A Router-Based Dev Board That Isn't a Router 54
An anonymous reader writes with a link to an intriguing device highlighted at Hackaday (it's an Indiegogo project, too, if it excites you $90 worth, and seems well on its way to meeting its modest goal): The DPT Board is something that may be of interest to anyone looking to hack up a router for their own connected project or IoT implementation: hardware based on a fairly standard router, loaded up with OpenWRT, with a ton of I/O to connect to anything.
It's called the DPT Board, and it's basically an hugely improved version of the off-the-shelf routers you can pick up through the usual channels. On board are 20 GPIOs, USB host, 16MB Flash, 64MB RAM, two Ethernet ports, on-board 802.11n and a USB host port. This small system on board is pre-installed with OpenWRT, making it relatively easy to connect this small router-like device to LED strips, sensors, or whatever other project you have in mind.
It's called the DPT Board, and it's basically an hugely improved version of the off-the-shelf routers you can pick up through the usual channels. On board are 20 GPIOs, USB host, 16MB Flash, 64MB RAM, two Ethernet ports, on-board 802.11n and a USB host port. This small system on board is pre-installed with OpenWRT, making it relatively easy to connect this small router-like device to LED strips, sensors, or whatever other project you have in mind.
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Face it, your argument boils down to "it costs less and has more features". The only potential downside is for projects relying on "perfect" RF, assuming you are correct about the DPT-boar
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At least one order of magnitude too expensive (Score:2)
Its $35 RTFA
Others available from $10 (Score:2)
One I have heard of is Olimex who reckon their product (still in design, with an RT5350F) will be 10 USD in 1,000 off quantities. Over time and with better integration of future devices we can safely assume that will halve.
$90 was for two. One's $40-60 (Score:2)
It's $20 for the module, $35 for a development board with the module soldered on it (which you'd almost certainly want), $45 for that AC power, cables, $50 for the board plus a spare module and pre-installed software, about $5-8 for shipping.
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You're still looking at a higher price tag than just buying a Mikrotik Routerboard used on eBay. If your goal is to get a router it's a goofy thing to buy.
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I believe you're missing the fact it contains 20 GPIO pins; See if you're COTS router gives you that level of flexibility.
GPIO's useful for Internet of Things (Score:3)
Sure, if you're just routing, and don't want to connect to various hardware I/O things, you can get a simpler board. But if you want to talk to sensors or build yourself a toaster controller or weather station or add lots of blinky lights or whatever, they're useful.
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And wooden you say: "I am not a lumber! I am a tree man."
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Yes, I've got the impression too that someone succeeded in getting their pet project overly hyped.
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On board are 20 GPIOs, USB host, 16MB Flash, 64MB RAM, two Ethernet ports, on-board 802.11n and a USB host port.
I think they are referring more to the GPIOs [wikipedia.org] than ethernet or USB ports when saying "with a ton of I/O to connect to anything".
I'm curious what people would want to use these GPIOs for on a router... does anyone have any real-world projects where they use them? Not just "It would be cool if it it did X", but actual real-world projects.
I'd rather have more ethernet ports on a router so I don't have to VLAN my network.
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Well, you wouldn't necessarily use 20 GPIOs on a router... but, then, this isn't a router, just a dev board based on a SoC commonly used in routers, running on a software stack also commonly used in routers.
This isn't a duck. It just walks like a duck and quacks like a duck.
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Use it for a computer (Score:1)
First thing I would do is hook up a screen, keyboard, and pointing device and use it for a computer. Imagine.. a Beowulf cluster of these!
It's a "flexible scamming" project. (Score:4, Informative)
It's one of those "flexible funding" Indiegogo projects, where they get to keep the money even if they don't get enough money to make anything. Great scam; just come up with some popular idea, overprice the project, and keep the money.
Price is reasonable - $35, not $90 (Score:2)
It's $35 plus shipping for the development board with the module soldered on it, so it's about the same as an Arduino; the $89 price was for two of them plus accessories like cables and power supplies. They're asking for not very much money to finish their software development, and the real question is whether their software is any good.
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Or in the latter where if you make your project target funding, you may still keep all funding without delivery anything to funders.
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That's why it's important to actually read what they wrote instead of just stopping at the first "red flag" you come to.
WRTnode (Score:3)
meh (Score:1)
A) I didnt know router hacking was still a thing
B) you can get a wrt compatible linksys any day of the week at goodwill for 4.99$ if you really want to dick with it
C) there's a thousand ways to make a custom router with already available and cheaper hardware from old pc's to the invasion of the crappy ARM sbc's (pi, beagle bone black etc)
IoT which chipsets? (Score:2)
We are about to embark on designing a similar product. Essentially we want a gateway that can select from either a Cell Phone embeded data modem such as the Telit HE910, or local WiFi, then provide an internal data link via USB or Ethernet to our device and some remote connectivity for setup via Bluetooth.
We need good power management, and the ability to add local peripherals (such as a keypad, status LEDs, etc)
OpenWRT looks like the right foundation, but which chipset to select is more difficult.
Any sugges
Why flash and not microSD? (Score:3)
Instead of flash memory soldered to the board, microSD is ubiquitous and cheap -- and makes the device effectively unbrickable. Sure, there are bootloaders with recovery features, but it's not as simple as writing a new image to SD. Raspberry Pi got it right in this department. It's a shame there's no PCIe bus on the raspi...
Re:Why flash and not microSD? (Score:4, Insightful)
Far better to have everything firmly and permanently attached to the board. Why solder in a connector whan it's just as easy (and takes the same amount of board space) to solder in flash instead. That way you don't get the blame when an idiot user "recycles" an old uSD card and blabs all over the internet how crap and unreliable your product is, as their card keeps corrupting.
RPi got it completely wrong in this respect. You don't hear of corrupted software & kernels on all the cards that use flash. If it's more "difficult" for noobs to use, then that's no bad thing either as it discourages those who are lacking in the clue department. This is not meant to be a plaything for children.
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Do SD cards implement background scrubbing? Using NAND Flash as a replacement for NOR Flash always strikes me as unreliable given the short storage time of high density NAND memory. I have already seen older consumer devices that use high density NAND Flash for firmware storage "self brick" after a period of time and I suspect this is what caused it.
Re: Yeah, 2 ports + WiFi - so? (Score:3)
No, generally a router has an inside and an outside, and sometimes a third port as a DMZ; you're thinking of a router with an ethernet hub attached, like many home routers. There are routers with more routed ports, and there are one-armed routers also, though that's less likely to be useful.
me (Score:1)