Soporific Airs (DJ Bolivia)

This is the music-related blog for Jonathan (Scooter) Clark, also known in the electronica world as DJ Bolivia, a producer and DJ from Atlantic Canada. I listen to (and produce) a lot of folk, indie, rock, and hip hop music too! I also run a company (Replant.ca Environmental) through which you can sponsor the planting of trees to build forest reserves and community forests, which are protected from commercial logging. Please visit: www.replant.ca/environmental

Showing posts with label android. Show all posts

Friday, January 16, 2015

Information about Power Bank Portable Chargers

A lot of people have problems with keeping their mobile devices charged. Tablets aren't too bad, unless they're playing a lot of video or streaming data. Mobile phones can drain really quickly, especially if they're being used in remote regions or inside buildings, where mobile coverage is cutting in and out frequently.

The simple solution is to always keep a wired charger handy so you can plug into the nearest wall outlet. But what if there are no outlets around? This can happen frequently, for example:

- Hiking, or camping in remote areas.

- At sports event.

- In some bars or restaurants.

- At some airports or train stations.

Those are just a few examples. The simple solution is to buy a "power bank." A power bank is essentially a portable battery, which you can use to re-charge your mobile device.

A power bank will generally charge devices that can be charged over things like USB cables, but can't charge items that plug into a household outlet. So for example, you can usually charge tablets, phones, mp3 players, and some GPS units. You can also charge a small number of cameras, such as GoPro cameras. Some tablets, most cameras, and laptops require a wall plug, so a power bank isn't going to be helpful for these pieces of equipment.

On that topic, let's look at some specs. Most items that are 5 volt can be charged by a power bank, not specifically because of the voltage, but just because devices with 5v usually have the proper charging connections that can be taken advantage of. Some tablets and many cameras range from 8 volt to 12 volt, and can't necessarily be charged. Laptop computers generally accept between 12 volts and 24 volts. The charger on the laptop is actually a step-down transformer to convert 110/120v or 220/240v into the proper voltage for the laptop.

Power Banks are essentially batteries. You charge them, then they hold this charge until you drain it by moving it into another device. In fact, you can say that a power bank IS a battery, technically speaking. In fact, the innards of a power bank sometimes are one big battery, or a bunch of smaller batteries connected to each other. There is a small portable battery called an 18650 that is commonly used in Asia to provide the storage capacity inside a power bank. A couple or several 18650's are wired together inside the power bank, depending on the size and capacity of the power bank. By the way, this isn't necessarily a good thing, as we'll find out in a minute.

The guts of a power bank are usually lithium ion or lithium polymer storage. Lithium ion is a liquid electrolyte. Lithium polymer is a solid polymer electrolyte. What's the difference? Lithium polymer, or LiPolymer, is generally better. It can have a flexible size and dimension. It producers less heat, which means that it's more efficient and safer. It has a lower self-discharge rate. The storage capacity decays more slowly. The only real drawback about using LiPolymer instead of Lithium Ion is that LiPolymer is more expensive. That's the reason Lithium Ion batteries (18650's) are less desirable. You may find that some no-name power banks are just a bunch of old 18650's that have been recycled, not necessarily even fresh new batteries!

The health of your phone battery decays over time. That's why a new phone can generally hold a charge longer than when the phone starts to get older. You could say that if a phone's battery health is at 80%, its charge can only last 80% as long as it would have when the battery was new.

As you're moving energy around from item to item, some of it is lost either as heat or due to inefficiencies in the conversion process. This is important when figuring out how much a power bank can help you. We'll get into that in a minute.

Here are some of the specs that you should look for in a good power bank:

- What is the number of mAH? This stands for milliamp hours. Ideally it should be at a voltage of five volts.

- Can the power bank charge and discharge simultaneously? It could be frustrating to have a power bank that will not charge another device while it is itself charging. Some power banks will both charge internally and charge an attached device if the power bank is itself plugged in and charging. Other power banks won't charge the attached device until the power bank itself is unplugged from the wall. And finally, some power banks, if plugged in and attached to a device that they are charging, will let the power from the outlet pass through and charge that remote device first, before the power bank itself starts to charge up.

- How many output ports are there? Can two devices be charged simultaneously?

- What is the output current rating? A higher number is generally better.

Your biggest question when looking for a power bank is probably something along the lines of, "How many times will it charge my phone?" Is there a simple way to figure this out? Well, sort of. But the formula isn't perfectly simple.

Some power banks have very low capacities, with rated capacities listed as probably under 4000 mAH. These are no good. They probably have one or two 18650's inside them, and might barely provide a single charge for a typical phone.

Some power banks have very high listed capacities, like 40,000 mAH and higher. It seems that a lot of these are actually scams. There are some that are legitimate, but a power bank would generally have to be fairly large to have that capacity, not the sort of thing that would be the size of a deck of cards, and convenient to carry around.

Other power banks have capacities of perhaps 8,000 to 15,000 mAH. In my limited experience, these tend to be the best ones. They're probably a branded model, and the numbers are more likely to be accurate. You best bet, however, is to double-check by doing a google search for reviews on the exact brand and model of the power bank you're looking at. Luckily, a lot of people who have bad experiences with a particular purchase will post the info on the internet, which can prevent other people from being ripped off.

Some power banks have internet circuit protection. This is important. If you have something without circuit protection and it gets connected to the wrong thing, it's pretty easy to hurt the internal batteries so they die or become extremely weak.

Let's say that you have a phone that has a 3,000 mAH battery. Let's also say that you have a Power Bank that stores 12,000 mAH. You've probably already come up with a very good question … can you just divide these numbers to come up with the amount of times that your phone can be charged by the power bank? In other words, can your power bank charge your phone exactly four times?

This is good logic. It's also moderately correct. The only problem is that you have to factor in the phone's battery heat, and the conversion rate.

Let's say that your phone is getting older and it's only about 80% healthy. The problem is that there's no exact scientific way to measure this for the average consumer, so it's a guess. You can probably figure it out roughly from experience after charging your device several times.

Also, let's say that 15% of the stored energy is lost in conversion. That means that only 85% of the stored energy in the power bank will make it to the battery of the device being charged.

After considering these two adjustments, the correct formula for figuring out roughly how much your power bank will charge would be:

Storage of Power Bank * Conversion Rate * Phone Battery Health / Phone Battery Capacity

Or in this example: 12,000 * 0.85 * 0.80 / 3,000 = about 2.72 times. Nearly three full charges.

As I said, this is a rough equation, but by guessing the approximate phone battery health and conversion rate to temper your expectations, you're going to get a more accurate assessment than by using impossible "perfect case" results.

A lot of the cheap no-name power banks made in Asia are sketchy. Many are cheap and use old recycled batteries. A new 18650 is supposed to have a charge cycle of 300 charges before it's essentially useless. However, if an unscrupulous vendor builds a bunch of power banks with old used 18650's, you might not get very many charges out of it before it dies. Also, there have been occasional cases of someone buying what feels like a hefty power bank that must have quite a bit of storage capacity, and it's only got one or two 18650's and a bag of sand to tricky people. Try to look for something that appears to have a brand name, at the very least! And look for detailed specs. The specs may be a lie, but if they're detailed and look legitimate, there's maybe a slightly better chance that you're getting a product that isn't a sham.

I did a short video to show you a power bank that I purchased. I got lucky, this one turned out well. I don’t think it's in production anymore because it's been replaced by a 13,000 mAH model, but the exact specs of mine are as follows:

- IntoCircuit Power Castle Series

- Model PC11200

- 11,200 mAH, 5 volt

- Can charge two devices simultaneously

- Has internal protection for under/over current/voltage

- Does not come with a charger, must use the charger for your phone or other device

- Only cost about $30 Canadian plus shipping from Amazon

Like I said, it's worked decently for me. I did some tests on recharging my Nexus 5, which has a 2300 mAH battery. Starting with the power bank at 100% and the phone at 0%, it took 108 minutes to charge using the 2.1amp line, which drained the power bank to 63% of its charge. Using the 1.0amp line, it took 137 minutes to charge the phone, but it only drained the power pack to 83%. I'm optimistic that by using the lower amperage line, I could probably get at least four and maybe almost five full charges out of the power bank, if it hasn't been sitting around for too long (your power bank, like any battery, will slowly lose its residual charge if it sits for an extremely extended time period).

Here's the video about my own power bank:

One last important consideration is that most airlines do NOT allow you to have power banks or other significant amounts of batteries in checked baggage, unless they are actually in a device! So a battery inside a camera inside your luggage is fine, but a spare battery is not. Therefore, remember that you will be forced to carry your power bank as a carry-on item! Also, many airlines have regulations on the number and capacity of batteries that you can carry. This probably won't be an issue, because it's a pretty generous allowance. For example, several airlines won't let you have batteries over 160 aH (160,000 mAH). But this is the size of a truck battery. Many airlines also have rules like "maximum of ten lithium batteries per person in your carry-on, and any lithium batteries in checked baggage must either be installed in a device, in the original packaging, or in a carrying device that insulates the battery terminals." Check the rules in advance for your particular airline if you're going to fly somewhere!

I'll wrap this up with a list of the battery capacities for a number of phones that are commonly available today. I'm sure this list will be quite out-of-date within 24 months, but at least it'll give you a general idea of typical battery capacities:

1810 mAH – iPhone 6

2915 mAH – iPhone 6 plus

3220 mAH – Samsung Galaxy Note 4

2800 mAH – Samsung Galaxy S5

3100 mAH – Sony Eperia Z3

3900 mAH – Motorola Droid Turbo

3000 mAH – LG G3

2600 mAH – HTC One M8

2420 mAH – Nokia Lumia Icon

2400 mAH – Amazon Fire Phone

2300 mAH – Google Nexus 5

2100 mAH – Blackberry Q10

1800 mAH – HTC Windows Phone 8X

I'm Jonathan Clark, known online as DJ Bolivia. Do you want to learn more about DJ'ing and music production? If so, visit:

djbolivia.ca/training

If you happen to enjoy techno tracks, most of my tracks are available as free downloads from this link:

djbolivia.ca/tracks

Thanks so much for visit, and for your support! I really appreciate the fan base that I've been able to build up over the years.

Also, if you want to visit any of my other sites, here are a few links:

YouTube: youtube.com/djbolivia

SoundCloud: soundcloud.com/djbolivia

Blogger: djbolivia.blogspot.com

Main Site: www.djbolivia.ca

Wednesday, December 24, 2014

A Gift for the World - Donate Spare Computer Time

As I write this, depending where you live in the world, today/tomorrow is a major holiday for people of certain religions. Of course, there are billions of people around the world who don't celebrate right now, but who celebrate other holidays at certain times of the year when gift-giving is a tradition.

No matter what holidays you celebrate, or when you happen to read this post, how would you like to give a gift to the rest of the world? And it doesn't really cost anything (except a bit of electricity consumption when your computer is turned on).

The gift is participation in a volunteer "grid computing" project. Wait! I know, your eyes started to glaze over when you saw "grid computing." Please, bear with me for a second!

There are literally hundreds of millions of computers around the world. Many of them are inexpensive laptops or tablets for personal use. You might not think that your "old laptop" is very powerful, but the interesting thing is that it is probably only "in use" for about 2-5% of the time when it's turned on. The rest of the time, it's sitting there waiting for something to do. Even when it looks busy, because it's streaming music or uploading a YouTube video, the brain of the computer (the CPU) is idle most of the time.

So it's possible (and easy) to set up your computers so when they're turned on but not in use, they're helping solve scientific problems that could benefit millions of people. For example, my laptop is currently running projects to help study proteins. This research is useful in fighting diseases such as malaria, cancer, Alzheimer's, and HIV. My laptop is also helping to catalog a high quality model of our near galaxy. It's also searching for pulsar stars, and working on a few other projects. And it's not costing me a penny, other than my electric bill.

Ok, at this point, if you don't want to try to help cure diseases like cancer, Alzheimer's, etc., then you can stop reading. But if I've aroused your curiosity, let me describe in more detail how it works, and I'll explain some of the specific projects that I'm supporting.

The Software:

The project is called BOINC, which stands for Berkeley Open Infrastructure for Network Computing. Berkeley of course refers to the University of California at Berkeley. You don't have to be very tech-savvy to make it work on your computer. The people at Berkley set up the software to try to make it as user-friendly as possible, and to run in the background so you never notice it.

BOINC is currently available for a number of platforms. For Windows, your computer must be running XP (service pack 2) or a more recently operating system, which should cover 99.98% of all Windows machines still functioning. For Mac's, you need OS X 10.4 or later. There are also versions for Linux and for Android, although the Android software is currently not working properly since Lollipop was released. That should be fixed shortly.

Here is the download page for BOINC: http://boinc.berkeley.edu/index.php

How It Works:

Basically, an institution that has a very large amount of data to process, but not enough computers to do it, can set up their project with BOINC. People who decide to contribute computer time to a project will receive small chunks of data to process. Your computer will spend a few hours or a few days processing this chunk of data, and then sends the results back to the project's institution. The institution then sends you another chunk of data to work on. This all happens in the background, so you don't have to spend any time answering or sending emails, etc. And if you're worried about the internet usage, you can restrict the times that data is sent or received, and you can cap the bandwidth if you want. But for most people, this won't be a big deal. The bandwidth that most of these projects will send/receive in a day is probably less than you'd use watching a two-minute YouTube video. If you're on Android on a phone, you can tell it to wait until you're at a free WiFi point to send/receive, so you don't use any of your mobile data.

The strength of the system is that the institution can be sending chunks of data out to dozens or even thousands of computers all around the world to simultaneously help work on analyzing data! If you're curious about what happens to data that can't be processed, and whether or not it affects the project, there are safeguards. For example, if you are processing info for a project and your laptop gets run over by a bus, there are deadlines built into each chunk of data. So for this example, if the institution doesn't get results back from the data chunk that your computer is working on within say, 30 days, it sends the same chunk out to someone else's computer to analyze.

Slightly Technical Section:

You can ignore this short section if you want to avoid technical stuff!

If you want to really control the parameters for BOINC, you can customize a lot of stuff. For example, I have mine set up so that after ten minutes of no activity on the computer, it starts to run. I think this is fairly typical, although maybe the default is one hour. But as soon as BOINC detects that you're using the computer (either through physical interaction such as a keypress, or high CPU usage such as watching a video) then it suspends operations until it knows that you're not using the laptop yourself. This way, your laptop is never "slowed down" when you're using it.

For CPU usage, I have mine set so that BOINC doesn't run if my CPU is over 15%. When it is running, I have it capped at a maximum of 95% of CPU. For people with advanced graphics cards, which probably isn't a lot of people, you can allow BOINC to use the processing power of your card. For example, I have a fairly nice nVidia GeForce 870M video card, so that's also helping to do calculations when BOINC is running. BOINC supports quite a few nVidia and ATI/AMD cards.

From the BOINC Manager program, if you want to get really technical, go into View and switch to Advanced. Then go into Tools and select Computing Preferences. This is where you can play with your CPU and network and hard drive usage settings. You can also determine whether or not it auto-loads when you boot your device, or whether it has to be turned on manually. You can also temporarily do a suspension of processing with a single click in the Manager program. For instance, I have mine set up to auto-boot and run most of the time, but just in case, I suspend it when my computer is rendering large video and audio files (although it shouldn't run then anyway because my CPU is too busy).

Although BOINC runs on all major platforms, not all individual projects using BOINC are able to run on all platforms. For example, many projects can't take advantage of GPU processing, and some projects only run in Windows and Mac environments.

Cool Stuff:

BOINC on all my machines has a screensaver, which I've turned on. I've matched the screensaver start time to my "start BOINC processing after 10 minutes of downtime" setting, so when BOINC starts, the screensaver comes on. You don't have to run the screensaver. However, for some of the projects, it's pretty cool, and it's a nice conversation piece if someone notices it and asks what your computer is doing. You can tell them that you're saving the world.

To get to your screensaver settings in Windows, go to Control Panel then Display then Personalization. I have mine set to never blank, run the generic BOINC portion for 1 minutes, then run project screensavers for 1 hour. So it keeps switching back and forth between the generic one (1 minute long) and then an hour of various project screensavers. Within the project screensavers, I have it set to switch every 2 minutes, so there's more variety.

Some of the screensavers keep spinning or displaying changing graphics of stuff being studied, so a single screenshot isn't very exciting. But here are screenshots from two projects that my laptop is running, from the Rosetta and Einstein projects:

These screensavers have captured the attention of many people who have been by my house to visit.

Projects:

Here are some of the projects that I'm supporting. I have them set to cycle automatically, so my laptop processes one for an hour, then moves on to the next, so they eventually all get an equal share of my computer's time. In the preferences, you can allocate different percentages of your overall CPU to various projects, in case there are some projects that you want to support more than others.

Milky Way

This project is creating a highly accurate three dimensional model of the Milky Way galaxy using data gathered by the Sloan Digital Sky Survey. They have a facebook page and website and YouTube channel, like many of the other projects.

Rosetta

Determining three dimensional shapes of proteins in research that will hopefully lead to a cure of some major human diseases, including diseases such as HIV, malaria, cancer, Alzheimer's, etc.

SkyNet POGS

An astronomy project studying sixteen different properties of galaxies, and also helping to produce an atlas to help astronomers better understand the distant universe.

MalariaControl

Sponsored by the Swiss Tropical Institute, this project is doing modelling/simulations of large human populations to determine optimal strategies for delivering mosquito nets, chemotheraphy, and new vaccines that are currently under development and testing.

Einstein

Searching for spinning neutron stars (pulsars) using data from the Arecibo observatory. Volunteers helping with this project have already discovered several dozen pulsars over the past couple years!

SETI

This is the project that got BOINC started over a decade ago. This project searches through data gathered by various observatories and looks for non-naturally occurring radio signals from outside our solar system, in other words, the search for extra-terrestrial intelligence. So far, none have been found, but people continue to search. You probably know this joke: "What's the biggest sign that extra-terrestrial intelligence actually exists? That they haven't tried to contact us."

World Community Grid

This one, sponsored by IBM, is actually a group of non-profit projects on things like research into HIV/AIDS, cancer, tropical and neglected diseases, solar energy, clean water, and many more. For instance, there is an Ebola research project available from this group.

If you want to see a more complete list of projects to choose from, go here:

http://boinc.berkeley.edu/projects.php

Obviously, there are dozens of projects available to chose from. You can contribute to just a single project, or you can contribute to a dozen or more. Your choice. You'll find that most of the projects specifically fall within research areas within the following fields, due to the data-crunching requirements of these areas of study: astronomy, math, physics, quantum physics, biology & life sciences, and medicine. Just remember that you have to install BOINC itself before you start participating in a project.

Getting Started:

After you install the BOINC software, you'll have to go to the "load project" section and pick a project that you want to support. After that's set up, load another project if you want. You'll probably be impatient at first to see it start working. Give it time. When you first install it, it needs some time to download data to process, to think about how to set things up, and so on. Also, your stats screens and screen saver will display stats showing how many "work units" your system has completed. Don't expect those to go up right away! It may take hours or a day or two before your system finishes processing the first batch of data, then the data has to be sent back to the project sponsor and verified. So it may look like you've processed 0 units of work for a few days, and then all of a sudden it'll jump up to hundreds or thousands of units processed. Be patient.

Final Thoughts:

You may wonder how many people are participating in these projects? As of today, it appears that about 236,000 people from around the world are contributing computer time to various BOINC projects. They are doing this on about 481,000 computers. By the way, many users are running BOINC on several machines and tablets and phones simultaneously. For instance, I have it running on three devices in my house.

There are many web pages showing the stats and progress of various projects. Some users gather together in "teams" to

I highly encourage you to contribute to this project. Seriously, what do you have to lose? Some people leave their computers running all night, doing nothing! Think of how good you'll feel if you know that your computer isn't dormant, it's helping advance research in the cure of diseases that kill millions of people every year!

Also, the screensaver options are great. They've really drawn attention to the project when people see them. The whole concept is a great conversation starter. Next time you have friends over to visit, wouldn't it be cool to say, "Hey, I just set my computer up to help study a potential cure for Ebola."

If you're worried about the electric bill, remember that it's not going to cost you anything unless you leave the laptop on longer than you normally would have. And realistically, leaving a computer on overnight, year-round, to contribute to these projects is not much different than donating $20 once a year to a local charity.

Even if you only have a single computer running the BOINC software, and it's only running a few hours each day, you're still contributing to a great cause. And what about your computer at work? If you're not on a special networked computer, maybe that one can also be allowed to BOINC? You better check your company's policies first, but some companies are fine with this. After all, it's for a great cause.

Once again, here's the link to get you started:

http://boinc.berkeley.edu/index.php

Please, share this post with other people you know who might be interested in learning about these projects. I've just added share/retweet/like buttons below. There are probably lots of people out there who would love to contribute to some of these projects, but just don't know that the possibility exists.