Arduino voltammeter: Unterschied zwischen den Versionen

Aus Happylab
Zur Navigation springen Zur Suche springen
Zeile 1: Zeile 1:
 
For the German version go to [[Arduino_VoltAmmeter]]
 
For the German version go to [[Arduino_VoltAmmeter]]
 
=General=
 
=General=
[[Image:AmmeterInBetrieb_Steckplatine.jpg|thumb|ammeter on breadboard]]
+
[[Image:AmmeterInBetrieb_Steckplatine.jpg|thumb|ammeter on breadboard,
 +
measuring the voltage of the battery block and the current through the LED]]
 
[[Image:AmmeterInBetrieb_Schaltplan.jpg|thumb|ammeter circuit diagram]]
 
[[Image:AmmeterInBetrieb_Schaltplan.jpg|thumb|ammeter circuit diagram]]
  

Version vom 5. Februar 2012, 22:18 Uhr

For the German version go to Arduino_VoltAmmeter

General

ammeter on breadboard, measuring the voltage of the battery block and the current through the LED
ammeter circuit diagram

I describe a volt-amperemeter using Arduino microcontroller. The measurements (voltage and current in one) can be made permanently (for instance every second).

In picture ammeter on breadboard you see at the input a battery block and at the output a LED with its safety resistor. These two components can be replaced by any two power source and current consumer respectively, as long as they are in a certain range. In following attachment you find the Arduino code, the DS1307 library and also the Fritzing scheme for closer reference.

Filezip.gif ArduinoAmmeter.zip (118KB)
Version from 05.02.2012

Resistor Values

The values of the given resistors are in the breadboard picture (from left to right) 100K 10K, 0.47 Ohm, 220 Ohm, 100K, 2.2K (twice). Henceforth, I refer to them as R1, R2, R3, R4, R5, R6 und R7 respectively,

With those given values a maximum voltage of 55 Volt and a maximum current of 10.6 Ampere can be measured. For different voltages choose a differnt R2, für different currents a different R3.

Following table lists different values of R2 and its corresponding maximum voltage; for differnt values of R3 its maximum current. Note that R2 and R3 can be chosen independently from each other.

R2 U_max R3 I_max
50K 15V 0.47 Ohm 10.6A
10K 55V 4.7 Ohm 1060mA
6.8K 79V 47 Ohm 106mA

In case you choose a different value you have to adapt that in the Arduino source, respectively, Regarding R2, modify the initialization of variable V10K_RESISTOR, for R3 the variable I0_47_RESISTOR.

The value of the resistors R6 und R7 (here given as 2.2K) need not to be exactly like that, for instance a value of 4.7K worked as fine. There is nothing to adapt in the code in this case.

Logging

timer DS1307

Time and Date information is delivered by DS1307 break out board. You can also omit this part (including cables) without affecting the measurement of voltage and current. Time and Date is then simply shown to be zero in the log entries.

BEISPIEL (aus SERIAL MONITOR)

log permanent on

V=5.86;mA=10.27;R_v=523.30;mW=60.14;time=19:2:58;day=5;monat=2

V=5.86;mA=10.27;R_v=523.30;mW=60.14;time=19:2:59;day=5;monat=2

V=5.86;mA=10.27;R_v=523.30;mW=60.14;time=19:3:0;day=5;monat=2

V=5.86;mA=10.27;R_v=523.30;mW=60.14;time=19:3:1;day=5;monat=2

log permanent OFF

References

My circuit is an adaption of Renatos blog http://rexpirando.blogspot.com/2011/03/arduino-volt-ammeter-part-1-breadboard.html who himself refers to page http://electronics-diy.com/70v_pic_voltmeter_amperemeter.php, where you can find the kernel circuit doing the measurements.