3 sdi-12 power considerations, Table 29. sdi-12 sensor setup -- results, Crbasic example 36. sdi-12 sensor setup – Campbell Scientific CR3000 Micrologger User Manual

Section 7. Installation

190 

CRBasic Example 36. SDI‐12 Sensor Setup 

Public

PTemp, batt_volt

Public

Source(10)

BeginProg

Scan

(5,Sec,0,0)

PanelTemp

(PTemp,250)

Battery

(batt_volt)

Source(1) = PTemp

'temperature, deg C

Source(2) = batt_volt

'primary power, Vdc

Source(3) = PTemp * 1.8 + 32

'temperature, deg F

Source(4) = batt_volt

'primary power, Vdc

Source(5) = PTemp

'temperature, deg C

Source(6) = batt_volt * 1000

'primary power, mVdc

Source(7) = PTemp * 1.8 + 32

'temperature in deg F

Source(8) = batt_volt * 1000

'primary power, mVdc

Source(9) = Status.SerialNumber

'serial number

Source(10) = Status.LithiumBattery

'data backup battery, V

NextScan

SlowSequence

Do

SDI12SensorSetup

(2,1,0,1)

Delay

(1,500,mSec)

SDI12SensorResponse

(Source)

Loop

EndSequence

EndProg

Table 29. SDI-12 Sensor Setup -- Results

Measurement

Command from

SDI-12 Recorder

Source Variables

Accessed from the

CR3000 acting as a

SDI-12 Sensor

Contents of

Source Variables

0M!

Source(1), Source(2)

temperature °C, battery voltage

0M0!

Same as

0M!

0M1!

Source(3), Source(4)

temperature °F, battery voltage

0M2!

Source(5), Source(6)

temperature °C, battery mV

0M3!

Source(7), Source(8)

temperature °F, battery mV

0M4!

Source(9), Source(10)

serial number, lithium battery

voltage

7.8.3.3 SDI-12 Power Considerations

When a command is sent by the CR3000 to an SDI-12 probe, all probes on the
same SDI-12 port will wake up. However, only the probe addressed by the
datalogger will respond. All other probes will remain active until the timeout
period expires.