Protect Your Family With Home Security System Monitoring

If you’re looking for a home security system, you have to make the choice between a simple home alarm system or one which offers more advanced features such as home security system monitoring. A security monitoring system for your home lets you keep an eye on your home when you can’t be there to make sure that everything’s alright. Knowing the pros and cons of each type of system in relation to your needs can help you to determine whether home security system monitoring is the right choice for your home. Home Security System

Home security video systems are growing in popularity for obvious reasons as they allow you to visually monitor your home inside and out while you’re away. If you have a babysitter or household staff, these systems allow you to check up on them as well.

Home security system monitoring provides a high level of security for your home and is a reliable security solution. You’ll want to cover all of your bases to make sure that your home is provided with thorough security measures. Have alarms, sensors, switches, cameras and a control panel installed. All of these components work together to offer your home security and the peace of mind that video surveillance can provide.

While a security monitoring system is a great surveillance tool, you’ll still need to make it difficult for an intruder to get inside your home in the first place; or at least keep them from getting in for long enough for the police to show up. Make sure that you keep your doors and windows locked, even when you’re not away from home. Keep your bushes well trimmed and try to eliminate hiding places. Get rid of trellises and trim tree limbs which would make it easy for an intruder to get to the upstairs of your home.

You can choose from wired or wireless home security monitoring systems. Wired systems are more common in newly constructed homes, since they can be built into the home as it is being built. If you’re not having a home built you can choose a hardwired system, though the installation can be very expensive. Wireless systems, on the other hand are far easier to install, even by yourself.

Dedicated security monitoring is another option. This is the highest level of protection available and involves having a security company monitor your alarms. It’s something which is well worth doing for the peace of mind it can give you about the safety of your home and your family.

Different home security monitoring companies offer different types of service. There are relatively inexpensive options which provide partial monitoring as well as more expensive full service options. The security company will contact the police if an alarm goes off at your home (or contact you by phone, text or the method of your choice). In many cases you can also install a two-way intercom style system so you can immediately be in touch with the security company.

Home security monitoring provides exceptional peace of mind. You can keep an eye on your children when you can’t be there to watch them; you can make sure that elderly parents you’re caring for are OK and of course, be aware if anyone is trying to enter your home. Home business owners especially may want to consider using security monitoring to prevent theft and loss from fires. A quality security system can provide you with around the clock surveillance to keep you, your home and your family protected.

Passive Solar Heating

Passive solar heating is one of the most efficient ways to heat any building. Usually the amount of solar power reaching your building is greater than the energy being used inside, which means that you have the potential to use this energy effectively.navigate here

The building itself acts as the solar collector, unlike a mechanical system, which is a completely separate system. In this way, the passive solar heating system actually adds little to the initial cost of the construction. The home or office increases in value, the system requires very little maintenance, and is generally trouble free. For a minimum of extra work, passive solar heat can help reduce your energy costs. Yet you sacrifice nothing in terms of comfort and convenience.

An alternate heating source is still necessary, but you will notice a dramatic decrease in your heating bills. Because the structure is the solar panel, as well as the distribution system, it is extremely efficient. During the daytime, the windows allow the heat to be absorbed by the walls and floors, or other heat sinks. Then, during the cool of the night, the heat is released into the living area.

Requirements for passive solar heating

Engineers and builders have learned the best way to orient the house to the sun, which angle of the roof is most advantageous, etc. You need to have a clear, unobstructed exposure to the sun, which in the Northern Hemisphere is obviously the south. Even partial shade can drastically reduce the efficiency of the system.

Another important prerequisite is that the construction materials must be able to absorb the heat of the sun and later release it. The building can be the collector, or you can use other structures to absorb the sunlight.

Designing a passive solar heating system

You must consider the climate where you live, and the lay of the land where your building sits. It makes no difference if a certain type of system works in Arizona if you live in Maine!

Gaining heat directly

Direct gain is the simplest type of passive solar heating. The heat of the sun is soaked up by the building, right to the core of the structure. Later, this heat is naturally released into the living area. You should be able to heat your home for several days this way, provided you do not have much heat loss from windows, poor insulation, etc.

Gaining heat indirectly

This is one step above the direct gain system. You place structures or objects between the sun and your living area. These absorb the heat of the sun and use a natural convection system to distribute the heat throughout the house. These areas are closed off and can reach very high temperatures. The airs flows naturally from top to bottom because of the temperature difference at the floor and ceiling.

During the night the air vents can be sealed off the stop heat loss. By closing the vents the convection process is not allow to reverse and steal your precious heat by taking it back to the area with the collectors. The heated wall also radiates warmth into the living area, much like a heated fireplace wall.

Gaining heat by isolation

Isolated gain of solar heat means that an external solar panel is used to collect heat. Natural convection causes the fluids in the solar panel to flow into a storage area. Later, the heat is transferred from the storage to the living area. It is necessary that the solar panel is lower than the storage area, and the storage area must be below the living area. If not, there will be not natural convection and a pump will be required. You would then not have a true passive solar heating system.

Measure Electricity

Electricity is really a source of power made up of billions of individual electrons flowing inside a path, a lot like water in a stream. The stream is the electrical existing. Existing flows through wires, sometimes called conductors. Wires are coated with a layer of insulation, which prevents shocks and ensures that the full amount of power reaches its destination.Check Electricity Wholesalers Houston

The type of insulation may vary, depending on the type of appliance or whether it will be in a wet or dry location. When several wires are bound together with additional insulation, you’ve a cable. Cables in food service, heavy-duty but flexible, are wrapped in steel and often referred to as BX cables. When the wires are encased in nonflexible steel pipe, they’re called conduits instead of cables. The complete path of a existing, from start to finish, is generally known as a circuit.

Any circuit has three basic components: the source, or starting place; the path along which it flows; and the electrical device (the appliance) it flows into. A common type of circuit is found in the fluorescent light bulb. A complete, working circuit is called a closed circuit. An open (or broken) circuit is one that has been interrupted so that no electricity flows. A short circuit occurs when existing flows in an unplanned path, due to a break in a wire or some other reason.

Short circuits are unsafe simply because they can cause fire and/or other types of equipment harm. Fortunately, there are a couple of safety devices to prevent short circuits. A fuse is a load-limiting device that may automatically interrupt an electrical circuit if an overload condition exists. Fuses protect both appliances and humans. More about them in a moment. A circuit breaker looks like an electrical switch. It automatically switches off when it begins to receive a higher load of electrical power than its capacity.

As the load decreases, the breaker might be manually switched on again without harm to electric lines or appliances. In addition to kilowatt-hours (kwH) and kilovoltamperes, there are four basic terms to learn in measuring electrical energy. You require to know them, because most kitchen equipment is “rated” (for output or power efficiency) based on these terms:

  1. Ampere. Commonly generally known as an amp, this is a term for how a lot electric current flows through a circuit. A 100-watt lightbulb, for instance, requires 0.832 amps of electricity to light up. The larger the diameter of an electric wire, the more amperes it can safely carry, so it’s vitally important that a licensed electrician determine the correct wire sizes for your needs.

The National Electrical Code sets the trade standards for wires. The minimum size for copper wire, for instance, is #14; for aluminum wire, #12. Circuit breakers are also rated in amperes, most frequently 15 amps (a single circuit breaker) or 30 amps (a double). The typical home electrical outlet offers 15 amps to plug in appliances, lamps, and so on. As few as 0.02 amps can render an electrical shock. In electrical formulas, the letter I indicates amperes.

  1. Volt. The volt is the driving force that pushes an ampere through an electrical wire. One volt may be the force needed to push 1 amp of electricity for 1 second. For appliances, common voltages are 110-120 and 208-240. This means the amount of voltage necessary to operate the appliance efficiently; most appliances have a minimum requirement of 120 volts. In electric formulas, the letter E indicates volts.

  1. Watt. The watt represents actual consumption of electric power, the amount of power in a circuit. One watt equals the flow of one amp of electricity at a pressure of one volt. Numerous electric appliances are rated in terms of both watts and volts. In electric formulas, the letter W indicates watts.

  1. Ohm. This is really a less familiar term; an ohm is really a unit of electrical resistance. It refers to whether a substance is a good conductor of electrical power or an insulator that restricts electric flow. Examples of conductors are copper, silver, and drinking water. Examples of insulators are dry air, wood, rubber, and distilled water. In electrical formulas, the letter R (for “resistance”) stands for ohms.

Why do you have to know these terms? You may need to figure amps, volts, or watts to help you decide what equipment to purchase, to check the efficiency of existing appliances, or to see if you’re about to overload a circuit by plugging in something new. Now that you know the terminology, you will find some easy formulas for converting the data you’ve into the power measurement you may need for a given situation. You will find two methods to find volts:

  1. Divide watts by amps: E = W: I
  2. Or multiply amps by ohms:

E = I x R

There are two methods to find amps.

  1. Divide volts by ohms: I = E: R
  2. Or divide watts by volts: I = W: E

To find watts, multiply volts by amps:

W = E x I