Posts Tagged ‘electrical specifications’

Electrician in Flower Mound talks about PV II

Friday, February 4th, 2011

Jeffries electric has great residential electric repairs and commercial electric repairs. Jeffries Electric is a GSA schedule holder.We install 200 amp panels and replace federal breaker panels. We install landscape lights and recessed lights. We fix electrical plugs and electrical switches and 3 way switches. we are your Denton electrician, Coppell electrician, lewisville electrician, highland village electrician, Frisco electrician, Plano electrician, corinth electrician. We fix gfci plugs and repair breakers. We install whole house surge protector. Licensed electrician and insured electrician. Add phone outlets. We repair landscape lights. We fix light switches. Install ground rod. Electric repair work should be performed by a licensed electrician. Be safe and turn off the breaker first. This information is from the public domain. More info can be found with a short internet search.

Photovoltaic Electrical Contacts and Cell Coatings
The outermost layers of photovoltaic (PV) cell, or solar cell, are the electrical contacts and anti-reflective coating. These layers provide essential functions to the cell’s operation.

Electrical Contacts
Electrical contacts are essential to PV cells because they bridge the connection between the semiconductor material and the external electrical load, such as a light bulb.

A typical solar cell consists of a glass or plastic cover, an antireflective coating, a front contact to allow electrons to enter a circuit, a back contact to allow them to complete the circuit, and the semiconductor layers where the electrons begin and complete their journey.
The back contact of a cell—the side away from the incoming sunlight—is relatively simple. It usually consists of a layer of aluminum or molybdenum metal.

But the front contact—the side facing the sun—is more complicated. When sunlight shines on a PV cell, a current of electrons flows over the surface. To collect the most current, contacts must be placed across the surface of the cell. This is normally done with a grid of metal strips or “fingers.” However, placing a large grid, which is opaque, on top of the cell shades active parts of the cell from the sun and reduces the cell’s conversion efficiency. To improve conversion efficiency, shading effects must be minimized.

Another challenge in cell design is to minimize the electrical resistance losses when applying grid contacts to the solar cell material. These losses are related to the solar cell material’s property of opposing the flow of an electric current, which results in heating the material. Therefore, shading effects must be balanced against electrical resistance losses. The usual approach is to design grids with many thin, conductive fingers that spread to every part of the cell’s surface. The fingers of the grid must be thick enough to conduct well (with low resistance) but thin enough not to block too much incoming light.

Grid contacts on the top surface of a typical cell are designed to have many thin, conductive fingers spreading to every part of the cell’s surface.
Grids can be expensive to make and can affect the cell’s reliability. To make top-surface grids, metallic vapors are deposited on a cell through a mask or painted on via a screen-printing method. An alternative to metallic grid contacts is a transparent conducting oxide (TCO) layer made of, for example, tin oxide (SnO2). The advantages o TCOs are that they are nearly invisible to incoming light and they form a good bridge from the semiconductor material to the external electrical circuit. TCOs are very useful in manufacturing processes involving a glass superstrate, which is the covering on the sun-facing side of a PV module. In this process, the TCO is generally deposited as a thin film on the glass superstrate before the semiconducting layers are deposited. The semiconducting layers are then followed by a metallic contact that is actually the bottom of the cell. The cell is therefore constructed “upside down,” from the top to the bottom.

The sheet resistance of the semiconductor is also an important consideration in grid design. In crystalline silicon, for example, the semiconductor carries electrons well enough to reach a finger of a metallic grid. Because the metal conducts electricity better than a TCO, shading losses are less than losses associated with a TCO. Other semiconductors, such as amorphous silicon, conduct very poorly in the horizontal direction. Therefore, they benefit from having a TCO over the entire surface.

Cell Coatings
Silicon is a shiny gray material that can act as a mirror by reflecting more than 30% of the light that shines on it. To improve the conversion efficiency of a solar cell, the amount of light reflected must be minimized.

Two techniques are commonly used to reduce reflection. The first technique is to coat the top surface with a thin layer of silicon monoxide (SiO). A single layer reduces surface reflection to about 10%, and a second layer can lower the reflection to less than 4%. The second technique is to texture the top surface. Chemical etching creates a pattern of cones and pyramids, which captures light rays that might otherwise be deflected away from the cell. Reflected light is redirected into the cell, where it has another chance to be absorbed.
Jeffries electric has great residential electric repairs and commercial electric repairs. We install 200 amp panels and replace federal breaker panels. We install landscape lights and recessed lights. We fix electrical plugs and electrical switches and 3 way switches. we are your Denton electrician, Coppell electrician, lewisville electrician, highland village electrician, Frisco electrician, Plano electrician, corinth electrician. We fix gfci plugs and repair breakers. We install whole house surge protector. Licensed electrician and insured electrician. Add phone outlets. We repair landscape lights. We fix light switches. Install ground rod. Electric repair work should be performed by a licensed electrician. Be safe and turn off the breaker first.

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Coppell electrician talks about lighting – led II -doe

Monday, January 10th, 2011

This data is from the public domain and is time sensitive. Newer data will be available soon. Jeffries electric has great residential electric repairs and commercial electric repairs. We install 200 amp panels and replace federal breaker panels. We install landscape lights and recessed lights. We fix electrical plugs and electrical switches and 3 way switches. we are your Denton electrician, Coppell electrician, lewisville electrician, highland village electrician, Frisco electrician, Plano electrician, corinth electrician. We fix gfci plugs and repair breakers. We install whole house surge protector. Licensed electrician and insured electrician. Add phone outlets. We repair landscape lights. We fix light switches. Install ground rod. Electric repair work should be performed by a licensed electrician. Be safe and turn off the breaker first.

Luminous Efficacy

Energy efficiency of light sources is typically measured in lumens per watt (lm/W), meaning the amount of light produced for each watt of electricity consumed by the light source. This is known as luminous efficacy. DOE’s long-term research and development goal calls for white-light LEDs producing 160 lm/W in cost-effective, market-ready systems by 2025. In the meantime, how does the luminous efficacy of today’s white LEDs compare to traditional light sources? Currently, the most efficacious white LEDs can perform similarly to fluorescent lamps. However, there are several important caveats, as explained below.

Color Quality

The most efficacious LEDs have very high correlated color temperatures (CCTs), often above 5000K, producing a “cold” bluish light. However, warm white LEDs (2600K to 3500K) have improved significantly, now approaching the efficacy of CFLs. In addition to warmer appearance, LED color rendering is also improving: leading warm white LEDs are now available with color rendering index (CRI) of 80, equivalent to CFLs.

Driver Losses

Fluorescent and high-intensity discharge (HID) light sources cannot function without a ballast, which provides a starting voltage and limits electrical current to the lamp. LEDs also require supplementary electronics, usually called drivers. The driver converts line power to the appropriate voltage (typically between 2 and 4 volts DC for high-brightness LEDs) and current (generally 200-1000 milliamps or mA), and may also include dimming and/or color correction controls.

Currently available LED drivers are typically about 85% efficient. So LED efficacy should be discounted by 15% to account for the driver. For a rough comparison, the range of luminous efficacies for traditional and LED sources, including ballast and driver losses as applicable, are shown below.

Light Source Typical Luminous
Efficacy Range in lm/W
  (varies depending on wattage and lamp type)
Incandescent (no ballast) 10-18
Halogen (no ballast) 15-20
Compact fluorescent (CFL)
(incl. ballast)		 35-60
Linear fluorescent (incl. ballast) 50-100
Metal halide (incl. ballast) 50-90
Cool white LED 5000K (incl. driver) 47-64*
Warm white LED 3300K (incl. driver) 25-44*

* As of October 2007.

Thermal Effects

The luminous flux figures cited by LED manufacturers are based on an LED junction temperature (Tj) of 25°C. LEDs are tested during manufacturing under conditions that differ from actual operation in a fixture or system. In general, luminous flux is measured under instantaneous operation (perhaps a 20 millisecond pulse) in open air. Tj will always be higher when operated under constant current in a fixture or system. LEDs in a well-designed luminaire with adequate heat sinking will produce 10%-15% less light than indicated by the “typical luminous flux” rating.

Terms

Efficiency or efficacy?

The term “efficacy” normally is used where the input and output units differ. For example in lighting, we are concerned with the amount of light (in lumens) produced by a certain amount of electricity (in watts). The term “efficiency” usually is dimensionless. For example, lighting fixture efficiency is characterized as a ratio of the total lumens exiting the fixture to the total lumens produced by the light source. “Efficiency” is also used to discuss the broader concept of using resources efficiently.

Lumen:

The SI unit of luminous flux. The total amount of light emitted by a light source, without regard to directionality, is given in lumens.

Luminous efficacy:

The total luminous flux emitted by the light source divided by the lamp wattage; expressed in lumens per watt (lm/W).

Luminaire efficacy:

The total luminous flux emitted by the luminaire divided by the total power input to the luminaire, expressed in lm/W.

Jeffries electric has great residential electric repairs and commercial electric repairs. We install 200 amp panels and replace federal breaker panels. We install landscape lights and recessed lights. We fix electrical plugs and electrical switches and 3 way switches. we are your Denton electrician, Coppell electrician, lewisville electrician, highland village electrician, Frisco electrician, Plano electrician, corinth electrician. We fix gfci plugs and repair breakers. We install whole house surge protector. Licensed electrician and insured electrician. Add phone outlets. We repair landscape lights. We fix light switches. Install ground rod. Electric repair work should be performed by a licensed electrician. Be safe and turn off the breaker first.

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Reference: TradeMaster®/Spec Grade 15 Amp Duplex GFCI

Tuesday, January 4th, 2011

Jeffries electric has great residential electric repairs and commercial electric repairs. We install 200 amp panels and replace federal breaker panels. We install landscape lights and recessed lights. We fix electrical plugs and electrical switches and 3 way switches. we are your Denton electrician, Coppell electrician, lewisville electrician, highland village electrician, Frisco electrician, Plano electrician, corinth electrician. We fix gfci plugs and repair breakers. We install whole house surge protector. Licensed electrician and insured electrician. Add phone outlets. We repair landscape lights. We fix light switches. Install ground rod. Electric repair work should be performed by a licensed electrician. Be safe and turn off the breaker first.

For customer reference only. Originally published online @ http://passandseymour-

  • SafeLock™ Protection: if critical components are damaged and ground fault protection is lost, power to receptacle is disconnected.
  • Prevents line-load reversal miswire: no power to the face or downstream receptacles if wired incorrectly.
  • Exceeds UL943 voltage surge requirements; survives 100x the required UL 3kA/6kV voltage surge test cycles.
  • FSUL Listed (Federal Specification WC596).
  • Trip indicator light (red LED).
  • Side or internal screw-pressure-plate back wire with #10 – #14 AWG solid or stranded copper wire.
  • Two back wire holes per terminal.
  • Ground screw has a back wire clamp for easy installation.
  • 1/4″ thinner than competitors’ GFCIs; leaves more room for wires in the box.
  • Mounting screws are shipped captive in the device and wall plate for easier installation.
  • High-impact-resistant thermoplastic construction.
  • Extra-long strap.
  • Button colors match the device face.
  • Dual-direction test and reset buttons.
  • Class A rated GFCI.
  • Supplied with matching TP26 nylon wall plate.
  • Tri-drive screws.
  • GFCIs with Auto-Ground assure a positive ground to metal box.
  • Technical Specifications : call 1-800-223-4185 or email tech_support@pass-seymour.com for technical support.
  • Technical specifications and product catalog pages are in Adobe Acrobat (PDF) format. To get the free Adobe Acrobat browser plugin, go to the Adobe website.
  TradeMaster®/Spec Grade 15 Amp Duplex GFCI
Catalog Number Page (PDF)   Rating A. Rating VAC Color NEMA Config. No. 3rd Party Compliance – cULus
1595 C05   15 125 Brown 5-15R UL
UL943		 UL
UL498		 FSUL WC596 CSA
C22.2 No. 144		 CSA
C22.2 No. 42
1595BK C05   15 125 Black 5-15R UL
UL943		 UL
UL498		 FSUL WC596 CSA
C22.2 No. 144		 CSA
C22.2 No. 42
1595GRY C05   15 125 Gray 5-15R UL
UL943		 UL
UL498		 FSUL WC596 CSA
C22.2 No. 144		 CSA
C22.2 No. 42
1595I C05   15 125 Ivory 5-15R UL
UL943		 UL
UL498		 FSUL WC596 CSA
C22.2 No. 144		 CSA
C22.2 No. 42
1595LA C05   15 125 Light Almond 5-15R UL
UL943		 UL
UL498		 FSUL WC596 CSA
C22.2 No. 144		 CSA
C22.2 No. 42
1595RED C05   15 125 Red 5-15R UL
UL943		 UL
UL498		 FSUL WC596 CSA
C22.2 No. 144		 CSA
C22.2 No. 42
1595W C05   15 125 White 5-15R UL
UL943		 UL
UL498		 FSUL WC596 CSA
C22.2 No. 144		 CSA
C22.2 No. 42

Jeffries electric has great residential electric repairs and commercial electric repairs. We install 200 amp panels and replace federal breaker panels. We install landscape lights and recessed lights. We fix electrical plugs and electrical switches and 3 way switches. we are your Denton electrician, Coppell electrician, lewisville electrician, highland village electrician, Frisco electrician, Plano electrician, corinth electrician. We fix gfci plugs and repair breakers. We install whole house surge protector. Licensed electrician and insured electrician. Add phone outlets. We repair landscape lights. We fix light switches. Install ground rod. Electric repair work should be performed by a licensed electrician. Be safe and turn off the breaker first.

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