Home Entertainment & Automation Services in Matthews, NC.
Home Entertainment & Automation Services in Matthews, NC.
Home audio and Video Services in Matthews, NC.  TV installation, Surround Sound, Home Entertainment Systems
Power Conditioning 101: Terms You Need to Know
 

The APC H15 is available at Custom Installation Services! Authorized APC Dealer In Charlotte & surrounding areas

The APC H15 is available at Custom Installation Services! Authorized APC Dealer In Charlotte & surrounding areas

Get to understand what goes into power conditioning as you prepare to add it to your home theater.

 You don’t want to have your favorite pieces of electronics gear wiped out during the next thunder and lighting storm, right? Or perhaps the next heat wave when your local electrical grid is going haywire?

Plus, we’re guessing you want everything to reach its optimum performance, so you can hear everything you should be hearing out of that new set of speakers. 

Power conditioning and protection products are not going to be the sexiest things in your equipment rack, but they could be among the most important relative to their job. They’ll ensure your gear receives clean electricity, and protect your products from potential damage.  And if you’re having a system installed by a custom electronics pro, you can be sure it will include some sort of power product. 

Because it’s an overlooked category, we asked our friends at SurgeX to give us a glossary of what to know. 

1. Alternating Current (AC) – Electric current that reverses direction periodically, usually many times per second. Used for power distribution because the AC voltage can easily be changed by a transformer. 

2. Ampere (Amp) – The practical meter-kilogram-second unit of electric current that is equivalent to a flow of one coulomb per second. 

3. Avalanche diode – A type of semiconductor component that is normally open circuit until the voltage increases to the point where the device turns on and conducts current. Similar in operation to MOVs but do not degrade with use. Very reliable as long as they are used strictly within their ratings. 

4. Direct current (DC) – Electric current which flows in one direction only through a circuit or equipment. The associated direct voltages, in contrast to alternating voltages, are of unchanging polarity. 

5. Brown Out – The IEEE (IEEE Std 1100-1999) recommends avoiding the use of ambiguous terms such as “Brown Out.” 

6. Capacitance – The property of a circuit element that permits it to store charge. A capacitor is an example of one such circuit element. A capacitor has high impedance at low frequencies and its impedance decreases as frequency increases, which allows it to differentiate between signal frequencies in applications such as crossover networks. 

7. Current – A measure of the amount of electrical charge (in Amps) transferred per unit time. It represents the flow of electrons through a conductive material. 

8. Electromagnetic Interference (EMI) – A general type of electric or magnetic interference which is transmitted by conduction or radiation and can be of a very wide frequency range. 

9. Ground – A conducting connection, whether intentional or accidental, by which an electric circuit or equipment is connected to the earth, or to some conducting body of relatively large extent that serves in place of the earth. 

10. Ground Contamination – The diversion of surge and noise currents to the ground wire, which contaminates the system ground. Surge voltages can couple noise to the ground, which can often enter an audio or video system by causing shield current to flow. 

11. Ground Loop – A potentially detrimental loop formed when two or more points in an electrical system that are nominally at ground potential are connected by a conducting path such that either or both points are not at the same ground potential. 

12. Hertz (Hz) – The unit of frequency in cycles per second. Used to characterize anything from AC power (50 or 60 Hertz) up to cellular phone radio frequencies (Giga-Hertz) 

13. Hospital Grade Receptacle – A receptacle which has a high-impact-resistant face and body, and a higher spring tension in the receptacle contacts. Identified by a green dot on the receptacle face. 

14. IEC – (A) IEC stands for the International Electrotechnical Commission: An “organization that prepares and publishes international standards for all electrical, electronic and related technologies.” (B) Commonly used to refer to one of the 13 power connectors described by specification IEC 60320. Most commonly refers to the C13 and C14 connectors used by most computers and many AC-powered electronic devices to connect the AC power. 

15. Impedance – A measure for the manner and degree a component resists the flow of electrical current if a given voltage is applied. It is denoted by the symbol Z and is measured in ohms. Impedance differs from simple resistance in that it takes into account possible phase offset. 

16. Joules – The standard unit of electrical energy (measured over time). One Joule is equivalent to the heat generated during one second when one Volt is driving one Amp around a circuit. 

17. Linear power supply – One type of power supply inside electronic equipment that converts the 120V AC to the DC required by the circuitry. A type of regulated power supply which utilizes a line-frequency transformer. Linear power supplies regulate their output by generating a higher voltage than needed at the output, then reducing it by converting some of the electrical power to heat. 

18. Metal Oxide Varistor (MOV) – A disc shaped device which is normally open circuit until the voltage increases to the point where the MOV turns on and conducts current. Originally developed to suppress arcing on relay contacts but used extensively in shunt-mode surge protectors. Have a limited lifetime. 

19. National Electrical Manufacturers Association (NEMA) – A US trade organization that develops standards for the electrical manufacturing industry. 

20. NRTL (Nationally Recognized Test Laboratory) – A government certified testing agency (such as MET Labs, Intertek/ETL, and TÜV) that tests and certifies equipment to established safety and test standards. Identical in function to UL certification. 

21. Parallel Connection – Devices connected together so that the same voltage appears across all devices. 

22. Radio Frequency Interference (RF) – Interference which is caused by radio signals. 

23. Root Mean Square (RMS) – The value of an AC voltage or current that delivers the equivalent power that a given DC voltage or current delivers. 

24. Sag – An RMS reduction in the AC voltage, at the power frequency, for durations from a half cycle to a few seconds. Note: The IEC terminology is dip. 

25. Series Connection – Devices connected together in a chain so that the same electric current passes through all devices. 

26. Shunt Connection – (Equivalent to Parallel Connection) 

27. Shunt Mode Surge Protector – A type of surge protector which uses MOVs, avalanche diodes or gas discharge tubes to conduct surge current to the neutral or ground wire. 

28. Spike – The IEEE (IEEE Std 1100-1999) recommends avoiding the use of ambiguous terms such as “Spike”. 

29. Suppression Voltage – The maximum peak voltage that will be seen across the active terminals of a suppressor at a specified waveform and source current. It is the remnant voltage the suppressor “lets through” to protected equipment. Products tested to the UL 1449 Standard are assigned a VPR (Voltage Protection Rating) in a range from 330V to 2500V, based upon the product’s suppression voltage. 

30. Surge (Transient) – The IEEE (IEEE Std 1100-1999) defines “surge” and “transient” to be analogous terms, as defined as: a subcycle disturbance in the AC waveform that is evidenced by a sharp, brief discontinuity of the waveform. 

31. Switch-Mode Power Supply – One type of power supply inside electronic equipment that converts the 120V AC to the DC required by the circuitry. A switch mode supply is smaller and lighter than a linear power supply because it switches the current on and off very fast to generate the DC using a small high-frequency transformer rather than a larger traditional line-frequency power transformer. 

32. Toroidal Transformer – A transformer that is constructed around a magnetic core in a toroidal, or donut shape. This geometry produces a more contained magnetic field, which leads to a more efficient and compact design. 

33. Transient – A subcycle disturbance in the AC waveform that is evidenced by a sharp, brief discontinuity of the waveform. May be of either polarity and may be additive to, or subtractive from, the nominal waveform. 

34. Under Voltage – When used to describe a specific type of long duration variation, refers to an RMS decrease in the AC voltage, at the power frequency, for a period of time greater than 1 min. 

35. Underwriter’s Laboratory (UL) – An independent product safety certification organization that writes standards and tests products. Other NRTLs (Nationally Recognized Test Laboratories) may also perform product testing to ensure compliance with standards written by UL. 

36. Uninterruptable Power Supply/Source (UPS) – A device that provides battery backup power for continuous equipment operation when the electrical power fails, drops, or rises to an unacceptable voltage level. 

37. Volt Ampere (VA) – The standard unit of measurement of apparent electrical power, equal to the product of root-mean-square (RMS) voltage and RMS current. 

38. Watts – The standard unit of measurement of real electrical power, which factors in any phase differences between the voltage and current waveforms. 

by Robert Archer 

http://www.electronichouse.com/article/power_conditioning_101_terms_you_need_to_know/ 

Custom Installation Services, LLC – Charlotte and Boone NC’s Source For APC & Panamax Sales, Support & Installation! 

Posted in APC, Audio Systems, Flat Panel TV's, Line Conditioners, Media Rooms, Multi Room A/V, News, Panamax, technology | Tagged , , , , , , , , , , , , , , , , , , , | Leave a comment


URC to Debut Subsystems for Home Control

URC MX-6000 - Available At Custom Installation Services Charlotte NC!

URC MX-6000 - Available At Custom Installation Services Charlotte NC!

Over the past couple of years, URC has worked hard to reposition itself as a whole-house control company – not just a maker of remotes.

In a symbolic gesture, the company even changed its name in March from Universal Remote Controls to just plain URC, which is what everyone has always called it anyway.

The name-change sets the stage for CEDA Expo 2010, where we’ll see URC’s most ambitious play in the home automation space.

The company promises a “monumental unveiling” of a new line called Total Control, which pushes URC “beyond controlling the home theater and becomes the whole house control company of choice,” according to a CEDIA teaser.

Of course, we’ve heard that claim from URC before. Likewise from virtually every manufacturer of higher-end remote controls.

So what makes this particular unveiling so monumental?

Today, “We offer whole-house control, but to a large extent it’s with third-party products,” URC marketing director Jon Sienkiewicz tells Electronic House sister publication CE Pro. “Now, we’ll have URC-branded products.”

URC-branded products? As in subsystems?

It wouldn’t be a first. With help from Lutron, URC developed its own line of natively compatible lighting controls in 2008. The company did recently unveil an energy monitoring app for its networked controllers. Could thermostats, multiroom audio, IP cameras and other subsystems be far behind? URC isn’t saying.

by Julie Jacobson

http://www.electronichouse.com/article/urc_to_debut_subsystems_for_home_control/

Custom Installation Services, LLC – Charlotte NC ’s #1 URC Dealer, Installer, Programmer!

Posted in Automation, HAI, Home Theater, lighting control, Media Rooms, Multi Room A/V, News, technology | Tagged , , , , , , , , , , , , , , , , , , , | Leave a comment


Hardwired vs. Wireless Lighting Control

Lutron Radio Ra2 sales, programming & installation @ C.I.S.

Installing a wireless lighting control system in an existing home can be three to four times faster than a hardwired system.

In existing homes, wireless systems beat hardwired when considering labor costs, project size, system reliability, product cost and client satisfaction.

When homebuilders were constructing 2.1 million homes per year, who cared about addressing existing homes? Now with just 300,000 predicted to be built in 2010, existing homes are the last bastion of revenue.

As the market continues to transition, integrators sometimes face the choice of installing hardwired vs. wireless.

Here are five factors to consider when making that decision.

Product Cost: In general, hardwired lighting control systems tend to be about 20 percent to 30 percent less expensive than their wireless counterparts. That pricing difference also extends into the motorized shade control category, which is a form of natural light control.

One variable these days is the cost of copper wiring. It is a commodity that fluctuates. Right now, it is relatively low compared to some of the high spikes the market has seen in the past few years. A 3,500-square-foot home will require several thousand linear feet of wire, according to David Weinstein, vice president of residential sales for Lutron. Advantage: Hardwired

Reliability: Consumers, even more than integrators, are becoming comfortable with wireless technology. The pervasiveness of wireless computer networks, iPhone, iPads, etc., have even made older homeowners less fearful of “invisible” technology. On the other hand, hardwired systems are 99.9 percent bulletproof.

It is interesting to note the increased penetration of wireless in the home security field. Many motion sensors, doors and window contacts and keypads are now wireless. Security, of course, is a field where reliability is the most important issue, so the increasing use of wireless is a signal to integrators of the increasing stability of the technology. Advantage: Hardwired

Project Size: In the past, wireless systems had a more limited scale. But new systems, such as Lutron’s RadioRa2, can accommodate up to 200 devices in a home as large as 12,000 square feet. For perspective, a 3,000-square-foot home with lots of control might have 60 devices. So in general wireless is no longer limited in scale for most homes. Advantage: Tie

Labor Cost: The labor costs for installing a wireless system can be calculated in hours, while labor costs for wired systems can be calculated in days.

For example, a 60-device wireless lighting control system in a 3,000-square-foot home can be done by one technician in one day. A comparable hardwired system will take one man three to four days, depending on the number of obstacles faced when pulling wires. Advantage: Wireless

Client Satisfaction: I am not talking about post-installation satisfaction, but the actual angst that can be created from a team of guys crawling in attics, drilling holes, creating dust, etc. from a hardwired installation. When an integrator walks into a nicely appointed, spotless home, wireless should immediately be considered.

In many cases, a homeowner – from a neat freak to an Oscar Madison – will choose not to have an installation done simply because they do not want to have the disruption in the home. Clearly, a wireless system can be installed much quicker with very little disruption. Most of the labor cost is programming, not pulling wires or drilling holes.

The overall time of the job also plays into client satisfaction. As noted above, a wireless installation is routinely one-third the time of a hardwired installation. Advantage: Wireless

Final Rank: The bottom line: installing a wireless lighting control system is less expensive for integrators. According to Weinstein, it’s about 3X to 4X less expensive.

“When you analyze the cost of wireless vs. hardwired, the aggregate cost of wireless is clearly less for the integrator but also it is better for the client,” he says, adding that he believes wireless installations also help close more sales that otherwise would not occur. Advantage: Wireless

By Jason Knott

http://www.cepro.com/article/hardwired_vs_wireless_lighting_control/?utm_source=CEPWeekly&utm_medium=email

Custom Installation Services, LLC – Charlotte NC ’s #1 Lutron Radio Ra2 Dealer, Installer, Programmer!

Posted in Automation, HAI, lighting control, Lutron Radio Ra II, News, technology | Tagged , , , , , , , , , , , , , , , , , , , | Leave a comment


Custom Installation Services, LLC | P.O. Box 132 Matthews, NC 28106 | 704-400-8701 | dmiller@cis-nc.com
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