2 effect of lead length on signal rise time – Campbell Scientific CR510 Basic Datalogger User Manual

SECTION 13. CR510 MEASUREMENTS

13-6

FIGURE 13.3-4. Wire Manufacturers Capacitance Specifications, C

w

CR510

FIGURE 13.3-5. Model 024A Wind Direction Sensor

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

Belden

Rl

C

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Wire #

Conductors

Insulation

AWG

(ohms/1000ft.)

(pfd/ft.)

8641

1 shld. pair

polyethylene

24

23

42

8771

1 shld. 3 cond.

polyethylene

22

15

41

8723

2 shld. pair

polypropylene

22

15

62

DIELECTRIC ABSORPTION

The dielectric absorption of insulation
surrounding individual conductors can seriously
affect the settling waveform by increasing the
time required to settle as compared to a simple
exponential. Dielectric absorption is difficult to
quantify, but it can have a serious effect on low
level measurements (i.e., 50 mV or less). The
primary rule to follow in minimizing dielectric
absorption is: Avoid PVC insulation around
conductors. PVC cable jackets are permissible
since the jackets don't contribute to the lead
capacitance because the jacket is outside the
shield. Campbell Scientific uses only
polyethylene and polypropylene insulated

conductors in CR510 sensors (see Table 13.3-
2) since these materials have negligible
dielectric absorption. Teflon insulation is also
very good but quite expensive.

13.3.2 EFFECT OF LEAD LENGTH ON SIGNAL

RISE TIME

In the 024A Wind Vane, a potentiometer
sensor, the peak transient voltage is much less
than the true signal voltage (see Table 13.3-5).
This means the signal rise time is the major
source of error and the time constant is the
same as if C

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were between the signal lead and

ground as represented below.