Good grief, where?!? Or perhaps that's to an actual business?

I have Cox Business at home, started out at 8/1 but they've since upgraded me to 15/3 - and my actual speed tests always give me more like 30/15! With 5 static IPs I pay $105/month. The breakdown shows the base service is $85/mo with one IP, each additional IP is $5/mo.

I had the residential service before, at the time (a few years ago) I paid $44/mo for the "standard" speed (can't remember what it was). Both of these are Internet-only, no TV or phone.

Can't say whether it's more reliable than the residential service, I never really had trouble with it either.

Ready for power cuts, but since I put the system in I haven't had any major ones. A few winters ago I froze through a few days without power after an ice storm and decided not to do that again. I now have 2kW of solar panels on the roof, a battery bank in the garage, and an inverter and sub panel feeding the primary circuits in the house. If I happen to be using grid power when there is an outage, the inverter switches over so quickly the lights don't even blink. During the day I switch off-grid anyway to make use of the system and reduce the electric bill.

The system isn't large, it won't run the house AC (nor will the little Honda generator I bought) but I can run the 9000 BTU mini-split in the back room. Originally installed for all the hot computers I was running a few years back, now it lets me cool down off-grid! In winter I can run the natural gas furnace as well. Everything else that's "essential" can be run indefinitely long as there is some sun or I have gas for the generator. My ISP (Cox) lets me down after 2-3 hours though, apparently that's all the battery the local nodes carry.

At least for the iOS devices, you can certainly disable automatic checking of mail. I have mine set so they only check when I manually open the mail app. Settings -> Mail -> Fetch New Data. Turn off Push, set Fetch to Manual.

The only items I can't easily avoid on the phone are texts and phone calls, but I don't generally get deep in a book when using the phone - it's for filling a few minutes here and there while waiting on something / someone else. The iPad doesn't have messaging set up, so no annoyances there.

But then having the occasional notification pop up wouldn't bother me. I can even happily ignore a ringing phone, it's funny how hard it is for most people to do that. (In public I'd silence the phone, of course. The office desk phone doesn't have that feature.)

Doesn't really matter. The iPad isn't the book. It will probably be replaced with a newer model at least once within that time. Even if it gets destroyed, I can get another and as soon as I sync it to my computer or the cloud the entire library is back in place, ready to read.

For only a few titles, that's ridiculously expensive (but then I have other uses for it so the cost isn't limited just to the books). For an entire library? If I were to have a fire in my house, there's considerably more money to be lost in printed pages than an iPad or whatever reader I'm using.

The main issue I have with growing a large ebook library is getting locked into a platform. Will I be able to take my books with me to another brand reader if/when I decide to switch? If I'm not able to move the books, I'm not about to buy large quantities of them.

Not at all uncommon. Where I live (Oklahoma City) a significant number of commuters live well outside the main metropolitan area and 40 miles would be easy. The baffling part to me is they usually live in subdivisions that look no different from the ones right in town, very few actually do "country living" in spite of their long commute.

Even for those of us who live in the metro area 20 miles is fairly easy, my dad spent 35 years at the same job with a 20 mile (40 mile round trip) commute. In some cases it can take 5-10 miles just to get to the grocery store. You can usually find a "convenience store" on every corner, but you'll pay a ridiculous premium for anything you buy there.

It isn't like that in all areas, the older parts of the city usually have stores closer by. I have two grocery stores 1/2 mile from my house, and several restaurants. My office is only 2 miles away, a previous one was 5. Unfortunately the newer housing developments only reinforce the car requirement. Mile after mile of nothing-but-homes built behind stockade fences or brick walls with only one or two exits onto the main road. The stores and jobs are miles away "somewhere else".

No. When I viewed the textbooks on my ipad there was a note "only for ipad". The sample I downloaded wouldn't transfer to the phone on sync and when I tried searching for the textbooks on the phone they don't even show up.

I have an app on my ipad that lets me do this with PDFs, called Note Taker HD. Pretty nice program, also has a "zoom" mode - a boxed area in the doc is show zoomed in at the bottom of the screen so you can make more detailed notes / drawings than is otherwise possible. Input is still a little clumsy thanks to the capacitive screen, you can't get very precise except by using the zoom mode. The annotated PDFs and any docs you create yourself can then be exported and emailed, put into ibooks as a PDF, or printed.

Still isn't what I *really* want - accurate and detailed free-form input in any app or document. Not to mention (in the case of my ipad) I'm carrying around a fragile $600 tablet instead of a $1 spiral notebook that still "works" fine after being dropped, cut, torn, gets wet, so on... I'm fine with it at home or in the office, but in the field at work that's more financial risk than it's worth. It isn't that inconvenient to scan in a page of the paper notebook when I get back to the office, or worst case take a picture of it and email in the field.

The one thing a tablet does do better than paper, I can carry an entire room full of documentation and manuals with ease. Of course my laptop can do the same thing, but it's handy to have the docs to the side on another device while working on the laptop.

I install HVAC control systems for a living. Almost all of them rely on Windows at some point along the way anymore, either for setup software or the user interface software (if it doesn't use a web interface).

However, most do NOT require the Windows computer in order to function properly. The systems either have a dedicated embedded-style building controller, or use a peer-to-peer arrangement with each device handling its own schedules and talking to each other directly to integrate. It's entirely possible that the most he could actually do from that computer is look at a few temperatures.

Not that I expect that's reality. Unfortunately, we're typically talking about people with very little computer / networking skills, and security is dead last on anyone's mind when setting these systems up. They wouldn't even talk to IT at all if they didn't need an IP or LAN drop somewhere. I try to caution people about the need for at least rudimentary security, but all too often ease-of-use wins the day. Some even have their HVAC systems exposed directly to the net so they can more easily use their smartphones or check on things from home. Combine with braindead username/password selection and I'm surprised many haven't been hacked.

One way I try to prevent total disaster is by careful programming - make it so the user front-end doesn't allow them to do stupid stuff, and sanity-check user input. But there's a limit to what can be done with most of these systems, and in the end if the customer says he wants to be able to do something stupid - well, it's his building. Just don't expect me to cover it under warranty!

Climate control (at least for commercial HVAC) is a relative non-issue as well. Every motor I've seen installed lately is happy at either frequency - for that matter, we put lots of them on variable-speed drives which varies the frequency and voltage all over the place. Only extremely old motors might have issues.

So all that really happens is the motor speeds up/down a bit (depending on who converts their system) which is handily fixed - if you even need to - as most large air handling equipment is belt-driven. Pull the sheaves off, put on a slightly-different size, fire it back up. Some equipment has adjustable sheaves already, so just screw the assembly in/out a bit to change the diameter.

Water pumps aren't so readily adjusted, but most have balancing valves after the pumps anyway to set the desired flow - just tweak it open/closed a bit and again you're done.

Some of the really old building automation systems I've seen used to use "line time clocks" - referencing the AC frequency for their clock. I expect some of those wouldn't keep proper time, and one particular panel simply quit functioning if the frequency fell outside 60 Hz +/- a few tenths (found that out when they stopped running every time the emergency generators were tested). Those panels were obsoleted by the manufacturer quite a few years ago, but there are still a LOT of them installed and operating (in the US anyway). They would have to be upgraded, but it's an easy retrofit to something newer - the new stuff is so much smaller than those old panels you can just gut the old cans and install new with room to spare.

In part, yes, I could use a larger battery bank. It is currently 8 T-105 "golf cart" batteries, which gives 48V x 205AH = 9840Wh if they are completely discharged. Best to keep a lead-acid battery above 50% discharged, so that's just shy of 5kWh. For daily use I don't like to go more than 25% discharged, so 2.5kWh/day. When these are ready to be replaced, I plan to go with L16s which will double my capacity.

But I can only replace that and run the loads simultaneously during the summer. In winter, I'm doing good to get 3kWh/day from the panels. If the loads are left on the inverter during that time I won't get the battery bank fully charged. Summertime no problem, 6kWh easy - long as it isn't a cloudy day.

My fridge uses 1.6kWh/day, so it alone would almost fully consume my available solar power in winter. The LAN and servers "idle" (when my desktop isn't on) at a total of 120W or so, just shy of 3kWh/day. In summer it is my 24x7 load for the solar system, but again in winter I can't count on achieving that each day. Of course, the desktop only adds to that total number, making it worse.

I have written a program to monitor power usage and switch the loads to grid when the battery bank drops to 25% discharged, then back to inverter at 20%. Works well enough, but it means I discharge the battery in the evenings and it sits partially charged overnight. I need to add to that so it senses when the sun is up, and also "anticipates" sunrise by switching over to inverter in the wee hours of the morning - then the battery bank doesn't spend much time in a discharged state before recharge begins.

Or just spend more money on more panels and battery...!

I have the usual collection of small toys - calculator, garden lights, so forth...

And I have around 1200W in solar panels on the roof. One 135W panel supplies my ham radio bench w/ 12V AGM battery. A (cheap, junky, but still functioning) Harbor Freight 45W panel set is used to charge random 12V batteries or maintain the car in the garage. The rest (8 x 135W) are tied to a battery bank and inverter that feeds a dedicated set of circuits in the house. I can in theory run almost anything in the house off that system - the inverter is good for 3600W - although battery and panel capacities do limit me overall.

Absolutely nothing "green" to my motives - I sat in the dark and cold through a multi-day power outage during an ice storm, and have no intention of doing so again. (I also have a generator, but don't want to run it 24x7 to keep the fridge, lights, computers going. The solar system is effectively a big UPS.)

Depends on the system, of course. I'm running a couple of Mac Minis as linux servers, and when they aren't busy (the vast majority of their time) they are drawing only 12-15W. Loaded up maybe 25W. I also have an OpenRD Client ARM board that draws about 7W.

My previous servers were a P4 desktop and P4 PowerEdge (low-end model) which both used about 90W idle and 150W loaded.

The dollar difference in electricity is about $60/year per machine, but more important I wanted to run my network off the small (~800W in panels) solar power system I installed. Dropping from 2.1kWh/day per machine to 360Wh/day made that possible.

Who says they're "on hold"? With a bluetooth headset, or with the iPhone just plug in the earphones w/mic provided with the phone, and you can tap away while continuing the conversation. They certainly won't hear your fingers unless you're trying to bash a hole in the screen.

I never even thought about simultaneous voice/data, until I realized one day that was exactly what I was doing. Talking with a friend, some topic came up and I pulled up the browser to do a search. Sure, if I'm sitting in the office or at home, the computer might be handier but if I'm - say - waiting on someone at a restaurant or client site, the computer isn't convenient and wifi is normally not available. (Few have "free wifi" around here, if they have it at all they have it locked down.)

Now that I'm aware of it, I realized I use that "feature" all the time - it would be annoying not to have it.

Well, you *could* also pass data while in the "digital voice" mode, even alongside a voice conversation. Just at an abysmally slow data rate (~960 bps). So in theory you could "access the net" even with a VHF/UHF rig if the other end was set up appropriately.

I did this once, set up a PPP link between two ID-800s attached to Linux machines. Just for giggles - the data rate is so horribly slow you almost have time to think between keypresses! :)

Normally the data "side channel" is only used for position reporting like APRS, but there are some apps available that let you do a sort of text-messaging with it. Perhaps that's what has them up in arms, don't want to lose any lucrative text-messaging money from the phone company... (Although then again I'm under the impression France / Europe didn't have insane pricing for texting like we do in the US.)

I'm waiting for a couple of ID-1s to show up right now, be interesting to see what sort of range I'll get from 1.2GHz. Never used that band before...