Campbell Scientific LoggerNet Datalogger Support Software User Manual

Section 14. Troubleshooting Guide

between –95 and –115 dBm which is below the power limit for good data

transmission.

Similarly, if a 10 dBm attenuation pad is inserted in the link and the radio

subsequently will not detect the signal, the actual signal power is between –105

and –115 dBm. In this case, the signal power is far below the power limit.

Attenuation Pads

(10 - 20 dB)

Radio

Programmable

Scanner

To test the power being received by a radio over an RF link, disconnect the

radio from the antenna and insert the programmable scanner as shown in the

figure above. Program the scanner to the radio frequency and adjust the

squelch control until ambient RF noise is just cut out. This level will normally

be around –110 to –115 dBm. The scanner is now ready to conduct the test.

If you are using a data radio that does not have a transmit button

built in, you can easily build a push to transmit button from the

documentation of the radio/RF modem interface connector. There

will be one pin that when pulled high or pulled low will initiate

radio communication. See the radio documentation to identify this

pin. Connect a momentary push-button to either raise or ground

that pin.

Always make sure that the antenna is connected to

the radio before attempting to transmit. Serious damage to the

radio can occur if transmitting without an antenna.

First, test the sub-link of the base station to the first repeater or field station.

Initially treat the base station as the transmitting station and the first field or

repeater station as the receiving station. Disconnect the radio’s multicolored

cable from the RF modem. To start the test, have the person at the base station

initiate a radio transmission. When the radio transmission is received, if

squelch is broken, you will hear it on the speaker of the scanner. If you don’t

hear the radio transmission, the signal is getting lost in the ambient noise and

NOTE

14-12