Hi, Matt:
Yeah, it gets kind of wacky, doesn't it. I don't know the gentleman whose name appears on that 'course', but it was developed by Steve Sweet in Radar Engineering. At the time, I had traveled to 4 continents and 15 countries to teach Airborne Wx Radar Seminars for "Honeywell Systems Training". When this 'course' came out, we simply said: WHY? Steve's first slide lists all of the radars he helped develop and the last statement is "A Radar Guy", but he is NOT a pilot. Frankly, I find the images complex, confusing, too cluttered and some areas not applicable to airborne operations.
I'm about ready for a saliva test with this Level I-II-III-IV confusion. If you look at the blue book Aviation Weather Services AC-45, you'll find there are those levels listed for BOTH stratus and convection rainfall rates, and not an explanation of who is using what rainfall rate.
It's my opinion they should be abandoned in all FOPs for avoiding "Convective Yellow", "Convective Red" and to treat Magenta anytime as a Severe Storm. A responsible pre-flt examination of the destination (Convective Outlook, etc) alerts one to the probability of thunderstorms. Coming down from altitude permits the pilot to observe any building Cu or towering clouds. (ATIS, by the way, when stating 'heavy rain' is, in their definition .3" per hour. "Yellow" on your radar.)
I understand the Centers will now refer to "light", "moderate", "heavy" or 'extreme' rainfall rates, and not Levels.
My advice (although you didn't say what aircraft you operate) is to put the beam one-half the beam-width up at FL180 when changing the altimeter (an 8 degree beam would be elevated to +4) which places the bottom of the beam level with the airplane and altitude. If there's no return at 18, and none at 12 and none at 7, then you're guaranteed it's low level rainshowers. Your radar is calibrated to stratus rainfall rates and one-half inch per hour triggers Red. Jeez, coming down from altitude can't you SEE the cloud formations surrounding the airport?
A long time ago I wrote an article wherein I relayed the experience of a regional carrier holding at the IAF because the airport was surrounded with Red, while a chap in a Baron (& Stormscope) saw no flashes and took the approach. He reported it was 'very wet and smooth'. Thereafter, the reg. carrier made an unremarkable approach.
At 15 miles from the airport on approach, tilt up 15 degrees. In a 3:1 descent profile, 15 miles out is about 4,500' AGL, and 15 degees up will provide excellent convective information at about the 8NM to 12NM areas. As you descend, the info will move to 12NM to 15NM, and as you commit to the approach, you get virtually 'convective blind'. At about 1,500' AGL over the LOM, and 15 degees up, the beam center is 9,000' above the airport. Good information, but still possible to be a thick layer of low level showers. The convective decision should have been made at 15NM or earlier.
With the new ASR-9 and ASR-11 approach radars (which are coordinated to the same rainfall rates as your radar) that is superb information out to 60 miles from the airport. Sitting on the ground for takeoff, you have the same problem: Tilt limited. Take off with 15 degrees up and you have a 'convective slice' at 10 to 15 miles from runway position. Again, the ASR-9 or ASR-11 (& Stormscope) are great supplements. You are virtually 'convectively blind' again, using your own radar for the first 10NM of takeoff and departure. At 10NM distance, go to the endorsed tilt sequence, which is to place the beam center between FL180 to FL250, but no higher. Personally, I like 180-to-220. (1) it affirms convection, (2) you see the affects of the 500mb winds on the echo (3) the color confirms the moisture available and a measure of the Updraft strength to hold that caliber of water suspended for you to view it.
I don't know of any way you can be aloft, and put the beam center at 5,000', and thereafter, interpret weather as opposed to the overwhelming ground returns that you will receive.
Is this any advantageous information for you, or do you need a more amplified explanation? Bravo for the Stormscope: No flashes, no thunderstorm (although building convection can enrich your dentist and still have not reached CB stage.)
Dave
