EMERGENCY POWER SYSTEM ORANGE COUNTY CA, BEST EMERGENCY POWER SYSTEM ORANGE COUNTY CA, ORANGE COUNTY EMERGENCY POWER SYSTEM, ABOUT EMERGENCY POWER SYSTEM, BEST ELECTRICIAN ORANGE COUNTY CA, Electricians orange county california, Residental Electrician Orange County, Yelp Electrician Orange County, Commercial
 
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Aliso Viejo, Irvine, Lake Forest, Rancho Santa Margarita, Laguna Beach, Laguna Hills, Laguna Niguel, Trabucco Hills, Foothill Ranch, Laguna Woods, San Juan Capistrano, Anahiem, Huntington Beach, Newport Beach, San Clemente, Yorba Linda, Tustin, Buena Park, Fountain Valley, Fullerton, Mission Viejo

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JS ELECTRIC
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Mission Viejo, CA 92691

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San Clemente, CA 92672

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MOST PROFICIENT COMPANIES I HAVE SEEN!

JS Electric is one of the most responsive and proficient electrician companies I have seen. My experience with them has is that they have demonstrated the knowledge and experience to handle any electrical issue for large, as well as smaller projects. Plus, they are very responsive and provide excellent customer service. I recommend them highly.

 

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WE DO: EMERGENCY POWER SYSTEMS

JS Electric - ElectriciansOrangeCounty.com - has been specializing in EMERGENCY POWER SYSTEMS of homes, commercial buildings, and industrial sites for OVER 25 YEARS.


We're your premier electrical contractor because we have exceptional service at fair market prices and we answer the phone or call you back within minutes. If you are building new location, looking to purchase or maintain an emergency power system, backup generators or have an emergency power plan call us today!

WE DO EMERGENCIES

VERY PROFESSIONAL "Jim and his crew are very professional, thorough, and helpful. I had all my old halogens and containers replaced by newer cntainers and LED bulbs in kitchen and living room (high ceiling). They did a great job. Later, I had new recessed lights with LED bulbs / containers installed in all bedrooms. Wonderful job, good rewiring from attic, nice clean drywall patchup, and good cleanup. Overall excellent service. Good people to work with." Bindu

"CONSISTENTLY EXCEEDED THEIR EXPECTATIONS! "Jim Smith is a professional, reliable and quality electrician. Though I have quite thankfully not had to use him yet, many of my business associates have. He has consistently exceeded their expectations and delivered quality results. I highly recommend Jim to all of my business associates and to you." - Virginia, Irvine CA

WHAT MAKES US DIFFERENT?

Quick Response TIME - If something electrical has stopped working, you need it fixed FAST. We make every effort to give service calls priority.

Skilled Electricians - We are highly skilled at listening to the customer and diagnosing electrical problems. We know how to do electricity right!

FREE ESTIMATES - YES our estimates are FREE.

We are the professionals to call! -
We fully licensed, bonded and insured.
We do:

Troubleshooting & Repairs Breaker & Fuse Repairs 277 Volt Commercial Lighting Repairs & Installations Indoor / Outdoor Lamps & Ballast Repairs Exit & Emergency Power Outage lighting Restaurant Equipment Hook-ups Time Clocks & Photo Cells 220 & 240 Volt Dedicated circuits Copiers, Faxes and Computer circuits New Panels & Transformers Property Managers & HOA service Code Violations & Repairs Motor Control Circuits

We Additonally offer Energy Efficient Lighting that runs cooler, lasts longer, and offers a very high percentage less energy usage that traditional lighting. Call Today, for your Free Comprehensive Facility Energy Audit.

CALL TODAY (714) 469-2110

A backup generator for a large apartment building
A backup power fuel cell for telecom applications
A portable emergency power generator in a shipping container

An emergency power system is an independent source of electrical power that supports important electrical systems on loss of normal power supply. A standby power system may include a standby generator, batteries and other apparatus. Emergency power systems are installed to protect life and property from the consequences of loss of primary electric power supply.

They find uses in a wide variety of settings from homes to hospitals, scientific laboratories, data centers, telecommunication equipment and ships. Emergency power systems can rely on generators, deep cycle batteries, flywheel energy storage or hydrogen fuel cells.

A standby generator is a back-up electrical system that operates automatically. Within seconds of a utility outage an automatic transfer switch senses the power loss, commands the generator to start and then transfers the electrical load to the generator. The standby generator begins supplying power to the circuits. After utility power returns, the automatic transfer switch transfers the electrical load back to the utility and signals the standby generator to shut off. It then returns to standby mode where it awaits the next outage. To ensure a proper response to an outage, a standby generator runs weekly self-tests. Most units run on diesel, natural gas or liquid propane gas.[3] Automatic standby generator systems may be required by building codes for critical safety systems such as elevators in high-rise buildings, fire protection systems, standby lighting, or medical and life support equipment. Residential standby generators are increasingly common, providing backup electrical power to HVAC systems, security systems, and household appliances such as refrigerators, stoves, and water heaters.

A diesel generator is the combination of a diesel engine with an electric generator (often an alternator) to generate electrical energy. This is a specific case of engine-generator. A diesel compression-ignition engine often is designed to run on fuel oil, but some types are adapted for other liquid fuels or natural gas. Diesel generating sets are used in places without connection to a power grid, or as emergency power-supply if the grid fails, as well as for more complex applications such as peak-lopping, grid support and export to the power grid. Sizing of diesel generators is critical to avoid low-load or a shortage of power and is complicated by modern electronics, specifically non-linear loads. In size ranges around 50 MW and above, an open cycle gas turbine is more efficient at full load than an array of diesel engines, and far more compact, with comparable capital costs; but for regular part-loading, even at these power levels, diesel arrays are sometimes preferred to open cycle gas turbines, due to their superior efficiencies.

An uninterruptible power supply, also uninterruptible power source, UPS or battery/flywheel backup, is an electrical apparatus that provides emergency power to a load when the input power source, typically mains power, fails. A UPS differs from an auxiliary or emergency power system or standby generator in that it will provide near-instantaneous protection from input power interruptions, by supplying energy stored in batteries, supercapacitors, or flywheels. The on-battery runtime of most uninterruptible power sources is relatively short (only a few minutes) but sufficient to start a standby power source or properly shut down the protected equipment. A UPS is typically used to protect hardware such as computers, data centers, telecommunication equipment or other electrical equipment where an unexpected power disruption could cause injuries, fatalities, serious business disruption or data loss. UPS units range in size from units designed to protect a single computer without a video monitor (around 200 volt-ampere rating) to large units powering entire data centers or buildings. The world's largest UPS, the 46-megawatt Battery Electric Storage System (BESS), in Fairbanks, Alaska, powers the entire city and nearby rural communities during outages.

A deep-cycle battery is a lead-acid battery designed to be regularly deeply discharged using most of its capacity. In contrast, starter batteries (e.g. most automotive batteries) are designed to deliver short, high-current bursts for cranking the engine, thus frequently discharging only a small part of their capacity. While a deep-cycle battery can be used as a starting battery, the lower "cranking current" imply that an oversized battery may be required. A deep-cycle battery is designed to discharge between 45% and 75% of its capacity, depending on the manufacturer and the construction of the battery. Although these batteries can be cycled down to 20% charge, the best lifespan vs cost method is to keep the average cycle at about 45% discharge.[1] There is an indirect correlation between the depth of discharge of the battery, and the number of charge and discharge cycles it can perform.

A fuel cell is a device that converts the chemical energy from a fuel into electricity through a chemical reaction of positively charged hydrogen ions with oxygen or another oxidizing agent.[1] Fuel cells are different from batteries in that they require a continuous source of fuel and oxygen or air to sustain the chemical reaction, whereas in a battery the chemicals present in the battery react with each other to generate an electromotive force (emf). Fuel cells can produce electricity continuously for as long as these inputs are supplied. The first fuel cells were invented in 1838. The first commercial use of fuel cells came more than a century later in NASA space programs to generate power for satellites and space capsules. Since then, fuel cells have been used in many other applications. Fuel cells are used for primary and backup power for commercial, industrial and residential buildings and in remote or inaccessible areas. They are also used to power fuel cell vehicles, including forklifts, automobiles, buses, boats, motorcycles and submarines. There are many types of fuel cells, but they all consist of an anode, a cathode, and an electrolyte that allows positively charged hydrogen ions (or protons) to move between the two sides of the fuel cell. The anode and cathode contain catalysts that cause the fuel to undergo oxidation reactions that generate positively charged hydrogen ions and electrons. The hydrogen ions are drawn through the electrolyte after the reaction. At the same time, electrons are drawn from the anode to the cathode through an external circuit, producing direct current electricity. At the cathode, hydrogen ions, electrons, and oxygen react to form water. As the main difference among fuel cell types is the electrolyte, fuel cells are classified by the type of electrolyte they use and by the difference in startup time ranging from 1 second for proton exchange membrane fuel cells (PEM fuel cells, or PEMFC) to 10 minutes for solid oxide fuel cells (SOFC). Individual fuel cells produce relatively small electrical potentials, about 0.7 volts, so cells are "stacked", or placed in series, to create sufficient voltage to meet an application's requirements.[2] In addition to electricity, fuel cells produce water, heat and, depending on the fuel source, very small amounts of nitrogen dioxide and other emissions. The energy efficiency of a fuel cell is generally between 4060%, or up to 85% efficient in cogeneration if waste heat is captured for use. The fuel cell market is growing, and Pike Research has estimated that the stationary fuel cell market will reach 50 GW by 2020

 

 
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History

Emergency power systems were used as early as World War II on naval ships. In combat, a ship may lose the function of its boilers, which power the steam turbines for the ship's generator. In such a case, one or more diesel engines are used to drive back-up generators. Early transfer switches relied on manual operation; two switches would be placed horizontally, in line and the "on" position facing each other. a rod is placed in between. In order to operate the switch one source must be turned off, the rod moved to the other side and the other source turned on.

Operation in buildings

Emergency power electric generator in a drinking water pumping station. Brons engine with Heemaf generator.

Mains power can be lost due to downed lines, malfunctions at a sub-station, inclement weather, planned blackouts or in extreme cases a grid-wide failure. In modern buildings, most emergency power systems have been and are still based on generators. Usually, these generators are Diesel engine driven, although smaller buildings may use a gasoline engine driven generator and larger ones a gas turbine. However, lately, more use is being made of deep cycle batteries and other technologies such as flywheel energy storage or fuel cells. These latter systems do not produce polluting gases, thereby allowing the placement to be done within the building. Also, as a second advantage, they do not require a separate shed to be built for fuel storage.

With regular generators, an automatic transfer switch is used to connect emergency power. One side is connected to both the normal power feed and the emergency power feed; and the other side is connected to the load designated as emergency. If no electricity comes in on the normal side, the transfer switch uses a solenoid to throw a triple pole, single throw switch. This switches the feed from normal to emergency power. The loss of normal power also triggers a battery operated starter system to start the generator, similar to using a car battery to start an engine. Once the transfer switch is switched and the generator starts, the building's emergency power comes back on (after going off when normal power was lost.)

Unlike emergency lights, emergency lighting is not a type of light fixture; it is a pattern of the building's normal lights that provides a path of lights to allow for safe exit, or lights up service areas such as mechanical rooms and electric rooms. Exit signs, Fire alarm systems (that are not on back up batteries) and the electric motor pumps for the fire sprinklers are almost always on emergency power. Other equipment on emergency power may include smoke isolation dampers, smoke evacuation fans, elevators, handicap doors and outlets in service areas. Hospitals use emergency power outlets to power life support systems and monitoring equipment. Some buildings may even use emergency power as part of normal operations, such as a theater using it to power show equipment because "the show must go on."

Operation in aviation

Localizer, glideslope, and other instrument landing aids (such as microwave transmitters) are both high power consumers and mission-critical, and cannot be reliably operated from a battery supply, even for short periods. Hence, when absolute reliability is required (such as when Category 3 operations are in force at the airport) it is usual to run the system from a diesel generator with automatic switchover to the mains supply should the generator fail. This avoids any interruption to transmission while a generator is brought up to operating speed.

This is opposed to the typical view of emergency power systems, where the backup generators are seen as secondary to the mains electrical supply.

Electronic device protection

Computers, communication networks, and other modern electronic devices need not only power, but also a steady flow of it to continue to operate. If the source voltage drops significantly or drops out completely, these devices will fail, even if the power loss is only for a fraction of a second. Because of this, even a generator back-up does not provide protection because of the start-up time involved.

To achieve more comprehensive loss protection, extra equipment such as surge protectors, inverters, or sometimes a complete uninterruptible power supply (UPS) is used. UPS systems can be local (to one device or one power outlet) or may extend building-wide. A local UPS is a small box that fits under a desk or a telecom rack and powers a small number of devices. A building-wide UPS may take any of several different forms, depending on the application. It directly feeds a system of outlets designated as UPS feed and can power a large number of devices.

Since telephone exchanges use DC, the building's battery room is generally wired directly to the consuming equipment and floats continuously on the output of the rectifiers that normally supply DC rectified from utility power. When utility power fails, the battery carries the load without needing to switch. With this simple though somewhat expensive system, some exchanges have never lost power for a moment since the 1920s.

Structure and operation in utility stations

Diagram of a redundant power supply system.

In recent years, large units of a utility power station are usually designed on a unit system basis in which the required devices, including the boiler, the turbine generator unit, and its power (step up) and unit (auxiliary) transformer are solidly connected as one unit. A less common set-up consists of two units grouped together with one common station auxiliary. As each turbine generator unit has its own attached unit auxiliary transformer, it is connected to the circuit automatically. For starting the unit, the auxiliaries are supplied with power by another unit (auxiliary) transformer or station auxiliary transformer. The period of switching from the first unit transformer to the next unit is designed for automatic, instantaneous operation in times when the emergency power system needs to kick in. It is imperative that the power to unit auxiliaries not fail during a station shutdown (an occurrence known as black-out when all regular units temporarily fail). Instead, during shutdowns the grid is expected to remain operational. When problems occur, it is usually due to reverse power relays and frequency-operated relays on grid lines due to severe grid disturbances. Under these circumstances, the emergency station supply must kick in to avoid damage to any equipment and to prevent hazardous situations such as the release of hydrogen gas from generators to the local environment.

In nuclear power plants

Emergency power systems, called there Emergency Diesel Generators (EDGs), are a required feature in nuclear power plants. They are typically installed in sets of three. The EDG installation is designed to the same safety-grade requirements as the other safety systems in the plant. The next (upcoming) generation of nuclear power plants includes some designs with multiple independent banks of EDGs (as in the ABWRs ).

Controlling the emergency power system

For a 208 VAC emergency supply system, a central battery system with automatic controls, located in the power station building, is used to avoid long electric supply wires. This central battery system consists of lead-acid battery cell units to make up a 12 or 24 VDC system as well as stand-by cells, each with its own battery charging unit. Also needed are a voltage sensing unit capable of receiving 208 VAC and an automatic system that is able to signal to and activate the emergency supply circuit in case of failure of 208 VAC station supply.

See also

Notes

References

External links

 
ABOUT ORANGE COUNTY CALIFORNIA

Orange County is a county in Southern California, United States. Its county seat is Santa Ana. According to the 2000 Census, its population was 2,846,289, making it the second most populous county in the state of California, and the fifth most populous in the United States. The state of California estimates its population as of 2007 to be 3,098,121 people, dropping its rank to third, behind San Diego County. Thirty-four incorporated cities are located in Orange County; the newest is Aliso Viejo.

Unlike many other large centers of population in the United States, Orange County uses its county name as its source of identification whereas other places in the country are identified by the large city that is closest to them. This is because there is no defined center to Orange County like there is in other areas which have one distinct large city. Five Orange County cities have populations exceeding 170,000 while no cities in the county have populations surpassing 360,000. Seven of these cities are among the 200 largest cities in the United States.

Orange County is also famous as a tourist destination, as the county is home to such attractions as Disneyland and Knott's Berry Farm, as well as sandy beaches for swimming and surfing, yacht harbors for sailing and pleasure boating, and extensive area devoted to parks and open space for golf, tennis, hiking, kayaking, cycling, skateboarding, and other outdoor recreation. It is at the center of Southern California's Tech Coast, with Irvine being the primary business hub.

The average price of a home in Orange County is $541,000. Orange County is the home of a vast number of major industries and service organizations. As an integral part of the second largest market in America, this highly diversified region has become a Mecca for talented individuals in virtually every field imaginable. Indeed the colorful pageant of human history continues to unfold here; for perhaps in no other place on earth is there an environment more conducive to innovative thinking, creativity and growth than this exciting, sun bathed valley stretching between the mountains and the sea in Orange County.

Orange County was Created March 11 1889, from part of Los Angeles County, and, according to tradition, so named because of the flourishing orange culture. Orange, however, was and is a commonplace name in the United States, used originally in honor of the Prince of Orange, son-in-law of King George II of England.

Incorporated: March 11, 1889
Legislative Districts:
* Congressional: 38th-40th, 42nd & 43
* California Senate: 31st-33rd, 35th & 37
* California Assembly: 58th, 64th, 67th, 69th, 72nd & 74

County Seat: Santa Ana
County Information:
Robert E. Thomas Hall of Administration
10 Civic Center Plaza, 3rd Floor, Santa Ana 92701
Telephone: (714)834-2345 Fax: (714)834-3098
County Government Website: http://www.oc.ca.gov

CITIES OF ORANGE COUNTY CALIFORNIA:

City of Aliso Viejo, 92653, 92656, 92698
City of Anaheim, 92801, 92802, 92803, 92804, 92805, 92806, 92807, 92808, 92809, 92812, 92814, 92815, 92816, 92817, 92825, 92850, 92899
City of Brea, 92821, 92822, 92823
City of Buena Park, 90620, 90621, 90622, 90623, 90624
City of Costa Mesa, 92626, 92627, 92628
City of Cypress, 90630
City of Dana Point, 92624, 92629
City of Fountain Valley, 92708, 92728
City of Fullerton, 92831, 92832, 92833, 92834, 92835, 92836, 92837, 92838
City of Garden Grove, 92840, 92841, 92842, 92843, 92844, 92845, 92846
City of Huntington Beach, 92605, 92615, 92646, 92647, 92648, 92649
City of Irvine, 92602, 92603, 92604, 92606, 92612, 92614, 92616, 92618, 92619, 92620, 92623, 92650, 92697, 92709, 92710
City of La Habra, 90631, 90632, 90633
City of La Palma, 90623
City of Laguna Beach, 92607, 92637, 92651, 92652, 92653, 92654, 92656, 92677, 92698
City of Laguna Hills, 92637, 92653, 92654, 92656
City of Laguna Niguel
, 92607, 92677
City of Laguna Woods, 92653, 92654
City of Lake Forest, 92609, 92630, 92610
City of Los Alamitos, 90720, 90721
City of Mission Viejo, 92675, 92690, 92691, 92692, 92694
City of Newport Beach, 92657, 92658, 92659, 92660, 92661, 92662, 92663
City of Orange, 92856, 92857, 92859, 92861, 92862, 92863, 92864, 92865, 92866, 92867, 92868, 92869
City of Placentia, 92870, 92871
City of Rancho Santa Margarita, 92688, 92679
City of San Clemente, 92672, 92673, 92674
City of San Juan Capistrano, 92675, 92690, 92691, 92692, 92693, 92694
City of Santa Ana, 92701, 92702, 92703, 92704, 92705, 92706, 92707, 92708, 92711, 92712, 92725, 92728, 92735, 92799
City of Seal Beach, 90740
City of Stanton, 90680
City of Tustin, 92780, 92781, 92782
City of Villa Park, 92861, 92867
City of Westminster, 92683, 92684, 92685
City of Yorba Linda, 92885, 92886, 92887

Noteworthy communities Some of the communities that exist within city limits are listed below: * Anaheim Hills, Anaheim * Balboa Island, Newport Beach * Corona del Mar, Newport Beach * Crystal Cove / Pelican Hill, Newport Beach * Capistrano Beach, Dana Point * El Modena, Orange * French Park, Santa Ana * Floral Park, Santa Ana * Foothill Ranch, Lake Forest * Monarch Beach, Dana Point * Nellie Gail, Laguna Hills * Northwood, Irvine * Woodbridge, Irvine * Newport Coast, Newport Beach * Olive, Orange * Portola Hills, Lake Forest * San Joaquin Hills, Laguna Niguel * San Joaquin Hills, Newport Beach * Santa Ana Heights, Newport Beach * Tustin Ranch, Tustin * Talega, San Clemente * West Garden Grove, Garden Grove * Yorba Hills, Yorba Linda * Mesa Verde, Costa Mesa

Unincorporated communities These communities are outside of the city limits in unincorporated county territory: * Coto de Caza * El Modena * Ladera Ranch * Las Flores * Midway City * Orange Park Acres * Rossmoor * Silverado Canyon * Sunset Beach * Surfside * Trabuco Canyon * Tustin Foothills

Adjacent counties to Orange County Are: * Los Angeles County, California - north, west * San Bernardino County, California - northeast * Riverside County, California - east * San Diego County, California - southeast

 

 

"An honest answer is the sign of true friendship."

We receive many customers from across the world including people from the following cities:

Aliso Viejo 92656, 92698, Anaheim 92801, 92802, 92803, 92804, 92805, 92806, 92807, 92808, 92809, 92812, 92814, 92815, 92816, 92817, 92825, 92850, 92899, Atwood, 92811, Brea, 92821, 92822,92823, Buena Park, 90620 ,90621,90622, 90624, Capistrano Beach, 92624, Corona del Mar, 92625, Costa Mesa, 92626, 92627, 92628, Cypress, 90630, Dana Point, 92629, East Irvine, 92650, El Toro, 92609, Foothill Ranch, 92610, Fountain Valley, 92708, 92728, Fullerton, 92831, 92832, 92833, 92834, 92835, 92836, 92837, 92838, Garden Grove, 92840, 92841, 92842, 92843 ,92844, 92845, 92846, Huntington Beach , 92605, 92615, 92646, 92647, 92648, 92649, Irvine, 92602, 92603, 92604, 92606, 92612, 92614, 92616, 92617, 92618, 92619, 92620, 92623, 92697, La Habra, 90631, 90632, 90633, La Palma, 90623, Ladera Ranch, 92694, Laguna Beach , 92651, 92652, Laguna Hills ,92653, 92654,92607,92677, Laguna Woods, 92637, Lake Forest, 92630, Los Alamitos, 90720, 90721, Midway City, 92655, Mission Viejo, 92690, 92691, 92692,Newport Beach , 92658, 92659, 92660, 92661, 92662, 92663, 92657,
Orange, 92856, 92857, 92859, 92862, 92863, 92864, 92865, 92866, 92867, 92868, 92869, Placentia, 92870, 92871, Rancho Santa Margarita 92688, San Clemente, 92672, 92673, 92674, San Juan Capistrano, 92675, 92693,
Santa Ana , 92701, 92702, 92703, 92704, 92705 ,92706, 92707, 92711, 92712, 92725.92735, 92799, Seal Beach , 90740, Silverado 92676, Stanton, 90680, Sunset Beach 90742, Surfside 90743, Trabuco Canyon, 92678, 92679,Tustin ,92780, 92781,92782, Villa Park, 92861,Westminster, 92683, 92684, 92685, Yorba Linda, 92885, 92886, 92887

This Business was Awarded
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(c) 2016 Electricians Orange County CA, JS Electric,, 24112 Valyermo Drive , Mission Viejo, CA 92691
(c) 2016 Electricians Orange County CA, JS Electric,, 19171 Magnolia Ave. , Huntington Beach, CA 92646
(c) 2016 Electricians Orange County CA, JS Electric,, 111 W. Avenida Palizada, Suite 15A, San Clemente, CA 92762


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