5 grounding, 3 tcp/ip to rf, 1 setup – Campbell Scientific LoggerNet Datalogger Support Software User Manual

Section 13. Implementing Advanced Communications Links

13.2.2.5 Grounding

Depending on the configuration and distance of the MD9 network, be sure to

follow the grounding guidelines provided in the MD9 hardware manual.

Grounding issues have been known to prevent reliable communications and

data collection.

13.3 TCP/IP to RF

The development of Serial Server devices that allow serial communications

devices to be connected to TCP/IP networks now allows an RF network to be

connected to the LoggerNet server over the Internet or across a Local Area

Network. A Serial Server has a standard TCP/IP connection on one side and

one or more serial ports, typically RS232, on the other. This type of network

setup is typically used for organizations that have field offices or stations that

are connected together by a TCP/IP network. This allows the LoggerNet

server computer to be located in a central area for administration while

providing communications to remote RF networks.

13.3.1 Setup

The device map set up in the Setup Screen for a TCP/IP to RF link would look

similar to the communications network below.

To begin, add an IPPort to the device map if one does not exist. Add an RF

base modem to the IPPort, and to this, add the remote RF modem. To

complete the network, add your datalogger to the remote RF modem. Review

all of the settings for each device, and make any changes to customize the

settings for your network configuration.

13.3.2 Operational Considerations

There are several settings that should be configured to optimize the TCP/IP to

RF network.

The

BMP1 Low Level Packet Delay is configured on the datalogger’s

hardware tab. This governs how rapidly handshaking packets are exchanged

by the server and the RF base while a datalogger transaction is pending. By

default there is no delay so these packets pass back and forth about 5 or 6 times

a second. For TCP/IP communications this should be slowed down by setting

the number of milliseconds to wait to at least 1000 (1 second delay).

Max Time online – This should be set to zero (disabled) for all of the stations

in the RF network. Otherwise, when the communications link is dropped

because this value is exceeded, communication will be re-attempted

immediately. Forcing the connection offline and back on quickly causes errors

because not enough time is allowed for the serial server to reset the TCP/IP

socket.

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