Difference between revisions of "Analog inputs"

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(Differential measurements)
(Differential measurements)
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!  !! dio6 <br> S2 !! DIO4 <br> S1  || DIO 3 <br> S3 || DIO 1 <br>S4 || DIO 0  
 
!  !! dio6 <br> S2 !! DIO4 <br> S1  || DIO 3 <br> S3 || DIO 1 <br>S4 || DIO 0  
 
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| DIO6<br> S2 || 0x22* || 0x80 || - || 0x0a || -
+
| DIO6<br> S2 || 0x22* || 0x08 || - || 0x0a || -
  
 
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Revision as of 11:20, 25 December 2012

analog inputs

Several boards can be configured to use analog inputs. The registers 0x70-0x78 specify the value for the multiplexer register in the ADC module of the used chip. The value is not santiy checked. Any value you specify will be used. It is not expected that things will break if you send a value that is not documented here, but why risk it?

reference

The top two bits specify the reference. Possible values are:

0x80: internal 1.1V 0x00: 5V (or 3.3V) powersupply line.

Other values are not applicable (0x40 = use aref pin, which is connected elsewhere on the bitwizard boards, 0xc0 is "reserved").

normal measurements

Normal measurements would return a value of 0 for 0V up to 1023 for the reference value.

value dio pin temp thermo
0x00 6 S2 -
0x01 4 S1 -
0x02 3 S3 -
0x03 1 S4 -
0x07 0 - -


The values 4, 5 and 6 would measure analog values on the pins required for I2C or SPI communication. Interesting to do once, but not particularly useful. These values are added to the "reference selection" value in the previous section.

There are also some special values internal to the chip:

value what
0x20 AGND
0x21 1.1V reference
0x22 temp sensor

You should get "about 0" if you use mux value 0x20. Maybe this can be used to measure the offset of the ADC module. By measuring the 1.1V reference with the power rails as the reference, you can get a measurement of the power supply value.

The temp sensor should give you the temperature in C with about 275 added. The datasheet mentions a typical value of 300 at 25C. The coefficient is documented as "close to 1.0", but a few lines up it is documented (indirectly) as "typically 1.077". The offset is apparently quite variable. So don't count on any absolute accuracy. You'll need to calibrate the offset if you want any kind of accuracy. (If the real temp is 21 degrees (comfortable), the reading could easily end up at 16 or 26, which are clearly too cold and too hot for comfort).

Differential measurements

Differential measurements use one pin as the positive input and another as the negative. In the bitwizard boards only "single sided" measurements are supported. This means that if your signal can go both ways, you have to switch to the other polarity once your measured value is below a certain value. Note that you cannot count on the value becoming zero if the polarity reverses. There will always be a little bit of noise resulting in non-zero ADC conversions even if the input polarity is reversed. You could also request both conversion values, and decide what to do with them in your software. The hardware does not support all combinations. So it might be possible that sometimes you cannot measure a polarity. Casual inspection shows that this does not happen in the subset of inputs available on the bitwizard boards.

In the table below you'll see for instance 6-4 in the dio column, this means that the ADC value represents the voltage of dio pin 6 minus dio pin 4.

This table was difficult to figure out.... It may still contain errors. Please report them if you see one.

value dio pins temp thermo
0x08 6 - 4 S2 - S1 -
0x0a 6 - 1 S2 - S4 -
0x28 4 - 6 S1 - S2 -
0x0c 4 - 3 S1 - S3 -
0x0e 4 - 1 S1 - S4 -
0x2c 3 - 4 S3 - S1 -
0x10 3 - 1 S3 - S4 -
0x2a 1 - 6 S4 - S2 -
0x2e 1 - 4 S4 - S1 -
0x30 1 - 3 S4 - S3 -
0x24 1 - 1 S4 - S4 -
0x18 1 - 0 - -
0x38 0 - 1 - -
0x26 0 - 0 - -

Hmm. Maybe a different table is more useful / easier to read in our application. Let me try this:

dio6
S2
DIO4
S1
DIO 3
S3
DIO 1
S4
DIO 0
DIO6
S2
0x22* 0x08 - 0x0a -
DIO4
S1
0x18 - 0x0c 0x0e -
DIO3
S3
- 0x2c - 0x10 -
DIO1
S4
0x1a 0x1e 0x30 0x24 0x18
DIO0 - - - 0x38 0x26

Differential x20 measurements

For measuring small diffences, there is a x20 gain mode. The measurements are very similar to the above differential measurements, but the analog value is multiplied by 20 before being measured. The datasheet for the chip doesn't clearly describe how accurate the "20" here is.

Add one to the values in the above table to obtain the x20 measurements.