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 Electricity from the power company has noise, distortion, reverse harmonics, and other flaws that cause you to pay for more electricity than you actually need. Circuit Riders will…  Circuit Rider is an innovative, economical, environmentally friendly electronic device for commercial and residential clients. Here’s how it works for you… We are proud of our products and stand behind them. Every Circuit Rider Unit comes with… Documented savings in kilowatt hours used have ranged from 10% to in excess of 35%. These savings have been reflected on the electric bills of residences and businesses in many locations across the country. Basic explanation: Currently, you draw 22.7 amps from your power company to create 22.5 amps for your location (due to voltage imbalance and harmonicsreverse voltage). With a Circuit Rider installed, you draw only 20.43 amps to maintain 22.5 amps into your home or office plus Circuit Rider’s other benefits that improve operations of all electrical devices. Homeowners can protect their biggest investment. Circuit Rider protection means protection from lightning, surges, and spikes for all electrical appliances in their home. Most homeowners have surge protectors for home computers and home entertainment centers, but not for kitchen appliances, fax machines, or air conditioners, etc. The Circuit Rider provides protection for every electrical outlet in the home. This also provides extended life expectancy for all electrical devices in the home in addition to reduced kilowatt hours used. For business owners, industry, and educational facilities, Circuit Rider units provide extended life expectancy for expensive electronic devices and electric motors, reduced downtime and repair expenses. Additionally, the reduced kilowatt savings on three-phase voltage, especially 480v, can have a significant positive impact on the bottom line. The device saves kWh by several applications. 1. First, we have incorporated MOV’s (metal oxide varistors) in every Circuit rider unit. These (MOV) divert transient voltage spikes and down-line lightning strikes to ground. The diversion of transient voltage spikes will reduce the amount of energy that motors draw. The harmonics that are present in every circuit are reduced by the combination of the relationship with the EMI filters, MOV’s and capacitors that are present in each circuit rider unit (Savings 0 – 4%). 2. By eliminating the transient voltage, we balance the voltage. A 3% voltage imbalance attributes to a 10% motor de-rating. By eliminating this, we save on the amount of energy that a motor has to draw to operate. (Savings 0.5 – 10%). 3. By having capacitors, we are increasing the Power Factor to all appliances and motors. The closer the Power Factor is to Unity (1.0), the more efficient a motor operates. Thus requiring less energy to operate. If Power Factor is at 0.85, this results in the Current wave “Lagging” the Voltage wave by 15 %. This results in motors having to draw 2 – 4% more energy to operate. By increasing Power Factor, we are eliminating the need for a motor to draw more Current (Savings 0 – 10%). 4. As we increase the Power Factor, we are lowering the amount of Current a motor requires. Normally, the Current will drop in the same percentage as Power Factor percentage increases. With the “Proprietary Knowledge” and a combination of other parts, we reduce the Current percentage to an amount greater than the increase of the power factor percentage. Also, we are eliminating Apparent Energy which heats motors. (Savings 0 -10%). 5. Then we have Harmonic Balancing. The 5th, 11th, and 17th Harmonics applies a reverse torque on 3 phase motors. The circuit rider restores the 60 Hz cycle and thus the 60 Hz fundamental cycle the 5th was countering (Savings 0 – 4%). Then the 3rd, 9th, and 15th (The Triplen Harmonics) apply no forward force on motors. By restoring the 60 Hz cycle, we eliminate the Current that feeds the triplen harmonics (Savings 0 – 4%). The above analysis shows how we can save 0.5 to 42% on kWh. This is one of the many features that result out of the New Technology of the circuit rider. By eliminating the harmonics, not only will motors last longer, but so will all of your electronics. Eliminating the harmonics prevents overheating of components and neutral conductors, damage to motors, electronics, circuit breakers, and transformers. CIRCUIT RIDER ELECTRONICS = SAVINGS! |
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Written by: Patrick Oborn - May 21, 2012 Frame Relay was developed to solve communication problems that other protocols could not: the increased need for higher speeds, an increased need for large bandwidth efficiency, particularly for clumping ("burst" traffic), an increase in intelligent network devices that lower protocol processing, and the need to connect LANs and WANs. Like X.25, Frame Relay is a packet-switched protocol. But the Frame-Relay process is streamlined. There are significant differences that make Frame Relay a faster, more efficient form of networking. A Frame-Relay network doesn't perform error detection, which results in a considerably smaller amount of overhead and faster processing than X.25. Frame Relay is also protocol independent-it accepts data from many different protocols. This data is encapsulated by the Frame-Relay equipment, not the network. Today's LANs and computing equipment have the potential to run at much higher speeds and transfer very large quantities of data. With the diversity and complexity of today's networks, management can be a mammoth task if you don't have the proper tools. Each environment is a unique combination of equipment from different vendors. Frame Relay uses a packet-switching technology, similar to X.25, but is more efficient. As a result, it can make your networking quicker, simpler, and less costly. Frame Relay sends information in packets called frames through a shared Frame-Relay network. Each frame contains all the information necessary to route it to the correct destination. So in effect, each endpoint can communicate with many destinations over one access link to the network. And instead of being allocated a fixed amount of bandwidth, Frame-Relay services offer a CIR (committed information rate) at which data is transmitted. But if traffic and your service agreement allow, data can burst above your committed rate. Since Frame Relay has a low overhead, it's a perfect fit for today's complex networks. You get several clear benefits: First, multiple logical connections can be sent over a single physical connection, reducing your internetworking costs. By reducing the amount of processing required, you get improved performance and response time. And because Frame Relay uses a simple link layer protocol, your equipment usually requires only software changes or simple hardware modifications, so you don't. |