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New Look Website

Tuesday, February 16th, 2010

You may have noticed we’ve updated the website – hope you like it. Due to the clamour for upfront visibility on charges, all prices NOW INCLUDE VAT & DELIVERY, so the price you see is the prices you will pay. We’ve also got some cracking deals on delivery, and can deliver to most of Europe from only £5 a box extra.

We’ve streamlined the product offerings and added some application headers to make the site easier to navigate and be less confusing. However, if you don’t see what you’re looking for – check out www.powerinspired.com or contact us for help.

We’ve also added GOOGLE CHECKOUT to the payment options for those of you who prefer to use the ease of this payment option. With GC you will not need to log in or enter your details into our system, Google takes care of all this, once you have registered with them. If not, we still accept all major debit and credit cards as well as PayPal. (Note that you need to select SagePay to pay by PayPal as the same system does both credit/debit cards AND PayPal).

We’ll be making some further changes over the next few weeks, so keep checking and if there’s something you would like to see then let us know.

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New Kehua 3-6KVA rackmount models designed with runtime in mind

Thursday, January 28th, 2010

Kehua Tech, the international branch of Zhanzhou Kehua UPS in Xiamen, China has redesigned it’s range of 3, 5 & 6KVA online double conversion rackmount Uninterruptible Power Supplies (UPS). Gone are the hardwired outputs replaced with 16A and 10A IEC outlets for connection of rack PDU’s and direct connection to equipment. In addition to the RS232 interface a new USB port has been added for ease of connectivity with modern computer systems that may not have DB9 ports.

A new Emergency Power Off (EPO) port has been added to ensure that should an emergency occur the UPS can be made dead in an instant and not continue to provide power to the load in case of emergency.

These systems are designed with runtime in mind and so they require external battery cabinets that provide 38 minutes full load runtime on the 3KVA and 20 minutes on the 6KVA. Additional cabinets can be added as required extending autonomy into the hours should this be necessary. What’s more – unlike similar systems that boast long runtime capability, these systems come with a 4Amp charger as standard (rather than the normal 1A charger in most comparable systems) ensuring that your batteries are charged expediently following an outage.

For integration with standard data centre environments, the cooling fan takes cool air from the front and exhausts this from the rear, ensuring that the UPS will meet with any hot aisle/cold aisle configuration.

The full system is rack mountable, or free standing should you require. Occupying no more than 5U of rack space, the KR-J-F series is the latest on the highly competitive Kehua Tech range of UPS. Available exclusively through Power Inspired Ltd.

KR6000-J-F 6KVA Online Double Conversion UPS

KR6000-J-F 6KVA Online Double Conversion UPS

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Redundant Power Solution for under £350 -including UPS

Tuesday, January 26th, 2010

What is a redundant power solution? Well it’s one where you have more UPS than you actually need to power the load. Typically referred to as an ‘n+1′ redundant solution, where ‘n’ is the number of systems you ordinarily require.

It’s achieved in the main with UPS systems that communicate with each other and effectively share the load. Such systems are usually in the high power three phase category. It is unusual to find any systems at low power ratings that can do this. What’s more, you will need a special output distribution circuit to be able to accommodate this.

For the small business owner, whose dependence on IT is no less valid than major data centre operators this leads to a dilemma, as he needs critical load power protection, but doesn’t have the infrastructure or budget to put in a fully configured n+1 solution.

The answer – the KTS redundant switch from Kehua. This is a rackmounted device occupying no more than 1U of height. It accepts two inputs and provides a single power output that is provided from a primary source. If the primary source should fail, the system will automatically transition to the secondary source within 4 mseconds which is fast enough not to be noticed by any computer type loads.

The primary source should be an online UPS system, and the secondary source can either be another UPS (for full protection) or fed from the mains so you can cover in case anything untoward should happen to the UPS. Of course, there is still the single point of failure on the KTS, but built with reliability in mind it has extremely high MTBF to ensure peace of mind.

Coupled with a KR1000J online double conversion 2U rack mount UPS, you can have a redundant solution for under £350, protecting up to 4 servers and occupying only 3U of rack space. Available in 2KVA, 3KVA and 6KVA modules the KTS redundant switch is an ideal method of achieving redundancy without breaking the bank.

KTS Redundancy Switch Available in 10A, 16A and 32A versions

KTS Redundancy Switch Available in 10A, 16A and 32A versions

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UK Postage Charges Slashed

Friday, October 23rd, 2009

We’ve recently sat down with our suppliers and negotiated new rates for our postage charges and we are pleased to say that prices are down across the board!

Smaller items will now be despatched through the post rather than courier slashing these costs, and we’ve now got a two tier upto 10Kg for only £8.05 and upto 30kg for only £11.50. All shipping charges are now detailed on the individual product pages so there are no surprises when you place your order.

While we’re on the subject we’re often asked why we don’t offer free shipping. Well that’s because shipping is never free. Anything with free shipping has the costs already incorporated into the price. So if you order more than one item you’re losing out as the items are usually combined into one delivery which is what we regularly do. For example, if you order a UPS from us and some additional power leads, the postage charge will be the same for the UPS with or without the leads. If we offered free shipping this wouldn’t be the case.

Remember we’re the most competitive UPS Systems store you will find anywhere.

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Power Protection in the Hospital

Tuesday, October 6th, 2009

Here’s a nice article extolling the use of online double conversion UPS Systems for hospital laboratory applications: 

http://www.laboratoryequipment.com/article-sh-reliable-test-results-1009.aspx

We couldn’t agree more.

Laboratory Equipment needs clean power to operate effectively, and this comes from  being supplied by a good quality sine-wave power waveform at all times. If you actually read through on the article above you will see an image of a “standard generator output”. Don’t be fooled by this.  Generators are never as bad as this – ever. However there is a degree of switching transients, power glitches and frequency variations that can cause havoc with lab equipment (so much so that I’ve known hospital labs to routinely unplug equipment during generator testing – so what will they do when the generator kicks in for real?). Depending upon the generator used and connected loads, the output from the generator can become distorted however, and this is where the online UPS will correct this. Other technologies cannot. I include in this galvanically isolated products that are based on line interactive technology. They cannot do anything about distorted waveforms except drop to battery and go dead a few minutes later.

Another issue that is technically incorrect is the use of galvanic isolation to correct stray earth currents. Since in most galvanically isolated equipment the earth is connected straight through, any current that is flowing will still flow, if the load is galvanically isolated or not. What galvanic isolation does do, is remove any neutral-earth voltage that may exist if the electrical infrastructure is poor or the line is long with heavy load equipment sharing it.

Our recommendations therefore, are for online double conversion for all laboratory products and there’s no need for galvanic isolation meaning smaller, lighter and ultimately cheaper products can be used instead.

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Sunday, July 26th, 2009

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A Requirement for Redundancy

Wednesday, July 15th, 2009

On Friday the residents of Taipei were left stranded when their newly built $1.6 billion transit system shut down. It seems that the cause of this, was due to the failure of the Uninterruptible Power Supply (UPS System) at one of the stations. This UPS System controlled the signalling and communication functions and without power to these systems the trains could not operate.

Now UPS Systems are designed to increase the reliability of connected systems, by providing power protection and back up power. If the UPS System should fail then it should revert to bypass and allow utility mains power through (this is for online double conversion Uninterruptible Power Supplies and particularly three phase systems). It’s unclear what happened in this case, but whatever the outcome the critical systems were left without power and the UPS System is perceived not to have done its job.

Here’s where redundancy is required. Basically, you have one more system than you actually need, therefore if one system should fail, the other can take over without any loss of UPS System support. Should the utility fail for an extended period, then you either need batteries to keep you going (or shut down gracefully) or an external generator to kick in and simulate utility power.

Redundancy is usually expressed as ‘n+1′, which means that if you need ‘n’ UPS Systems to power your load, then you install ‘n+1′. For example, if you have a 100KVA load, you can achieve this with 1×100KVA UPS System. If you want redundancy you will need to use n+1 = 1+1 =2 UPS Systems, i.e. 2x 100KVA UPS Systems. Alternatively, you may have achieved your load by using 2×50KVA UPS Systems in parallel, and redundancy can be achieved by installing an additional 50KVA UPS System i.e. 3×50KVA UPS Systems, which may be more cost effective.

I’ll blog more about this later, as the citizens of Taipei walk to work. 

You can read about the Taipei metro power cut here

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Overvoltage Protection

Monday, July 13th, 2009

Here’s a neat article written by our friends at APC: Powercuts during summer months may damage data, albeit a confusing title for what the article is about.

They bring up a valid point about overvoltage leading to damage of equipment. Your normal mains supply is designed to operate at 230V±10%, which means a maximum voltage entering your building of 253V. However, the substation providing this voltage has to be able to do so during full power loading. Let’s say you’re on an industrial park and the substation is providing power to all the buildings – the IT infrastructure, the telecom systems, the lighting, the air conditioning, elevators, escalators etc. The load can be quite substantial, but let us take a figure of say, 1000Amps (equivalent to 10 houses). If the impedance on that line was half of one tenth of an Ohm – 0.05Ω the voltage drop across the cable using good old Ohm’s law would be 50V. This means that the substation needs to set its output voltage to around 280V so that when the power reaches your building it is 230V and within limits. However, if the load is suddenly removed – all the air conditioners are switched off, the buildings are empty and nobody is at home, all of a sudden you are hit with 280V, as the lower current causes less voltage to be dropped across the supply cables.

Some people call this a surge and think that surge suppression devices will protect them against it. In fact, this is not a surge but rather a voltage swell or overvoltage condition. (A surge is an overvoltage condition too, but of short duration -usually µseconds), and in order to safeguard your equipment you need to have some form of overvoltage protection. The only way to achieve this is by the use of either voltage regulators or by the Uninterruptible Power Supply (UPS).

A voltage regulator is a (usually mechanical) device that incorporates a tap changing, or continually variable transformer to keep the output voltage to a tight tolerance.

The Uninterruptible Power Supply, however will also provide overvoltage protection by keeping the voltage within limits. How well it does this depends upon the type of technology used:

  • The Offline Uninterruptible Power Supply will provide overvoltage protection by dropping to battery as soon as the mains voltage is out of limits. This will protect your equipment but if this happens regularly or for prolonged periods, the UPS battery will drain and you will lose power.
  • The Line Interactive Uninterruptible Power Supply will provide overvoltage protection by incorporating some voltage regulation. When the mains goes to high, the UPS System will “buck” the voltage downward by changing taps on a transformer. This has the benefit over the Offline UPS System in that there is no dropping to battery for marginal overvoltage conditions.
  • The Online Uninterruptible Power Supply, (aka Online Double Conversion Uninterruptible Power Supply) provides the best possible overvoltage protection. It has a very wide input voltage window, which means it can take very high voltages (as well as very low voltages) without reverting to battery. What’s more the voltage supplied to your system is constant and unchanging regardless of what is happening to the input voltage.

It’s another string to the Uninterruptible Power Supply bow, as not all power problems are as obvious as the power cut. Give your equipment overvoltage protection with a Uninterruptible Power Supply from UPSMart.

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Where just a small letter can have such a big difference

Wednesday, July 8th, 2009

Scouring the web I came across this press release from Chloride North America announcing the launch of their Agility Uninterruptible Power Supply (UPS).

I was intrigued, as the release states that they have five high density models ranging from 750kVA to 3000kVA, all in a “standardised 2U chassis”!

Wow, Chloride must have discovered a working cold fusion reactor and superconductivity at room temperature in order to cram 3MVA of power into a 2U rack space. The worlds power problems are solved!

Unfortunately the unit specs tell a different story. Somebody has put in the letter “k” in front of VA by mistake. This means the sizes are out by a factor of 1000, 750,000VA instead of 750VA, and 3,000,000VA instead of 3000VA. A bit of a difference!

For their benefit I’ve included a few of the common SI units used in engineering today for reference:

G: Giga = x 1,000,000,000
M: Mega = x 1,000,000
k: Kilo = x 1,000
m: milli = ÷ 1,000
μ: micro = ÷ 1,000,000
n: nano = ÷ 1,000,000,000

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How To Build An Uninterruptible Power Supply

Tuesday, July 7th, 2009

I saw this crazy article about how to build your own Uninterruptible Power Supply. I’ll not put a link to it as I think it is possibly the most irresponsible thing we could do. It came complete with warnings such as:

  • The AC Output Voltage Can kill You
  • The DC Current from the battery can burn you
  • There is enough DC current in a battery bank to stop your heart
  • Shorting batteries can cause blinding flashes, blow wrenches into splinters, even cause the batteries to explode and spray sulphuric acid and hunks of plastic everywhere.

And my favourite:

  • A ring that gets between ‘hot’ wires can amputate your finger

An Uninterruptible Power Supply consists of three main stages:

  • A source of power – usually a battery.
  • A Battery Charger – to charge the batteries
  • An Inverter – to convert DC power to AC power

This article is proposing that you buy all the bits an pieces and assemble them yourself. And while you’re on, make sure that you’ve selected the correct type of battery, make sure that the battery charger is adequate for the battery bank, ensure that the inverter is adequately rated, then connect it all together with heavy duty cable, and there you have it – your very own Uninterruptible Power Supply.

Why would anybody in their right mind do this? Never mind the inherent danger with somebody with a little knowledge putting high voltage AC and DC together, but you can buy off-the-shelf Uninterruptible Power Supplies with all the design worked out at a fraction of the price that it will take to build your own.

Another misconception is that people assume that you can just use car batteries for the UPS. There’s two drawbacks for this. Firstly a car battery is not designed for deep cycling – that is constant charging and discharging. It is designed for providing instantaneous power to crank your engine. A UPS battery is designed to be discharged slowly. Secondly, no appreciation of the voltage conversion has been taken into account. For example, I often get asked for a UPS to power an entire house. What is the power consumption of an entire house? Well, excluding things like electric showers and electric ovens, and just covering some lighting and some electronic systems we could probably get by with 3KVA or so. 3KVA is about 13 Amps of current at 230V, but to generate this from a 12V battery you will need to draw 250A! This is why 3KVA UPS systems usually have a DC battery string of 96V.

My point is, is that articles like this which may be of interest to the hobbyist are actually giving people impractical and dangerous advice. People who may be a dab hand at wiring a few things together probably do not understand the complexities of the Uninterruptible Power Supply and how the individual parts should fit together to produce a fully functioning system that provides you with the backup system that you require, and probably at a fraction of the cost they would otherwise spend.

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