Remote Infrastructure Management (RIM-1000) System Version 1.0 July 2014 While every effort has been made to ensure the accuracy of all information, CPI does not accept liability for any errors or omissions and reserves the right to change information and descriptions of listed services and products. techsupport@chatsworth.com www.chatsworth.com ©2014 Chatsworth Products, Inc. All rights reserved.
Remote Infrastructure Management System - Version 1.0 / July 2014 1U Model, 1 Expansion Card Slot 2U Model, 4 Expansion Card Slot Introduction This document is the User’s Manual for CPI Remote Infrastructure Management (RIM) System. Remote Infrastructure Management (RIM) System User Manual ©2014 Chatsworth Products, Inc. All rights reserved. Revision History 2 Rev. No. Date 1.0 July 2014 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 Legal Information The information contained in this guide is subject to change without notice. Chatsworth Products, Inc. (CPI) shall not be liable for technical or editorial errors or omissions contained herein; nor is it liable for any injury, loss, or incidental or consequential damages resulting from the furnishing, performance, or use of this material and equipment.
Remote Infrastructure Management System - Version 1.0 / July 2014 Product Warranty Chatsworth Products, Inc. (CPI) guarantees manufactured products and each part or component thereof against all defects in material and/or workmanship. CPI agrees to remedy any manufacturing defect either through replacement or repair at no charge provided that the defective unit is returned, transportation prepaid, to the CPI factory.
Remote Infrastructure Management System - Version 1.
Remote Infrastructure Management System - Version 1.
Remote Infrastructure Management System - Version 1.
Remote Infrastructure Management System - Version 1.
Remote Infrastructure Management System - Version 1.0 / July 2014 Figures RIM-1000 User Guide 1 System Overview Figure 1.1 RIM-1000 2U Front Panel Indicators and Controls Figure 1.2 RIM-1000 Terminal Block Designations Figure 1.3 Rear Panel Indicators Figure 1.4 SW1-1 Switch and SW1-2 Switch 15 16 17 19 19 2 Getting Started Figure 2.1 24VDC Power Supply Connection Figure 2.2 48VDC Power Supply Connection Figure 2.3 Universal Input Wiring Examples Figure 2.
Remote Infrastructure Management System - Version 1.0 / July 2014 3 10 Web Interface Configuration (continued) Figure 3.28 Keypad/DTMF Access Users Configuration Figure 3.29 IP Configuration Menu Figure 3.30 Web Access Configuration Figure 3.31 Network Statistics Page Figure 3.32 ICMP Ping Page Figure 3.33 Email/DNS Configuration Page Figure 3.34 Email URL Links Configuration Page Figure 3.35 Network Time Protocol Configuration Page Figure 3.36 SNMP Configuration Page Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 4 Advanced Communications - Modbus, BACnet, and Telnet Figure 4.1 RIM-1000 Modbus EIA-232 Connection to an EIA-232 DCE Device Figure 4.2 RIM-1000 Modbus EIA-232 Connection to an EIA-232 DTE Device Figure 4.3 EIA-485 Wiring Connections Figure 4.4 EIA-485 Wiring to RLE/Veris BCMs (Branch Circuit Monitors) Figure 4.5 Modbus Slave Register Display Log Figure 4.6 Modbus Packet Log Figure 4.7 Modbus Master Poll Data Log Figure 4.
Remote Infrastructure Management System - Version 1.0 / July 2014 12 D RIM-1000 Accessories Wiring Figure D.1 T120 and T120D Temperature Sensors Figure D.2 TH140 and TH140D Temperature/Humidity Sensors Figure D.3 Dwyer Temperature/Humidity Sensor Figure D.4 BAPI Temperature/Humidity Sensor Figure D.5 HD150, HD150-2, CM150-2, and HG150-2 Gas Sensors Figure D.6 RD150-F2, RD150-2 & RD150-R Refrigerant Detectors Figure D.7 PFM Power Fail Monitor Figure D.
Remote Infrastructure Management System - Version 1.0 / July 2014 Tables RIM-1000 User Guide 1 System Overview Table 1.1 Terminal Block Designations 2 Getting Started 21 3 Web Interface Configuration Table 3.1 Color Definitions Table 3.2 Inputs and Relays Configuration Page - Additional Links Table 3.3 RIM-1000 Main Board Configuration Options Table 3.4 Relay Configuration Menu Options Table 3.5 System Configuration Options Table 3.6 Alarm Management Configuration Options Table 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 14 5 EIA-232 Interface Table 5.1 EIA-232 Main Menu Table 5.2 Main Configuration Menu Options (SC) Table 5.3 IP Configuration Menu 151 152 153 154 6 Remote Access 157 7 Point-to-Point Protocol 159 8 Load Firmware and Configuration Data 161 A RIM-1000 Expansion Cards Table A.1 Expansion Card Descriptions Table A.
Remote Infrastructure Management System - Version 1.0 / July 2014 CHAPTER 1 SYSTEM OVERVIEW 1.1. Product Description The Remote Infrastructure Management (RIM-1000) System from Chatsworth Products,Inc. (CPI) is a comprehensive system which provides additional equipment protection by monitoring critical operating parameters in enterprises, remote network facilities, communication rooms, remote and unmanned facilities, and critical support systems. The RIM-1000 is a stand alone system.
Remote Infrastructure Management System - Version 1.0 / July 2014 1.3. Front Panel Indicators and Controls Expansion Card #3 Status LEDs Expansion Card #2 Status LEDs Network Status LEDs Expansion Card #1 Status LEDs Modem Status LEDs Expansion Card #4 Status LEDs System Status LEDs Power LED System Power Switch Figure 1.
Remote Infrastructure Management System - Version 1.0 / July 2014 1.4. Terminal Block Designations Figure 1.
Remote Infrastructure Management System - Version 1.
Remote Infrastructure Management System - Version 1.0 / July 2014 1.5. Rear Panel Indicators The rear panel of the RIM-1000 houses a series of green LEDs. The chart below tracks indicator status when the corresponding green LED is illuminated: Status Indicator K1 (Output Relay) Relay is energized.
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Remote Infrastructure Management System - Version 1.0 / July 2014 CHAPTER 2 GETTING STARTED To begin using the RIM-1000, users must install the unit, wire and connect the power, and set the IP address. Any accessories for the RIM-1000 should also be connected at this time (e.g., keypad connection, Modbus connections, Expansion Cards, etc.) 2.1. Installation The RIM-1000 comes in a 19 inch (.48m) rack mount enclosure. Install the RIM-1000 in the rack.
Remote Infrastructure Management System - Version 1.0 / July 2014 If you are installing a 24VDC model RIM-1000, plug the wall adapter into P1 and a UPS outlet as shown below. The wall adapter has a 5’ (1.524 m) power cord. CPI recommends powering the RIM-1000 from a UPS supply to allow the RIM-1000 to send alarm notification during a power outage. Figure 2.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.2.2 Universal Input Connections The eight non-isolated universal inputs are connected to TB2 and TB3. Universal input channels can be individually configured through the RIM-1000 to monitor a 4-20mA signal, a Normally Open (NO) dry contact, or a Normally Closed (NC) dry contact; see Figure 2.3 for examples of typical sensor wiring.
Remote Infrastructure Management System - Version 1.0 / July 2014 Some equipment may have several dry contact outputs with a Common Ground. Connect this equipment as shown in Figure 2.4. Figure 2.4 Dry Contact Inputs with Common Ground 24 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.2.3 Relay 1 and 2 Connections Relay outputs may be used to unlatch doors, signal annunciators, signal IP cameras, and to turn on auxiliary equipment such as exhaust fans. Relay outputs are form c (spdt). Refer to specifications in Appendix D, “RIM-1000 Accessories Wiring” on page 181, for relay contact ratings.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.2.4 Keypad Connection The RIM-1000 can be configured with a 3 x 4 keypad interface. Entering a user code, configured through software, activates a relay output which unlatches a door and allows an individual to enter the secure area. Entering the correct user code can also trigger a relay output to signal an IP camera to snap a picture and email it to a predefined recipient. Connect the keypad as shown in Figure 2.6.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.2.6 RJ11 Phone Line Connection The RIM-1000 may contain an optional internal modem (P/N 60104-001 must be ordered separately) for dial in and dial out capabilities. The modem can be used for: • Email notification through an Internet Service Provider (ISP). • Remote connection to accomplish a variety of tasks, including: viewing alarms, changing IP Configurations, and acknowledging alarms.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.2.8 Modbus EIA-485 Connections The RIM-1000 can function as a Modbus Master or Slave over an EIA-485, 2-wire hardware connection. Figure 2.10 RIM-1000 EIA-485 Connection 28 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.2.9 Modbus EIA-232 Connections Use a straight thru cable for connection to a Data Circuit Equipment (DCE) device. Use a null modem cable for a connection to a Data Circuit Terminating (DTE) device. The RIM-1000 can function as a Modbus Master or Slave over an EIA-232 hardware connection. The EIA-232 port is configured as a Data Circuit Terminating (DTE) device. Figure 2.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.2.10 Expansion Card A Connections A sticker identifying the expansion cards as A or C is located on each Expansion Card. The following wiring diagrams show the Expansion Card in slot 1. However, the Expansion Card may be in Slot 2, 3 or 4 based on the RIM-1000 configuration. The I/O for each card type appears on the back of the RIM-1000 for reference during field wiring; see Figure 2.12 through Figure 2.16 for typical wiring.
Remote Infrastructure Management System - Version 1.0 / July 2014 Figure 2.14 Dry Contact Inputs with Ground and Relay Outputs, Expansion Card A Chatsworth Products, Inc.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.2.11 Expansion Card C Connections Expansion Card C has 24 dry contact input channels. Figure 2.15 I/O Terminals for Expansion Card C Figure 2.16 Typical Wiring for Expansion Card C 32 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.3. Communication The RIM-1000 will not communicate over a user’s network the first time it is connected to the network. The manufacturer programs the RIM-1000 with a default IP address: 10.0.0.188, Subnet Mask: 255.255.255.0. This default address must be changed to an IP address that corresponds with the user’s network before the RIM-1000 can communicate over the network. Follow the steps in this section to change the default address. 2.
Remote Infrastructure Management System - Version 1.0 / July 2014 2.3.2.3 Use the PING Command After the ARP command has been entered, the PING command must be entered from the same computer in order to set up the IP address of the RIM-1000. The PING command will use the ARP entry added from 2.3.2.
Remote Infrastructure Management System - Version 1.0 / July 2014 4. Select the Configuration Menu link, then select the System link. Select the IP Configuration Menu link and change the IP address, Subnet Mask, and default Gateway to one provided by the network administrator. Press the Submit Changes button. The RIM-1000 will save the new IP address and reboot. Once the RIM-1000 reboots, the system status LED stops flashing.
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Remote Infrastructure Management System - Version 1.0 / July 2014 CHAPTER 3 WEB INTERFACE CONFIGURATION The RIM-1000 Web interface provides a convenient way to check and monitor the RIM-1000 status through a web browser. To access the RIM-1000 web interface, you must first have configured the RIM-1000 to communicate on your network. If you haven’t done this already, refer to Chapter 2, “Communication” on page 33.
Remote Infrastructure Management System - Version 1.0 / July 2014 Once it’s configured, the RIM-1000 home page may look similar to this: Figure 3.1 Configured RIM-1000 Home Page As you can see in our example, each input has a box with its number, name, and status. The box is shaded to signal the inputs status. Color codes are as follows.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.2. Alarms The Alarms page provides a single view of all active alarms on the RIM-1000 unit. Figure 3.2 Alarms Menu Field Description Date/Time The time the alarm is triggered Input The input that is alarm. This is a clickable link. If the link connects to a slave unit, use the link to learn more about the alarm condition. Otherwise, click this link to go directly to the Configuration page for the input.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.3. Identity The Identity link displays basic RIM-1000 information including Model Number, System Name, MAC Address, which Expansion Cards are installed in which slots, Firmware Version, and IP Address. Most of these values can be adjusted through the Configuration screens. This page is intended for reference only, not system adjustment. Figure 3.3 Identity Menu 40 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4. Configuration The Configuration page allows authorized users with administrator or read-write privileges to adjust the RIM-1000 settings. Each link on the Configuration page displays more information about specific configuration settings. Figure 3.4 Configuration Page NOTE: If any of the fields within the sub-menus are edited, be sure to click the Submit Changes button to save the changes.
Remote Infrastructure Management System - Version 1.0 / July 2014 Figure 3.5 RIM-1000 Input Configuration Menu Inputs and relays located on expansion cards are identified by their name and slot channel number, referred to in the Inputs table as S.Ch. For example, an input with a S.Ch number of 1.9 is located on the expansion card in slot one, and is the 9th input on that card. An input with a S.Ch number of 4.2 is located on the expansion card in slot 4, and is the 2nd input on that card.
Remote Infrastructure Management System - Version 1.0 / July 2014 You’ll notice two links placed between the Inputs and Relays table: Option Description For your convenience, you can customize the way your inputs are displayed on the main page of the RIM-1000. Go to the Configuration>System page to activate the Input Groups display option. Input Group Labels Then come to this link and specify up to 8 input groups. Then click on the individual inputs to place them into the groups.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.1.1 Main Card - Input Channels 1-8 Inputs 1 - 8 reside on the RIM-1000’s main circuit board. Click the input you’d like to configure. The number of the input you’re configuring appears in the bar at the top of the configuration page. Depending on which type of input you’re configuring, you’ll have different menu options. The following table should address all the options available across the different input types.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Select Input Type : Select the correct input type based on the type of device connected to the input channel. Options include: • Not Configured : Select when there is nothing connected to the input. • Analog 4-20mA : Select when the device connected to the input provides a 4-20mA output. • Digital NO : Select when the device connected to the input is a dry contact that is normally open and closes on an alarm condition.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Inputs like temperature, humidity, pressure, etc. connected to the RIM-1000 convert information to a 4-20mA signal. The RIM-1000 reads this raw 4-20mA signal and calculates a value based on the input and the predetermined gain and offset settings. The idea is to determine the correct gain and offset values so that the RIM-1000 calculates and displays an accurate reading.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Applies when the input type is Analog 4-20mA and is active for High Limit 1, High Limit 2, Low Limit 1 and Low Limit 2. Hysteresis Hysteresis (also referred to as deadband) designates the amount an input reading must sway from its preset alarm reading before it is classified as returned to normal.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Applies only to analog 4-20mA inputs. Low Limit1 The RIM-1000 will record an alarm and send notification when the RIM-1000 calculated value falls below this limit. The Low Limit 1 and Low Limit 2 are disabled when they are both set to 0. Applies only to analog 4-20mA inputs. Low Limit2 The RIM-1000 will record an alarm and send notification when the RIM-1000 calculated value falls below this limit.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Applies to input types Digital NO, Digital NC and Digital Status. Label (Digital input normal) This label is displayed on the main page when the input is normal, in the Alarm History when the input returns to normal and in notification messages. For Digital Status inputs, the label is displayed on the Home page when the input is off. When the input turns off, the label is also included in the Digital Status History.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Use the Configuration>SNMP/Syslog page to set up your SNMP Communities. Once communities are configured, their IP address will appear next to the checkboxes in these fields. SNMP Trap Recipients Check the boxes of the recipients that should receive messages when this input goes into alarm. High1/Low1 SNMP Traps Used to disable SNMP notification for the first level analog alarm.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description BACnet Instance The BACnet object identifier. It is a numerical code used to identify the input. This code must be unique within the BACnet device BACnet Units A numerical code used to assign engineering units to this BACnet Instance. Refer to the BACnet standard for further information. The next five rows contain information that pertains to graphical mapping.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.1.2 Expansion Card “A” Input Configuration Expansion Card A contains 12 inputs, configurable as analog 4-20mA, 0-5V, 0-10V(analog 0-5V and 0-10V require additional jumper configuration) or digital NO (cannot be configured as NC), plus 8 form C relay outputs. While units will vary depending on individual configurations, inputs for Expansion Card A are typically numbered 1.1-1.12, 2.1-2.12, etc.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.1.3 Expansion Card “C” Input Configuration Expansion Card C contains 24 digital NO/NC inputs. While units will vary depending on individual configurations, Expansion Card C is typically numbered 1.1-1.24, 2.1-2.24, etc. This page will be displayed when configuring inputs for Expansion Card C. It is similar to the RIM-1000 Main Board Input Configuration page – see 3.4.1.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.2 Relay Configuration Use this page to configure the RIM-1000’s relays. Figure 3.10 Relay Configuration Page 54 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Each relay output can be configured for one of the following types only one type per relay output: Type • NO (Non-Supervised): Configures the relay output to be normally de-energized. The relay output will energize when activated by an input or by a schedule. The silkscreen labeling for the relay outputs (NC, NO and C) refer to the state of the relay output when it is de-energized.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description OR'D Alarm IDs Displays the Alarm IDs of the inputs specified through the Relay Configuration link on the Input Configuration Menu. The Alarm IDs displayed can be translated by using Appendix E, “Alarm ID Reference Tables” on page 189. The Alarm IDs are also displayed on the Input Configuration page.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Test Map View the mapped location of the point you’re currently configuring. Relay Logic Diagram This link displays the RIM-1000’s relay logic diagram. Refer to Appendix G, “Relay Control Logic” on page 203, for further information. Table 3.4 Relay Configuration Menu Options Chatsworth Products, Inc.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.3 System The System link lets you configure many of the RIM-1000’s home page display options. Figure 3.12 System Configuration Option Description MAC Address This field displays the MAC address, which is assigned to the RIM-1000 by the manufacturer. This field is uneditable, and is intended for reference only. IP Address The RIM-1000’s IP address. If necessary, adjust the IP address here.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description PDA Screen Width Sets the width of the PDA web pages in the RIM-1000 to match the PDA device. The PDA web pages can be accessed from the Web browser by entering /pda after the IP Address (e.g., 10.0.0.188/ pda). The RIM-1000 includes a PDA web page view for the Main Menu, Identity and Alarm History pages only. Analog Average Allows users to change the averaging method for analog inputs.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Default URL Designate the view you’d like to see when you type the IP address of the RIM1000 into your browser’s display bar. • Home Page - displays the RIM-1000’s home page (IP/index.htm) • Alarms Page - displays the alarms page (IP/alarms.htm) • RIM-1000 Nest Map - displays the RIM-1000 nest map page • Floor Map - displays the map loaded into the RIM-1000 as Map Image#1.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.4 Alarm Management The Alarm Management link allows users to perform advanced maintenance tasks on the RIM-1000. Some tasks are accomplished by simply clicking a button - others require submitting an acknowledge code or entering your initials before the task can be executed. Click the Submit Changes button to save all modifications. Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Maintenance Time Description Designate an amount of time for the maintenance session. Sessions can be 1 hour, 2 hours, 4 hours, or 8 hours in length. Select Disabled to disable this feature. Logging If you’d like to leave the RIM-1000’s logging enabled during the maintenance window, you may do so. Select Yes for logging, and the RIM-1000 will log all the alarms that occur during the maintenance session.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.5 Trends This feature allows users to configure custom trending on an analog point, either physical or Modbus. Figure 3.14 Trends Configuration Page Data can be trended for 8 or 32 points. If you choose to trend 8 points, the RIM-1000 will trend 16128 entries per point. If you choose to trend 32 points, the The RIM-1000 compiles 3840 entries per point.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.6 Clock Use this link to adjust the date and time, as needed. Click the Submit Changes button to save all modifications. Figure 3.16 Clock Configuration Page Option Description Date Enter the current date in mm/dd/yy format. Time Enter the current time in 24-hour hh:mm:ss format, where the hour is a two digit number between 01 and 24.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.7 Schedules The Schedules page allows users to schedule the activation and deactivation of relay outputs. This is useful for cycling redundant equipment such as chillers, generators, etc. Relays are assigned these schedules through the Relay Configuration menus. Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.8 Battery Supply/Voltage The Battery/Supply Voltage page allows users to configure power monitoring when the RIM-1000 is running off a 48V battery. Figure 3.18 Battery/Supply Voltage Configuration Page Option Description Input Power Option A non-editable field, this tells you how the RIM-1000 is being powered. 48V Voltage Reading This field shows the input voltage supplied by the 48V source connected to the RIM-1000.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.9 URL Links (1-5) and URL Links (6-10) The RIM-1000’s Home page displays a large image and links to other images. These images can be graphics, logos or images from an IP camera. Figure 3.19 URL Links (1-5) The URL Links (1-5) page allows users to specify which images and URLs will be available from the first five of these links.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.10 Links Most users will choose to link to other RIM-1000 units through the RIM-1000’s Nest/Egg feature - “Nest/Egg” on page 69. If you choose not to enable Nest/Egg, you can still display links to up to four RIM-1000 units. Once configured, these links will appear at the bottom of the RIM-1000’s home page. Use this page to designate the IP addresses of these linked RIM-1000 units. Enter the IP addresses in the fields as necessary.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.11 Nest/Egg The RIM-1000 contains a web page, or “Nest,” that can monitor up to 32 other RIM-1000s, or “Eggs.” The Nest will display the name and a summary alarm from each Egg. The summary alarm status of each Egg will automatically refresh based on the Web refresh rate determined for that individual RIM-1000. The Nest also provides a link for each Egg.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.11.1 RIM-1000 Nest Configuration The RIM-1000 Nest link appears at top right corner of the Home Page once the Nest and Eggs have been configured. The Nest can display either as a table or a map, with the Eggs appearing as links on the map. The nest map is created in much the same way as the RIM-1000 floor map, and the instructions are very similar. Basic mapping directions can be found below.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Nest/Map Coordinate This coordinate represents the spot on the map where the Nest is located. Specify the point by clicking the Graphical Mapping link and designating the location. Fine tune it, if you wish, by adjusting the coordinate values in the boxes. Graphical Mapping Designate a location on the RIM-1000 graphical map. Test Map View the mapped location of the nest.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.11.2 Egg Configuration Once you’ve decided how your nest should work, it’s time to configure your eggs. The table at the bottom of the Nest/Egg Configuration screen shows all available eggs, and the number in the “Egg” column is a link that takes you to the configuration screen for that particular egg. Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Nest/Map Coordinate Egg Map Status Description This coordinate represents the spot on the map where the Egg is located. Specify the point by clicking the Graphical Mapping link and designating the location. Fine tune it, if you wish, by adjusting the coordinate values in the boxes. Displays more detailed Egg information, in a text format.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.12 Modem/Phone Numbers/Pagers Use this page to instruct the RIM-1000 when, how, and whom to call when an alarm occurs The top of this configuration page allows users to configure the RIM-1000 internal modem which must be ordered separately (P/N 60104-001). The section of the page below the ruled line allows users to configure phone numbers can be notified when the RIM-1000 goes into alarm condition. Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Allows users to determine the connection speed. Select 300, 1200, 2400, 9600, or 33.6k. Pager Baud Rate Default: 1200 Allows the user to set the pager communications settings. Select 7 bit, even parity or 8 bit, no parity to match the settings of the pager service provider's TAP service phone number.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.12.1 Configure Phone Numbers Up to 15 unique phone numbers can be configured to receive RIM-1000 alarm notifications. Use the numerical links at the bottom of the phone number configuration screen to set these pager and cell phone numbers. Figure 3.26 Phone Number Configuration Option Description Select Phone Type Determines which type of device the RIM-1000 calls.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description This is mandatory for numeric and alphanumeric pagers. Alphanumeric pager: The ID entered is sent to the paging service along with all queued alarm messages. The ID is the unique PIN for a specific pager. The ID may be a maximum of 16 characters. Numeric pager: The ID entered may be configured to deliver different numeric messages.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.12.2 Configure Phone Number 16 (PPP) If you’re configuring a dial-up networking (DUN) account, use the 16 (PPP) link at the end of the phone number configuration links. Requires the optional internal modem P/N 60104-001, sold separately. Figure 3.27 Phone Number 16 (PPP) Configuration Option Description DUN Phone # Enter the phone number of the Internet Service Provider (ISP) to connect to.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.13 Keypad/DTMF Access Users If your RIM-1000 has a keypad attached to it, use the Keypad/DTMF Access Users link to configure a maximum of 20 access codes and user names. Figure 3.28 Keypad/DTMF Access Users Configuration Option Description Id Code Up to six digits long, users enter this code into the keypad to gain access. User Name Enter a user name that will be linked to the access code.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.14 Internet Protocol The Internet Protocol link allows users to change a variety of settings, including the RIM-1000 IP address, Default Router and Net Mask. Figure 3.29 IP Configuration Menu Option Description MAC Address The MAC address is a unique identifier set by the manufacturer, and is non-editable. DHCP DHCP allows the RIM-1000 to automatically obtain a valid IP address from a server.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Some ISPs use alternate http ports as an added security measure. Edit this field in accordance with your ISPs security settings. Http Port By default, the RIM-1000 broadcasts its web pages on Port: 80 of the assigned IP Address. A zero in the field defaults the RIM-1000 to Port: 80. Default: 0 = Port 80 This setting opens or closes Port 69 on the LAN connection to the RIM-1000.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.15 User Administration (Web Access) The User Administration (Web Access) page allows the administrator to configure eight separate accounts, user names, passwords and privileges for Web access accounts. This page is ONLY available to users with Administrator access. Figure 3.30 Web Access Configuration Option Description User Name Assign each user a unique name. Password If you wish, assign the user name a password.
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Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.16 Network Statistics Display network and EIA-485 statistics including: network packets received, packets transmitted, and errors. Table 3.31 Network Statistics Page Option Description Refresh Netstats Page Click the link to poll the device and load the most recent set of statistics. Reset Netstats Delete all logged information for the network statistics.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.17 ICMP Ping ICMP Ping: Allows a user to ping an IP address from the RIM-1000. The results of the ping will display below in the “Last Ping Results” table. Figure 3.32 ICMP Ping Page Option Description IP Address to Ping Enter the IP address of the device you’d like to ping. Click the Submit Changes button to ping the device, at which time the results will load into the fields below the address. Table 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.18 Email/DNS Use the Email/DNS page to configure the RIM-1000 to send email notifications when inputs are in an alarm state. The RIM-1000 sends one email message per alarm instance to a maximum of eight email recipients. Figure 3.33 Email/DNS Configuration Page Option Description Access Type Select None to disable the email feature. Select LAN to send alerts through a local network connection (Ethernet Port).
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Enter the IP address for the secondary DNS server, as provided by your internet service provider. Secondary DNS Server Default: 0.0.0.0 Some ISPs use alternate SMTP ports as an added security measure. Edit this field in accordance with your ISPs security settings. Alternate SMTP Port By default, the RIM-1000 uses Port: 25. A zero in this field defaults the RIM-1000 to Port: 25.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Email Heartbeat Time If you enable the email heartbeat feature, designate at which time of day you’d like the message to be sent. Email Heartbeat Recipient Notification Check the boxes to designate which recipients should receive the RIM-1000 email heartbeat message. View SMTP Log Send Test Email Use this link to view a log of the messages sent from the RIM-1000.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.19 Email URL Links Email URL Link page allows users to configure up to eight URL links that are sent out with email notifications. Use these links to direct email recipients to web sites, online documentation, user guides, maintenance procedures, etc. After you enter the URLs, you’ll need to go to the configuration page for the individual inputs and specify which email links will be distributed with which email alarm messages.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.20 Network Time Protocol NTP, or Network Time Protocol, is used to synchronize clocks of computer systems. NTP synchronizes the time of a computer or device (the RIM-1000) with another computer or referenced time source. NTP maintains a high level of accuracy and reliability in time stamped events. Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.21 SNMP/Syslog Use this page to configure SNMP and Syslog notification options. Figure 3.36 SNMP Configuration Page Option Description Designate a unique name for this RIM-1000. This name appears on the RIM-1000 Main Menu and is included as part of email and pager notifications. System Name The System Name can also be viewed and changed in the System Configuration Menu.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description This feature is used for communication to an NMS via SNMP Traps. The default adds the Value, UOM (Unit of Measure), and Label fields to the message. Analog Trap Varbinds Label Only: Sends only the label on analog Traps. This makes analog Traps the same format as digital Traps, which may make parsing the Traps easier for the NMS.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Write Select Write if the device will have Read/Write access to the RIM-1000. This allows the RIM-1000 to be configured over the network. Trap Select Traps if the device will receive traps from the RIM-1000. Syslog Allows the RIM-1000 to send a message to a Syslog server. Table 3.24 SNMP Configuration Options Chatsworth Products, Inc.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.22 BACnet Use this page to allow a Building Management System (BMS) to poll the RIM-1000 inputs using the BACnet protocol over LAN connections. Options are at the top of the page; supported BACnet capabilities are at the bottom of the page. For further information, consult the BACnet standard or your IT department.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description BACnet UDP Port This is the port to which the RIM-1000 will respond to BACnet requests. Enter a 0 to specify port 47808 (0xBAC0) as the UDP port. If another port is specified by your device, enter that value here. Default: 0 Register as Foreign Device IP This is the IP address of the master device with which you’re trying to communicate. Requires a BBMD for foreign device discovery.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.23 Modbus/SNMP/BACnet/Telnet Master This section provides configuration information for basic Master unit functionality. If you’d like to configure more advanced features, refer to Chapter 4, “Advanced Communications - Modbus, BACnet, and Telnet” on page 129. These pages allow users to configure Modbus, SNMP, BACnet, and Telnet features.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Configures the Serial COM Port 1 (EIA-232 or EIA-485). Available options are: • Modbus Master: Enables the RIM-1000 to operate as a Modbus Master over Serial COM1. • Modbus Slave: Enables the RIM-1000 to operate as a Modbus Slave over Serial COM1. • Telnet: Enables the RIM-1000 to communicate via Serial COM Port 1. • SMS/Text: Enables the RIM-1000 to communicate to an external SMS modem via Serial COM1.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description This is the amount of time between when a response is received from a Slave and when the RIM-1000 asks for the next register. This interval is adjustable from 250 to 2000ms. Master Poll Interval The interval is active only when the Serial Protocol is set to a Modbus Master option. The interval effects the overall scan rate.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.24 Modbus/SNMP/BACnet Slave Units This section provides configuration information for basic Slave unit functionality. If you’d like to configure more advanced features, including Modbus Register Configuration, refer to Chapter 4, “Advanced Communications - Modbus, BACnet, and Telnet” on page 129.
Remote Infrastructure Management System - Version 1.0 / July 2014 The numbers in the Unit # column are links. Click the links to configure the individual slave devices. Figure 3.40 Modbus/SNMP/BACnet Slave Configuration Page Option Description Communications Configure the RIM-1000 to send Modbus requests to a specific slave device over either a serial connection (EIA-232 or EIA-485) or over TCP/IP. This configuration can be different for each slave unit.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description SNMP Community Assign a community name to provide an added layer of security, and control access to the SNMP device. Description Enter a description for the Slave device. Pager Alarms (Requires Modem) Enter the Phone Number Configuration Entry ID for up to five pager numbers to which the RIM-1000 will send notification when any alarm for this Slave occurs.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Return Click this link to return to the previous page. Download xml for this device Click this link to download xml from this specific Slave device. Upload xml for this device Click this link to upload xml to this specific Slave device. If you’re configuring a Veris 8036, a Veris E30C, a Veris E50C, or a CPI RIM-750, we’ve done some of the work for you.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.25 PUE/DCiE/Summary/Average PUE and DCiE calculations are valuable metrics used by data centers to track their energy efficiency. PUE measures the efficiency of the computing equipment, while DCiE measures the efficiency of the data center’s infrastructure. Maximizing the energy efficiency of computing equipment and the data center infrastructure helps reduce energy costs and can minimize data center down time.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.25.1 Designating PUE/DCiE Data 1. Before you can generate the PUE/DCiE data, you need to know where to tell the RIM-1000 to find the raw kW readings. The Modbus registers for this information should already be configured. On the RIM-1000 interface, go to Configuration > Modbus/SNMP Slave Units. 2. Click the appropriate link to access the range of Registers where your devices are located.
Remote Infrastructure Management System - Version 1.0 / July 2014 If you’ve decided to create summary or average values, enter a label for each value in the corresponding box. This label will appear with the values on the RIM-1000 home page. 7. Next you’ll see a table labeled Meters. Up to 32 inputs can be used to develop metrics. Each number represents one submeter or output device’s kW reading. a. First, you’ll need to specify if the device is a physical meter or a Modbus/SNMP/BACnet input. b.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.25.2 PUE/DCiE Trending Now that the RIM-1000 is generating PUE/DCiE information, it can log long-term trending data. The trending program can log 3840 entries. Once 3840 entries have been logged, the system will eliminate 40 entries at a time and overwrite the data, from oldest to newest. Long-term trending is the most effective way to use PUE/DCiE data. Format Trends 1. On the RIM-1000 interface, go to Configuration>Trends. 2.
Remote Infrastructure Management System - Version 1.0 / July 2014 5. Click the Format Trend button to save your information. Once the information has been saved, you’ll notice the Info field for that trend will populate itself. NOTE: Because of the way the RIM-1000 saves its data, you need to fully configure one trend and click the Format Trend button on its line before you configure the next trend.
Remote Infrastructure Management System - Version 1.0 / July 2014 3. Click CSV to view a comma separated value download of your information. If you select the CSV option in Internet Explorer and Excel is loaded on your computer, the data will be displayed in an Excel spreadsheet. If you select the CSV option with Mozilla Firefox, the information will display as comma separated values in a separate browser window with no additional formatting. IE, exported to Excel Firefox, exported to CSV Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.26 Map (Facility Mapping) The RIM-1000 allows users to upload a map of their facility and populate it with RIM-1000 data. This provides users with a real-time view of their facility, and the physical location and status of all their digital, analog, and Modbus/SNMP slave inputs. Through the RIM-1000 mapping process, the RIM-1000 creates an overlay for an uploaded map image.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.26.1 Create An Interactive Map Creating the interactive map requires access to several pages within the RIM-1000’s Configuration menu. Upload the Map Image To begin the mapping process, access the Configuration>Map page and upload your map image. Options on the Map page are as follows: Figure 3.52 Map Configuration Page Option Description Browse Click this button to select the map image on your computer.
Remote Infrastructure Management System - Version 1.0 / July 2014 1. To upload an image click the Browse button. 2. Locate and select the map file (.jpg) that you have previously created and saved. Click the Open button. The path and name of the map file displays in the field to the left of the Browse button. 3. Click the Upload button. The Upload button displays a Please Wait message while the file uploads. The upload should take about seven seconds.
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Remote Infrastructure Management System - Version 1.0 / July 2014 3 At the very bottom of the Input or Relay Configuration screen you’ll see several mapping fields. a field labeled Map Coordinate: X, Y and a Graphical Mapping link. Click the Graphical Mapping link. Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 5. Drag and drop the blue square into the desired location. The X and Y coordinate boxes at the bottom of the screen will populate to indicate the coordinates of the monitored point. You can drag and drop the point as many times as you need to in order to place it correctly. Figure 3.60 Place the Point and Submit Changes 6. Once you are satisfied with the point’s location, click the “Submit Changes” link.
Remote Infrastructure Management System - Version 1.0 / July 2014 Map Modbus, SMNP and BACnet Slave Units Modbus and SNMP Slave Units are mapped just like analog and digital inputs. 1. From the RIM-1000 home page, go to Configuration>Modbus/SNMP Slave Units. All of your previously configured points will display. Figure 3.61 Modbus/SNMP/BACnet Slave Unit Configuration Screen 2. Click on the number of the unit you wish to map. This will take you to the Configuration page for that device. Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 3. Near the middle of the Configuration screen, you’ll see the same Map Coordinate: X, Y fields, Graphical Mapping link, and Test Map link you saw on the analog and digital input configuration screen. Click the Graphical Mapping link and drag and drop the blue rectangle to pinpoint the location of the slave unit. 4. Once you are satisfied with the point’s location, click the “Submit Changes” link.
Remote Infrastructure Management System - Version 1.0 / July 2014 4. If you’re using Mozilla Firefox, a pop-up window will appear. Select Save File and click the OK button. The file will save into the Downloads folder on your computer, typically located in Documents and Settings>My Documents. After the download is complete, you can navigate to it and rename it as you’d wish. Again, you can use any file name, but the file name MAY NOT contain spaces, and must be a .xfg file format.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.4.27 Flash Program The Flash Program link displays the Flash Program Configuration page, which allows you to load firmware as well as save and load configuration files for the RIM-1000. For instructions and more information, see Chapter 8, “Load Firmware and Configuration Data” on page 161. Figure 3.64 Flash Program Configuration Page 118 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.5. History The History link provides access to a wide variety of logged historical data for the RIM-1000. 3.5.1 Alarm History Alarm History displays the last 256 alarms captured by the RIM-1000. Alarms are ranked from most recent (top of the list) to least recent (bottom of the list). Figure 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 If you have an active alarm, you can silence it by clicking the Alarm Silence button on this page. 3.5.1.1 Acknowledge Alarms Alarms can be acknowledged from this page. To acknowledge alarms in bulk, click the checkbox next to the desired alarms and click the Acknowledge button. Figure 3.66 Acknowledge Multiple Alarms at Once Unacknowledged dial out alarms (marked in red) can also be acknowledged from this page.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.5.2 Event History Event History displays the past 100 events, as recorded by the RIM-1000. Typical events that are logged include System Booted, Email Accepted by Server, No Dial Tone, Busy, No Carrier, Page Successful, Alarm History Cleared, Digital Status History Cleared, Force Acknowledge by , and Program Upload - TFTP. Figure 3.68 Event History Page 3.5.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.5.4 Keypad Access History Keypad Access History displays the last 100 keypad entries captured by the RIM-1000. Figure 3.71 Web User Access Log The following information is displayed: • Access Log Index (ALxxx) • Date and Time of Event • Access Granted or Denied • Access denied is entered into the log when three consecutive invalid codes are entered. • Access is granted when a valid code is entered followed by the # key.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.5.6 Data History Data History provides an intermediate page to assist in navigating to the desired data. Only points configured as analog 4-20mA are shown. Figure 3.72 Data History Page • The Modbus Points links at the bottom of the page are shown if the RIM-1000 is equipped with the EXP-MBCS option. These links provide access to the Modbus Data History pages.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.5.6.2 Data History Text Downloads If you choose to download the CSV file from the Data History page you’ll need to right click the link and select either “Save Link As” or “Save Target As”. Specify a name for the file and save it to your local directory. If you click the “Download CSV File” link, the file will open in a browser window instead of downloading. 3.5.
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Remote Infrastructure Management System - Version 1.0 / July 2014 3.6. Relays Relays displays the current status of each RIM-1000 relay output. The Status field is color coded. White indicates the relay output is de-energized; yellow indicates that the relay output is energized. Figure 3.76 Relay Status Page Through the Relay Configuration screen (section 3.4.2 on page 54), a button can be configured to control each relay output. Clicking the button will turn on the associated relay output.
Remote Infrastructure Management System - Version 1.0 / July 2014 3.7. URL Links URL Links displays still images (.jpg) from all IP cameras and other URLs linked to the RIM-1000. Click the links to access the linked devices directly from this page. Figure 3.78 Links on the URL Links page 3.8. Refresh Click this link to refresh whichever page your on within the RIM-1000 web interface. Chatsworth Products, Inc.
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Remote Infrastructure Management System - Version 1.0 / July 2014 CHAPTER 4 ADVANCED COMMUNICATIONS MODBUS, BACNET, AND TELNET 4.1. Modbus The RIM-1000 supports the following from the factory: • Modbus Master (RTU) over EIA-485 or EIA-232 • Modbus Slave (RTU) over EIA-485 or EIA-232 • Modbus Master (TCP/IP) • Modbus Slave (TCP/IP Port 502) over Ethernet The RIM-1000 can operate as a Master over EIA-485 (or EIA-232) and as a Slave over Ethernet at the same time.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.2.1 EIA-232 The EIA-232 COM Port 1 on the RIM-1000 is used to connect the RIM-1000-as a Modbus Master-to one Modbus Slave device, or it is used to connect a Modbus Master device to the RIM-1000 as a Modbus Slave. The Modbus EIA-232 (DTE) is active over COM1 (DB9 male connector). The EIA-232 port allows communications between the RIM-1000 and one other device (point to point connection).
Remote Infrastructure Management System - Version 1.0 / July 2014 Figure 4.2 RIM-1000 Modbus EIA-232 Connection to an EIA-232 DTE Device Chatsworth Products, Inc.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.2.2 EIA-485 The EIA-485 COM Port 1 on the RIM-1000 is used to connect the RIM-1000-as a Modbus Master-to one or more Modbus Slave devices or it is used to connect a Modbus Master device to the RIM-1000 as a Modbus Slave. The Modbus EIA-485 is active over COM1 (TB5 Pins 8, 9 and 10). The EIA-485 port allows communications between one Modbus Master and one or more Modbus Slave devices.
Remote Infrastructure Management System - Version 1.0 / July 2014 Figure 4.4 EIA-485 Wiring to Veris BCMs (Branch Circuit Monitors) Chatsworth Products, Inc.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.3. Modbus Master Please refer to section 3.4.23, “Modbus/SNMP/BACnet/Telnet Master” on page 96 for detailed descriptions of the Modbus Master Configuration screens. 4.3.1 Communications Logs The RIM-1000 logs a vast amount of communications data. Links to the follow logs are found near the bottom of the Configuration > Modbus/Snmp/BACnet/Telnet Master web page. 4.3.
Remote Infrastructure Management System - Version 1.0 / July 2014 Column Description Displays the Contents of the Channel Input Alarm Register. The number displayed will be the sum of all active alarms. For example, if an input is above the High1and High2 limits, the number displayed will be 5 (1 + 4 = 5). 5 6 0 = No Alarm 1 = High 1 Alarm 2 = Low 1 Alarm 4 = High 2 Alarm 8 = Low 2 Alarm 10 = Digital Alarm Displays the RIM-1000 Slave Register Number for the Channel Input Configuration Status.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.3.3 Modbus Packet Log This link displays a log of the Modbus packets that the RIM-1000 is sending and receiving. Figure 4.6 Modbus Packet Log Column Description 1 System Up Time. 2 Modbus Master Register Number. 3 Direction of Packet: OUT = Packet Sent from the Falcon (Master Request). IN = Packet Received by the Falcon (Slave Response). 4 Modbus Packet. Table 4.4 Modbus Packet Log 136 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.3.4 Modbus Master Poll Data Log This link allows users to view the raw data the RIM-1000 receives from the Slave(s). Figure 4.7 Modbus Master Poll Data Log Column Description 1 RIM-1000 Modbus Master Register Number (1-628). 2 Time the Data is received, in HH (hour): MM (minute): SS (second) format where HH is a number 1-24 3 Number of Bytes Reserved for Data.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.4. Import Modbus Information to a Physical Point From the Configuration Menu, click on the Inputs and Relays link. Select any input not currently in use. Figure 4.8 Input and Relay Configuration Menu 1. To indicate the input will be pulling in Modbus information, change the Select Input Type drop down menu from Physical to Modbus Import. 2. Click the Submit Changes button. 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.5. Modbus/SNMP/BACnet Slave Units Basic Slave Unit configuration information can be found in section 3.4.24, “Modbus/SNMP/BACnet Slave Units” on page 99. The following information is available for more advanced functionality. 4.5.1 Modbus Register Configuration Selecting a Modbus Register link at the bottom of the Modbus Slave Unit Configuration page will display a page similar to the one shown in Figure 4.9.
Remote Infrastructure Management System - Version 1.0 / July 2014 Selecting a link to an individual register displays the configuration options for that register; see Figure 4.10. Instructions for completing the options on this page are described below. Figure 4.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Register Acquisition Enter the Register Number for the data to be read. The Register Number is located on the Slave Units Modbus Register Map; see 4.7.1, “Slave Register Map” on page 146. Register/Offset Select the Data Type of the Register.
Remote Infrastructure Management System - Version 1.0 / July 2014 Option Description Map Box Size Customize the size of the mapped object. By default, the height of the object, as it appears on the map, is approximately 20 pixels, and the width automatically adjusts to the length of the text. This setting allows users to expand the size of the object to fill a defined area. Map Coordinate Fine tune the location of the object on the map.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.6. Modbus/Slave Units Configuration – Modbus Master Branch Circuit Monitor– 4 or 16 The RIM-1000 can be configured as a Modbus Master for 4 or 16 branch circuit monitors (BCMs). RIM-1000 monitors the Veris Industries H663 Series BCM (ordered separately). This configuration is used to configure the information regarding the Modbus Slave BCMs from which the RIM-1000 will poll data.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.6.1 Modbus Register Links Clicking a Modbus Registers link next to the BCM on the Modbus BCM Unit Configuration page displays the following page. Figure 4.13 Modbus Registers (BCM) Page 144 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.6.1.1 CB# Links Pressing a CB # (CH#) link displays the Circuit Breaker Configurations for each BCM. Figure 4.14 Circuit Breaker Configurations for Individual BCMs Option Description Label Enter a label to describe the circuit breaker. The label is included in notifications and for identification on the Slave Unit Monitoring page.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.7. Additional Modbus Information 4.7.1 Slave Register Map Register Description Range 40001 Input #1 value -32678 – 32767 40104 Input #104 value -32678 – 32767 40105 Internal Temperature Sensor -32678 – 32767 40106 Internal Humidity Sensor -32678 – 32767 40107-40187 Reserved 40188-40193 MAC address 00:90:5b:01:01:01 40194-40197 IP address 10.0.0.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.7.2 Alarm Bit Map (Reg 40201–-40306) Bit Map Description 0x0000 No Alarm B:0 0x0001 High1 Alarm B:1 0x0002 Low1 Alarm B:2 0x0004 High2 Alarm B:3 0x0008 Low2 Alarm B:4 0x0010 Digital Alarm Table 4.9 Alarm Bit Map 4.7.3 Configuration Codes (Reg 40401–40504) Code Description 0 Not Installed 1 Not Configured 2 Analog 4-20ma 3 Digital NO 4 Digital NC 5 Digital Status 6 Analog 0-5V 7 Analog 0-10V Table 4.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.8. Telnet The RIM-1000 supports a Telnet connection over IP port 23. When properly configured a Telnet user can use the Com1 port of the RIM-1000 to communicate to external EIA-232 enabled devices. 4.8.1 Hardware Connections The Com1 port is located on the back of the RIM-1000. The COM1 Transmit and Receive LEDs are also located on the back of the RIM-1000.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.8.2 Telnet/COM1 Configuration The Modbus/SNMP/BACnet/Telnet Master Configuration page allows the user to configure the RIM-1000 Telnet features. Figure 4.16 Modbus/SNMP/BACnet/Telnet Configuration Page If you’d like to utilize Telnet communications, configure the following fields: Option Description Configures the Serial COM Port 1 (EIA-232 or EIA-485). Select Telnet to activate Telnet capabilities.
Remote Infrastructure Management System - Version 1.0 / July 2014 4.8.3 Telnet Communication To access a device through the RIM-1000: 1. Open a Command Prompt window and type the following: Telnet[sp](RIM-1000 IP address)[sp](Port number) Telnet Communication, IP Address of 10.0.0.108, Port 3201 Note: If the RIM-1000 is going to be looped back into itself, the Command Prompt line feed must be set to carriage return (CR) only. Warning Do not Telnet back into the RIM-1000.
Remote Infrastructure Management System - Version 1.0 / July 2014 CHAPTER 5 EIA-232 INTERFACE The RIM-1000 EIA-232 interface provides a more detailed and intricate view of the RIM-1000. It also allows users to access more elaborate IP configurations and diagnostics. In order to proceed through this chapter, the RIM-1000 must be connected to a PC via the EIA-232 port. If the RIM-1000 is not yet connected to a PC, connect the RIM-1000 EIA-232 COM2 port as follows: 1.
Remote Infrastructure Management System - Version 1.0 / July 2014 5.2. Flash Executable Code After the boot up sequence, the main program executes from Flash memory. In order to run properly, the unit must have a unique MAC address (assigned by the manufacturer) and an IP address. The factory default for the IP address is 10.0.0.188. If the unit is connected to the enterprise's network, an IP address must be obtained from the network administrator.
Remote Infrastructure Management System - Version 1.0 / July 2014 5.3.1 Network Configuration – netcfg Typing netcfg at the command prompt on the Main Menu displays the Network Configuration Menu that lists all items for system setup and configuration. This menu may be password protected. If it is, the password must be entered when the SC menu selection is made. To enter the password, type SC, press the space bar once, and then type the appropriate password; see Table 5.
Remote Infrastructure Management System - Version 1.0 / July 2014 5.3.1.1 Bootloader Menu The bootloader menu is accessed by typing reset at the command prompt. This menu is used to establish IP/TCP and PPP interaction with the network. The RIM-1000 must be set up with an IP address, Subnet Mask, and default router. These addresses can be obtained from your Network Administrator or IT Department.
Remote Infrastructure Management System - Version 1.0 / July 2014 Command Description run Start Application run Start Application run allows users to erase the back up firmware file in the RIM-1000. diag Diagnostics Function diag allows users to run the current firmware file for the RIM-1000 to run its application. Table 5.3 IP Configuration Menu Chatsworth Products, Inc.
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Remote Infrastructure Management System - Version 1.0 / July 2014 CHAPTER 6 REMOTE ACCESS 6.1. Remote Access Configuration The RIM-1000 can be remotely accessed with any terminal emulation software package. To establish a proper dial-out session, set the appropriate modem port as follows: • 33.6K baud • NO parity • 8 bits • 1 stop bit • (2400/N/8/1) • No software or hardware flow control Once the proper settings are made, dial the phone number assigned to the RIM-1000.
Remote Infrastructure Management System - Version 1.0 / July 2014 There is a limited command set for remote access. The available commands include: Figure 6.1 RIM-1000 Dial-Up Menu Pages can be acknowledged by phone number during a remote access session by entering aa followed by the alarm acknowledgement code for that phone number. 158 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 CHAPTER 7 POINT-TO-POINT PROTOCOL Point-To-Point Protocol (PPP) is an alternate method that may be used to communicate with the RIM-1000. PPP can only be used through a modem, over a phone line. Both the RIM-1000 and the user's computer must be configured correctly in order for PPP to work. 7.1. Configure the RIM-1000 1. Access the RIM-1000 Web interface. 2. Click the Configuration link.
Remote Infrastructure Management System - Version 1.0 / July 2014 7.2. Configure the PC Now the user is ready to configure the PC they will be dialing in from. These directions were written from a Windows XP machine. To configure the PC: 1. Click on Start, Control Panel, then Network. Select New Connection. 2. When the Internet Properties window appears, select the Connections tab at the top of the window and click on the Setup button to start the New Connection Wizard. 3.
Remote Infrastructure Management System - Version 1.0 / July 2014 CHAPTER 8 LOAD FIRMWARE AND CONFIGURATION DATA 8.1. Load RIM-1000 Firmware You can download current versions of firmware from CPI’s web site at www.chatsworth.com/support-and downloads/downloads/software. It is important to confirm the correct version of firmware before downloading and installing it. Check the Identity tab for the Firmware and Boatloader version loaded on your device and be sure the new firmware is a later version.
Remote Infrastructure Management System - Version 1.0 / July 2014 IMPORTANT: Do not change the name of the firmware file when you save it. Otherwise, the RIM-1000 will not recognize the file. 3. On the RIM-1000 web interface, go to Configuration>Flash Program. Figure 8.1 Flash Program Configuration Page 4. Click the Choose File or Browse button. 5. Locate and choose the firmware file (.bin) that you saved from the RLE website. The path and name of the firmware file (.
Remote Infrastructure Management System - Version 1.0 / July 2014 6. Click the Upload button. The firmware is loaded while the RIM-1000 displays a message confirming that it is loading the new file. File has been uploaded and bin file verifed File will now be copied to flash #2, this will take about 60 seconds Then verify the file is contained in flash #2 and then press the Copy Flash2 to Flash1 button If your browser does not automatically redirect to you, please click here Figure 8.
Remote Infrastructure Management System - Version 1.0 / July 2014 10. You can verify which firmware version is loaded by going to Configuration>Flash Program and viewing the information under the blue bar. Figure 8.6 Current Firmware Version As Shown in RIM-1000 Interface 164 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 8.1.2 Load Firmware Using TFTP Client This is an alternate method for loading firmware. Note that it does not work with a PPP connection. 1. Uploading firmware via TFTP requires a TFTP Client. It may be possible to download a free license TFTP Client from the Internet. Consult your IT department to determine a compatible client program. 2. Verify that the PC and the RIM-1000 are on the same subnetwork (LAN). 3. Open the TFTP client.
Remote Infrastructure Management System - Version 1.0 / July 2014 7. From the HyperTerminal menu select Transfer -> Send File. Use the browse button to select the RIM-1000 firmware file from the computer's directory. The file must be binary and have a .bin extension. Select the file and upload it using the 1K X-Modem protocol. Then click Send. 8. A transfer status screen will be displayed. The transfer takes about 10 minutes.
Remote Infrastructure Management System - Version 1.0 / July 2014 8.2. Load and Save RIM-1000 Configuration Data You can save RIM-1000 configuration data for backup purposes and to load the same configuration onto other RIM-1000 units. In the unlikely event the RIM-1000 fails, a replacement RIM-1000 can be placed back in service faster by loading the saved configuration information onto it. The configuration settings are saved to a binary file, which cannot currently be edited off line. 8.2.
Remote Infrastructure Management System - Version 1.0 / July 2014 8.2.2 Load Configuration Data 1. On the RIM-1000 interface, go to Configuration>Flash Program. The Flash Program Configuration page displays. Figure 8.8 Load Configuration File (Flash Program Configuration Page) 2. Click the Browse button to navigate to the location of the configuration file you want to load. IMPORTANT Make sure you have not changed the three-letter extension (.cfg, .mfg, or .
Remote Infrastructure Management System - Version 1.0 / July 2014 APPENDIX A RIM-1000 EXPANSION CARDS A.1. Expansion Card Descriptions Expansion cards can be added to a base RIM-1000 unit to increase its functionality. A 1U RIM-1000 has room for one expansion card. A 2U RIM-1000 has room for three expansion cards. Currently, Expansion Card A and Expansion Card C are available from CPI.
Remote Infrastructure Management System - Version 1.0 / July 2014 A.2. Expansion Card Installation Expansion cards can be installed at the factory at the time of the initial product order, or they can be ordered at a later date and installed by the customer. If customers order an expansion card after they have possession of the RIM-1000 unit, they must install the expansion card themselves. A.2.1 Install an Expansion Card in a 2U RIM-1000 The RIM-1000 expansion card is shipped with five screws.
Remote Infrastructure Management System - Version 1.0 / July 2014 3. Gently lift and hinge the top lid to the side and lay it next to the base (bottom chassis). Base Lid Figure A.3 2U RIM-1000 Unit - Opened 4. On the expansion card, set the card slot address (SW2 DIP switches) to the slot number where the card will reside (1 through 4). Table A.2 lists the position of the switches based on the slot number. Figure A.4 shows the location of the DIP switches.
Remote Infrastructure Management System - Version 1.0 / July 2014 Note: Do not overlook installation of the screw. This screw grounds the expansion card and is critical to the RIM-1000 performance. 6. If the expansion card is to be mounted in the lid (Slots 2, 3, and 4), mount the card as follows: a. Attach the ribbon cable to the expansion card, making sure that the correct connector is attached.
Remote Infrastructure Management System - Version 1.0 / July 2014 c. Secure the card to the lid using the five mounting screws supplied. Figure A.7 Expansion Card Final Placement in a Two-Rack Unit 7. If you are finished installing expansion cards: a. Hinge the lid back in place over the base. b. Reattach the side brackets using the two mounting screws on the back plate and the hex posts for COM1 and COM2. Chatsworth Products, Inc.
Remote Infrastructure Management System - Version 1.0 / July 2014 A.2.2. Install an Expansion Card in a 1U RIM-1000 Expansion cards are shipped with a ribbon cable and five screws, although only one screw will be used for the installation process. To install a RIM-1000 expansion card: 1. Remove the four screws that secure the lid to the RIM-1000. Lift off the lid. Then, remove the four hex standoffs on the two COM1 ports (for the location of the hex standoffs, see Figure A.1 on page 170). 2.
Remote Infrastructure Management System - Version 1.0 / July 2014 A.3. Convert Current Input Channels to Voltage Input Channels on Expansion Card When the RIM-1000 optional 12 channel analog input card is delivered, its channels are configured for current inputs (4-20mA). Some sensors, however, may require voltage input channels (0-5V or 0-10V). The customer may manually reconfigure any or all current input channels as voltage input channels if necessary.
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Remote Infrastructure Management System - Version 1.0 / July 2014 APPENDIX B ANALOG AVERAGING B.1. Analog Averaging Overview Analog averaging allows the user to change the averaging method for analog inputs. Normally, the RIM-1000 samples analog points once a second while keeping track of high and low values for each analog point. After 60 seconds, the average of these readings and the high and low values for these points are recorded in the minute log. B.2.
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Remote Infrastructure Management System - Version 1.0 / July 2014 APPENDIX D RIM-1000 ACCESSORIES WIRING The following figures show the typical wiring between the RIM-1000 monitoring system and typical sensors. Figure D.1 RIM-1000 Temperature or Humidity Sensors – 4-20mA output (CPI P/N’s 60111-001, 60111-003, 60112-001, 60112-002, 60112-003) Figure D.2 RIM-1000 Temperature and Humidity Sensors - 4-20mA output (CPI P/N’s 60111-004, 60111-005, 60111-006, 60111-007) Chatsworth Products, Inc.
Remote Infrastructure Management System - Version 1.0 / July 2014 Figure D.3 Dwyer Temperature and Humidity Sensor Figure D.4 BAPI Temperature and Humidity Sensor Figure D.5 RIM-1000 Motion Sensor (CPI P/N 60114-001) 182 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 Figure D.6 RIM-1000 Magnetic Door Sensor (CPI P/N 60015-001) Figure D.7 RIM-1000 Power Fail Monitor (CPI P/N 60110-001) Chatsworth Products, Inc.
Remote Infrastructure Management System - Version 1.0 / July 2014 Figure D.8 RIM-1000 Distance Read Leak Detection System (Dry Contact) (CPI P/N’s 60109-001 Spot Detector and 60109-002 Kit. Additional ropes for Kit; 60109-003, 60109-004, 60109-005) Figure D.9 RIM-1000 Smoke Detector (CPI P/N 60113-001) 184 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 D.1. Configuring a RLE Seahawk device Device as an Analog Input for RIM-1000 Users with legacy systems may find this information useful. The RIM-1000 averages/filters the analog inputs.Therefore, the alarm delay for the RLE Seahawk LD5100 input must be set to a value equal to or greater than the averaging time set in the RIM-1000. The LD5100 will output 4mA when there is no leak.
Remote Infrastructure Management System - Version 1.0 / July 2014 Figure D.10 RLE Seahawk LD1000, LD300, and LDRA6 Zone Leak Detection Systems Figure D.11 RLE Seahawk LD1000, LD300, and LDRA6 Zone Leak Detection Systems 186 www.chatsworth.
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Remote Infrastructure Management System - Version 1.0 / July 2014 APPENDIX E ALARM ID REFERENCE TABLES E.1.
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Remote Infrastructure Management System - Version 1.0 / July 2014 E.2. Digital Tables Channel Condition ID 1 On/Off 0010 2 On/Off 0020 3 On/Off 0030 4 On/Off 0040 5 On/Off 0050 6 On/Off 0060 7 On/Off 0070 8 On/Off 0080 Table E.4 Digital Alarm ID Reference Table – Digital Inputs 1 through 8 Chatsworth Products, Inc.
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Remote Infrastructure Management System - Version 1.0 / July 2014 APPENDIX F RIM-1000 SLOT DESIGNATIONS F.1. Input Slot Designation Table Alarm ID format: • XYYZ - X is the Slot # 0-4 • YY is the CH # 1-24 • Z is the type: 0=digital, 1=HighLevel1, 2=LowLevel1, 3=HighLevel2, 4=LowLevel2 Slot 0 Number Port / CH CH ID Analog Alarm ID Digital Alarm ID RIM-Cxxx 8 1-8 0.1 - 0.8 0011 - 0084 0010 - 0080 RIM-CCxx 8 1-8 0.1 - 0.8 0011 - 0084 0010 - 0080 RIM-CCCx 8 1-8 0.1 - 0.
Remote Infrastructure Management System - Version 1.0 / July 2014 Slot 1 Number Port / CH CH ID Analog Alarm ID Digital Alarm ID RIM-Cxxx 24 9 - 32 1.1 - 1.24 - 1010 - 1240 RIM-CCxx 24 9 - 32 1.1 - 1.24 - 1010 - 1240 RIM-CCCx 24 9 - 32 1.1 - 1.24 - 1010 - 1240 RIM-CCCC 24 9 - 32 1.1 - 1.24 - 1010 - 1240 RIM-CAxx 24 9 - 32 1.1 - 1.24 - 1010 - 1240 RIM-CAAx 24 9 - 32 1.1 - 1.24 - 1010 - 1240 RIM-CAAA 24 9 - 32 1.1 - 1.24 - 1010 - 1240 RIM-CCAx 24 9 - 32 1.1 - 1.
Remote Infrastructure Management System - Version 1.0 / July 2014 Slot 2 Number Port / CH CH ID Analog Alarm ID Digital Alarm ID RIM-Cxxx 0 - - - - RIM-CCxx 24 33 -56 2.1 - 2.24 - 2010 - 2240 RIM-CCCx 24 33 -56 2.1 - 2.24 - 2010 - 2240 RIM-CCCC 24 33 -56 2.1 - 2.24 - 2010 - 2240 RIM-CAxx 12 33 - 44 2.1 - 2.12 2011 - 2124 2010 - 2120 RIM-CAAx 12 33 - 44 2.1 - 2.12 2011 - 2124 2010 - 2120 RIM-CAAA 12 33 - 44 2.1 - 2.
Remote Infrastructure Management System - Version 1.0 / July 2014 Slot 4 Number Port / CH CH ID Analog Alarm ID Digital Alarm ID RIM-Cxxx 0 - - - - RIM-CCxx 0 - - - - RIM-CCCx 0 - - - - RIM-CCCC 24 81 - 104 4.1 - 4.24 - 4010 - 4240 RIM-CAxx 0 - - - - RIM-CAAx 0 - - - - RIM-CAAA 12 81 - 92 4.1 - 4.12 4011 - 4124 4010 - 4120 RIM-CCAx 0 - - - RIM-CCAA 12 81 - 92 4.1 - 4.12 4011 - 4124 4010 - 4120 RIM-CCCA 12 81 - 92 4.1 - 4.
Remote Infrastructure Management System - Version 1.0 / July 2014 F.2. Output Slot Designation Table Number Relay Relay ID Number Relay Relay ID Number RIM-Cxxx 2 1-2 0.1 - 0.2 0 - - RIM-CCxx 2 1-2 0.1 - 0.2 0 - - RIM-CCCx 2 1-2 0.1 - 0.2 0 - - RIM-CCCC 2 1-2 0.1 - 0.2 0 - - RIM-CAxx 2 1-2 0.1 - 0.2 0 - - RIM-CAAx 2 1-2 0.1 - 0.2 0 - - RIM-CAAA 2 1-2 0.1 - 0.2 0 - - RIM-CCAx 2 1-2 0.1 - 0.2 0 - - RIM-CCAA 2 1-2 0.1 - 0.
Remote Infrastructure Management System - Version 1.0 / July 2014 Number Relay Relay ID Number RIM-Cxxx 0 - - RIM-CCxx 0 - - RIM-CCCx 0 - - RIM-CCCC 0 - - RIM-CAxx 0 - - RIM-CAAx 0 - - RIM-CAAA 8 27 - 34 4.1 - 4.8 RIM-CCAx 0 - - RIM-CCAA 8 27 - 34 4.1 - 4.8 RIM-CCCA 8 27 - 34 4.1 - 4.8 RIM-Axxx 0 - - RIM-AAxx 0 - - RIM-AAAx 0 - - RIM-AAAA 8 27 - 34 4.1 - 4.8 Table F.6 Output (Relays) Slot Designation Table – Slot 4 202 www.chatsworth.
Remote Infrastructure Management System - Version 1.0 / July 2014 APPENDIX G RELAY CONTROL LOGIC G.1. RIM-1000 - EM Relay Logic Figure G.1 on page 205 contains the RIM-1000 relay control logic diagram described in the following sections. OR Gate 144 Input The OR Gate can accept any of the High Level 2, Low Level 2 or digital alarms. This option is configured on each input configuration page. AND Gate 4 Input The AND Gate can accept up to 4 alarms.
Remote Infrastructure Management System - Version 1.0 / July 2014 Inverter Gate This gate can invert the relay activation. This allows the relay to be used in a “supervised” mode. In this mode, if the RIM-1000 loses power, the relay will close. The gate is configured on each relay configuration page. Schedule Each relay can be activated by either of the two schedules in the RIM-1000. During the scheduled time-of-day the relay is activated. The schedule option is configured on each relay configuration page.
Remote Infrastructure Management System - Version 1.0 / July 2014 Figure G.1 RIM-1000 Relay Control Logic Diagram Chatsworth Products, Inc.
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Remote Infrastructure Management System - Version 1.0 / July 2014 APPENDIX H SNMP v3 When the Falcon RIM-1000 has the optional SNMP v3 software installed, it can communicate with SNMP servers running version 3. To configure the RIM-1000 for SNMP v3, follow the steps in this appendix. 1. From the top bar of the RIM-1000 Web interface, select the Configuration Menu, then select the SNMP/Syslog link from the menu. Figure H.1 SNMP/Syslog Configuration Page 2.
Remote Infrastructure Management System - Version 1.0 / July 2014 3. In the Traps section, specify the SNMP trap settings. Option Description Select SNMP Trap Type Select from the following: V1-Trap V2C-Trap V2C-Informs. V3-Traps V3-Informs Max Inform Retries Set from 0-999 (minutes). The default is 0, which allows the retries to be unlimited. Persistent Trap/Inform Intervals Set from 1-999 (minutes). The default is 0, which allows the RIM-1000 to send traps and informs once.
Remote Infrastructure Management System - Version 1.0 / July 2014 5. In the SNMPv3 section, create up to four profiles for SNMPv3 communication. Option Description Engine ID Context Name (Optional.) An alphanumeric name used for the SNMP v3 interface. //length limit?// V3 Trap User (1-4) Enter the number of the user you are creating or modifying. User Name Enter an alphanumeric string of up to //how many?// characters.
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Remote Infrastructure Management System - Version 1.0 / July 2014 APPENDIX I TECHNICAL SPECIFICATIONS Power 1U, RIM-1000 24VDC Model: 24VDC (±10%), 1A max. (power supply included); 48VDC Model: 36-72VDC, 0.5A max 2U, RIM-1000 24VDC Model: 24VDC (±10%), 2.5A max. (power supply included); 48VDC Model: 36-72VDC, 1.25A max. Inputs Analog/Digital 8 Configurable as 4-20mA (12-bit A/D conversion) or Dry Contact NO/NC (<15mA) Optional Internal Temperature/Humidity ±0.
Remote Infrastructure Management System - Version 1.0 / July 2014 Expansion Cards 1U accommodates 1 expansion card; 2U accommodates up to 4 expansion cards CPI P/N 60103-001 12 analog inputs (jumper selectable for 4-20mA, 0-5VDC or 0-10VDC) and digital inputs (non-isolated, individual ground only); 8 Form C Relay Outputs, 1A @ 24VDC, 0.
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Remote Infrastructure Management System - Version 1.0 / July 2014 Operating Environment Temperature 32° to 158°F (0° to 70°C) Humidity 5% to 95% RH, non-condensing Altitude 15,000ft (4,572m) max. Storage Environment -40º to 185ºF (-40º to 85ºC) Dimensions 1U RIM-1000: 16.8"W x 1.8"H x 7.9"D (427 mm W x 46 mm H x 201 mm D) 2U RIM-1000: 16.8"W x 3.5"H x 7.9"D (427 mm W x 89 mm H x 201 mm D) Weight 1U 6 lbs. (2.72kg) 2U 10 lbs. (4.