Adcom A723, A720 manual Changing the battery

Page 18

18

CHAPTER 3

Using the RTU

Table 1 shows the addIT devices’ expected operation time on a fully charged battery with 50 mA total consumption for the sensors, as described above.

	Table 1. addIT Device Operation Time

	Radio	Sensor Sampling	Average	Estimated
	Radio	Sensor Sampling	Consumption	Operation
	Activity	(samples/15 min)	Consumption	Operation
	Activity	(samples/15 min)	(µA)	(days)
			(µA)	(days)

	No	No sensors	450	92

	Yes	No sensors	540	77

	Yes	1	750	55

	Yes	3 (default)	1080	38

	Yes	5	1450	28

	Yes	15	3100	13

Note: Radio activity refers to the fact that one base station and between one and three A730MD or addIT remote stations are active on the same operating frequency as the addIT remote station under test.

However, if for some reason (wear-out or accident) the battery loses its capacity (noted in the software with repeated “Battery low” messages), it must be replaced. Make sure, though, that the problem is really due to the battery and not to a defective or dirty solar panel.

Note: The solar panel works only with the A720/A723 devices. The A720B receiver’s internal battery is charged by the power supply.

Adcon highly recommends that you check the solar panels’ state and clean them often. The rain droplets can splash thin layers of soil on the panels, greatly reducing their power output. The sur- rounding vegetation can also lower the panels’ efﬁciency.

Changing the battery

Note: The same type of battery is used in the A720/A723 and A720B devices, so the information in this section also applies to the A720B.

Image 18

Contents ADC N ADC N Contents Contents Introduction What are addIT devices?Installation issues Conventions ItalicsChapter Using the Base Station Opening the packagesInstalling the base station Installing the receiverInstalling the power supply AddIT Power SupplyReplacing the fuse Conﬁguring the softwareUsing the RTU Installing the RTU Shows an addIT RTUShows what a typical RTU ﬁeld installation looks like More about the LED tool RTU battery Maintaining and servicing the RTUConﬁguring an addIT RTU in the addVANTAGE software Changing the battery Chapter Chapter Performing Advanced Functions Understanding connectors Receiver connectorDevice series RTU connectors Pins on an I/O Connector Top ViewAddIT RTU Power Connector Top View Conﬁguring the devicesGeneral format of a command Serial communication protocolGeneral format of an answer Using terminal commands Series 1 devicesSET Ownid nnnn SET PMP 63 SET OwnidSET PMP bl bh SET Slot 3600SET Freq freq step SET Freq 467112500SET Rssi value Querying the actual conﬁguration parameters SET RssiSeries 2 and 3 devices CmdsFreq FreqFreq 433925000 Freq 433925000 25000Slot PMP 193 CM 1 PMP 65 72193 cm SSTDEV ReplRepl 5667 DELDEL Dd mm yyyy hh mm ss si ft d1 d2 ... dn dd mm yyyy Data 5666 12/12/1998Data b1 b2 b3 ... bn Dn csFrame 38 description Data 6367 30/4/1999 Frame 39 descriptionData ImmeRoute Fdev InfoTemp = internalTem p Info 255 0 18/4/1999 21511 1.3 0 0 0 91 146 900Anlg Code Description Parameters Returns Sampling methods are deﬁned by three bits, as follows Return result depends on the control byte see table. However A720B and A723, but see also the comments in Remote on Performing Advanced Functions Command Code Deﬁnitions Port 6789 Port 7/5/1999 183422 193 RX193 TX #7851 BA 6789 B#234 BA 15190 BVER 1.3 Blst 30/8/2001 160341VER VER 2.0Notiﬁcations Device descriptors and storage handler Returned errors listCommand line interpreter Real time clockNotiﬁcations Chapter Appendix. Speciﬁcations Parameter Min Typ Max UnitTransmitter all measurements made on a 50 Ω resistive load Chapter Chapter Index INFO, 41 OWNID, 26 PMP PMP What a base station contains Xmit Credits and Colophon CreditsColophon