Posts Tagged ‘bathrooms’

California Lighting, Special Rooms

Monday, July 20th, 2009

Special Rooms-Kitchen:

The biggest and most complex part of the lighting section of California’s Title 24 is with regard to kitchen lighting. You are allowed to use a combination of high and low efficacy fixtures in the kitchen because the state considers the visual requirements in the kitchen to be so much more complex than in the rest of the home.

You can use low efficacy fixtures (only in the kitchen) with a combined wattage not to exceed the combined wattage of high efficacy fixtures also in the kitchen. That means if you install 150 watts of high efficacy fluorescent lighting in the kitchen you are also allowed to install up to 150 watts of low efficacy incandescent, halogen, or low-voltage lighting.

Lighting built into cabinets is excluded because it has its own rules, but those built-ins must only light the inside of the cabinet. Lighting attached to the outside of the cabinets does not count as cabinet lighting, but must be included as part of the kitchen wattage calculation. The same goes if you have lighting inside your cabinet but it is designed to light surfaces outside of the cabinet. That is, you can’t install one of the low-voltage striplights that has little MR-16 attachments to point onto your counters to try to get around the kitchen wattage restrictions.

The high efficacy and low efficacy lighting in the kitchen must be controlled separately. (Actually, that is true everywhere, but since you can’t use low efficacy fixtures unless they are dimmed the distinction is a little pointless. You can’t combine different source types on a dimmer, so you couldn’t dim both incandescent and fluorescent fixtures on one control. I guess the only way to mix would be if all of them were on a vacancy sensor, but you shouldn’t be mixing fixture types in any room in which you want to use vacancy sensors anyway.)

To calculate the wattage of the low efficacy fixtures you must use the highest wattage allowed by the fixture. That means you can’t “save” by putting a smaller light bulb in the fixture, say a 60 watt bulb in a fixture that can take up to 100 watts. If you are using low-voltage fixtures you have to use the input wattage of the transformer, which is most likely going to be higher than the wattage of the lamp or lamps.

If you want to use track lighting in your kitchen there are a number of different ways to calculate the wattage against your allowance, but the easiest is just to use 45 watts per foot of track, unless the actual lamping is greater. Yep, a three foot section of track over your island counts as 135 watts, even if you just put two dinky 20 watt pendants on the track. If instead you put three 75 watt incandescent lamps you would have to use the higher combined wattage of 225.

The state has also figured you might try to get around the restriction by running your wiring to boxes and then not hooking up any fixture until after the inspection is complete. So each electrical box either covered by a blank plate or where there isn’t any electrical equipment hooked up counts as 180 watts of low efficacy power toward your allotment. Actually, this is often done innocently when you are going to install a ceiling fan but it hasn’t been picked out yet. The electrician runs the wires to a box that will someday support the fan for you, but he may be done and off the job before the final fan selection is made if you are going to install the fan yourself.

Finally, if you have a kitchen that seamlessly merges into your breakfast nook or any other room you have to be careful with the control wiring. If it looks like a single room the nook will be counted as part of the kitchen unless the lights are controlled by different switches/dimmers/whatever.

Other rooms:

The restrictions for bathrooms, attached and detached garages, laundry rooms,closets, and utility rooms are tighter than for the rest of the home. All the fixtures in all of these rooms must be high efficacy. There are only two exceptions: one, you can use permanently installed low efficacy fixtures if the control is a vacancy sensor; or two, if the closet is less than 70 square feet you can have permanently installed low efficacy fixtures without a vacancy sensor.

Notably missing from the exceptions for these rooms is the exception for using dimmers. As a personal point, I am sorry this is the case since I think that it is pretty important to dim the lights in the bathroom. See my post on dimmers in the bathroom for the reasons why. And if you have dimmed incandescent or halogen fixtures throughout your home I think it is poor design to use dimmed fluorescent in the bathroom.

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California Lighting, Overview

Thursday, July 16th, 2009

California has recently adopted energy efficiency standards that have a huge impact upon lighting. And since California has been leading the country in energy efficiency standards I thought I’d write up a quick summary of what homeowners ought to know about the changes to residential lighting since it is just a matter of time before similar rules spread to the rest of the country. Note that there are a couple adoption dates that we haven’t reached yet, so the entire Title 24 code isn’t in effect as of right now, but we may as well look to the future.

First of all, the new rules apply to all new residences and other projects that require a permit, so chances are you’re going to have to comply. Portable lighting, such as table and floor lamps, are not covered by the changes. However, all permanent lighting is covered and that basically includes anything attached to a surface. So you can’t stick a lighting track on the ceiling but control it by a cord plugged into an outlet. Lighting installed in furniture like cabinets or bath vanities is included. The big exception to this is lighting that is built into appliances, such as microwaves, refrigerators or stove exhaust hoods.

The idea is to divide lighting fixtures into high efficacy and low efficacy groups. You can install all the high efficacy fixtures you want anywhere you want. (Interestingly, to divide the fixtures into high and low efficacy the rules use just the lamp efficiency, rather than the actual fixture efficacy. Remember the efficiency/efficacy post?) To determine if a fixture is high efficacy it must comply with the following lumens per watt limits.

  • If the fixture’s lamp is 5 watts or less, it must get at least 30 lumens per watt.
  • If the fixture’s lamp is up to 15 watts, it must get at least 40 lumens per watt.
  • If the fixture’s lamp is up to 40 watts, it must get at least 50 lumens per watt.
  • If the fixture’s lamp is over 40 watts, it must get at least 60 lumens per watt.

(However, the method to determine the lumens per watt of LED fixtures has some restrictions so you can’t use the LPW of the LED module. You have to use the input power of the LED driver, but then it must also comply with the same LPW restrictions as above. You do NOT have to take the ballast for fluorescent lamps into account.)

Anything that doesn’t meet the above LPW restrictions is considered a low efficacy fixture.

In addition, there are some things that will automatically classify fixtures as a low efficacy fixture, the most important being that anything with a screw base socket is considered low efficacy. That means all fixtures using the medium or candelabra size socket that all our fixtures in our homes have been using for decades. There are some other things but the screw base socket is the most important. There is an exception for HID lamps with screw base sockets, and a huge section regarding the GU-24 base, but you probably won’t have to be concerned with those details.

Now, once you know what is high efficacy or low efficacy you can figure out what you can install in your home. There is a complex exception for the kitchen, but the basic rule of thumb is that you can only use high efficacy fixtures in your home.

Now, there are exceptions for most of your living areas:

  1. Low efficacy fixtures may be used if the circuit is controlled by a “vacancy sensor.” This is not the same as an occupancy sensor! A vacancy sensor is defined by the state as a control that can only be turned on manually and will automatically turn itself off after a preset time of 30 minutes or less unless it detects that the room is occupied or if the control is turned off manually. This explicitly excludes controls that turn on automatically, which is how occupancy sensors typically work. Also, if the control has a switch or something that allows you to choose if the turn on method is manual or automatic, it does not count.
  2. Low efficacy fixtures may be used if the circuit is controlled by a dimmer. The dimmer can be one that has several steps instead of a continuous sliding range, however, the dimmer must reduce the energy use by at least 65% at its lowest setting. That means that two-level switches with three settings (off, 1/2,  and full on) do not count. Three-level switches which have four settings (off, 1/3, 2/3, and full on) do count. Also, if the dimming circuit can be controlled from multiple locations it must be impossible to bypass the dimmer. The alternate locations can either be remote dimmers or switches that turn the lights either off or to the dimmed level only.

There are exceptions and additions, most notably in the kitchen. However, it’s fairly involved so I’ll address them in the next post.

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Dimmers in the Bathroom

Wednesday, June 17th, 2009

Dimming in the bathroom is just as important as dimming in the bedroom. In addition to helping you get to sleep–as an extension of dimming in the bedroom–it can help you wake up in the morning more gently. We all know that flipping on the switch snaps us awake. Instead, if we start with a low level of light and continue bumping it up to full our body can ease into waking. I have found that having the same amount of sleep, I feel more refreshed when I ease into the morning.

Also, if you get up in the middle of the night for any reason being able to keep the lights in the bathroom low will make it easier to fall back asleep again.

As a final, cosmetic note, when getting ready for an evening out you should try to prepare yourself in same quality of light as the place you are going. If you’re going to a club or a nice restaurant, the lighting in those places will be dimmed, and you want to know what you’ll look like when you get there. Getting ready under full brightness is great for the daytime or office, but evenings out needs something special.

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