Lighting History 

Many believe Thomas Edison Invented the first light bulb, this is debatable Sir Joseph Wilson Swan from Sunderland invented the first low Voltage High current Light Bulb in 1850 whilst Thomas Alva Edison didn't invent his Incandescent light bulb until 1879, however both these were predated by Sir Humphry Davy of Penzance, England. He created the first incandescent light by passing current through a platinum strip. It caused a glow and did not last long, but marked the beginning of incandescent light development, He also is the discoverer of the first electric lamp type: the carbon arc lamp. 
 
The Incandescent light bulb of Edison's hasn't really changed that much up until recently as the design was simple and the light produced was bright, however massively inefficient as it uses electricity to burn a filament to produce light. 
 
Lighting has a major impact on the electrical drain on the world as nearly 19% of all electricity in the world goes on lighting and almost 66% of all lighting currently used in the world is based on older and less energy efficient technology which were developed before 1970. 

Pendant Bulb Types 

 
 
Lighting Technology 
 
This Diagram shows the development of lighting technology for pendant type fittings. These are the easiest and cheapest lighting to change as they are a direct swap and not fixture is needed to be changed. 
 
Traditional Incandescent is now banned in many countries due to its 10% efficiency whilst LED is finally at a point where it is a cheap highly efficient bulb, you can now purchase these bulbs from as little as a £1. 
 
LED is now Dimmable contrary to popular belief however these cost a little more due to the process involved. 

Fluorescent Lighting (Tubes) 

Benefits of Fluorescent Lamps 

Good efficacy (60 – 100 lm/W) 
A broad range of colour rendering characteristics 
Long lamp life (8000 – 16 000 h) 
A broad range of colour temperatures is available. 

Limitations of Fluorescent Lights 

Requires control gear 
Light output reduces under cold or hot 
conditions. 

Myth Solved. 

Leaving fluorescent lights on saves money rather than turning them off... FALSE it takes 2-8 seconds of energy to turn on a tubed light. 
Why Use Fluorescent Lighting  
 
The tubular fluorescent lamp is the most common type of discharge 
lamp, accounting for around 80% of the world’s electric lighting. 
The discharge within the lamp emits ultraviolet radiation which is 
converted to visible light by a phosphor coating on the inside of the 
tube. Over the years, the types of phosphor coating used have been 
improved, and enhanced alternatives are available to the original 
halophosphate coating which is still used today. However, halophosphate 
versions no longer meet the minimum colour rendering requirements for 
normal workplace interior lighting and so only triphosphor lamps should 
be used. These modern alternatives provide better lamp efficacy and 
improved colour rendering. 
 
Modern control gear operates at a high frequency and eliminates the 
discomfort of lamp flicker associated with older, less complex control 
gear. A further benefit of contemporary control gear is the ability to dim 
the light. 
 
Tubular fluorescent lamps are available in a range of lengths and three 
tube diameters. 
 
38 mm diameter (T12 lamp) 1938 - 1980 
This was the first lamp size to be manufactured and remains popular 
today. T12s are typically filled with argon gas, which is not as efficient as 
the combination of argon and krypton used in the more modern T8 
lamp. 
 
25 mm diameter (T8 lamp) 1980 - TODAY 
The T8 lamp was introduced in the 1970s and provides a more efficient 
alternative to the T12 (see above). A range of phosphor coatings are 
available enabling good efficacy and colour rendering. 
 
15 mm diameter (T5 lamp) 2000 - TODAY 
The most recent T5 lamps are more efficient than the T8 lamp, and are flicker-free as they only operate from high frequency electronic control gear. The T5 lamps are shorter than T8 and T12 lamps, and are designed to fit within 300 mm modules. 

Common Tube Ratings 

Tube diameter in 1⁄8 in (3.175 mm) 
Nominal length 
Nominal power (W) 
T5 
6 in, 150 mm 
T5 
9 in, 225 mm 
T5 
12 in, 300 mm 
T5 
21 in, 525 mm 
13 
T8 
18 in, 450 mm 
14 
T8 
2 ft, 600 mm 
18 
T8 
3 ft, 900 mm 
30 
T8 
4 ft, 1200 mm 
32 
T8 
5 ft, 1500 mm 
58 
T12 
18 in, 450 mm 
15 
T12 
2 ft, 600 mm 
20 
T12 
4 ft, 1200 mm 
40 
T12 
5 ft, 1500 mm 
65/80 
T12 
6 ft, 1800 mm 
75/85/100 
T12 
8 ft, 2400 m 
125 
 

Limitations of CFL's 

Initial cost is high in comparison to standard incandescent lamp but as incandescent have been phased out CFL's have dropped in price to fill the void 
Less efficient than standard tubular fluorescent lamps 
Light output diminishes with age, this is always a draw back with the bulb as they normally become poor before the end of life. 
Compact fluorescent lamps require electronic control gear which, with the exception of some small lamps, is a separate item. 
Now being superseded by LED equivalents, especially now LED bulbs have dropped down to the pound range. 
Been known to be aesthetically unpleasing, it cant be argued that CFL's have a unpleasing unnatrual appearence. 
Contain more mercury than older incandescents about 5mg in total in each bulb 

Compact Fluorescent lamps (Energy saving Bulbs)  

The compact fluorescent lamp has undergone considerable improvement in recent years and its increasing popularity looks set to make it one of the most widely used lamps on the market. 
In many lighting applications, compact fluorescent lamps provide an energy efficient alternative to standard incandescent lamps which, in the past, would have been the primary option. Compact fluorescent lamps have an average life of between 8000 – 10 000 h. Standard incandescent lamps generally have a life of about 1000 h. 
 
 
 
 
 

Benefits of CFL's 

Long lamp life – typically 8000 – 10 000 h. 
Consequently, minimal maintenance is 
required 
Good energy efficiency, providing up to 80% 
energy saving in comparison to standard 
incandescent lamps 
Life-cycle costing is very favourable in 
comparison to standard incandescent lamps 
Can be used as a direct replacement for a 
standard incandescent lamp 
Available with standard screw/bayonet fittings 
with the control gear an integral part of the 
lamp. 
Good colour rendering characteristics 
Broad range of applications. 

Light Emitting Diodes (LED) 

As your incandescents burn out, it's a good time to consider switching to LED bulbs. By now, you probably know that LEDs have an impressive lifespan (20-something years!) and are very cost-effective. You probably also know that while they've come down in price quite a bit, some options are up to five times more expensive than traditional bulbs. 
Despite the cost, now's the right time to switch to LEDs. These bulbs have made significant advances over the last few years, finally delivering the warm light incandescents have comforted us with for decades. 
 
More than ever, there is also an overwhelming number of LED varieties, and choosing an LED is entirely different from picking up an incandescent. Before you head to the store, find out what you need to know about choosing the right LED bulbs. 
 
Learn the lingo 
 
Forget what you know about incandescents -- your watts are no good here. 
 
When shopping for bulbs, you're probably accustomed to looking for watts, an indication of how bright the bulb will be. The brightness of LEDs, however, is determined a little differently. 
 
Contrary to common belief, wattage isn't an indication of brightness, but a measurement of how much energy the bulb draws. For incandescents, there is an accepted correlation between the watts drawn and the brightness, but for LEDs, watts aren't a great predictor of how bright the bulb will be. 
 
For example, an LED bulb with comparable brightness to a 60W incandescent is only 8 to 12 watts. 
 
But don't bother doing the math -- there isn't a uniform way to covert incandescent watts to LED watts. Instead, a different form of measurement should be used: lumens
 
The lumen (lm) is the real measurement of brightness provided by a light bulb, and is the number you should look for when shopping for LEDs. For reference, here's a chart that shows the watt-lumen conversion for incandescents and LEDs. 

MYTH SOLVED  

LEDs aren’t bright enough and have poor light quality.  

FALSE This was true at one time, but no more It can be refuted with some technical specs. LEDs have color temperatures ranging from 2,500K (warm white) to 6,500K (daylight), and Color Rendering Indexes between 75 and 85, with some high-end LEDs topping 90.