GeoSIG VE-3x Series, Installation And Operation Manual

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GS_VE-3x_Operation_Manual_V04.doc/24.02.2022
VE-3x Series Velocity Sensor Page 5
2.2. Electrical Connection
The connections and pin assignment is shown in Table 1.
Table 1. VE-3x Sensor Cable Pin Assignment
7 Pin Name 12 Lead Cable Colour Description
1 Sens_X_HI white X-Signal high
2 Sens_X_LO brown X-Signal low
3 Sens_Y_HI green Y-Signal high
4 Sens_Y_LO yellow Y-Signal high
5 Sens_Z_HI pink Z-Signal high
6 Sens_Z_LO grey Z-Signal low
7 Shield Shield Shield
The analog output voltages of VE velocity sensor are referenced to 0 VDC with a sensitivity of
27.3 Vs/m.
2.2.1. Cable Configuration, Specification and Length
The cable configuration, specification, length and quality of installation affect the quality of analog signal
received, the cost of materials and the long-term reliability of the system. When cabling is ordered as part of
the system, GeoSIG engineers review the installation plan and the cable specifications as well as
environmental conditions to assist you in achieving a reliable and cost effective installation. Following the
guidelines outlined below will help further ensure your success.
A cable must not only be able to transmit power and signals, but must also survive the environment in which
it is placed. This includes chemical exposure, UV exposure, impact and cut protection, temperature extremes
and any regulatory safety requirements. Because the permutations are so numerous, it is not practical to
specify particular manufacturer's cable part numbers here. However, GeoSIG engineers will work with you to
help you specify an appropriate cable. The electrical parameters required for transmission of signals and
power is discussed below.
The cable construction must be an overall shielded twisted pair type for optimal protection from
electromagnetic interference (EMI) sources along the path of transmission. Normally the shield can be a foil
wrapper with a drain wire. However, if the cable is to be installed in close proximity to high voltage power
cables an overall braided shield is additionally recommended.
For optimum noise shield performance and maximum cable run lengths, the VE velocity sensor signals
should be paired as shown on Table 2.
Table 2. Cable Wire Pair Assignments
Pair Wire Pair Function
1 X-Signal high and low
2 Y-Signal high and low
3 Z-Signal high and low
Connect the cable shield to the local ground at the recorder
Cables do not generate noise. However, longer cables increase the amount of the contributed noise from
external sources. Cables should always be routed as far from power distribution and control wiring as
possible. Again, if the cable needs to be installed close to power cables, an overall braided shield is
additionally recommended.
Cable resistance primarily determines the maximum cable length. This is not an issue related to analog
signal degradation since both the signal currents and the transmission bandwidth are comparatively quite
low. The main limitation is an outcome of voltage drops in the power supply due to cable resistance. The
following table lists typical conductor resistance values for twisted pair shielded cables.