I have always been fascinated by time and clocks. I have owned every kind of wristwatch from
Timex watches that use a balance spring to a Seiko that uses a quartz crystal
to a Casio that uses an “atomic clock.”
It was fun asking another engineer at work what time it
was and then comparing his watch to mine.
It would invariably start an argument as to which watch was the most
accurate. I would smile and say, “Well,
my watch is synchronized every day against the atomic clock at the National
Institute of Standards and Technology (NIST) in Fort Collins, CO. It is accurate to within 1 second per 138
million years.” That usually
ended the argument. Only engineers would
argue about the accuracy of a watch.
The NIST operates a radio station, WWVB, which has for
half a century been the nation’s official time keeper. While millions of Americans are fast asleep,
clocks and wristwatches across the country wake up and lock on to a radio
signal beamed from the base of the Rocky Mountains. The 60 kHz signal contains a message that
keeps the devices on time, helping to make sure their owners keep to their
schedules and aren’t late for work the next day. In 2011, NIST estimated the number of clocks
and wristwatches equipped with a WWVB receiver at over 50 million.
Some manufacturers refer to their radio controlled clocks
as "atomic clocks", which isn't really true. An atomic clock has an
atomic oscillator inside (such as a cesium or rubidium oscillator). A radio
controlled clock has a radio inside, which receives a signal that comes from a
place where an atomic clock is located. At
60 kHz, there isn't enough room on the signal (bandwidth) to carry a voice or
any type of audio information. Instead,
all that is sent is a code, which consists of a series of binary digits, or
bits, which have only two possible values (0 or 1). They are sent at a very slow rate of 1 bit per
second, and it takes a full minute to send a complete time code, or a message
that tells the clock the current date and time.
Once your radio controlled clock has decoded the signal
from WWVB, it will synchronize its own clock to the message received by radio.
Before it does so, it applies a time zone correction, based on the time zone
setting that you supplied. The time broadcast by WWVB is Coordinated Universal
Time (UTC), or the time kept at the Prime Meridian that passes through
Greenwich, England. UTC is the primary
time standard by which the world regulates clocks and time.
Engineer David Andrews (left) and technician Robert Oase
(right) are shown by the WWVB transmitter in 1963. Credit: NIST
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Keep in mind, though, that the accuracy of the watch will
also depend on the update frequency, because between updates the watch’s
internal clock is running freely, and the overall accuracy is determined by the
drift the internal clock experiences.
Well, enough of the technical stuff because today that has
all changed. It is time for me to get a
new wristwatch. It is called a “smart
watch.” This watch uses a
satellite-based Global Positioning System (GPS) which uses two onboard cesium
atomic clocks and as many as two rubidium atomic clocks as backup to accurately
determine the location, height and current time. Smart watches have built-in GPS receivers to
periodically set the correct time from various satellites. This means that GPS can achieve an accuracy
level of 50 ns deviation from the UTC. A nanosecond is 1/1,000,000,000 of a second.
My wife just ordered me the Samsung Galaxy Gear S Smart
Watch for Christmas. My old Casio watch
disappeared when my 2-year-old grandson found out he could reach the lid of our
trash can and throw things away. Keys,
cell phones and other items have gone missing from our house. I am not about to let him play with the new
watch.
I am old enough to remember
Dick Tracy and his wristwatch. I dreamed
of being able to talk over the phone by just holding up my wrist. That was a real miracle at a time when phones
were not wireless. I know this Christmas
present is a “toy” but I am always leaving my phone at home or not charging
it. Now I can use the smart watch along
with my Samsung Galaxy S5 and I don’t have to be in the same room.
What a joy it has been to
see how far technology has come. We can
argue it wastes time or interrupts our life, but the sheer accomplishment is
worth talking about. Can I live without
it…..Sure. But why not enjoy what
technology has to offer.
Time Marches On!
Time Marches On!
AT&T placed my smartwatch on back order and then told me it would not be delivered before Christmas. My wife, Melissa, went out and bought the newest Gear S2 watch, so I would have something under the tree. Then we received a Gear S in the mail. I now have a choice. The Gear S is free and the Gear S2 is $199. Which one should I choose?
ReplyDeleteIt’s official— the year 2016 will actually be one second longer than originally planned.
ReplyDeleteAt 6:59:59 p.m. EST time on December 31, the world’s official clocks will recognize an extra second, meaning there will be a minute that actually contains 61 seconds. Revelers on New Year’s Eve will have an extra second to sip champagne.
The simple reason that timekeeping experts have decided to insert this extra second, slowing down our official clocks by just a moment, is to keep two different time systems in sync with each other, the U.S. Naval Observatory announced on Wednesday.
Essentially, there is a irregular way of measuring time and a precise one. The irregular one is based on the Earth’s rotation, which actually can slow down (as it is currently doing) based on factors like the tug of the moon. The precise one is based on atomic clocks. To keep them in agreement, experts sometimes add extra seconds to the official time system, slowing it down.
“The basic reason is that compared to time scales that are now defined by atomic clocks, the Earth’s rotation is slowing down,” Geoff Chester, the public affairs officer at the U.S. Naval Observatory, told FoxNews.com. (Fear not, it’s a “misconception” that the Earth will eventually stop spinning, the Observatory said in a statement.)
“The bottom line is that the Earth— if you are using it to define this fundamental unit of measurement that we call the second— the Earth is a terrible reference because it’s an inherently variable system,” Chester added.
In short, by adding the leap second, official time (measured by atomic clocks) will match the time system measured the Earth’s rotation, called UT1. The world’s official time system is called UTC, or Coordinated Universal Time, which represents atomic time after the leap seconds have been added to get it to match UT1. This coming leap second will be number 27.
Chester said that inserting the leap second can trouble computer networks, and for that reason they need to provide six months of notice. “Typically, every time we’ve had a leap second inserted since the late 1990s, about 10 percent of the world’s larger computer networks suffer some sort of failure because of this,” he said. He pointed to a disruption that Qantas Airlines faced in 2012 stemming from a leap second; other websites, like Reddit, were affected too.
The added second shouldn’t impact people though, Chester predicted, especially if computer networks smoothly adjust.
And after all, a second isn’t really that long, in real-world terms.
“At the rate that the Earth is currently slowing, in practical terms,” Chester added, “if you’re looking for an extra minute to sleep in in the morning, it will not happen for something on the order of a couple million years.”
The last time a leap second was added was June 30, 2015.
Follow Rob Verger on Twitter: @robverger