Filed under: Home Entertainment, Portable Audio

Just in case you didn’t get your fill of tall-ass monolithic 2001-lookin’ portable audio device docks, Philips has a new cop on the beat: the not-yet-announced Docking Enterainment System DCM270. Besides playing CDs and docking your GoGear (or wait — is that a YP-K3?), it’ll even play nice with your iPod, something Apple’s decidedly punier Hi-Fi can’t attest to. More on it soon.

 

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BOLD MOVES: THE FUTURE OF FORD A new documentary series. Be part of the transformation as it happens in real-time

Office Depot Featured Gadget: Xbox 360 Platinum System Packs the power to bring games to life!

Filed under: Home Entertainment, Portable Audio, Robots

We’ve marvelled at this little beauty from afar, but now it appears KNG America is bringing the FUNKit Animated Speaker System to the States this October, at that same $100 pricepoint we’d been hearing. The folks at iLounge managed to get their hands on one a little bit early, and they seem plenty entertained. Along with his wax scratching prowess, the FUNKit announces your tracks with appropriately lame DJ lines like “here’s another FUNKit exclusive,” which is sure to prove entertaining for 30-45 seconds before you kick the thing across the room. A hundie well spent, in our book. Be sure to peep the read link for lots more action shots.

 

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SPONSORED BY: BOLD MOVES: THE FUTURE OF FORD A new documentary series. Be part of the transformation as it happens in real-time.

Filed under: Portable Audio

Remember how yesterday when we posted about the iPod nano dock fashioned from its own hollow husk, and we said what we really wanted to see was an iPod dock made from an old iPod? You can imagine our surprise when reader Andrew Monks did just that, and emailed in to give us photographic evidence of him tearing open his existing iPod dock, jamming it through the top end of his 2G iPod (which we really hope wasn’t still functional), pushing it through a slot he fashioned in the glass of his defunct screen, and properly securing it to make an iPod dock out of his old freaking iPod. We’re still a little dumbfounded, but we think this could be the start of a very wonderful, very cannibalistic trend in consumer electronics.

 

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SPONSORED BY: BOLD MOVES: THE FUTURE OF FORD A new documentary series. Be part of the transformation as it happens in real-time.

Filed under: Peripherals, Portable Audio

Okay, so you’re terrified to even leave your own home with your iPod, let alone take it on a stroll downtown, which leaves you with a portable media player that’s stuck in the house, right? If this is you, fret not — Pacific Rim Technologies has crafted the ultimate in-home (or bar, gameroom, café, etc.) accessory for your little Apple with the iPod-ready JukeBox Station. Standing a full one meter tall and weighing in at 55 pounds, this 72 watt sound system could technically be lumped in as just another speaker station that’s “made for iPod,” especially considering the built-in dock connector and included adapters to suit every dock-rocking iPod ever produced. But alas, this device demands a bit more respect than the little guys; this beast has 5 drivers, including a 6-inch subwoofer, 2 mid-range speakers, and 2 tweeters, an LED lighting system to add that oh-so-familiar jukebox ambiance, “17 function IR remote,” RCA / 3.5mm inputs for alternate DAPs, video-out, and even a lockable window to ensure the tunes don’t come to an abrupt stop care of a desperate party-goer. While we doubt the overall quality here will be anything above average (it’ll be sold through Target, which isn’t exactly known for its high-fidelity offerings), we doubt the signal-to-noise ratio is the focal point here, and though this jukebox isn’t coin-operated, it’ll cost you $699 — or 2,796 quarters — when it drops in October.

[Via iLounge]

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Filed under: Peripherals, Portable Audio

If you’ve ever dreamed of morphing your Sirius boombox and iPod speaker system into one incredibly convenient unit, you’re obviously not alone. Directed Electronics has raised the curtains on its Soloist universal media dock, which apparently hopes to be an end-all solution to folks who don’t want a separate sound system for every media player they own. Although this is labeled with the ever-trendy “universal” tagline, it’s clear this NXT-powered device was created with Apple’s cash cow and Sirius subscribers in mind. The Soloist utilizes SurfaceSound flat panel speaker technology, and packs a subtle 10 watt-per-channel Tripath amplifier into a thin, black housing. While the system will definitely support the iPod and Sirius varieties, an untold amount of other interchangeable cradles will supposedly be included. Just in case your DAP is shunned in the cradle department, an aux-in port is provided along with a headphone jack and a Sirius in-house antenna to boot. The portability crowd will be a bit bummed that the Soloist only plays when connected to an AC outlet, as a battery compartment is MIA, but you will be able to wake to your favorite tune or Sirius station thanks to the built-in alarm clock, which could possibly make dragging yourself out of bed at least slightly less excruciating. This surprisingly well-featured device might not replace your high-end speaker systems, but if consolidation becomes a necessity, you can snag the Soloist for $149 this September.

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Filed under: HDTV, Peripherals, Portable Video

While the original iSee 360i video sleeve was meant to appeal mainly to non-5G iPod owners -- as you'll recall, it lets the 4G-, nano- and mini-flavored 'Pods act as mass storage devices for feeding video to its 3.6-inch LCD -- a new version is looking to bring even the latest iPod into the fold by offering playback of high definition content. Like its predecessor (pictured), ATO's iSee HD (our name, not theirs) partitions your 'Pod's hard drive into two sections: one dedicated to DRM'ed material you downloaded from iTunes, and another for unencrypted MPEG-4, DivX, and HD.264 files that you want to watch on its screen. According to company CEO John Scott, the new iSee will hit stores in about five months, which should be plenty of time for you to save up the $200 to $250 that it's expected to set you back.

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Filed under: Misc. Gadgets, Peripherals, Portable Audio

When someone walks into your house and sees a full-fledged karaoke machine -- or worse, the karaoke muzzle -- he or she will be immediately bombarded by mental images of you doing your best Steve Perry impression. Now you can mask your potentially embarrassing obsession though, by choosing the CAVS IPS-11G iPod Karaoke dock. It looks just like your average third-party iPod cradle, but hiding behind its unassuming shell is support for MPEGs, AVIs, MP3s and slideshows, which when coupled with the two built-in microphone jacks and an A/V cable, can make for hours of ear-offending fun. The dock can accept just about any version of the iPod, which is used purely for storage, as well as USB drives and external HDDs, giving you access to all your media (Journey songs included) through menus on your TV screen. Just think, one day you could be making millions selling your karaoke tracks as ringtones. Or not.

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Filed under: Home Entertainment, Portable Audio

We don't know what it is with the retro-styled iPod accessories as of late, but we do know one of the hidden highlights of last weeks' Computex was surely A-Zone International's old school retro-modern iPod stereo system. Expect a 50 watt valve amp complete with wood paneling, chrome stand, and a price tag oh so appropriate for your little white plastic one: €699 (about $880 US).

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Filed under: Portable Audio, Portable Video

It might be the hip-cool thing these days to make an iPod dock with a 7-inch screen for the iPod user that has it all, but we're not so sure this i1055 Video System from iLuv is quite legit. First off, we just saw the first of these devices -- the Sonic Impact K1 -- a week ago, and it didn't even look to be out of the prototype stage yet. The K1 was also quite bulky, yet didn't have room for a DVD drive which this i1055 claims to have. Finally, the back of this device, where they show the iPod being docked, is a total concept render, and not a very good one at that. If all this is to be believed, the $250 device has a 7-inch widescreen, S-Video out, built-in rechargeable battery, dual audio outputs, and can charge your iPod while you have the unit plugged into its own AC adapter. It seems to be available for order now, and we'd love to be proved wrong, but for now we're thinking a bit of wait-and-see might be in order.

[Via TUAW]

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Filed under: Laptops, Peripherals

Just as we anticipated, Kensington has released that laptop dock we heard about a few months ago featuring Newnham Research’s “NIVO” technology for connecting external monitors through a USB connection. Using only one USB hook-up to your notebook, the wedge-shaped (for keeping your machine cool) Notebook Expansion Dock supports multiple USB devices, Ethernet networking, desktop speakers, and a monitor as big as 17-inches at 1,280 x 1,024 pixels and 32-bit color. You can start turning your laptop into a desktop replacement immediately, for $180.

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Filed under: Portable Audio

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x Before we get started, you might want to download our latest bundle of project files. Inside the zip file you'll find a copy of the connector library and the complete schematic we made last week.

Before we make the board, we'll double check for any wiring problems on the schematic. Clicking on Tools then Erc checks the schematic for electrical problems.

In this case, we're not using the T1 or R1 pins on the MAX232. The two power errors are because we didn't follow the EAGLE power and ground conventions. Again, no big deal. If you have any "nets" that aren't fully connected, you'll get warnings about them here. Even with our "errors" we're good to go.

To create the board, click the not so obvious 'board' button next to the drop down in the tool bar.

EAGLE will as you if you want to create the board from the schematic. Click Yes.

The new window will be black, with the various components sitting to the side. The white outline represents the actual PC board. Everything in this view is movable. If you make a mistake, remember that in EAGLE alt-backspace is undo. You get several undo steps, so feel free to mess around.

Drag the dock connector over to the edge of the board and place it. This is where the nice outline of the connector we created comes in handy. The yellow lines represent the connections that will be made to all the other components from the schematic.

Don't worry if you get this error. In the board view, it just means you tried to move or rotate a part off the board outline. Try it again placing it within the outline of the board. Alternatively, you can make the board really, really big and shrink it down later.

Play with the board layout until you get something you're happy with. We put all of the AV connections on one edge and the data connectors on the opposite. Take your time. Keep in mind that each yellow line will eventually become a trace. Life's easier if you remember the Ghost-Busters motto: Don't cross the streams.

In case you're wondering where the power connector is, we plan to use a spare firewire cable along with our iPod wall charger. That way we can't accidentally inject extra juice to our computer's FireWire ports.

Once you're happy, click Tools and Auto to pull up the options for routing the board. The auto router is one of the fantastic features of EAGLE. The software will play connect the dots to achieve a reasonably efficient trace layout. If it doesn't completely succeed the first time, don't worry. Keep reading.

To get the board to route completely, we had to take the grid to 15 mil. This is pretty fine, but we'll tweak the routing once the computer takes a shot at it. The option to set this pops up when the Auto command is used.

This is a slightly modified auto generated layout. At this point we'd made just a few changes. If you're curious, the fatter traces are replacements. We used them where they'd fit, and they'll be easier to etch later on. Red denotes top layer traces, blue the bottom.

A few tips on tweaking traces: With a trace selected, clicking the middle mouse button will change the layer that the trace lives on. To keep the signal, you'll need "via." Sometimes EAGLE will add them, but you may need to do it by hand.

Here we've moved all the through hole connections (but one) to the bottom layer for ease of construction. Laying out a nice PC board is really an art. This is our result after a few hours of tweaking until we were pretty happy. We made loads changes to the computer generated board. Don't be surprised if the ultimate version ends up a bit different.

Next time we'll bring all the pieces together and finish our super dock. The traces on our board are pretty fine for the usual home PC board making techniques; we'll test out a few and let you know what gives the best results for making your own. See you next week!

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Filed under: Features, Portable Audio

We've updated the the EAGLE library we provided last time, so grab the latest one. Download it and save it to the lbr directory under EAGLE's main program directory.

When you start up EAGLE, it should appear under Libraries. If you can see it there, you're good to go.

Create a new project from the File menu. This makes a new folder for the project to help keep things organized. The folder will show up under Projects in the control panel. Rename the new folder.

Select your iPod dock project folder, right click and select New > Schematic. A new schematic window will appear. It's untitled, but associated with the project we created. You'll get a chance to name it when you save the schematic.

Click on the Add button that looks like a logic gate with an arrow.

In the add window, scroll down to the ipod_con library and expand it. Select the IPOD-DOCK-CONNECTOR that we created in part 1 and click OK.

When you hit OK and the outline of the schematic will appear. Mouse over to a convenient area, like the right side and click once on the schematic. The connector will now appear with labeled pins galore.

The Kobiconn RCA connectors we purchased from Mouser aren't in the standard EAGLE libraries. Fortunately, there are a few RCA style connectors. To make your life a bit easier, we created the missing parts and added them to our iPod connector library.

For the iPod connector, we built the EAGLE parts from scratch. By using the search feature in EAGLE we found a couple of existing RCA connectors and copied the package and schematic of the WB0R1. By setting the grid to 0.01 inches we were able to quickly modify the package outline, pads and drill holes to match our parts. We printed the layout and compared our parts to the print. We then tweaked it until the layouts matched up nicely. Your success may vary, but using this method we managed created the correct patterns within three or four iterations for both parts.

Adding audio and video to the schematic goes very quickly. Add two of the single RCA connectors and one triple RCA from the latest ipod_con library. We named the single RCAs R.Audio-in and L.Audio-in. The triple connector will provide audio and video out. Use the Net tool (not the misleadingly named 'wire' tool) to connect the pins of the RCAs to the iPod pins.

We love that EAGLE runs on Mac OS, Linux and Windows, but it's not perfect. Our biggest frustration occurs when the wires just don't connect to the pins. To fix the problems, we use the arrow tool and grab the part in question and pull it to the side. If there's a broken connection, placing the objects pin back over the unconnected wire will usually take care of it.

Fortunately for us, a USB connector similar to ours exists in the EAGLE libraries. Use the add tool and select the PN61729 USB connector in the con-berg library. Place it on the schematic and rotate it so the pins can be connected easier.

The pinout shown above is from the USB page at pinouts.ru. With this, we can wire up our USB connector to the iPod connector.

With the pinout, wiring up the connector is trivial. Just use the net tool and connect the pins.

There's also a similar FireWire connector to the Molex one we ordered. It's not in the Molex library though, it's in the con-cypressindustries library. Go ahead and add this connector to your schematic.

The FireWire page at pinouts.ru gives us this. Again, we just match up the pins to the iPod connector.

Wire up the FireWire connector using the net tool. Don't forget to connect both power and both ground pins.

The iPod serial port is designed to talk to TTL devices like microcontrollers. We want to access it with a standard PC RS-232 serial port. To translate TTL to RS-232 we'll use the ever handy Dallas Semiconductor Max 232 family. The Max-232 works great and uses just a few external capacitors as charge pumps.

This TTL to serial converter circuit from ipodlinux.org shows a standard MAX232 based circuit. Just ignore the pin numbers on the iPod side. Those are for the accessory serial port next to the headphone jack. For our dock connector, we'll connect:

• pin 10 on the MAX232 to pin 12 of the iPod
• pin 9 of the MAX232 to pin 13 of the iPod
• pin 16 of the MAX232 to pin 18 of the iPod

Use the add tool and type in MAX232 in the search box. The capacitors don't really need to be polarized, so we didn't worry about it.

You might notice the lack of power pins on the MAX232. EAGLE places these separately. Click the invoke button, and then click the MAX232.

Select the VCC-GND option, hit OK. Now you can place the pins in a convenient location.

Wire up the power to the iPod dock connector. If you pay attention, you'll see a wiring mistake in this picture that we had to fix.

We're almost done. Just the DB9 connector and the serial enable resistor.

A search for D finds a suitable Sub-D 9 pin connector in the library.

Now we wire up pins 2, 3 and 5 to the MAX232 per the wiring diagram.

The last bit of wiring is a 500K Ohm resistor. First we pick one with a suitable package design.

Then wire up the resistor between the serial enable and the ground at pin 1. The value of the resistor tells the iPod what sort of accessory is connected.

If you're not interested in playing with the iPod using the serial port of a computer, you might want to replace the max-232 circuit with one like the iPod to T&A Remote adapter. It uses a PIC micro-controller to send serial commands to the ipod. The PIC programming (and circuit) could be adapted to add things like hard buttons to the dock, your own infrared remote or an external text display showing the current song.

Finally! Our schematic is finished. Next we'll be fixing any problems, creating the board and building our own super dock. Stay tuned!

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Filed under: Features, Portable Audio

In this first part we'll be shopping for parts and preparing to design the super dock. The idea of building a dock with every connection available has been around for a while. It came up on the iPodLinux forums long ago and more recently a prototyping version was featured on Hack-A-Day. To find out just what the dock connector has to offer, we checked out pinouts.ru. Twenty five of thirty pins on the connector are used to deliver line level audio in, out, composite video out, a TTL level serial port, 3.3 volts out (handy for powering accessories), Firewire and USB.


The most challenging part to acquire is the actual iPod dock connector. Others have sacrificed cables, but new connectors are easier to work with. We picked up ours from Ridax on the iPodLinux forums, but lately Spark Fun Electronics started to carry them. (Spark Fun is out of stock today, but they assured us that more are coming in very soon) The connector we used is actually designed for making cable assemblies. The tabs are very small, and you'll probably turn into Smeagol go nuts trying to solder to them.


For the rest of the connectors, we visited Mouser electronics. Here's what we bought (Mouser's part numbers are listed):

• 538-53460-0621 6 pin 1394 PCB Connector
• 571-7877801 'B' USB Connector
• 161-4223 3 way RCA Phono Jack: Red, White and Yellow
• 152-3309  D-Sub 9 pin Connector
• 161-0096-E Red PCB Phono Jack
• 161-0097 Black PCB Phono Jack
  

Firewire and USB were pretty easy, we just searched for PCB mount variants of each. The 9 pin D-Sub connector is for the serial port. For audio and video out, we selected the three connector RCA jack with the red, white and yellow connectors. Mouser was out of the dual read an black RCA connectors, so we bought a single red and black (ok, it should have been white) one to finish the order up. We already had blank printed circuit boards and some MAX 232s and 233s in our parts bin to convert the TTL level signals to RS-232 serial. Oh, and you might want to season your recipe with a power connector or two.


To try our hand at soldering wires to the tiny connector, we made this handy travel charger just before a long, long, long plane ride. (The TSA guys actually laughed at it) Trust us, wiring this up took some patience. Forum user holto2go suggests placing a small piece of paper between the pins to ease soldering.


Because we want to use all of the pins, we decided to mount the connector directly to a pc board. A small screw driver was used to slightly spread the pins of the connector, and it fit very snugly around the edge of our board.


We considered using a fine tip sharpie to lay out the connector lines, but there's still alot of  board design left to do, and it's not very clean looking. In the end, we decided to lay out the custom connector in the latest version of our favorite freeware layout software: EAGLE.


To get started on the custom connector we measured the pins of the connector with our digital calipers. It's pretty challenging to measure the tiny connectors with much accuracy, but our measurements gave us a great place to start. We're going to skimp on some of the details because Instructables has a nice how-to on making your own parts in EAGLE.


To get the width of the pins just right, we printed out test rows with our laser printer and compared it to the pins on the connector.


We found that a .016 inch thick SMD pad was the right width, and starting with a grid size of .0205 inches we made test layouts of 15 pins, printed them out on a laser printer and compared the width to the actual part. Through a few iterations we settled on a grid that was .0195 inches wide. To provide plenty of surface area, we made the pads a generous  .140 inches wide. The pads alternate red and blue to indicate the top and bottom of the board. To make it look good, we added an approximation of what the dock connector looks like. Lastly we numbered the pads in order with the name command.


Next we made a simple schematic layout. It's just a box with the 25 active connector pins. Then we named each pin. We did a couple of repeats, because EAGLE doesn't want to link a schematic pin to two physical pins.


To bring together the symbol and the package layouts, we created a new device called the ipod-dock-connector. Within the package definition we associate the pins on the physical package with the pins in the schematic version. Now all the really tedious stuff is finished and we can start laying out the actual connections.

If you want to start playing around with your own dock designs, you can download the library we created for EAGLE here. Just place it in the "lbr" directory under the main EAGLE program directory. We'll continue the project in next week's in Part II. We'll be designing the dock and laying out the board using EAGLE. From there we'll make our own PC board and complete the super dock faster than you can say "iPod on fire."

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