2 selecting rs232 or 5v logic for each port, 3 connections to the sdm-sio4, 1 transient protection and grounding – Campbell Scientific SDM-SIO4 4-Channel Serial I/O Interface User Manual

Section 2. Installation and Hardware Set-Up

2-2

2.2 Selecting RS232 or 5V Logic for Each Port

The output voltage levels of each serial port can be set to either:

• Logic level output: +5V (high) / 0V (low) or

• RS232 output: +5V (high) / -5V (low) (compatible with RS232 driver

requirements).

The logic level output is used when driving a logic level compatible device, e.g.
an SC32A, or where quiescent current is a concern. This mode is lower power
because the idle state is 0V, while the idle state of the RS232 output is -5V
which results in current flow to ground via the input resistance of the RS232
device’s inputs. However, in practice, this logic level output mode can be used
with the majority of RS232 sensors as most accept a logic level drive signal as
a valid input signal.

The output levels are configured via a 4 x 3-way block of jumpers at the back
of the unit. There is one jumper for each port. Text is printed on the circuit
board to indicate the port and the relevant position for the two modes. If the
jumper is fitted on (shorts) the two pins close to the right hand side of the unit,
the port will be in RS232 mode and if the two pins close to the left hand side
are shorted, the port is set to 5V logic.

The inputs to the SDM-SIO4 are compatible with either logic level or RS232
signals.

2.3 Connections to the SDM-SIO4

Connect the SDM port to the datalogger SDM terminals as described under
‘SDM Port’ in Section 1. Use a short, low-capacitance, screened cable. The
12V supply can normally be taken from the 12V supply input to the datalogger.

Make up cables for the RS232 devices to match the connections shown under
‘SDM-SIO4 Port’ in Table 1-1 (Section 1). Please refer to your sensor manual
for a description of the required connections, including the handshaking
requirements. To minimize susceptibility to noise, use screened connectors and
cables.

2.3.1 Transient Protection and Grounding

The G terminal on the SDM-SIO4 acts both as a ground reference point for
digital communications via the SDM port and also as a protective ground for
the SDM-SIO4. Usually it can be connected back to the datalogger power
ground (G on a CR10/10X). This ground in turn should be connected to the
safety ground for the whole system.

The SDM-SIO4 has protection against electrostatic discharge and induced
transients on all input and output lines. However, the level of protection offered
is limited by the grounding paths within the case. Where long cables are to be
run to remote serial devices, especially in areas prone to lightning, external