(714) 469-2110
Electrician Orange County CA - JS ELECTRIC - Call Today (714) 469-2110
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

"Invention is the most important product of man's creative brain. The ultimate purpose is the complete mastery of mind over the material world,
the harnessing of human nature to human needs." - Nikola Tesla

Orange County

JS Electric
We are licensed 652382,
bonded, and insured

We accept Visa/Mastercard.

(714) 469-2110

"Good Power
Leads To Great Things!"
Greater Living

(714) 469-2110

In Orange County

JS Electric
We are licensed 652382,
bonded, and insured

We accept Visa/Mastercard

(714) 469-2110

24112 Valyermo Drive
Mission Viejo, CA 92691

111 W. Avenida Palizada
San Clemente, CA 92672

19171 Magnolia Ave.
Huntington Beach, CA 92646

(714) 469-2110


(714) 469-2110

NOTE: The information and notices contained on this website are intended as general research and information and are expressly not intended, and should not be regarded, as medical, financial or legal advice. The articles are from free sources. Our boutiques reserve the right to refuse service to anyone. All of our lash artists have been trained in eyelash extensions and conduct business in a professional manner. A sales tax is included in the amounts quoted/charged, some retail products have not been taxed, you will pay this upon purchase.



Orange County CA, Visit: OrangeCountyCA

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.



JS Electric - - has been specializing in SOLAR PANELS and SOLAR POWER of homes, commercial buildings, and industrial sites for OVER 15 YEARS. We Do Completely Off The Grid Solar System Setups, Partial Off The Grid Solar Systems, Individual Item Solar Power Systems and Create Hybrid Solar Electric Power Systems.

Where you can park your car in the shade and generate power.

We're your premier SOLAR POWER electrical contractor
to install Solar Panels on your home and business because we have exceptional service at fair market prices and we answer the phone or call you back within minutes. If you need financing from the State and Federal Program like the Hero program we can help. If you need to be completely off the grid with battery backups we can do this for your home or business. If you only want your water heater or pool pumps connected to solar energy we can do this as well.

Because we are not solar salesman and actually electricians, we build your system to your needs. We configure your system in ways solar selling companies cannot do because of the financing programs they represent to sell power back to the power companies.

We have access to the entire market of panels and can get panels that look like roof tiles, awnings, siding, ones that track the sun, or standard low cost panels and much more. Call us today and we will figure out your budget and what configuration meets those needs and how off the grid you can become.

We also do solar hybrid electric homes and business, These are homes and businesses that use some solar, wind, natural gas, water, generators, fuel cell technologies and more to come up with creative alternative power needs.


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


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

Schematic symbol for Solar Panel

Solar panels get energy from the sun for people to use. There are two types of solar panels, those that collect heat (thermal), and those that produce electricity (photovoltaic). Heat from solar panels is often used for space heating and for hot water.

Solar panels collect renewable energy. In the 20th century some used the heat of the sun to make steam for a steam engine to turn a generator. Nowadays producing electricity from the sun's light is cheaper. This is a solid state way of producing electricity, meaning that it has no moving parts. Solar panels are often mounted on rooftops. Commercial or industrial installations are often on trackers mounted on the ground. The trackers point the panel towards the sun as the sun moves across the sky. Solar panels are also commonly used in outer space, where they are one of the few power sources available.



Solar panels for heat are usually made from a box with a clear window on top. Pipes run through the box. The pipes and the box are usually painted black because black absorbs more heat than other colors. The pipes are filled with a heat transfer fluid such as water or oil. A pump circulates the fluid, which heats up as it is exposed to the sun. When the hot fluid leaves the panel, it goes into a heat exchanger, which transfers the heat into water or air. After the now cool fluid leaves the heat exchanger, it is pumped back up into the panel to collect heat again.


Photovoltaic Panels, or Solar Panels, are built to last about thirty years. So far, most of the solar panels, originally created in the 1980's have not yet reached the end of their estimated lifespans. Many of the solar panels which have expired, however, have been classified as hazardous waste. The used solar panels that haven't been considered dangerous can be recycled to create new solar panels. Over 90% of the solar panel is recyclable to create either new solar panels or scrap material. First, the panels are broken down by removing the metal frames and glass plate, leaving the group of solar cell sandwiched between an ethylene vinyl acetate (EVA) resin and back film. To actually get to the solar cells themselves, the resin and backing must be removed.


The top ten uses for solar panels include,

  • heat for your home
  • power pumps
  • indoor and out door light battery charging which can be a beneficial if you have a reserve battery bank that is charged through the day while sunlight is present and is used through the nighttime hours. It can also be used for simple solar panels to collect sunlight and convert it into electricity.
  • powering your home, camper, cabin, tool shed, or any other building for that matter.
  • when heating swimming pools, a solar hot water heating system utilizes the solar hot water heating panels, that can be mounted on your roof to collect the suns heat and then is circulated to the pool.
  • Solar panels are also being used in space exploration and other forms of transportation.


Solar panels have become much cheaper to use, compared to oil, diesel, liquified natural gas in parts of Asia. Solar energy will soon become the main source of energy. Over the years many innovations have been to improve solar panels. Solar panels have been used for space exploration and are being developed to be able to power cars. Along with this, scientists are developing solar cells in silicone to increase its convenience.

Solar shingles

Solar shingles are a new type of solar panel that look like ordinary asphalt roof shingles. They are used where the appearance of traditional solar panels might be undesirable, such as on residential rooftops. Solar shingles are more expensive and less durable than normal solar panels.

At the equator, the Sun provides approximately 1000 watts per square meter on Earth's surface.
The top diagram shows how the strength of sunlight is less nearer the Earth's poles. The lower map shows how much solar energy hits the Earth's surface after clouds and dust have reflected and absorbed some solar energy.
Solar Radiation Map: Global Horizontal Irradiation in Europe

Solar energy is energy that is present in sunlight. It has been used for thousands of years in many different ways by people all over the world. As well as its traditional human uses in heating, cooking, and drying, it is used today to make electricity where other power supplies are absent, such as in remote places and in space. It is becoming cheaper to make electricity from solar energy and in many situations it is now competitive with energy from coal or oil.

Energy use

Solar energy is used today in a number of ways:

Energy from the Sun

After passing through the Earth's atmosphere, most of the Sun's energy is in the form of visible light and infrared light radiation. Plants convert the energy in sunlight into chemical energy (sugars and starches) through the process of photosynthesis. Humans regularly use this store of energy in various ways, as when they burn wood or fossil fuels, or when simply eating plants, fish and animals.

Solar radiation reaches the Earth's upper Earth's atmosphere with the power of 1366 watts per square meter (W/m2). Since the Earth is round, the surface nearer its poles is angled away from the Sun and receives much less solar energy than the surface nearer the equator.

At present, solar cell panels convert, at best, about 15% of sunlight hitting them into electricity. The dark disks in the third diagram on the right are imaginary examples of the amount of land that, if covered with 8% efficient solar panels, would produce slightly more energy in the form of electricity than the world needed in 2003.

Types of technologies

Solar energy absorbing panels on the sound barrier next to the Munich airport.

Many technologies have been developed to make use of solar radiation. Some of these technologies make direct use of the solar energy (e.g. to provide light, heat, etc.), while others produce electricity.

Solar power plants

Solar power plants convert sunlight into electricity, either directly using photovoltaics (PV), or indirectly using concentrated solar power (CSP). Concentrated solar power systems use lenses or mirrors and tracking systems to focus a large area of sunlight into a small beam. Photovoltaics converts light into electric current using the photoelectric effect.


World's largest photovoltaic power stations
Photovoltaic power station Country Site co-ordinates Nominal
Notes and references
Topaz Solar Farm USA 3523'N 1204'W? / ?35.383N 120.067W? / 35.383; -120.067? (Topaz Solar Farm) &&&&&&&&&&&&0500.&&&&&0500 installed capacity as of June 2014.
Desert Sunlight Solar Farm USA 3349'33?N 11524'08?W? / ?33.82583N 115.40222W? / 33.82583; -115.40222? (Desert Sunlight Solar Farm) &&&&&&&&&&&&0500.&&&&&0500 Commissioned since November 2013 toward final capacity 550 MW
Longyangxia Dam Solar Park China 3607'20?N 10055'06?E? / ?36.12222N 100.91833E? / 36.12222; 100.91833? (Longyangxia Dam Solar Park) &&&&&&&&&&&&0320.&&&&&0320 Completed December 2013
Solar Star I and II USA &&&&&&&&&&&&0309.&&&&&0309 Under construction, 579MW when completed
California Valley Solar Ranch USA 3520'N 11955'W? / ?35.333N 119.917W? / 35.333; -119.917? (California Valley Solar Ranch) &&&&&&&&&&&&0292.&&&&&0292 399 First 130MW connected Feb 2013.
Agua Caliente Solar Project USA 3257.2'N 11329.4'W? / ?32.9533N 113.49W? / 32.9533; -113.49? (Agua Caliente) &&&&&&&&&&&&0290.&&&&&0290 626 completed April 2014
Antelope Valley Solar Ranch USA 3446'N 11825'W? / ?34.76667N 118.41667W? / 34.76667; -118.41667? (Antelope Valley Solar Ranch) &&&&&&&&&&&&0266.&&&&&0266 230 MWAC. Has received government loan guarantee

Concentrated solar thermal


View of Ivanpah Solar Electric Generating System from Yates Well Road, San Bernardino County, California. The Clark Mountain Range can be seen in the distance.
Rank Station Country Location Capacity (MW) Ref
1 Ivanpah  United States 3534'N 11528'W? / ?35.567N 115.467W? / 35.567; -115.467? (Ivanpah Solar Power Facility) 377
2 SEGS  United States 3501'54?N 11720'53?W? / ?35.03167N 117.34806W? / 35.03167; -117.34806? (Solar Energy Generating Systems) 354
3 Solana  United States 3255'N 11258'W? / ?32.917N 112.967W? / 32.917; -112.967? (Solana Generating Station) 280
4 Genesis  United States 3338'38?N 11459'17?W? / ?33.64389N 114.98806W? / 33.64389; -114.98806? (Genesis Solar) 250
5 Solaben  Spain 3913'29?N 523'26?W? / ?39.22472N 5.39056W? / 39.22472; -5.39056? (Solaben Solar Power Station) 200
6 Solnova  Spain 3725'00?N 0617'20?W? / ?37.4166667N 6.28889W? / 37.4166667; -6.28889? (Solnova Solar Power Station) 150
6 Andasol  Spain 3713'43?N 0304'07?W? / ?37.22861N 3.06861W? / 37.22861; -3.06861? (Andasol Solar Power Station) 150
6 Extresol  Spain 3839'N 644'W? / ?38.65N 6.733W? / 38.65; -6.733? (Extresol Solar Power Station) 150
9 Palma del Rio  Spain 3738'N 515'W? / ?37.633N 5.25W? / 37.633; -5.25? (Palma del Rio Solar Power Station) 100
9 Manchasol  Spain 3911'N 318'W? / ?39.183N 3.3W? / 39.183; -3.3? (Manchasol Power Station) 100
9 Valle  Spain 3639'N 550'W? / ?36.65N 5.833W? / 36.65; -5.833? (Valle Solar Power Station) 100

Solar cooker

Solar cooking

Solar cooking uses the Sun as the source of energy instead of standard cooking fuels such as charcoal, coal or gas. Solar cookers are an inexpensive and environmentally sound alternative to traditional ovens. They are becoming widely used in areas of the developing world where deforestation is an issue, financial resources to purchase fuel are limited, and where open flames would pose a serious risk to people and the environment.

Solar heater

House with solar panels for heating and other needs in Jablunkov, Czech Republic.

The Sun may be used to heat water instead of electricity or gas. There are two basic types of active solar heating systems based on the type of fluid either liquid or air that is heated in the solar energy collectors. (The collector is the device in which a fluid is heated by the Sun.)

Liquid-based systems heat water or an antifreeze solution in a "hydronic" collector, whereas air-based systems heat air in an "air collector." Both air and liquid systems can supplement forced air systems.

Solar cells

Photo of 4 inch by 4 inch cell.

Solar cells can be used to generate electricity from sunlight. It is a device that converts light energy into electrical energy. Sometimes the term solar cell is reserved for devices intended specifically to capture energy from sunlight, while the term photovoltaic cell is used when the light source is unspecified.

Solar cells have many applications. They have long been used in situations where electrical power from the grid is unavailable, such as in remote area power systems, Earth-orbiting satellites and space probes, consumer systems, e.g. handheld calculators or wrist watches, remote radiotelephones and water pumping applications.

Related pages


  1. ? A solar panel in the contiguous United States on average delivers 19 to 56 W/m or 0.45 - 1.35 (kWh/m)/day."us_pv_annual_may2004.jpg". National Renewable Energy Laboratory, US. Retrieved 2006-09-04.
  2. ? International Energy Agency - Homepage
  3. ? Technologies: From silicon to the solar cell.
  4. ? The Tribune: California Valley's Topaz Solar Farm now producing electricity
  5. ? SolarServer: CPI completes massive hybrid solar PV/hydro plant in Western China
  6. ? Solar Star Project, Japan DG Demand Drive SunPower's Q3, Forbes, 10/31/2014
  7. ? [1]
  8. ? Energy Division Resolution E-4229
  9. ? U.S. Solar Market Trends 2013, IREC, July 2014
  10. ? Meza, Edgar (27 June 2013). "NRG Energy completes 250 MW California Valley Solar Ranch". Solar Energy Industry Association. Retrieved 5 July 2013.
  11. ? "130MW energized". California Valley Solar Ranch. Retrieved Feb 2013.
  12. ? 12.0 12.1 RPS Project Status Table - February Update
  13. ? World's Largest Operational Solar PV Project, Agua Caliente, Achieves 250 Megawatts of Grid-Connected Power
  14. ? "First Solar Stops Installation at Agua Caliente Project". Bloomberg.
  15. ? Worlds Biggest Solar PV Plant a Feather in DOEs Cap, Pete Danko, greentechmedia, May 2, 2014
  16. ? "AV Solar Ranch One". NextLight Renewable Power LLC. 2009. Retrieved 2009-06-06.
  17. ? Project Overview
  18. ? Hill, Joshua (22 Feb 2013). "Antelope Valley Solar Ranch One Achieves 100 Megawatt Milestone". Clean Technica. Retrieved Feb 2013.
  19. ? Ivanpah Solar Electric Generating System,, retrieved 2014-02-18
  20. ? SEGS Power Stations,, retrieved 2010-03-20
  21. ? Abengoa Solar: Abengoas Solana, the USs first large-scale solar plant with thermal energy storage system, begins commercial operation
  22. ? CSP World
  23. ? Andasol Solar Power Station,, retrieved 2010-03-20
  24. ? Andasol Solar Power Station,,lang2,109,155.html, retrieved 2010-03-20
  25. ? 25.0 25.1 25.2 25.3 (Spanish) Lokalizacion de Centrales Termosolares en Espana
  27. ? VALLE 1 and VALLE 2
  28. ? Active Solar Heating

Other websites

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A solar cell or photovoltaic cell is a device that converts light energy into electrical energy. Sometimes the term solar cell is reserved for devices intended specifically to capture energy from sunlight, while the term photovoltaic cell is used when the light source is unspecified. The device needs to fulfill only two functions: photogeneration of charge carriers (electrons and electron holes) in a light-absorbing material, and separation of the charge carriers to a conductive contact that will transmit the electricity. This conversion is called the photovoltaic effect, and the field related to solar cells is known as photovoltaics.

A solar cell, made from a monocrystalline silicon wafer.

Solar cells applications

Solar cells have many apps. They have long been used in situations where electrical power from the grid is unavailable, such as in remote area power systems, Earth-orbiting satellites and space probes, consumer systems, e.g. handheld calculators or wrist watches, remote radiotelephones and water pumping applications. More recently, they are starting to be used in assemblies of solar modules connected to the electricity grid through an inverter, often in combination with net metering.

Solar cells are regarded as one of the key technologies towards a sustainable energy supply.

Three generations of development


The first generation photovoltaic consists of a large-area, single layer p-n junction diode, which is capable of generating usable electrical energy from light sources with the wavelengths of sunlight. These cells are typically made using a silicon wafer. First generation photovoltaic cells (also known as silicon wafer-based solar cells) are the dominant technology in the commercial production of solar cells, accounting for more than 86% of the solar cell market.


The second generation of photovoltaic materials is based on the use of thin-film deposits of semiconductors. These devices were initially designed to be high-efficiency, multiple junction photovoltaic cells. Later, the advantage of using a thin-film of material was noted, reducing the mass of material required for cell design. This contributed to a prediction of greatly reduced costs for thin film solar cells. Currently (2007) there are different technologies/semiconductor materials under investigation or in mass production, such as amorphous silicon, poly-crystalline silicon, micro-crystalline silicon, cadmium telluride, copper indium selenide/sulfide. Typically, the efficiencies of thin-film solar cells are lower compared with silicon (wafer-based) solar cells, but manufacturing costs are also lower, so that a lower price in terms of $/watt of electrical output can be achieved. Another advantage of the reduced mass is that less support is needed when placing panels on rooftops and it allows fitting panels on light materials or flexible materials, even textiles. This allows for portable roll-up solar panels, which can fit in a backpack and be used to power cell phones or laptops in remote areas.


Third generation photovoltaics are very different from the other two, broadly defined as semiconductor devices which do not rely on a traditional p-n junction to separate photogenerated charge carriers. These new devices include photoelectrochemical cells, Polymer solar cells, and nanocrystal solar cells.

Companies working on third generation photovoltaics include Xsunx, Konarka Technologies, Inc., Nanosolar and Nanosys. Research is also being done in this area by the USA's National Renewable Energy Laboratory (


  • McDonald SA, Konstantatos G, Zhang S, Cyr PW, Klem EJ, Levina L, Sargent EH (2005). "Solution-processed PbS quantum dot infrared photodetectors and photovoltaics". Nature Materials 4 (2): 138-42. PMID 15640806.
  • PVNET European Roadmap for PV R&D Ed Arnulf Jager-Waldan Office for Publications of the European Union 2004

Other websites


PEC (Photo Electro Chromic)
Cuprous oxide solar cells



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:


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

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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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