Adcom A720, A723 manual RTU connectors, Pins on an I/O Connector Top View

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CHAPTER 4

Understanding connectors

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Table 2. addIT Receiver Pin Functions

1	Bus Power (V+)

2	Bus Power (GND)

3	Bus Communications (B)

4	Bus Communications (A)

The RTU connectors

The addIT RTU uses standard 7-pin sensor I/O A and I/O B con- nectors (model Binder 702 and 712 series or equivalent) that are identical. Each connector contains three analog inputs (0 to 2.5 volt) and two digital input/outputs, one of which you can use as a pulse counter (for example, a rain gauge). Figure 7 illustrates the individual pins of an I/O connector.

Switched Battery	Cabling 1	(Analog In)
Digital I/O	Cabling 2	(Analog In)
7	1
6	2
5	2
5	3
4	3
Pulse Counter	Cabling 3	(Analog In)

Ground

Figure 7. Pins on an I/O Connector (Top View)

If you have a special passive extender cable, you can use it to plug more than one sensor to one connector.

CAUTION To avoid cabling conﬂicts, ﬁrst verify in the addVANTAGE software that the sensor combination in the conﬁguration you want is allowed. If there are no conﬂicts, you can physically attach the sensors to the addIT RTU.

addIT RTUs can also be used to control actuators and to switch on or off pumps, valves, or other similar devices (for example, using the Macro extension). The same principles for macro commands using an A730MD remote measuring devices apply to addIT RTUs, with the sole difference that instead of three, only the ﬁrst two out- puts are available.

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Contents ADC N ADC N Contents Contents What are addIT devices? IntroductionInstallation issues Italics ConventionsChapter Opening the packages Using the Base StationInstalling the receiver Installing the base stationAddIT Power Supply Installing the power supplyConﬁguring the software Replacing the fuseUsing the RTU Shows an addIT RTU Installing the RTUShows what a typical RTU ﬁeld installation looks like More about the LED tool Conﬁguring an addIT RTU in the addVANTAGE software RTU batteryMaintaining and servicing the RTU Changing the battery Chapter Chapter Performing Advanced Functions Device series Understanding connectorsReceiver connector Pins on an I/O Connector Top View RTU connectorsConﬁguring the devices AddIT RTU Power Connector Top ViewGeneral format of an answer General format of a commandSerial communication protocol SET Ownid nnnn Using terminal commandsSeries 1 devices SET Slot 3600 SET OwnidSET PMP bl bh SET PMP 63SET Rssi value SET Freq freq stepSET Freq 467112500 SET Rssi Querying the actual conﬁguration parametersCmds Series 2 and 3 devicesFreq 433925000 25000 FreqFreq 433925000 FreqSlot PMP SST PMP 65 72193 cm 193 CM 1Repl DEVDEL Repl 5667DEL Dn cs Data 5666 12/12/1998Data b1 b2 b3 ... bn Dd mm yyyy hh mm ss si ft d1 d2 ... dn dd mm yyyyFrame 38 description Frame 39 description Data 6367 30/4/1999Route DataImme Info FdevTemp = internalTem p Anlg Info 255 0 18/4/1999 21511 1.3 0 0 0 91146 900 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 193 TX 6789 Port 7/5/1999 183422193 RX 15190 B 6789 B#234 BA #7851 BAVER 2.0 Blst 30/8/2001 160341VER VER 1.3Notiﬁcations Real time clock Returned errors listCommand line interpreter Device descriptors and storage handlerNotiﬁcations Chapter Parameter Min Typ Max Unit Appendix. SpeciﬁcationsTransmitter all measurements made on a 50 Ω resistive load Chapter Chapter Index INFO, 41 OWNID, 26 PMP PMP What a base station contains Xmit Colophon Credits and ColophonCredits