Motorola iM1000 Spécifications

Draft 2 ab System Planner ACE3600 RTU 6802979C45-D Copyright © 2009 Motorola All Rights Reserved March 2009

ACE3600 RTU Construction Power Supply Modules The ACE3600 power supply module provides the other modules in the RTU with their operating voltages via

Communications The lower three layers of the MDLC protocol stack are commonly known as Network Services. These layers only are used when communicati

Communications MDLC Data Transfer Methods Three messaging methods are commonly used by the Motorola RTU: Contention (transmission upon change-of-stat

Communications Communication Links The system may support a network comprised of a nearly unlimited number of links. The RTU supports a variety of com

Communications IP Ports). The RS232 ports may operate at data speeds up to 115.2 kbps (depending on the total wire length). RS485 Ports On ACE CPU mod

Communications • Cable characteristic impedance: Distributed capacitance and inductance slows edges, reducing noise margin and compromising the ‘eye

Communications IP Ports (MDLC over IP) ACE3600 RTUs can use IP (Internet Protocol) technology to interface to advanced radio infrastructure (e.g. TETR

Communications 4. IP Gateway connected to LAN. An IP Gateway (IPGW) serves as a front-end for a TCP/IP-based SCADA central and enables it to communic

Communications IP Conversion Table Enhancements An IP conversion table can be assigned to each RTU/FEP. It maps each site ID+link ID (port) to an IP a

Communications Configuring NTP Servers An Ethernet or RS232 PPP port can be configured for NTP protocol (NTP is UDP port number 123.) In this case, th

Communications When one RTU transmits to another, the transmission will go through the FEP which will route it to its destination, without the need of

ACE3600 RTU Construction 7  Short circuit protection outputs  PS located on the leftmost slot of the frame  Overvoltage protection for CPU and I

Communications • Static IP address mode • Dynamic (DHCP) With static IP address mode, the user is required to set the link ID, IP address, subnet ma

Communications MDLC over LAN/Ethernet The ACE3600 RTU can communicate over Ethernet media, via the onboard Ethernet port or 10/100BT plug-in ports. Th

Communications A number of connection methods are available when configuring an Ethernet-based RTU: 1. Static IP address – The user sets the IP addre

Communications Unlike other infrastructures (such as iDEN and TETRA), this IP address and radio unit ID cannot be retrieved for diagnostics from the r

Communications Certain configuration steps are performed on the radio itself using the CPS and in the infrastructure using the UCM tool. See the relev

Communications RS-232LINE 1LINE 1RS-232SCADACentralSTSIPRoutingNetBaseStationInterfaceRouterRTU-AiDEN iM1000Packet DatamodemEthernetIPGatewayRTU-BiDE

Communications RS-232LINE 1LINE 1RS-232SCADACentralSTSIPRoutingNetRTU-ATetraMTP700radioEthernetIPGatewayRTU-BTetraMTP700radioTetraInfrastructureSW MIS

Communications MDLC over IP - Standard Modem To avoid system setup for each modem/radio which supports packet data, a general concept has been intro

Communications MDLC over GPRS Network An RTU can be connected to GPRS (GSM) network through a LAN or through a radio. An IP Gateway or an RTU with an

Communications 1. Assign FEP need to have a fixed IP or host name. Make sure operator support UDP port 2002 from modem to FEP and vice versa. 2. Ass

CPU Modules The main element of the ACE3600 is the CPU module. It controls the I/O modules, processes the gathered data and communicates with the out

Communications IP Conversion Tables The IP conversion table is created in the ACE3600 STS using the IP Conversion Table Manager. Note that unlike the

Communications In the example above, two sets of IP conversion tables should be created and the FEP’s Table should be assigned to the RTUs: The follo

Communications Firewall The ACE3600 Firewall enables the user to define a variety of firewall protections. The firewall is configured and activated

Communications 119 MDLC over Dialup Modem Configuration The ACE3600 can be connected to dial-up modem. The user can configure the modem from the RTU

Radio Communications The ACE3600 RTU is designed to operate with various Motorola conventional and trunked radio transceivers (see table below). Othe

Communications Radio FCC information Radio Band Power Output* Transmitter Type Acceptance Emissions Applicable Rules VHF 136-174 MHz 1-5W AZ489FT

Communications Conventional and Analog Trunked Radio Modulation Types The physical interface to the conventional or analog trunked radio is through a

Communications In the U.S. the FCC’s rules for Fixed Secondary Signaling and for Telemetry operations require data not to interfere with voice operati

Communications Sum of the Highest Modulating Frequency plus Deviation shall not exceed a stated maximum. For most channels, that maximum is 2800 Hz bu

Communications Analog Trunked Radio Systems In an analog trunked radio system, any unit that needs to send a message, requests, and is assigned to, a

CPU Modules 9 The CPU has a low drift RTC. The date and time are retained using an on-board rechargeable lithium battery. The CPU date and time can be

Communications Digital Trunked Radio Systems In digital trunked radio systems such as ASTRO IV&D and TETRA (Dimetra), the ACE3600 uses the packet

Communications Please note that this parameter should be the same in all the RTUs that reside on the same frequency channel and communicate with each

Communications Setting the Parameters in the MOSCAD/MOSCAD-L ToolBox The Channel Monitor Resolution and First Warm-up Delay parameters are set in the

Communications Communication Network The ACE3600 system network consists of RTUs communicating with one or more computerized control centers and/or

Communications communication with the central. It also can act as a communication node (an interconnection point between two or more different links)

Communications Network Configurations The ACE3600 system supports both simple and complex communication networks. The following sections describe var

Communications The FEP in the system illustrated above serves as a network node between link RADIO 1 and link LINE 1. Configuring the FEP to have acce

Communications RTU 9 (Site ID = 9) is configured as a Store & Forward repeater. It performs data exchange between units that operate on the same f

Communications The schematic representation of this system is shown below. The system assumes that the two nodes, RTU 15 and RTU 40, cannot “hear” eac

Communications In this case, the two nodes do not communicate through the FEP. Therefore, the FEP does not serve as a node in the system. Note that th

I/O Modules The ACE3600 RTU can include up to eight I/O modules, depending on the frame size. A variety of I/O modules is available. The I/O modules

Communications 136

Communications Both a non-encrypted RTU and an encrypted RTU can serve as an MDLC network node for encrypted or non-encrypted RTUs. Encryption Keys A

Communications When an RTU is first configured and stars up (cold start in MOSCAD and MOSCAD-L RTUs), the key index is set to ‘0’ (non-encrypted mode)

Communications 139 Security Administration Tool The Security Administrator Tool, provided with the MDLC Encryption Option is used to control access to

Clock Functions and Synchronization RTU Clock The ACE3600 RTU has one time source, an internal system clock which is in microsecond resolution. This

Clock Functions and Synchronization In ACE3600 RTUs, a new MLDC extended time synchronization can be enabled which includes the synchronizing RTU’s p

Clock Functions and Synchronization system table, it also changes the RTU time and date. For more information on the Time & Date database system t

Clock Functions and Synchronization RTU (usually FEP) can act as a server. This enable setting its time via MDLC time sync, for example, and having ot

Clock Functions and Synchronization 144 The accuracy of other clocks is judged according to how “close” a clock is to a reference clock (the stratum o

SCADA System Components Control Center – SCADA Manager Supervisory Control And Data Acquisition (SCADA) originally described a monitor and control pr

I/O Modules TB HolderTerminal Blocks (TB)EjectorHandlesCode Key OFOFUF1624VPositionerTerminal Block (TB)I/O ModuleCode Key PositionerTerminal Block (

SCADA System Components All the M-OPC components run on a standard PC hardware platform that supports both MS Windows 2000 Pro and MS Windows XP Pro.

SCADA System Components During the M-OPC Server operation, various operational data are collected and logged for user diagnostics purposes. IP Gateway

SCADA System Components 148 has an equivalent ModBus address according to some very simple yet rigorous rules; therefore, the database in the MCP-M ma

Appendix A - ACE3600 Specifications General Frames No I/O slots - PS and CPU modules only, wall mount, Dimensions (WxHxD*): 117 x 244 x 198 mm (4

Appendix A – ACE3600 Specifications Housing Large NEMA 4/IP65 painted metal - up to 7 I/O slot frame, two radios and 6.5 or 10 Ah, backup battery,

Appendix A – ACE3600 Specifications Communications Communication Ports Up to 5 Ports per CPU Serial - up to 4 x RS232 ports Multi-drop – up to 3 x

Appendix A – ACE3600 Specifications Power Supply Module Specifications The following charts detail the specifications of the various power supply modu

Appendix A – ACE3600 Specifications 18-72V DC Power Supply Modules Input Voltage 18-72 V DC Total Power 18-72 V DC Max. 60 W continuous; max. 105

Appendix A – ACE3600 Specifications AC Power Supply Modules Input voltage 100-240 V AC, 50/60 Hz 100-240 V AC, 50/60 Hz with 12V smart battery cha

Appendix A – ACE3600 Specifications CPU 3610/CPU 3640 Module Specifications Microprocessor Freescale – Power PC II MPC8720, 32-bit, extended communic

I/O Modules 12 ERROFUFOFUFOFUFOFUFOFUFOFUFOFUFOFUF24VOFUFOFUFOFUFOFUFOFUFOFUFOFUFOFUF1234567891011121314151624VOptional 24V Floating Power Supply Plu

Appendix A – ACE3600 Specifications DI Module Specifications 16/32 DI FAST 24V Modules Total Number of Inputs 16 DI (Option V265); 32 DI (Option

Appendix A – ACE3600 Specifications Weight 16 DI: approx. 0.28 Kg (0.62 lb); 32 DI: approx. 0.29 Kg (0.63 lb) 16/32 DI FAST 24V IEC 61131-2 TYPE II

Appendix A – ACE3600 Specifications Weight 16 DI: approx. 0.28 Kg (0.62 lb) 32 DI: approx. 0.29 Kg (0.63 lb) 120/230V 16DI Module Total Number of

Appendix A – ACE3600 Specifications DO/DI FET Module Specifications Total Number of I/Os 16 (Option V480); 32 (Option V481) I/O Arrangement Two or

Appendix A – ACE3600 Specifications Specifications subject to change without notice. 160

Appendix A – ACE3600 Specifications DO Relay Module Specifications 8/16DO Relay EE/ML Modules Total Number of Outputs 8 EE relay outputs (Option V508

Appendix A – ACE3600 Specifications 120/230V 12DO Relay Modules Total Number of Outputs 12 EE relay outputs 12 ML relay outputs Output Arrangement

Appendix A – ACE3600 Specifications AI Module Specifications Total Number of Inputs 8 AI ±20 mA (4-20 mA) (Option V318) 16 AI ±20 mA (4-20 mA) (Op

Appendix A – ACE3600 Specifications AO Module Specifications Total Number of Outputs 4 AO current (0-20 mA) or voltage (0-10 V) Output Arrangement

Appendix A – ACE3600 Specifications Mixed I/O Module Specifications Total Number of Inputs / Outputs 16 Digital Inputs + 4 EE Relay Outputs + 4 Analo

Digital Input Modules Low Voltage DI Modules: The ACE3600 low voltage Digital Input (DI) module can have 16 or 32 inputs. The following DI modules ar

Appendix A – ACE3600 Specifications AI Interference Suppression Selectable 50 or 60 Hz filtering, common mode rejection > 80 dB, differential mode

Appendix A – ACE3600 Specifications Mixed Analog Module Specifications Total Number of I/Os 4 Analog Outputs + 8 Analog Inputs ( ±20 mA) or 4 Analog

Appendix A – ACE3600 Specifications Diagnostic LEDs AO - Voltage mode LED, Current mode LED, Calibration LED per channel AI - Overflow and Underflo

Appendix A – ACE3600 Specifications Expansion Power Supply Module Specifications Input Voltage DC 10.8-16 V Outputs To Motherboard connector – +10.8

Appendix A – ACE3600 Specifications Expansion Module Specifications Microprocessor Freescale – Power PC II, MPC8720, 32-bit Microprocessor Clock 2

Appendix A – ACE3600 Specifications 171 Expansion LAN Switch Specifications Ethernet Port 1-8 8 on board 10/100 Mb/s Ethernet ports (Auto crossover)

Appendix B - FCC Information Spectrum and Regulatory Update The Federal Communications Commission (FCC) has made a series of changes over the years

Appendix B - FCC Information Spectrum and Regulatory Update were channels licensed for data (or voice) use on a “secondary” basis; that is usage could

Appendix B - FCC Information Spectrum and Regulatory Update to be applied. In a subsequent decision, (FCC MO&O96-492) the FCC clarified their inte

Appendix B - FCC Information Spectrum and Regulatory Update In February of 2003, the FCC asked for comments on its tentative conclusion that transitio

Digital Input Modules When the DI module is in DC mode, each input has a HW input filter to make sure that the input reading is stable. The range of t

Appendix B - FCC Information Spectrum and Regulatory Update Low Power Pool Group Specifications Limitation Group A Group B Group C Group D Publi

Appendix B - FCC Information Spectrum and Regulatory Update 177 Other Part 90 Frequency Options There are several other options that could be used dep

Appendix C: ACE3600 Maximum Power Ratings The tables below list the typical maximum power consumption (at room temperature) for each of the ACE3600

Appendix C: ACE3600 Maximum Power Ratings Self Power Consumption, no active I/O (Watts) Maximum Power Consumption, per Active I/O (Watts) Self Power C

Appendix C: ACE3600 Maximum Power Ratings Self Power Consumption, no active I/O (Watts) Maximum Power Consumption, per Active I/O (Watts) Self Power C

Appendix C: ACE3600 Maximum Power Ratings 181 Typical Power (Watts) Power when all I/Os are on (Watts) Typical Power (Watts) Power when all I/Os are

Digital Input Modules Each DI module can be switched by the user application program to Sleep Mode. In Sleep Mode, the module does not function and th

DISCLAIMER NOTE The information within this document has been carefully checked and is believed to be entirely reliable. However, no responsibility i

Digital Input Modules 16 DI Module Block Diagram: 16 DI 16

Digital Input Modules 32 DI Module Block Diagram: 17

Digital Input Modules Low Voltage DI I/O Connection Diagram: Dry ContactSensorDIx (input x)DIx (input x)COM (common)“Wet”SensorDI ModuleDI Module+-COM

Digital Input Modules High Voltage DI I/O Circuit Diagram: CurrentCircuitDI StatusDICOMHigh Voltage DI - Typical Input Circuit 1238Ω62V10KΩ47nF 19

Digital Input Modules 16 DI 120/230V Module Block Diagram: 16 DI High Voltage COM 1-610 DI4DI5DI22DI334567DI689DI913DI812DI1014151617DI1118DI121920CO

Digital Input Modules 21 16 DI 120/230V I/O Connection Diagram: DIx (input x)COM (Common)DI 120/230V ModuleDI 120/230V ModuleAC / DCSignalSourceDIx (i

Digital Output Relay Modules Low Voltage DO Relay Modules: The DO Relay modules have 8 or 16 outputs. There are two types of DO relays:  Electrica

Digital Output Relay Modules between the required position and the back indication signal is reported to the CPU and is available to the user program.

Digital Output Relay Modules DOs will keep the last value they had at the time they were frozen. Freeze mode enables testing the inputs and outputs wh

Digital Output Relay Modules Low Voltage I/O Circuit Diagrams: 12VDO ControlBack IndicationNO COMDO EE Relay (SPST) - Typical Output Circuit 12VD

Table of Contents TABLE OF CONTENTS...I AC

Digital Output Relay Modules 12VDO ControlBack IndicationDO EE Relay (SPDT) -Typical Output Circuit NC NO COM 12VDO Set ControlDO ML Relay (SPDT) - T

Digital Output Relay Modules 8 DO Module Block Diagram 27

Digital Output Relay Modules 16 DO Module Block Diagram: 28

Digital Output Relay Modules 120/230V DO I/O Circuit Diagram: 12VDO ControlBack IndicationNOHV DO EE Relay (SPST) -Typical OutputCircuit

Digital Output Relay Modules 30 120/230V DO Module Block Diagram: 12 V DO (User Controlled)VNO1NO2VrBusInterfaceModuleControl12 VVrBack Indication2156

Analog Input Modules The Analog Input (AI) modules have 8 or 16 inputs. The modules sample and convert analog data into digital format and transfer t

Analog Input Modules The AI Module Configuration includes:  50/60 Hz Filtering - This parameter enables the user to configure the module to use 50

Analog Input Modules In the event of AI Module failure, the I/O module ERR LED will be lit. The event is registered by the CPU in the Error Logger.

Analog Input Modules AI Module Value Representation: In ± 20 mA current inputs Decimal Value Input Current Indication < -32256 < -20.16 m

Analog Input Modules I/O Circuit Diagram: AN+ PGNDAN-15V 51ΩA/DAI ±20 mA - Typical Input Circuit 124ΩChannel SelectAI ±20 mA - Typical Input Circuit

IP PORTS (MDLC OVER IP)... 101 RADIO COMMUNICATION

Analog Input Modules 8 AI Module Block Diagram: 36

Analog Input Modules 16 AI Module Block Diagram: 37

Analog Input Modules 38 I/O Connection Diagrams: There are two types of current sensors/transmitters, namely 2-wire and 4-wire. The 2-wire transmitter

Analog Output Modules The Analog Output (AO) modules have four optically-isolated analog output channels for controlling user devices (see Figure 1).

Analog Output Modules Parameter Selection Default setup Per Module / Output Parameter Setup location AO Type Voltage/Current User Defined Output

Analog Output Modules To set the output value in the Hardware test, the user application program must be stopped or the AO module frozen. To calibrat

Analog Output Modules I/O Circuit Diagram: FloatingVoltageConverter12VIoutRETPGNDVout50Ω330ΩVariableCurrent sourceVariableVoltage sourceD/A Control30

Analog Output Modules 4 AO Module Block Diagram: 43

Analog Output Modules 44 I/O Connection Diagram: Iout x Ret xDevice /LoadAO Module+-ShieldVout xRet xAI ModuleCurrent Output wiringVoltage Output wir

Digital Output and Digital Input FET Modules The Digital Output/Digital Input (DO/DI) FET modules have 16 or 32 configurable user connections, organi

ACE3600 System Overview The purpose of ACE3600 system is typically to provide some degree of automatic operation to a new or existing customer proces

Digital Output and Digital Input FET Modules Each DI can be set in the Application Programmer I/O link table to trigger recording of time tagged event

Digital Output and Digital Input FET Modules Parameter Selection Default Setup Per Module/ Input Parameter Setup Location DO Mask No /Yes No Outpu

Digital Output and Digital Input FET Modules I/O Circuit Diagram: COM DO/DIFloatingVoltageConverterDI Status/ DO BackIndicationDOControl* FET Always

Digital Output and Digital Input FET Modules 16 DO/DI Module Block Diagram: 49

Digital Output and Digital Input FET Modules 32 DO/DI Module Block Diagram: 50

Digital Output and Digital Input FET Modules 51 I/O Connection Diagram: DIx (input x)COM (Common)DO/DI FET ModuleDO/DI FET ModuleDOx (Output x)COM (C

Mixed I/O Modules The ACE3600 Mixed I/O modules include a mixture of Digital Inputs, Relay Outputs and Analog Inputs on the same module. The availab

Mixed I/O Modules 53 Mixed I/O Module Block Diagram:

Mixed Analog Modules The ACE3600 Mixed Analog modules include a mixture of Analog Inputs and Analog Outputs on the same module. The available Mixed

Mixed Analog Modules 55 Mixed Analog Module Block Diagram:

ACE3600 System Overview 2 • The Front End Processor (FEP): The Front End Processor is used at the central site(s) to provide a two-way path to the c

I/O Expansion The ACE3600 RTU includes the option of expanding the number of I/O modules controlled by a single CPU module on the main frame. The I/O

I/O Expansion the main frame. Accessories such as a mobile radio, battery, etc. are attached to a separate optional 19” chassis. Crossed LAN CableI/O

I/O Expansion Note: The number of expansion power supplies that can be cascaded to the power supply on the main frame is limited. When required, optio

I/O Expansion 59 I/O Expansion Frame An I/O expansion frame always includes an expansion module to enable the CPU in the main frame to communicate wit

Expansion Power Supply Module The expansion power supply module (10.8-16V DC) extends power from the power supply on the RTU’s main frame to the I/O

Expansion Module The expansion module provides an interface from the CPU module (either directly or via the expansion LAN switch) on the ACE3600 main

I/O Expansion the Ethernet ports (Eth2-Eth8) on the second switch. (The Eth2 port on the first switch is connected to the Eth1 (M) port on the second

I/O Expansion The Expansion module discovers the main CPU (MCPU) via UDP/IP (broadcast).Discovery succeeded-obtained self and MCPU IP address?noyesnoy

I/O Expansion 64 Expansion Module Power-up and Restart The MCOM LED on the expansion module indicates the connection status between the expansion modu

Expansion LAN Switch The expansion Ethernet switch provides an interface from the ACE3600 CPU (on the master RTU frame) to up to seven expansion fram

ACE3600 RTU Construction The ACE3600 RTU is a universal device that may serve as an RTU, a Programmable Logic Controller (PLC), or as the system FEP.

I/O Expansion 66 One of three Ethernet cables can be used to connect an Ethernet port on the expansion LAN switch to an expansion module in an expansi

RTU I/O Expansion - Power Considerations When planning a co-located multi-I/O expansion frame configuration (where all frames are located in the same

I/O Expansion Each cascaded expansion power supply gets a lower input voltage from the preceding power supply. The voltage drop is a function of the e

I/O Expansion 69 The general equation for Vx is: Vo depends on the power supply configuration. Vo should be 13 V DC when the backup

Ordering Information ACE3600 RTU Ordering Flow: For RTUs without I/O expansions, follow only the ordering steps for Main Frame below. Main Frame - St

Ordering Information Main Frame - Step 2Set # of I/O Modules Slotsand add I/O modulesNeed slotsfor I/O modules orExp. switch? YesAdd the requiredOpti

Ordering Information Main Frame - Step 3Select installation typeNeed chassis,housing or 19”installation? YesNoHow many I/O slots?0 or 35 or 78 ! For

Ordering Information Main Frame - Step 4Select PS & BatteryChangeDefaultPS YesNo! Default PSis12 V DCNeedsbackupbattery? YesAdd AC PS or DC PSwi

Ordering Information Main Frame - Step 5Select CPU and Plug-inChangeDefaultCPUYesNo! Default CPUisCPU3610Add CPU3640 optionNeed Plug-inoptionYesNoAdd

Ordering Information Main Frame - Step 6MiscellaneousNeed miscellaneousOptions?YesAddmiscellaneousOptions EndNoTamper switch, RS-485 Junction Box, dum

ACE3600 RTU Construction Each RTU can include a number of options, including portable and mobile radios, and plastic boxes with interface card for com

Ordering Information Expansion Frame – Step 1 Select modelSet # of I/O Modules Slotsand add I/O modulesNeed slotsfor I/O modules orExp. switch? YesAd

Ordering Information Expansion Frame - Step 2Select installation typeNeed chassis,housing or 19”installation? YesNoHow many I/O slots?0 or 35 or 78 !

Ordering Information Expansion Frame - Step 3Select PS & BatteryChangeDefaultPS YesNo! Default PSisExpansion PSNeedsbackupbattery? YesAdd AC PS

Ordering Information Expansion Frame - Step 4MiscellaneousNeed miscellaneousOptions?YesAddmiscellaneousOptions EndNoTamper switch, LAN cable, Dummy mo

Ordering Information List of ACE3600 Models Note All RTU models include no I/O slots frame, 10.8-16 V DC PS and CPU3610. No Radio Model • AC

Ordering Information Note: All radio models require Metal Chassis or Housing option. IMPORTANT: Only model F7509A and all its options, including radi

Ordering Information List of ACE3600 Options Regional radio options CM200/CM140/EM200/CM3188 One of the following options must be ordered for mode

Ordering Information • 10 Ah Backup Battery V328 CPU Upgrade (Default CPU is CPU3610) • ACE CPU3640 V446 • Plug-in SRAM V447 CPU Plug-in Por

Ordering Information Blank Module • Blank I/O module V20 I/O Module Cables • 20-wire cable braid with TB holder 3 m V253 • 30-wire cable

Ordering Information 85 General Ordering Requirements 1. All orders must list the Model (F75XX) as a main line item. 2. Models F7573 and F7574, (

ACE3600 RTU Construction Housing/Mounting Type Capacity/Options Illustration Large painted metal chassis Enables installation of radio, backup batter

ACE3600 Installation Guidelines The ACE3600 RTU is shipped from the factory with the modules and plug-in ports assembled. The RTU frame is ready for

ACE3600 Installation Guidelines GENERAL SAFETY INFORMATION: WARNING: Installation of the ACE3600 should be done only by authorized and qualified servi

ACE3600 Installation Guidelines Mounting the ACE3600 Frame on a Wall WARNING: Before drilling holes for mounting the frame, make sure there are no ele

ACE3600 Installation Guidelines 117 mm209 mm124 mm82 mm 234 mm199.6 mm124 mm244 mm 0 I/O Frame 3 I/O Frame No I/O and 3 I/O Frame Insta

ACE3600 Installation Guidelines Installing the ACE3600 in a 19" Rack The 8 I/O slot frame and the 8 I/O (19") Metal Chassis (V269) can be in

ACE3600 Installation Guidelines Housing Installation For convenient installation of the ACE3600 RTU with the NEMA 4 housing, allow an additional 6 cm

ACE3600 Installation Guidelines 92 MOUNTINGBRACKETPRE±INSTALLED(WELDED) ON SOMEHOUSING BRANDS Mounting the NEMA 4 Housing

Communications The ACE3600 (as well as MOSCAD family RTUs) facilitates the establishment of a highly sophisticated hybrid data communication network

Communications RTU to simultaneously run several kinds of communication applications, such as reporting alarms by contention, on-line monitoring, perf

Communications from the technical constraints and complexities of network operations thus allowing the intended application to be the item of focus.