Outdoor Lighting

Outdoor Lighting
The outdoor lighting at my first house consisted of two 100-watt floodlights screwed into a pair of sockets by the back door. Let there be no doubt; they cast plenty of light. But they also attracted bugs and moths by the hundreds, cast bizarre shadows, blinded you if you looked at them, and-as for ambiance-well, forget about that. Low-voltage outdoor lights provide a pleasant alternative to this glaring example. They can be strategically positioned to highlight the plants and features you want to highlight. They can be used for safety-to illuminate paths, steps and dark zones where boogeymen hide. When artfully placed, they can be as beautiful and natural looking as the landscape itself. And since they’re low voltage (you can literally add wires and lights to the system while it’s operating), they’re safe to use and install. Here we’ll show you the special tips and tricks the pros use to install ’em.

Click image to enlarge.
Fig. A Low-Voltage Lighting Plan
A Successful Outdoor Lighting Plan requires selecting the right fixtures, then placing and wiring them correctly. Use waterproof pond lights for illuminating pools, fountains and other water features; offset path lights for lighting walkways; cone lights for highlighting both walkways and the surrounding plants; tree-mounted spotlights for simulating moonlight; and flood lights for illuminating trees, buildings and other large elements.

Selecting the Right Design and Components
Walk into any home center or garden center and you’re guaranteed to run into a towering display of low-voltage lighting. You’ll find $69 prepackaged sets and $100 individual lights; plastic fixtures and metal ones; lights you can shine down from trees and up from ponds. The bottom line is, you’ll get what you pay for. We decided to pay about $90 apiece for metal “architectural grade,” low-voltage halogen lights. The halogen bulbs cast a whiter, more focused beam than standard lights-almost like natural sunlight. And the bulbs last longer, some up to 10,000 hours. The metal construction of the fixtures means greater longevity for them too, and we loved the natural burnished look. As you design and shop for your lighting system, keep in mind:

• Buy a larger transformer than you’ll initially need so you can add lights later as your landscape (and imagination) expands. If you fll be installing 400 watts of lights, buy a 600-watt transformer.

• Avoid overlighting. Outdoor lights look best as accents, broadcasting pools of light. Flooding sitting or planting areas with “stadium lighting” can make them look washed out.

• When lighting a path, decide whether you want to light only the path or both the path and the features around it. As a rule, the broader the field you want to light, the higher the light pole you’ll need. Path lights with a 20-watt halogen bulb at a 24-in. height should be spaced every 10 ft.

• Consider seasonal factors. Install lights where they won’t be easily damaged by plows or shovels. And bear in mind that some plants, like hydrangea bushes, sumac and dogwoods with colorful stems, look cool lit up, even when they’re leafless.

Pro Tips for Better Design, Layout and Installation
Take the time to install your lights correctly and they’ll last longer, cast more light where you want it and require less maintenance. Get a firstclass installation using these tips:

• If your lights come with press on fittings (the type that bite through the insulation and into the wire to make their connection) cut them off and use the wire connectors shown in Photo 4. Your connections will be more solid and longer lasting.

• The farther a light is from the transformer (and the more lights installed between it and the transformer), the less light it will put out. Avoid this “voltage drop” by creating a tee (Fig. A) and running two short lines rather than one long one. A good rule of thumb is to put no more than 100 watts of lighting on one line. If you want to put ten 20-watt lights on a circuit, make a tee connection with five lights on one line and five on the other. You can also minimize voltage drop by using a thicker gauge wire.

• Always leave a little extra wire as you hook up the lights. This will give you the freedom to move a light after you’ve hooked it up for testing or after you’ve installed it.

• Burying the wires should be your last step. Lay everything out, hook up your lights, test your voltage, and look at your results at night before burying the lines.

• Purchase a transformer with a builtin photocell and timer. Orient the photocell with some western (sunset) orientation so it doesn’t turn lights on too early.

Special Lights for Special Effects

Click image to enlarge.
A moon light should be installed 15 to 30 ft. high and have one or more branches between it and the ground to simulate moon shadows. Provide at least 24 in. between the light and branches to prevent “hot spots.” Make a 4 x 5-in. base from treated lumber or cedar, mount the light base to it and insert your wire connectors into the hollow light base. Attach the assembly to the tree with galvanized or stainless steel screws. Use plastic wire clips with stainless steel nails to secure the wire to the tree every 3 ft.

Click image to enlarge.
Pond lights are watertight and held in place on the pond bottom by a weighted base. They also have a long cord so you can bury your wire connections in the drier dirt at the pond’s edge. To get an idea of the pond light effect, see the opening photo.

Click image to enlarge.
1. Lay out your light fixtures and wire. Use 10-gauge wire for the main lines from the transformer to where the lights begin, then switch to 12-gauge wire between the lights. To bury the wires where they cross the lawn, use a flat-nosed shovel to cut a slot and fold back the sod. Bury these wires at least 6 in. deep so they won’t be damaged if the lawn is aerated. In protected planting beds, the low-voltage wire can simply be covered by mulch or soil.

Click image to enlarge.
2. Install the transformer in a central location near an outdoor GFCI outlet. Mounting it on a post allows you to easily change the photocell’s orientation. Connect the 10-gauge main wires to the transformer by stripping off 3/4 in. of insulation, twisting the small strands together, then attaching them to the terminals. The 600-watt transformer shown (about $300) has a built-in timer and photocell, two circuits, and a switch and terminals for setting voltage output to 12, 13 or 14 volts. Since the transformer will always be plugged in, you must replace the standard outlet cover shown with an in-use weatherproof cover, available at home centers and hardware stores.

Click image to enlarge.
3. Construct rock-steady bases for top-heavy path and cone lights from plastic pipe. (The short ground stakes that come with most path lights don’t have enough “burying depth” to hold them vertical over time.) This base gives the light an indestructible, sturdy footing; provides a housing for your wire connections; and allows you to make pole extensions of any length, from 1/2-in. copper pipe. Don’t glue the plastic pipe parts together or you won’t be able to make the connections shown in Photo 4.

Lifesaving TIP
For safety’s sake, call your utility companies and have them mark the location of underground wires and pipes before you dig. The service is usually free-and you’ll avoid dangerous and costly surprises.

Click image to enlarge.
4. Connect the wires with weatherproof wire connectors. These wire connectors have a shield on the bottom and a blob of sealant inside that make them weatherproof. If your lights came with press-on connections, cut them off, strip off 1/2 in. of insulation, and install the connectors.

Click image to enlarge.
5. Install the path light by digging a hole deep enough so the top of the PVC footing is level with the ground surface. Use a torpedo level to level the light pole and pack soil around the base. Use aluminum tent stakes to secure the unburied wire in the bedding areas, then cover it with mulch.

Click image to enlarge.
6. Test each light fixture for its voltage level with a digital voltage meter (about $25 at Radio Shack). Each halogen light should be receiving 10.5 to 12 volts for a consistent look and to avoid premature burnout. Extremely low readings indicate a bad connection somewhere in the system or too many lights on a circuit. Minor voltage adjustments can be made using the voltage controls on the transformer (Photo 2).