Hi Martin,
Did you manage to make any progress with the sensor on the Pi? I also wanted to ask whether the output we're receiving from i2cdump makes any sense to you as it doesn't to us currently? Tried searching around for possible info on the 'XX' & 'ff' but drawing a blank here.
Cheers,
Julian
On 13 April 2013 01:11, Julian Brooks jbeezez@gmail.com wrote:
Hey all,
Some success finally:
Hurrah!!
The scl breakout pin on the pi proto plate wasn't working properly.
When unscrewed halfway it works, when fully screwed in it doesn't.
So - now got this:
i2cdetect -y 0
0 1 2 3 4 5 6 7 8 9 a b c d e f
00: -- -- -- -- -- -- -- 0a -- -- -- -- --
10: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
20: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
30: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
40: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
50: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
60: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
70: -- -- -- -- -- -- -- --
and
i2cdump -y 0 0xa No size specified (using byte-data access)
Gives a whole host of stuff I don't yet understand but I don't care currently as something is actually happening.
Will figure out a way of saving the console info (any hints anyone?) as it gets badly mangled when cutting and pasting but basically something like this:
i2cdump -y 0 0xa No size specified (using byte-data access) 0 1 2 3 4 5 6 7 8 9 a b c d e f 0123456789abcdef 00: ff XX XX XX XX XX XX ff XX XX XX XX ff ff ff XX .XXXXXX.XXXX...X 10: XX ff XX XX XX XX XX ff XX ff XX ff XX XX ff XX X.XXXXX.X.X.XX.X 20: ff XX XX ff XX XX ff XX XX XX XX ff XX XX XX ff .XX.XX.XXXX.XXX. 30: XX ff XX ff XX XX XX XX ff ff ff XX XX XX XX XX X.X.XXXX...XXXXX 40: XX XX XX ff XX ff XX XX XX 64 XX XX d5 XX XX ff XXX.X.XXXdXX?XX. 50: XX ff XX XX XX XX XX XX XX ff XX XX ff XX XX XX X.XXXXXXX.XX.XXX 60: ff XX XX XX ff XX XX XX XX XX XX XX XX ff XX XX .XXX.XXXXXXXX.XX 70: XX XX XX XX XX XX XX ff XX XX XX XX XX XX XX XX XXXXXXX.XXXXXXXX 80: XX ff XX XX ff ff XX XX XX ff XX XX XX XX XX XX X.XX..XXX.XXXXXX 90: XX XX ff XX XX ff XX ff XX ff ff XX XX ff ff XX XX.XX.X.X..XX..X a0: XX ff XX XX ff XX XX XX XX XX XX XX XX XX ff XX X.XX.XXXXXXXXX.X b0: XX XX ff XX XX XX ff XX XX ff XX XX XX XX XX XX XX.XXX.XX.XXXXXX c0: XX XX XX XX ff XX XX ff ff XX XX ff ff XX XX XX XXXX.XX..XX..XXX d0: XX XX XX XX XX ff XX ff XX XX XX XX XX ff XX ff XXXXX.X.XXXXX.X. e0: XX XX XX ff XX ff XX XX XX XX XX XX XX XX ff XX XXX.X.XXXXXXXX.X f0: ff XX ff ff XX XX XX XX XX XX XX XX XX XX ff XX .X..XXXXXXXXXX.X
Progress at least.
Cheers,
Julian
On 12 April 2013 11:27, Julian Brooks jbeezez@gmail.com wrote:
Message resent for thread archives with smaller picture size.
Julian
---------- Forwarded message ---------- From: Julian Brooks jbeezez@gmail.com Date: 11 April 2013 19:24 Subject: Re: [PD] Sensors GPIO Raspberry Pi Pd To: Martin Peach martin.peach@sympatico.ca Cc: PD List pd-list@iem.at
Hey Martin / list,
Finally got all the stuff and ...
It’s not working!
We spent the day soldering cables and connecting stuff up as per the Omron ‘App Note 01’ spec sheet.
Started off super-conservative using the I2C level converter (case 3 page 4) http://www.adafruit.com/products/757#Blog/Flickr
We tried resistors on both sides (being super paranoid!) and then we took the low (Pi) side ones off.
We then moved on to case 2 page 3 of this same document…
At each stage we checked with “I2Cdetect –Y 1” and nothing was visible.
The grid shows no attached devices every time we run it.
We re-booted at every stage following the various online tutorials/methods of setting up I2C GPIO on the Pi (checked & double checked).
As you can see we’re using a pi protoplate:
https://www.adafruit.com/products/801
In the photo I’ve attached the cables are coded as follows:
Orange GND
Yellow 5v
Blue SCL
Green SDA
The white is also 5v for the pull up resistors.
The resistor values are 4.7k btw.
We have tested the cable that terminates at the sensor and all that is OK.
I put a multimeter on the GND and SDA solder points on the sensor itself and got 3.7v…
I put a multimeter on the GND and SCL solder points on the sensor itself and got 0.0v…
Don’t know if this means anything or could be useful to know!
Stuck and frustrated now but hey, 3 weeks ago I knew absolutely bugger all about any of this and now I do (sort of).
I'm thinking we could do with the most basic i2c sensor we can find as we have nothing to compare.
Tonight I'm going to d/l a fresh raspbian and start from scratch to check that end.
Feel like if we can't get past the 'i2c-tools' tests we're screwed - never mind getting it in and out of Pd.
Any thoughts/pointers/options from anyone will be really appreciated?
Cheers,
Julian