9. What are the differences and advantages to the various design technol-ogy used in Voltage Stabilisers and Power Conditioners?

For the lay person, differentiating between the various technologies employed to de-liver voltage stabilisation can often be a daunting task and it is not always clear as to which technology is best for a particular application.

As a leading manufacturer and supplier of Voltage Stabilizers and Power Conditioners, we offer a wide cross section of alternative design types.

Load Voltage Reductions Effects

Voltage Increases

Computers An 8% drop will often cause computer errors and downtime.

A 10% rise will cause com-puter damage, errors and downtime.

Lighting A 10% voltage drop reduces lumen output by over 25% (15% for florescent tubes). Infra Red lamp heat output is re-duced by over

A 10% volt rise reduces life expec-tancy of incan-descent lamps by over 50%.

Radio & TV Transmission

Volt drop will reduce quality of the transmis-sion and cover-

Over voltage by 2% will significantly reduce tube

Photographic Processing

A 5% volt drop will increase exposure times by 30% and reduce quality of colour print-ing significantly.

Voltage rise during printing cycles will cause inferior results

X-Ray Equip-ment

A 1 % change in the filament voltage of an X-Ray tube will produce an 8% change in the anode current.

When used at its maximum rating an X-Ray tube will be perma-nently dam-aged in the case of a 5% volt rise.

Magnetic Equip-ment

A 10% volt drop can cause relays / contac-tors to open chatter. Sole-noids become sluggish and vibration will cause malfunc-tions and over-heating.

Over voltage will cause magnetic core saturation high current and overheat-ing. Wear and distortion is increased.

Induction Heat-ing

Heat output is reduced by more than 20% on a 10% volt drop.

Heat output varies ap-proximately with the square of voltage.

Welding Equip-ment

A 10% volt drop will increase a welding cycle by 20% if weld quality is to be maintained.

A 10% volt rise will over-heat a weld, reducing quality and causing possi-ble “burn through”.

Transformers At 100 kVA a 10% drop will reduce trans-former rating to 90%.

A 10% rise will considerably increase core losses and decrease efficiency proportionally.

AC Motors A 10% volt drop reduces torque by approxi-mately 18%. Motor life ex-pectancy is reduced due to

A 10% volt rise causes higher starting current and reduces power factor by approxi-

Effects of supply voltage variations on different types of equipment

Electronic Servo / Electro - Mechanical Design

For most applications our Servo Electronic -Electro Mechanical Ranges (SES/SESL - Voltage Stabilisers & PCS - AC Power Conditioners) have proved to be a very reliable and cost-efficient voltage stabilisation solution, being able to accommodate an input voltage swing of in excess of 40% whilst still delivering an accuracy of 1% on the out-put.

Comprising a transformer having its secondary winding connected between the mains supply and the load, the primary voltage is automatically controlled through a motor driven variable transformer - ensuring a continuous, smooth and very stable output voltage.

High Voltage / Transient Spikes are normally limited by the inclusion of ‘Spike Clippers’. Such clippers typically limit transients to twice the peak voltage of the supply. To reduce the spikes to totally harmless levels it is often necessary to ask your supplier to fit additional Spike Attenuation protection. With Ashley Edi-son SES / PCS solutions this feature is supplied as standard.

While Electronic Servo stabilisers do contain some moving parts, experience over the last 25 years in some of the most demanding power conditions has proved the design to be a very reliable method of delivering voltage regulation with only a low-level of ongoing maintenance required being deliverable by universally readily available skill sets. The long-life expectancy, compact size and low cost of ownership makes servo-electro mechanical stabilisers economical solutions for a wide variety of applica-tions in industry, commerce, mining, aerospace, computing and telecommunica-tions and is normally our recommended solution for most clients.

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4.

Design Advantages Design Disadvantages

Size and weight advantages over other methods of stabilisation

Moving parts requiring limited mainte-nance

Fast speed of response to voltage changes – ideal for most applications

Lower speed of response compared to solid state designs

Very competitively priced

Negligible output waveform distortion

Not Frequency dependent

Will attenuate voltage spikes if required

Unaffected by load or power factor changes

Low cost of ownership with ease of ser-viceability

Endurable, with long life expectancy

Due to the general popularity of this method of voltage stabilisation and the high de-mand for models between 1kVA and 500kVA it is often possible to purchase most standard SES S15 models from stock or, like larger models and those with wider input voltage swings, on short lead delivery times.

b. Solid State Saturable Reactor Design

With no moving parts, solid state design based systems utilise the latest in IGBT con-trol circuitry delivering a very high speed of response and output accuracy maintained to ±0.5%. Since all components are of electronic design, they are virtually mainte-nance-free

Solid state based systems (PEN Voltage Stabilisers & PCEN AC Power Conditioners) are ideal solutions for equipment that must have output voltage accuracy better than 1%.

Design Advantages Design Disadvantages

High speed of response to voltage changes

Usually less price competitive when com-pared to Servo Electronic design

Output voltage accuracy better than 1 %, typically 0.5%

High weight to kVA ratio compared to electronic servo designs

No Moving parts – virtually Maintenance Free

High efficiency

Not Frequency dependent

Output voltage does not collapse on overload or severe input voltage drop

Low output waveform distortion

Unaffected by load or power factor changes

Will attenuate voltage spikes if required

www.AshleyEdison.com AC Automatic Voltage Stabilisers & Regulators from Ashley Edison

Electronic Servo Design Type

SES Series

Single & Three Phase

1 to 600 kVA

SESL Series

Three Phase

200 to 1500 kVA

OSES Series

Single & Three Phase

6 to 700 kVA

IP54 Outdoor

SES-R Series

Single Phase

3 to 15 kVA

Rack Mount

SES-HL & LH Series

Three Phase

10 to 100 kVA

Step Up / Step Down

PEN Series

Single & Three Phase

2 to 200 kVA

Solid State Saturable Reactor Design Type

5.

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c. Magnetic Induction Solid State Design

The design technology utilises a simple, yet highly reliable, rotor and stator design principle to increase or decrease the magnitude of the voltage in a series transformer winding, which thereby delivers and maintains a constant voltage.

Unlike the Servo-Electro Mechanical design, this technology does not require carbon brushes and there is no contact wear. As a result Magnetic Induction based stabilisers are highly reliable and can be viewed as virtually maintenance free solutions.

Design Advantages Design Disadvantages

High output voltage accuracy Less price competitive when compared to Servo Electronic design

High reliability

Virtually Maintenance Free with no con-tact wear or requirement for carbon brush replacement

Available for only Three Phase applications, we offer two ranges of Magnetic Induc-tion based voltage stabilisation solutions – MVSI (15 kVA and above) Air Cooled and IVSI (500 kVA and above) Oil Cooled solutions.

As standard our MVSI & IVSI Magnetic Induction based stabilisers offer independent phase sensing / control and are ideal for unbalanced voltages and loads up to 100%.

The Oil Cooled IVSI models offer more efficient cooling and as a result tend to be smaller in physical size compared to their air-cooled MVSI counter-parts. Oil cooled stabilisers are ideal for deployment in very humid environments.

d. Ferro-Resonant - Super Isolation Solid State Design

Based around a highly reliable and endurable Constant Voltage Transformer (CVT), super isolation design based systems (PCV – Single Phase AC Power Conditioners) are able to tolerate very wide input fluctuations, even when the input voltage drops as low as 40%, the output voltage will be maintained at nominal voltage ±5%. .

With no moving parts and no electronic control circuitry there is no need for mainte-nance and is virtually an install and forgets solution. The design can withstand high instantaneous overloads and is able to suppress lightning induced spikes and surges.

Compact in size and quiet in operation, this design has the inherent ability to withstand a ride-through even when there is a very short power failure, maintaining voltage for 3msecs. This feature is exceptionally useful for sensitive electronic equipment when there are frequent short breaks or severe voltage dips.

AC Power Conditioners from Ashley Edison

Solid State Ferro-Resonant - Super Isola-tion Type

PCV Series

Single Phase

1 to 5 kVA

Electronic Servo Design Type

PCS Series

Single & Three Phase

1 to 450 kVA

Solid State Saturable Reactor Design Type

PCEN Series

Single & Three Phase

2 to 200 kVA

6.

IVSI Series Oil Cooled

Three Phase

500 to 3000 kVA

Independent Phase Voltage Compensation

Solid State Magnetic Induction Design Type

MVSI Series

Three Phase

100 to 1500 kVA

Independent Phase Voltage Compensation

AC Automatic Voltage Stabilisers & Regulators continued

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Design Advantages Design Disadvantages

High speed of response to voltage changes

Not generally competitive in ratings above 10 kVA

Output voltage does not collapse on overload or severe input voltage drop

High weight to kVA ratio compared to other stabilisation methods

Attenuates voltage spikes

Competitively priced AC Power Condi-tioning solution for ratings of 5 kVA or below

No Moving parts – virtually Maintenance Free

Highly reliable with extremely high MTBF performance

Inherent ride-through ability

Endurable, with long life expectancy

Frequency dependent – not ideal for where severe frequency variations are an issue

e. Electronic Tap Changing Solid State Design

The Electronic Tap Changer design principle operates by automatically selecting one of a series of taps on an auto transformer.

Design Advantages Design Disadvantages

Most competitive in price for 2 kVA and below

Poor output voltage accuracy – typically no better than ± 5%

High Efficiency

Negligible output waveform distortion

No Moving parts – virtually Maintenance Free

Generally / Historically deliver a low MTBF (Mean Time Between Failure)

Ashley-Edison at your Service

In Telecommunications

Many such facilities are in remote loca-tions, supplied over long lines or even from their own generators. Ashley-Edison units are in service worldwide - with com-munication networks, even national secu-rity, depending on them.

In Computers

Computers and other electronic business systems are highly sensitive to power fluctuations. Even a brief voltage drop below design limits will upset logic circuits, bringing chaos to stored data, calculations etc. So the fast response Ashley Edison Automatic Voltage Regulators (AVRs) are playing a major role in computer applica-tions around the world.

TV, radio and telephone transmitters and relay stations, radar installations, naviga-tional beacons etc, all need dependable power for reliable operation.

In Industry

Many processes and production lines slow down and even stop as a result of power problems. With just a simple voltage drop, welding equipment produces faulty welds, ovens and furnaces take far longer to heat up, electroplating processes lose their efficiency and today's microprocessor controlled machine tools develop faults. All reasons why industrial plants worldwide look to Ashley-Edison for the solution to their power problems. 7.

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With our strong and wide manu-facturing base, Ashley-Edison is able to meet the requirements of most Clients from our own in-house professional resources.

10.

The sheer span of capability available from Ashley-Edison tells its own story. Every power protection solution we offer is backed by the unrivalled experi-ence we have gained in world markets over the last 25 years or so. In that time, our unique de-sign innovations have set new performance levels and the breadth of our offering has broadened to accommodate the needs and ever demanding re-quirements of our growing Client base.

Our success is based entirely on our ability to meet the requirements of our Cus-tomers dependably and cost-effectively. Today, where performance is everything ,

whatever your AC mains supply problem Ashley-Edison have the ability to offer a solution from our extensive range of standard and custom built products.

The Ashley-Edison ranges of AC Voltage Stabilisers / Regulators & Power Conditioners combine excep-tional performance and ISO 9001certified build quality to deliver unmatched reliability and versatility, all at truly unbeatable prices.

Any further questions? Don’t hesitate to ask….

UK Head Office & EMEA International Sales:

Asian / Pacific Rim Regional Sales Office:

Ashley-Edison Asia Pte Limited 89 Short Street #02-08 Golden Wall Centre Singapore 188216

Ashley-Edison International Limited Abacus House, 93 High Street, Huntingdon, Cambridgeshire, PE29 3DP, United Kingdom

Phone: + 44 (0)870 240 6162 Fax: + 44 (0)870 486 0956 Email: Sales: sales@ashleyedison.com General: info@ashleyedison.com Support: support@ashleyedison.com Web Site: http://www.ashleyedison.com

Postal Address: Ashley-Edison International Limited, PO Box 1220, Bedford, MK43 9WX, United Kingdom

Other International Telephone Contact Points: USA - Washington DC +1 202 657 5380 Australia - Sydney +61 (0)2 8003 7430

UK - London +44 (0)208 816 8460

Hong Kong - SAR, China +852 8198 0670

Why select a Voltage Stabiliser or AC Power Conditioner from Ashley-Edison?

Phone: + 65-6339 9433 Fax: + 65-6339 7379 Email: Sales: sales@ashleyasia.com

Ashley-Edison at your Service

In Refrigeration

When air-conditioning and refrigeration systems experience any form of power disturbance, even just a minor voltage fluctuation, impaired performance or often system shutdown is the end result.

With such problems being of common concern, Ashley-Edison units are regularly relied upon to guarantee the availability of a clean and regulated power source.

In Research

Electronic instruments play a major role in laboratory work and their measuring accu-racy depends totally on the quality of power they receive. An abrupt voltage drop from a factory process starting up nearby perhaps can invalidate the results from a costly research programme.

Today many world research establish-ments depend on Ashley Edison for ensur-ing the quality of their power supply whether it be for a single instrument or an entire laboratory.

Want to Learn more about the Power Protection Solutions available from Ashley-Edison?

Sign Up to receive your FREE copy of our Latest Global Power Protection eCatalogue at

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Copyright 2011 © Ashley-Edison reserve the right to change any or all the specifications indicated or implied without prior notice. E&EO

AEID1002 issue 1.4 - February 2011