Do Radio Controlled Atomic Clocks Work in Commercial Buildings?
Radio Controlled Atomic Clocks receive their time from an AM radio signal. The AM radio signal is connected to a true atomic clock. A true atomic clock is a highly accurate clock in which time is established by the vibrations of an atom. Physicist Louis Essen is credited with building the first accurate atomic clock.
In today’s world atomic clocks are used for many different commercial applications, such as telecommunications, science and technology and cost as much as $500,000. The benefit of accurate atomic clocks is realized everyday when we use our GPS navigation devices in our vehicles.
- Atomic Clocks
- K-12 Wireless Clock System
- Radio Controlled Atomic Clocks
- Wired Clock System
- Wireless Bell System
- Clock System
- Daylight Savings Time
- Operating Room Clocks
- School Clocks
- Clock Parts
- Daylight Saving Time
- KRONOsync Transmitter
- Syncronized Clocks
There are four Atomic clocks in each GPS satellite. These atomic clocks determine how accurate the GPS can locate a destination. The satellites broadcast time signals in a triangular fashion and GPS receivers on the earth can pinpoint their intended location. The accuracy of GPS satellites is normally within 1 meter of its targeted location.
Atomic clocks in GPS satellites are so accurate they can also be relied upon as a time source for wireless clock systems. In fact, Innovation Wireless use the time from GPS receivers as one of their time source options for their KRONOsync wireless clock system.
In looking at radio controlled atomic clocks we see that the time source is also an atomic clock, however, the broadcast method in which these clocks receive their time is the reason that so many organizations cannot rely on them for synchronized time in their facilities.
Radio Controlled Atomic Clocks receive their time from an AM radio signal broadcasted by WWVB in Fort Collins, CO. The National Institute of Technology and Standards, (NIST) broadcast the time under the call sign of WWVB. The broadcast is a powerful broadcast and covers the majority of continental United States.
Synchronize clocks are a necessity for many organizations. Therefore, when WWVB started broadcasting the time many facilities managers were excited. Prior to the broadcast of time on WWVB; hospital, schools and businesses had to install expensive low voltage wired clock systems in order to achieve synchronized timing.
Low voltage wired systems have maintenance costs and it is not easy to add addition clocks or move clocks once the system is installed. Wireless clocks allow you to place a clock anywhere and at anytime.
When the government started broadcasting the time on WWVB many organizations started to install radio controlled atomic clocks. Facility managers saw the opportunity to eliminate themaintenance issues associated with wired clock systems and the ability to easily accommodate additional clock requests. They were under the assumption that radio controlled atomic could place these clocks any place any time and the clocks would receive their daily time update from WWVB. These organizations were greatly disappointed.
The problem they encounter had to do with the characteristics of the AM radio signal. The AM broadcast from the NIST is capable of traveling great distance; coast to coast and this gave the whole country time coverage. The problem is that an AM signal even though it can travel great distances it is prone to skips certain valley or mountains and has difficulty penetrating commercial building structures.
Let’s create an example to illustrate the problem. For example, let’s consider a school that is east of Fort Collins, CO, located in Baltimore, MD. The probability is good that the radio controlled atomic clocks placed on the west side of the school building (The side closer to Fort Collins, CO) will be able to pick up the WVBB broadcast. The problem will be that the radio controlled atomic clocks located in the interior of the building and eastern side will have difficulty synchronizing to the AM broadcast.
The need for reliable, accurate and synchronized clocks is important in many organizations but probably most important at hospitals and K-12 schools. School clocks in K-12 educational institutions need clocks to make ensure that a teacher can maximize available teaching time. When classes start on time and end on time the foundation for a great educational opportunity exist.
Hospitals have to chart time when a patient enters the hospital. They evaluate symptom based on time intervals. Medical procedures are started and stop based on time. Insurance claims are submitted based on time. Malpractice suits are won by the incorrect recording of time.
Innovation Wireless KRONOsync transmitter is able to synchronized all the clocks in a hospital. Hospitals like Cedars-Sinai Hospital, Good Samaritan Hospital, Aurora Health Care, and Memorial Sloan-Kettering Cancer Center, to name a few, use the KRONOsync transmitter to keep all their clocks displaying the same time all the time.
What makes the Innovation Wireless KRONOsync time clock system work all the time 24/7 in a single building, multiple buildings or on a campus when radio controlled atomic clocks do not synchronize? The answer is that the KRONOsync transmitter operates on a UHF signal and the transmitter is located at the customer’s site.
With the KRONOsync transmitter on site complete coverage for the facilities is assured. This guarantee gives customers the peace of mind that they can place a clock anywhere in their facilities and the clock will display accurate time and automatically adjust for daylight savings time.
In addition, to the KRONOsync transmitter delivering accurate time it can also provide K-12 wireless schools bells. Wireless Bells are achieved with Innovation Wireless’ tone generator. The tone generator picks up the time broadcasted from the KRONOsync transmitter and activates the the bell schedule wireless.
The failure of radio controlled clock to deliver synchronized time to clocks within facilities is corrected by the KRONOsync wireless clock system, thereby, providing institutions synchronized wireless clocks.