Update 10/10/2014: the voltage of your charger may play a factor into whether or not the battery needs to be removed. I've noticed that when the charger voltage is of higher variety (e.g. 750mA), then oftentimes the phone will begin recharging after a few seconds. No removing of battery and re-plugging necessary. But when I tried with a lower voltage charger, then the manual process outlined below is necessary. Takeaway is, if you have a higher voltage charger, then using is to recharge may be all you need.
This is going to be quick post to fix a dead Blackberry Bold 9000 or 9900 series. Mine just inexplicably died over the weekend (possibly due to lack of battery power), but it wouldn't charge at all when I plugged it in. So I had to dig around the internet for some help and came across a couple of good ones -- which I figure to share in case these sources are removed in the future.
The first and most popular solution appears to be a simple case of:
1. Remove battery from the Blackberry
2. Connect to the charger while battery is removed
3. A continuous red light (in place of notifications light) should appear shortly, followed by a "no battery" sign a couple of minutes in
4. After the "no battery" sign appears, insert the battery while the charger is connected (don't worry, you won't get electrocuted)
5. Give it 10-20 minutes to charge itself, which then should start booting automatically
I have to admit that I had a weird experience. Tried the above a couple of times, before it finally working on the third attempt (guess it's true, third times the charm..). In short, it might take a few attempts and lots of patience.
Another method I found (here) is copied and pasted below. I didn't get to try it, but seems like a much more methodological approach. Needless to say, full credits belong to the original poster -- devinr501.
Hello users of CrackBerry, I recently ran into the same issue it seems MANY other owners of the Bold 9000 series smartphone.; Examples being:
Seems completely dead, no charging whatsoever when connected to computer, wall, car charger, etc. It started off with a continuous red LED light that you normally get when first booting the device. Then it just completely stopped showing any signs of connectivity/power being supplied to the phone/battery. No red LED, windows didn't recognize it was even connected! So, I got onto google and searched for hours trying to find solutions to this problem. Everyone recommends that you leave the battery out for 24-48 hours.; Well, as that may work for some, it isn't working for everybody with this issue. I did some searching for the mainboard lay-out and functions, what circuits are which, etc. All it took was a little computer knowledge to figure out that the CMOS on the board needed to be cleared! If you have ANY hardware experience when it comes to computers you will know that sometimes you need to remove the little battery on the motherboard and then put it back to fix problems you may run into when adding new hardware, tweaking settings, power failure, etc. This does NOT mean your phone is completely dead, does NOT mean you need a new battery/charger, does NOT mean you need to reload your OS. This a hardware fault that happens when the battery is completely drained, it causes the whole board to act "dead". This tutorial fixes ALL related problems listed above if there is no other indications of hardware malfunctions such as broken USB port.
As you see the battery is a small round silver looking object. It's located on the backside of the bold. This process takes pretty much NO tools, no taking apart your phone, nothing that extreme. It's actually relatively simple if you have steady hands and a well-lighted room! :P
1. There is a sticker covering these components that says the model of the phone, IMEI, and other information. Peel this off. 2. You will now see the small circular battery just to the right of your SIM card slot. GENTLY pry the metal rectangle that is on top of it holding it into place back a bit, until the battery will move. This will take a little bit of time, and you DO need patience when doing this.
3. When you get the battery out, put it back and make sure you put the metal rectangular piece back onto the battery and make sure it is securely in place.
4. Re-apply the sticker after you have completed steps 1-3 and put it on the charger without the battery inserted.
5. The red LED should shine again, and if you leave it connected it will show a dead battery symbol. At this point reinsert your battery & leave it on the charger! It can take anywhere from 5-20 minutes to charge up enough to boot the OS.
Success! Your once dead Bold is back alive and running like a champ! No need to reinstall the OS & all your data is safe & sound on the device.
And you wonder why Research in Motion, makers of Blackberry, is going down the toilet.
Friday, October 4, 2013
While I do not own any Apple devices and adamantly refuse to do so, I have a deep-seated interest on mobile technology and can't possibly ignore Apple's recent developments. (Return readers would probably notice the unusually high number of Apple-related posts I have written...). This interest is in part explained by the fact that Apple is in my stock portfolio. As a good friend recently said, "while I invest in Apple personally, you invest in Apple financially." All I can say is, Apple has been a solid investment so far.
But let us not detract from the purpose of this blog post, which is to provide commentary on the numerous rumors regarding the next iteration of Apple's popular iPhone device: the iPhone 6. As articles like this or this speculate, the iPhone 6 should be a major upgrade in both hardware and software. And therein lies the keyword: should. Amongst the many features these writers/bloggers are clamoring for, there are few very popular ones: (1) bigger display, (2) quad-core A8 processor, (3) NFC, (4) iOS8, (5) wireless charging, (6) element resistance, e.g. water, (7) better camera, and (8) eye-tracking. All of the aforementioned would be major enhancements to the iPhone, but I think if we're rational and review what Apple has done historically, only 1 or 2 of will actually be part of the iPhone 6 next year. In short, people need to be real and stop overhyping.
Historically speaking, the "S" iteration of every iPhone release sequence has included the biggest and most evolutionary changes to the device...at least on the hardware side. We've seen this most recently with the iPhone 5S -- with its superior camera, iOS 7, the M7 sensors and, arguably the most significant, the A7 SOC chip. The vastness of the 5S upgrade from the 5 is underscored by the folks over at AnAndtech labeling it, "quite possibly the biggest S-update we've ever seen from Apple." I'd have to agree, especially remembering that the biggest update from the 4 to 4S was the inclusion of Siri. So in other words, history has shown us that Apple tends to save its biggest "under-the-hood" updates to the iPhone for the "S" iteration.
With this in mind, I believe we can start debunking some of the wild rumors flying around. Let's go back to our original list of 8 and do a brief breakdown of each:
1. Bigger display -- Certain
The screen on my Samsung Galaxy S2 is still bigger than that of the iPhone 5S. Think about that for a moment. Apple is missing out a large part of the market by being fixated on a single screen side, and my best guess is that they will increase the size screen a further .5 inches to 4.5 inches. This should be the sweet spot for Apple as it won't alienate the current customer base while appealing to potential customers with a fetish for bigger screen sizes. The bonus is that this strategy would further differentiate between the flagship and the "C" iteration, and consequently sell more of the flagship device.
2. Quad-core A8 processor -- Likely, but...
...the performance update will be incremental at best. Think in terms of higher frequencies all around, rather than more physical cores per CPU and GPU. The A7 SOC already performs against the best other manufacturers like Intel and Qualcomm have to offer, and ushered in the 64-bit era to ARM chipsets. Apple might double the number of CPU cores to 4, but will certainly retain the quad-core GPU configuration. The potential for performance gain will fall on software developers to take advantage of the new architecture, rather than from the hardware side.
3. NFC -- No
Apple is proud of its proprietary technology and I don't see them deviating from their current stance, unless NFC is somehow recognized as the de-facto contact-less payment and file transfer systems.
4. iOS 8 -- Likely
The 7th version came out only six months after the 6th version, and I can see Apple continuing this trend. While the hardware on the iPhones is difficult to topple, it's another story on the software side. Android and, to a lesser extent, WP8 platforms have been on the forefront of innovations and iOS at this point comes off as an also-ran. It might be a big change too, considering the newer processing power available and Tim Cook's boast of "desktop-level" performance.
5. Wireless charging -- No
Just like the NFC above, Apple is into its own proprietary technologies and not about following others.
6. Element resistance -- Unlikely
Aside from the usual resistance to fingerprints and scratches, Apple is not going to risk their profit margin on a feature that few customers will ultimately find useful. There's also an ascetic factor that can't be overlooked.
7. Better camera -- Likely
As good as the improvements to the iPhone 5S' camera, the resolution remains a mediocre 8 megapixels. An upgrade to 13 megapixels would be straightforward and bring Apple even to its other competitors -- all except Nokia's ridiculous 41 megapixel sensor.
8. Eye-tracking -- No
Just as Siri was cool but ultimately is proving to be relatively useless, eye-tracking is a gimmicky technology that customers are impressed by but won't be a deciding factor.
I'll add that I do also foresee the increase of the memory (RAM) from 1GB to 2GB for the iPhone 6 (before being doubled again to 4GB for 6S). This would be a no-brainer given the new 64-bit architecture now powering the iPhones.