Tuesday, March 26, 2013

Si483x-based Kaito KA321 DSP Receiver Ordered

It's looking more and more like the proposed Tecsun R-2010 may never see the light of day. No matter, I've ordered a Kaito KA321 from Amazon yesterday which uses the same Silicon Labs receiver chip, the Si483x. The '321 seems to be the DSP second-cousin of the Kaito WRX911 and Tecsun R-911 and the analog DSP sister of the Tecsun PL-380. Tecsun also produces a radio using this chip in the DE-321.

The Si483x is another of Silicon Labs' chips developed for consumer AM/SW and FM operation. This second generation mechanically-tuned digital CMOS AM/FM/SW radio receiver IC integrates the complete receiver function from antenna input to audio output into one chip, like the Tecsun PL-380's Si4734 digital chip did. The difference: this chip is analog-tuned.

Maximum band coverage of this chip is 504 KHz to 1750 KHz in the mediumwave band, 5.6 MHz to 22.0 MHz in the shortwave band, and 64 MHz to 109 MHz in the FM band. The 120, 90, and 60 meter tropical bands are not available. Neither is the longwave band.

AM sensitivity is comparable to the Si4734 chip, at 30µV input for 26dB (S+N)/N (signal plus noise to noise). The PL-380's Si4734 chip had a typical 25µV (S+N)/N sensitivity.

As an added bonus, use of a mechanical resistive tuning pot allows the frequency to be displayed in a linear format on the dial, so frequencies at the high end of the band are not crammed together as with capacitive tuning. It should make tuning a lot easier.

The Radio Shack 12-586 AM/FM Pocket Radio also uses this same chip and has had some positive reviews in the press. Reports are that AM sensitivity is good.

The '321 has been out of the gate for awhile, since about Fall 2011. I'll try to do a mini review soon. This being an analog-tuned chip, it will be interesting to compare real-world sensitivity and tuning differences between this and the Tecsun PL-380's digitally-tuned chip.

Kaito KA321 AM/FM/SW DSP Receiver

Friday, March 22, 2013

Musings On The Presumed Death Of Terrestrial Radio

There has been lots of talk in the media lately about the anticipated demise of terrestrial broadcast radio, particularly AM. Even the end of traditional AM/FM car radios has been suggested (since recanted). The continued survival of this broadcast medium is of course dependent on how many people listen to it. And the cost of doing business must continue to be affordable.


Broadcast audience figures are always tossed back and forth in the media. Arbitron, charged with measuring audiences of all kinds for more than 40 years, provides essentially a monopoly yardstick to define the numbers of radio listeners in different markets. Accuracy of counts seems to be in continual question, and many challenges to Arbitron's methods and results can be revealed by a simple Google search.

Until 2007, Arbitron relied mainly on a paper diary, or listening "log". Though replaced in 2007 by a electronic device called the Portable People Meter (PPM), the diary method is still used several times a year. Diary logs are mailed to random but interested households, and all members 12 years of age or older are eligible to participate. On a card, the listener records what radio stations he or she listened to throughout a seven day period. Arbitron monetarily compensates the participant.

Daily diary

Survey accuracy concerns and the poor log return rate seemed to be the driving factor to develop the PPM. In 2006 out of 2.6 million diaries mailed, Arbitron could include only 1.5 million in their survey. Not surprising, really.

Now on to the Arbitron diary method.

Portable People Meter

The Portable People Meter is a pager-like device worn by the survey participant. It electronically gathers inaudible codes identifying the source of a broadcast, such as a radio station. Thus, it logs which stations have been tuned to throughout the waking hours, even if tuned to only briefly. Arbitron recruits and monetarily compensates a cross section of consumers to wear the meter for an average of one year and up to two years.

You may like the interesting story, "Diary of a Portable People Meter Person".

Out of all of this, Arbitron produces what is called the eBook, or audience survey. The audience estimates generated from each monthly survey are used as the standard reference of market-share which determine the viability of a radio station to realize $dollars for its current (or prospective) advertisers.

On-air talents, supporters of traditional radio, quote "290 million people a week listen to the radio, the vast majority of which are listening to terrestrial radio" (Doug McIntyre, KABC-790). "Terrestrial radio is listened to by 93%-95% of Americans every week! In fact, radio is the medium that has been least affected by other, newer mediums" (Gary W. Bryan, K-Earth 101).

Arbitron claims on its web site just today that "Arbitron Releases RADAR March 2013 Radio Network Ratings - Network Radio Reaches Nearly 180 Million Persons 12 and Older On a Weekly Basis (dated 3.18.13)". And another, "Radio Adds More than 1.6 Million Weekly Listeners, According to the RADAR March 2013 Report (dated 3.11.13)". RADAR is Arbitron's national radio ratings service that measures audiences for radio commercials aired on more than 50 radio networks nationwide.

I stopped believing in the Easter Bunny many years ago, but that's just my opinion. Regardless of your views on the accuracy of listener surveys or on-air talents, there seems to be a definite feeling afoot that AM broadcast radio is on the wane. To claim that "radio is the medium that has been least affected by other, newer mediums" is absurd. And the listener counts seem highly suspect to me. Perhaps 290 million people "pass by" a playing radio at some point during the week, but that doesn't mean that even 5% of them are actually listening to it. They may simply be "exposed" to it (or "reached" in Arbitron parlance), which is not the same as listening. Arbitron even admits that their counts are "exposure" counts.

From Arbitron's web site:

"PPM (Portable People Meter) ratings are based on audience estimates and are the opinion of Arbitron and should not be relied on for precise accuracy or precise representativeness of a demographic or radio market."

That's reassuring.

I look around my daily landscape and the people I see under 40 years old you are either listening to an iPod device or playing with a smartphone.

The 40-55 year old group seems to be deep into careers or jobs. What percentage of them are actively listening to a car radio on a regular basis? My bet is it's small.

The 55+ senior-citizens group seems to have the best chance of being caught with a radio on, and only because they come from that era where we got our news and entertainment from an over-the-air device like a radio or TV.

But in a few short years that last group will be dead (be nice, I am in that category). They will be replaced by the first two groups and an upcoming group as yet unnamed, none of which has a history of listening to the radio. Then, radio as we knew it will truly be dead. No listeners = no broadcasting. And by no broadcasting I mean broadcasting in the traditional sense: a transmitter emitting RF to a distant listener. Or more likely, radio will eventually assume a much smaller footprint, perhaps mostly streamed over the internet. For one, it's cost effective (no huge power bill, no personality salaries, no brick and mortar), and two, it scales well to a smaller audience. Thus, we have hints of the demise of the traditional AM/FM car radio - to be replaced by an internet "streaming device" - not really a radio. Ahhh, for the warm glow of tubes again....

All American Five (5 tubes)

That brings to mind another question. Does anybody actually listen to a radio in the home anymore? Years ago we had the "All American Five" sitting on every kitchen counter top. If you are over 50 you probably remember it. I used to take one of them to bed every night as a teenager, and it was out of its plastic case - ungrounded metal chassis and all. It's a wonder I wasn't electrocuted. How many people these days have a table top radio or portable or clock radio sitting on a counter in the kitchen or on a bed stand? If so, is it even used? Further, if turned on, is it actually listened to?

TV comedy writer Ken Levine writes in his recent blog entry "Terrestrial Radio Sucks", pointing to today's seemingly attractive alternatives which usurp traditional radio's listener base:

"Now there are literally thousands of alternatives. On iTunes radio there are 543 stations streaming Top 40/pop music. Right this minute a Lady Gaga song is on 523 of them. There’s probably a 24/7 station that plays nothing but Spandau Ballet – and they only had one hit."

Alternatives? Not for me anyway. Sounds more like Chinese water torture: the constant drip on your head till you go insane. What you might gain here with these alternatives are no commercials. Commercials are likely the first reason people are driven away from terrestrial radio, though the argument could be made that modern humans have become so desensitized by commercials and ads that they are automatically blocked from the mind, akin to background noise. Program content now is just the filler for that increasingly short time between commercials and the vanishing three minutes of news (itself interspersed with commercials) at the top of the hour.

The main problem is the world has changed and moved on. If you don't think so, consider this recent scenario which happened to me:

I went into a major chain grocery store one day looking for a local picture post card I could send by mail to a friend across the country. I asked the 18 year old cashier checking groceries if the store carried any local post cards. Her reply: "You should probably check with the customer service desk, they might know what that is." She had no clue.

My gut feel is that traditional radio is like picture post cards. If not slowly on the way out, it is at least headed for some "niche" level. And not likely to come back strong, ever.

What is ironic, however, and runs counter to the naysayers, is that the number of US FCC-licensed AM radio stations has remained almost the same since 1970. Since the peak of 1990, a very small but steady overall decline has been taking place. Month by month, if you follow the FCC counts, we lose a couple of stations. Canada, on the other hand, seems to be on a tear to totally get out of the AM broadcast business. Mexico has even entertained the same idea in recent years.

Year Of RecordFCC AM License Count
19502143
19552704
19603470
19653941
19704209
19754355
19804589
19904987
19954909
20004685
20044770
20104784
2013(March) 4736

But at least in the US, how can traditional radio be in a catastrophic state of demise with all this AM RF still in the air?

Maybe we are devolving into that condition in physics called "Steady-State": the condition of a system when some or all of the quantities describing it are independent of time but not necessarily in thermodynamic or chemical equilibrium. In other words, it's about as messed up as it can be and not likely to change any time soon.

Perhaps listener surveys like Arbitron provides really don't matter anymore, accurate or not. It was calculated a few years ago that e-mail spam needed only one buyer in 40,000 e-mails to be profitable. Send out a billion e-mails and you have sold 25,000 of something. Saturate the market with advertising like we see today on radio and TV and we get the same result. A one hour TV program is one-third advertising. Tune across the FM band at any given time and 50% of the time you land on a commercial ad. I gave up on FM radio many years ago because of this. AM radio is hardly different. Maybe the mass of population we have now is such that it will generate just enough advertising revenue to be sufficient to sustain broadcast radio, regardless of the quality of the program content. Just like the e-mail scenario describes - shoot enough arrows (ads) up into the air and some of them will have to hit something on the way down (buyers). That is, if enough people are truly listening.

Thus, the Steady-State theory. We shall see what happens in the coming years to terrestrial broadcast radio.

Tuesday, March 5, 2013

Catalina's KBRT-740 Relocates


In the news recently has been Christian-format station KBRT-740, owned and operated by Crawford Broadcasting Company. KBRT was a long-time resident of Catalina Island, some 20 miles off the coast of Los Angeles, CA. The station has moved its transmitter operation to the mainland after developing a 27 acre piece of land in the Santa Catalina Mountains in Orange County.

In planning since the new site was purchased in 2008, the FCC granted final planning approval in October of 2011, and building permits were issued the following spring. Work began immediately with the installation of a new underground power service from a location nearly a mile away.

Construction proceeded throughout the summer and fall of 2012, completing in December. Final testing, including transmitter and antenna adjustments were finished in the first weeks of 2013, and the station cut over to the new location on February 28 with an upgraded 50 kilowatt power output.

Scott Fybush published a detailed article on KBRT in a recent issue of Radio World, entitled One of America’s Most Remote AM Sites Signs Off, covering its history. It makes for an interesting read.

Crawford Broadcasting has also posted a gallery of photos with description of the construction of the new site. If you are interested in seeing what goes into the building of a mediumwave tower site, be sure to check it out.


Over the years, KBRT has had to tread a fine broadcast line in order to sandwich their signal pattern between San Francisco's southeast-firing 50KW KCBS-740 and the 20 KHz interference contour for nearby San Diego's 50KW KFMB-760, some 100 miles distant but across a nearly all salt water path. The three tower, 10KW array firing due east from Catalina Island 20+ miles offshore worked well enough during the day, covering the L.A. area quite nicely. However, KBRT's limited night authorization of only 113 watts couldn't compete with San Francisco flamethrower KCBS-740 barreling down the coast after dark, so it chose to operate during daylight hours only.

The recent move to the Santa Catalina Mountains with headquarters in Costa Mesa, CA has not changed KBRT's signal pattern constraints. Using a new four tower array, engineers have cleverly carved out a quite similar pattern which now fires southwest toward the ocean, managing to corral the new and expanded 50KW signal perfectly between San Francisco's KCBS-740 and San Diego's second adjacent channel KFMB-760. The pattern has enlarged some due to the increased power, guaranteeing a little better coverage up and down the coast and inland and still succeeds in not overlapping into the 0.15 mV/m fringe contour area for KCBS.

Below you will find a 0.15 mV/m daytime pattern study generated by Radio Data MW. Both old and new KBRT-740 patterns are superimposed to show their differences. Included are daytime patterns for San Francisco's KCBS-740 (370 miles distant) and Phoenix, Arizona's omnidirectional 1KW KIDR-740 (355 miles distant). The pattern map is based on a ground conductivity of 8 mS/m, average for most of the coastal area. Note that in actuality the pattern over the ocean would be skewed outward beyond what the plot shows due to the high conductivity of the salt water, however this makes a negligible difference to this analysis.

Monitoring 740 KHz from Quartzsite, Arizona (extreme western Arizona along I-10), three stations are apparent near the noon hour on a sensitive truck radio. Strongest and readily copyable is Phoenix's 1KW Spanish language outlet KIDR-740 at 124 miles. Next in strength is the new 50KW KBRT-740 from Orange County at 195 miles, alternately fading up to compete with KIDR, then fading down to just above the noise level. In the background and barely above the noise level, and not generally intelligible, is San Francisco's 50KW KCBS-740 at 557 miles. Using either the Tecsun PL-380 or the Tecsun PL-600 and a 24-inch nulling loop brings up KCBS to a copyable level. Previously, 10KW KBRT-740 from its Catalina Island location (then at 239 miles) was a somewhat difficult catch, usually requiring a nulling loop to remove San Francisco's KCBS signal and enhance signal strength.

I am headed cross country back to the east coast this week. More to come, including the US Mediumwave Pattern Map files. Stay tuned.

KBRT-740 and companions - 0.15 mV/m fringe pattern plot

Friday, March 1, 2013

Field Strength Calculator One: Update 1.0052

The latest update to Field Strength Calculator One has fixed an occasional looping bug which occured at extreme distances (~5000 miles or greater) and added three new calculations figures. The FCC's 10 KHz, 20 KHz, and 30 KHz allowable interference contour levels and expected distances for these levels are now part of the calculations results.

For those new to Field Strength Calculator One, the program returns expected received field strength in millivolts per meter and dBu (also known as dBµV/m), based on ground conductivity, earth dielectric and several other input constants. It also displays the distance to the radio horizon and the signal path loss in dB, along with several more technical parameters. The resulting output of Field Strength Calculator One should be accurate in most cases to a couple of percent in the longwave and mediumwave bands. It compares favorably to ITU program GRWAVE and currently available FCC Ground Wave Conductivity graphs.

For further information on how field strength is calculated see the Field Strength Calculations Series previously published on RADIO-TIMETRAVELLER.

DOWNLOAD

To download, see the link at the top of the right sidebar under LATEST PROGRAMS. The sidebar at the top right will have the most current link in case the program is updated. The link will change in the case of an update, so I would avoid copying and pasting it into a forum or other web page. Come to the main page of this blog instead.

INSTALL

Install is simple. Download the .zip file and unzip. Click on the FieldStrengthCalculatorOne.exe file to run. This program makes no registry changes and saves no data to your hard drive. It has been developed and tested in Windows 7. It should work fine in Windows Vista and XP environments, and Windows 8. It is written in the old standby Visual Basic 6.

Included in the .zip is a readme.txt file. Be sure to have a look.

Click image to enlarge.