Campbell Scientific CR23X Micrologger User Manual

SECTION 13. CR23X MEASUREMENTS

13-6

DETERMINING SOURCE RESISTANCE

The source resistance used to estimate the
settling time constant is the resistance the
CR23X input "sees" looking out at the sensor.
For our purposes the source resistance can be
defined as the resistance from the CR23X input
through all external paths back to the CR23X.
Figure 13.3-2 shows a typical resistive sensor,
(e.g., a thermistor) configured as a half bridge.
Figure 13.3-3 shows Figure 13.3-2 re-drawn in
terms of the resistive paths determining the
source resistance Ro, is given by the parallel
resistance of Rs and Rf, as shown in Equation
13.3-8.

R

o

= R

s

R

f

/(R

s

+R

f

)

[13.3-8]

If R

f

is much smaller, equal to or much greater

than R

s

, the source resistance can be

approximated by Equations 13.3-9 through
13.3-11, respectively.

R

o

~

R

f

, R

f

<

s

[13.3-9]

R

o

= R

f

/2, R

f

=R

s

[13.3-10]

R

o

~

R

s

, R

f

>>R

s

[13.3-11]

The source resistance for several Campbell
Scientific sensors are given in column 3 of
Table 13.3-5.

DETERMINING LEAD CAPACITANCE

Wire manufacturers typically provide two
capacitance specifications: 1) the capacitance
between the two leads with the shield floating,
and 2) the capacitance between the two leads
with the shield tied to one lead. Since the input
lead and the shield are tied to ground (often
through a bridge resistor, R

f

) in single-ended

measurements such as Figure 13.3-2, the
second specification is used in determining lead
capacitance. Figure 13.3-4 is a representation
of this capacitance, C

w

, usually specified as

pfd/ft. C

w

is actually the sum of capacitance

between the two conductors and the
capacitance between the top conductor and the
shield. Capacitance for 3 lead wires used in
Campbell Scientific sensors is shown in column
6 of Table 13.3-2.

FIGURE 13.3-4. Wire Manufacturers Capacitance Specifications, C

w

TABLE 13.3-2. Properties of Lead Wires Used by Campbell Scientific

CSI

Rl

C

w

Part #

Conductors

Insulation

AWG

(ohms/1000ft.)

(pfd/ft.)

9721

3 shld. 3 pair

polypropylene

24

28

41

9661

1 shld. pair

polypropylene

22

18

42

7359

1 shld. 4 cond.

polyethylene

22

16

32