ABB Pulsar Edge Product Manual

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PRODUCT MANUAL

Pulsar Edge Controller Family

Typical Controllers

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Typical Controllers

Typical Separate Displays

Table of Contents

Summary of Contents for ABB Pulsar Edge

Page 3: Table Of Contents
Preparation ······································································································································· 19 Safety ··········································································································································· 19 Installation Tools ······················································································································· 19 Packaging ···································································································································· 19 Install the Pulsar Edge Controller ·································································································· 19 Connect to the Controller ·············································································································· 23 Initial Startup of the Controller ···································································································· 24 Craft Port ·········································································································································· 25 Web Interface ··································································································································· 29 LAN Port as the Craft Port ······································································································...
Page 4 Backup/Restore Configuration File ···························································································· 123 Backing Up/Retrieving ················································································································· 123 Restoring ········································································································································· 123 Appendix B: T1.317 Command Language ··················································································125 Serial Access to the Pulsar Edge Controller ·············································································· 125 Introduction ···································································································································· 126 Objects, Attributes, and Related Commands ··········································································· 127 Additional T1.317 Commands and Samples··············································································· 145 Error Messages ······························································································································...
Page 5 Configuration ································································································································· 193 Reboot Required ······················································································································ 193 Security ····································································································································· 193 Internet Protocols (IPv4 And IPv6) ······················································································· 194 HTTPS (SSL) ····························································································································· 195 SNMP ········································································································································· 197 SFTP ··········································································································································· 198 SSH ··········································································································································· 200 Revision ····································································································································· 201 Page 5 © Copyright 2021 ABB. All rights reserved.
Page 7: Table Of Figures
Figure 5 Edge Rectifier Shelf – GCP841E Family of Controllers ················································ 13 Figure 6 General Power System Block Diagram ········································································· 15 Figure 7 Block Diagram of Pulsar Edge CP841A Controller with the J2007001 ·······················16 Figure 8 Pulsar Edge Front Panel Display Assembly ································································· 36 Figure 9 Pulsar Edge Status Menu ······························································································...
Page 8: Table Of Tables
Figure 36: PuTTY Security Key Warning Screen ······································································· 200 Figure 37: PuTTY SSH Login Example Screen ·········································································· 200 Table of Tables Table 1 Pulsar Edge Family Naming Convention ········································································· 17 Table 2 Pulsar Edge Product Examples ······················································································ 18 Table 3 Current Calculations ······································································································· 69 Table 4 Power System Troubleshooting ··················································································...
Page 9: Introduction
Introduction Overview The Pulsar Edge family of controllers is part of the Pulsar family of power system controllers that includes Pulsar Plus and Pulsar Edge controllers. Pulsar Edge controllers were developed to be integrated into the power shelves of the Compact Power Line (CPL), Slimline Power Systems (SPS), CPS6000 Series II power systems, Infinity NE group of shelves, and GCP group of shelves.
Page 10 • Up to six alarm outputs or • Combination of alarm inputs and alarm outputs *Number of inputs/outputs depends on Pulsar Edge configuration • Alarm output test feature • Integrated 10/100Base-T Ethernet for local port or for Network remote monitoring •...
Page 11: Applications
CPS6000 Series II, Infinity, and SPS product lines. CPL supports display-less options of the Pulsar Edge. Following are a few product depictions utilizing the various Pulsar Edge controller configurations. Consult appropriate system manuals, technical field support or your local sales representative for more details on these or other power systems that may utilize the Edge controller.
Page 12: Figure 3 Cps6000 Series Ii Power System (Qs) Line Shelves- Qs841E Family Of Controllers
Figure 2 Small Power System (SPS) Line Shelves- SPS841A Family of Controllers (continued) Figure 3 CPS6000 Series II Power System (QS) Line Shelves- QS841E Family of Controllers Figure 4 Infinity NE Converter Power Shelves- QS841E and NE841A Family of Controllers Page 12 © Copyright 2021 ABB. All rights reserved.
Page 13: Figure 5 Edge Rectifier Shelf - Gcp841E Family Of Controllers
The Pulsar Edge controller is typically pre-installed into the power shelf at the factory. However, it can be ordered separately for spares, installed in the field, or integrated into custom systems. Access to the controller inputs/outputs is typically located on one or two connectors located at the rear of the shelf.
Page 15: Product Description
Product Description Overview ABB rectifiers accept alternating current (ac) power and rectify it to produce direct current (dc) power for powering external equipment (loads). Converters accept the dc output from rectifiers or other sources and convert it to various regulated output dc levels also needed for powering external equipment (loads).
Page 16: Figure 7 Block Diagram Of Pulsar Edge Cp841A Controller With The J2007001
These options must be ordered and are pre-installed at the factory. The following figure shows a generic block diagram of the basic components of the Pulsar Edge controller for a CPL power shelf. The exact system interconnect will vary depending on the shelf design but this provides the basic concept of controller interconnect common to all.
Page 17 Where : nW mR Table 1 Pulsar Edge Family Naming Convention ZZZ 841 A_nW mR_XXX_S_YYY There is a dependency on the number of outputs and inputs. Secure Protocols include SNMPv3, IPv6, and HTTPS/SSH/SFTP Page 17 © Copyright 2021 ABB. All rights reserved.
Page 18: Table 2 Pulsar Edge Product Examples
150043558 Controller for Edge (GCP) applications Table 2 Pulsar Edge Product Examples Units without assigned Ordering Codes may still be under development or in the planning state. Other combinations may be available. Consult sales and technical field support for additional information.
Page 19: Getting Started-Installation, Start-Up, And Basic Configuration
The shipping package may be used to return defective parts. Install the Pulsar Edge Controller The Pulsar Edge is easily slid in and out of a dedicated position in the shelf. Some shelf configurations will have the controller factory preinstalled. This section primarily uses the Compact Power Line controller as an example but the information provided is valid for other system configurations and must be used with information in the Installation Start-Up documentation for each specific system.
Page 20 Connection For ESD Prevention Attach an ESD wrist strap or equivalent to an appropriate ESD grounding connector on your frame or system. Grounding the System earth ground. Captive Screw for other power systems. Page 20 © Copyright 2021 ABB. All rights reserved.
Page 21 EasyView2 interface to change any of the alarm user relay alarm assignments. Note: jumpers are present for the number of output alarm relays implemented in the controller. Name Defaults Generally, no special controller configurations are required for systems using the ES771 Mid- String Voltage Modules options. Page 21 © Copyright 2021 ABB. All rights reserved.
Page 23: Connect To The Controller
The controller is now installed Connect to the Controller Other than the front accessible serial or USB port, all connections to the Pulsar Edge Controller are made through backplane connections or appropriate cable assemblies to the controllers J1 interface.
Page 24: Initial Startup Of The Controller
AC power. Apply power to the power system. maintenance operations that should be initiated are the “Clear Events” and alarm LED is illuminated, review the installation procedure and refer to the Page 24 © Copyright 2021 ABB. All rights reserved.
Page 25: Craft Port
RS232 or USB Craft Port, follow the following basic procedures. Step Action earth ground. Down load the latest copy of EasyView 2.0 from the corporate website at abbpowerconversion.com click the “Next >” button. Page 25 © Copyright 2021 ABB. All rights reserved.
Page 26 Step Action The wizard will load the ABB USB UART .inf file and the windows drivers needed to make the controller USB port appear as a virtual COM port on your PC. Click the “Finish” button to close the wizard.
Page 27 Click the “Finish” button to close the installer. Note: The driver (.inf file) for the ABB USB UART is found in the \EasyView2\Drivers directory. This will be requested when the Windows detection that the controller USB port has been connected to the PC Page 27 ©...
Page 28 EasyView 2. Note: an individual web page file can be replaced with a later version of the file in the appropriate directory using the same name to update the software package. Page 28 © Copyright 2021 ABB. All rights reserved.
Page 29: Web Interface
The web interface is common to all Pulsar Edge controllers and will be described in more detail. Web pages are updated for functionally and aesthetics. Thus, some of the screens shown may be slightly different than those served up by your Pulsar Edge.
Page 30 Ethernet port configuration. The rebooting process takes approximately 2 minutes. Attach the LAN cable between the controller’s LAN connection, RJ45 (J5), located at the rear of the shelf to the appropriate Ethernet port on the Craft PC. Page 30 © Copyright 2021 ABB. All rights reserved.
Page 31 The Pulsar Edge has HTTP capabilities and should begin to return appropriate system representative web pages. Using a standard browser, a login page similar to that depicted below should be served up by the Pulsar Edge controller.
Page 32: Basic Controller Configuration
Once the system is up and running there are only a few configurations that are necessary depending on your application and the controller utilized for the application. The Pulsar Edge families of controllers are a multiple micro- processor based unit with volatile and non-volatile memory. These units have been factory preconfigured with standard or customer specific configuration default settings for all features and thresholds.
Page 33 Standard float values, alarm thresholds, and other functions are set as defaults for each of these battery types that can be modified in the field as desired. The Pulsar Edge also provides a list of industry standard batteries that are linked to these technologies and share the standard defaults.
Page 35: Operation
Operation Overview The Pulsar Edge family of controllers provides system monitoring and control features for CP, SPS, and other ABB rectifier based power systems. These controllers monitor and control system components including rectifiers and distribution modules via a multi-drop RS485 digital communications bus.
Page 36: System Status Display
System Status Display LCD Backlight The Pulsar Edge controller family incorporates an alarm sensitive back-light indicator to help assist in providing a clear indication of the system status. Severities of alarms can be configured through the remote interfaces. Following is a basic description of the backlight functionality.
Page 37 Status LEDs The Pulsar Edge controller family provides two separate LED indicators that can be used to provide a high level first glance local indication at the site of the status of the power system and its monitored inputs.
Page 38: Menu Navigation Buttons
Goes up one menu level or exits a parameter change Front Panel PIN The Pulsar Edge controllers have the ability to restrict certain types of access from the front panel of the unit. It has the ability to enforce a four-digit Power Identification Number (PIN) requirement for users of the front panel for certain control/operations and configurable items.
Page 39 Battery Test Rectifier Voltage System Date Format System Date System Time Format System Time Automatic Daylight Savings Feature Display Contrast Temperature Display Units Alarm Test Feature Alarm Test Relay Duration and Relay Page 39 © Copyright 2021 ABB. All rights reserved.
Page 40: Front Panel Menus
An internal counter shall be kept and reset if the user leaves the default menu and returns to others menus before • the time-out period is reached Front Panel Menus Feature content at the front panel is functionally divided at the Pulsar Edge’s Main Menu into the following categories: Alarms Warnings Status...
Page 45: Local And Remote Access Ports
Local and Remote Access Ports The Pulsar Edge provides ports for both local and remote access. Access to these ports depends on the specific Pulsar Edge controller configuration. Various versions of the Pulsar Edge provide front access through a local DB-9 RS232 asynchronous serial port. Asynchronous RS232 connectivity is also available through an RJ45 receptacle in specific controller configurations.
Page 46 The “Load Defaults” button loads the factory configuration defaults installed in the controller. All previous configurations will be overridden using this command. Standard controller configurations will use the standard factory defaults. Custom controllers utilize specific customer driven configurations. Page 46 © Copyright 2021 ABB. All rights reserved.
Page 47 This tab allows a quick configuration of the primary items needed to be set for a site. These basic items include: selecting the battery type, date, time, and the site ID. The Pulsar Edge can support two front panel languages. English, Spanish, French, and German are a few languages supported by the controller.
Page 53 Note: Right clicking on the graphic of the rectifier or converter will pull up a pop-up window that provides additional details on each of the rectifiers/converters, respectively. A sample screen shot for each is shown on next page Page 53 © Copyright 2021 ABB. All rights reserved.
Page 54 Note: When the ES771 mid-string voltage monitors are present and actively measuring battery strings the independent voltage values will be provided in the battery section. Up to three mid-string voltage readings per module is obtainable. Page 54 © Copyright 2021 ABB. All rights reserved.
Page 55 A printer logo is provided to allow a quick link to the user for printing out this alarm list in a friendly format Distribution type and currents for the various monitored components. LVBD LVLD(1-3) Page 55 © Copyright 2021 ABB. All rights reserved.
Page 56: Reports Tab
Once the record size of a specific field is reached the data first in will be discarded for the newer data. These screens are generally self-explanatory. Following are sample screens from these tabs. Page 56 © Copyright 2021 ABB. All rights reserved.
Page 57 The reserve time will be provided if available for each event. Selecting a color from the view data screen will allow the discharge curve profiles to be graphed and overlayed. Page 57 © Copyright 2021 ABB. All rights reserved.
Page 58 Statistics Basic statistics are stored for the plant load, battery temperature, and controller ambient temperature. Selecting Statistics from the reports screen produces a screen like the following: (Hourly) Trends Page 58 © Copyright 2021 ABB. All rights reserved.
Page 59 Provides a chronological view of up to the last 16 times the system entered boost mode since the last time the history log was cleared. Selecting Boost History from the reports screen produces the following page. Page 59 © Copyright 2021 ABB. All rights reserved.
Page 60 Provides a chronological view of up to the last 256 rectifier alarms and events that have occurred since the last time the history log was cleared. Selecting Rectifier History from the reports screen produces the following page: Page 60 © Copyright 2021 ABB. All rights reserved.
Page 61: Maintenance Tab
The following are the system control and operation functions that can be performed from the Maintenance page. These controls and operations are categorized as System, Data, Disconnects, and Rectifier operations. These operations are generally used in post installation and maintenance operations. Page 61 © Copyright 2021 ABB. All rights reserved.
Page 63 Clear Data Maintenance Operations devices Events Trend Disconnects Maintenance Operations Appropriate Buttons are provided to allow operation of LVDs when they are attached in the system. Page 63 © Copyright 2021 ABB. All rights reserved.
Page 64 Rectifier or Converter Start/Stop Maintenance Operations The maintenance page in the Pulsar Edge provides a remote user the ability to place a rectifier into Standby if the “Remote Rectifier In Standby”. A user has the ability to turn-off (Stop) or turn-on (Start) a specific rectifier.
Page 65: Settings Tab - Configuration
System, Reserve, Power, Communication, and Programming. Factory defaults are provided for the various configurable items in the standard Pulsar Edge controller. Some defaults are dependent on the battery type. Consult Appendix E for default settings of different battery. Valve-Regulated Lead Acid (VRLA) batteries and default settings defined for the Standard configuration are assumed in this section.
Page 66 Home page. Adding a frame/bay would split the plant section on the Home page to show the number of frame/bays graphically, respectively. Note: The J or Product code selections found in the Installation section provide pre-configured configurations for the items in the list. Page 66 © Copyright 2021 ABB. All rights reserved.
Page 67 Items here define the different shunts being monitored by the controller. One shunt, the Plant Shunt, is monitored directly by the Pulsar Edge. Up to eight shunts can be monitored through various remote distribution monitoring and control boards. The Pulsar Edge utilizes an RS485 serial communication link to external distribution monitoring and control boards for shunt measurements and contactor control.
Page 68 ID1-8 battery. Defaults The Pulsar Edge is factory configured with: Type: None Shunt: 150A Type: None Shunt: 300A Type: None Shunt: 600A Type: None Shunt: 600A Type: None Shunt: 600A Type: None Shunt: 600A Type: None Shunt: 600A Type: None Shunt: 600A calculated differently.
Page 70 Voltage Disconnect (LVD) contactors. Clicking on a specific “Click to update” position will provide the associated parameters for the selected LVD type. The Pulsar Edge controller utilizes distribution monitoring and control boards to control contactors. These boards include the QS871 and NE872 modules.
Page 71 Note: selecting None for a reconnect mode will require manual intervention to shut the contactor. Selecting None for the disconnect mode will not allow a LVD to open. The Pulsar Edge has factory defaults of the following: Page 71 ©...
Page 72 Alarm Test When equipped with alarm output contacts, the Pulsar Edge provides a user the ability to manually test the system alarm output contacts. Wiring to monitoring systems can be tested in the field or factory using this feature. The duration of the alarm contact assertion can be configured from 5 to 300 seconds.
Page 73 Branding/Styling Pulsar Edge web pages contain references to ABB as well as the Pulsar Edge. These can be removed from the web pages by configuring Company and Product Headings. Clicking on the color wheels and pull-downs and trialing different colors is an effective way of using this feature.
Page 74 NSB60FT • SBS-145 SBS-170 • • TEL12-90 • TEL12-105 • XE60 • 12A100FT • 12A150FT • 12AVR145 12FAT130 • • 12FAT155 • 12IR150/150LP • IR40EC • • • • • Limit Page 74 © Copyright 2021 ABB. All rights reserved.
Page 75 Temperature Compensation Items in this section of the Settings pages are used to configure the various parameters associated with the battery temperature compensation. A sample screen shot follows along with parameter descriptions. Page 75 © Copyright 2021 ABB. All rights reserved.
Page 76 Boost feature. The Boost function allows battery charging to be expedited by raising the system voltage to Boost level for a set time. A sample screen shot follows along with parameter descriptions. Page 76 © Copyright 2021 ABB. All rights reserved.
Page 78 The rectifier voltage during battery discharge testing and system reserve time low alarm threshold are also available. Many of the items are self-explanatory. Descriptions are provided for those that are not. Following is a sample Battery Test screen. Page 78 © Copyright 2021 ABB. All rights reserved.
Page 79 Type +21.00V. Voltage hours. Power Group Rectifier This section provides access to configure the various parameters, thresholds and alarms associated with the rectifiers. Page 79 © Copyright 2021 ABB. All rights reserved.
Page 81 Boost 24V. controller. controller. Alarm Limit fail Converter This section provides access to configure the various parameters, thresholds and alarms associated with the converters. Page 81 © Copyright 2021 ABB. All rights reserved.
Page 82 This section provides access to add a secondary identification of company number for a specific component of the power system. The number is shown under inventory. Following is a sample screen. Page 82 © Copyright 2021 ABB. All rights reserved.
Page 83 This section provides the ability to establish various phone numbers over traditional telephone line connection for alarm calls. Also contained in this section are a couple of plant level features. Standby Page 83 © Copyright 2021 ABB. All rights reserved.
Page 84 Network The Pulsar Edge supports network access to almost all controller functions including all voltage and temperature readings, current alarms, and alarm history. It supports a web-based user interface using standard browsers such as Microsoft Internet Explorer®. It can provide plant alarm and control...
Page 85 The on- board HTTP web pages server is password protected for read/write privilege. Further access restrictions can be implemented using the software read/write disable capabilities. The Pulsar Edge has a configurable timeout for connections that remain idle more Page 85...
Page 86 Micro’s NetManager have adopted the standard for telecommunication and computer equipment network management. A standard MIB for the Pulsar Edge is available to be down loaded on the web at www.gecriticalpower.com . Up to four SNMP alarm trap destinations can be programmed using the Network Settings link found in Settings Tab of the web pages.
Page 87 1 to 9. The factory default setting is 1.Following is a sample screen. Alarm Call Out This page provides additional alarm call out support when using a Modem. Following is a sample screen. Page 87 © Copyright 2021 ABB. All rights reserved.
Page 88 Alarm Cut Off This feature is reserved for a future implementation of an audible alarm. The Pulsar Edge has the ability to interface using the TL1 protocol. This screen allows the respective TL1 variables to be configured. A sample screen is below Page 88 ©...
Page 89 Programming The Pulsar Edge has provides the ability to configure its alarms inputs as well as create user defined events and derived channels. The inputs available depend on the shelf configuration that the controller resides as well as the exact Pulsar Edge controller configuration. Thus, not all systems have the same available inputs.
Page 90: Installation Tab
The “J- Code” for the shelf is used by the controller to define the web page view of the auxiliary inputs and generally should not be edited when the product is shipped from the factory. A high level summary of the basic installed equipment is also provided. Page 90 © Copyright 2021 ABB. All rights reserved.
Page 91: Software Tab
This section provides access to save a site’s configuration, restore a site configuration, and the ability to load or upgrade various controller software modules through the web page interface. on o Page 91 © Copyright 2021 ABB. All rights reserved.
Page 93: Controller Peripherals
1-Wire® bus. Several QS873A probes can be connected in a serial fashion since the data is received through digital means. The Pulsar Edge system controller can handle up to 16 VTprobes . This allows multiple strings and or multiple batteries within a string to be monitored for temperature.
Page 94: Figure 18 Vt-Probe Connections To Infinity Ne
Figure 17 QS873A Voltage/Thermal Probe (VT-Probe) Following are basic steps when installing the temperature probes for Thermal Compensation without Voltage Monitoring. Step Action closest to the controller. Page 94 © Copyright 2021 ABB. All rights reserved.
Page 95: Es771A Remote Mid-String Voltage Monitor Module
Batteries in the Status menu. Note: VT-Probes must be connected to the batteries in order for the ES771 to be recognized. Page 95 © Copyright 2021 ABB. All rights reserved.
Page 96: Figure 19 Es771A Remote Voltage Monitor Module
Snap-fit connectors for the mid-string voltage signal wire (Brown) from the VT-Probes. ID Switch A seven-position rotary ID switch is used by the Pulsar Edge to uniquely address each ES771A in the system. A setting of “0” produces and invalid ID alarm. Valid ID settings are from 1 through 6. Units shipped from the factory have a factory default ID setting of “one”.
Page 97: Figure 20 Four-String System Monitored For Imbalance
ES771As require the use of QS873 VT Probes to activate the mid-string voltage monitoring feature in the Pulsar Edge. One VT probe is required for each mid-string voltage being monitored. Additional VT probes can be added for individual battery temperature measurement. The highest temperature measured from all installed VT probes is utilized by the controller for slope thermal compensation.
Page 98: Figure 21 Same System Monitored For Imbalance With Vt Probe On Every Battery
Again, the highest temperature measured will be used for battery thermal management. Only one temperature probe is required for thermal compensation features. Figure 21 Same System Monitored For Imbalance with VT Probe on Every Battery Page 98 © Copyright 2021 ABB. All rights reserved.
Page 99: Ne872A Remote Distribution Monitor And Control Module
NE872A Remote Distribution Monitor and Control Module Overview Although the Pulsar Edge has the ability to directly control and manage a single LVD contactor with additional hardware. It can manage additional LVDs and distributions through the use of remote distribution monitor and control modules like the NE872. The NE872A (CC109124780) allows the Pulsar Edge controller to manage various distributions through serial communications in rectifier and converter based systems.
Page 100 • Open String: A contact closure to the non-grounded “Battery” side of the DC bus (-48V/±24V) applied to this respective input, by default, produces an “Open String” alarm by the controller. Page 100 © Copyright 2021 ABB. All rights reserved.
Page 101: Figure 23 Ne872A Id Jumper Settings
Placing no jumper, ID position 0, is an invalid configuration. The Pulsar Edge can address up to eight unique NE872s. Note: factory ordered systems are generally pre- configured and will have the jumpers appropriately set. Jumpers are arranged as shown.
Page 102: Figure 24 Ne872A Id Jumper Settings
Figure 24 NE872A ID Jump- Connector Definitions The NE872 module has six connectors used for board power, measurement, alarm inputs and various serial communications. SHREF SHUNT+ NE_CM SHUNT- LVD_COILA coil. LVD_C LVD_NO LVD_COILB BATT_SNS Contactor. Page 102 © Copyright 2021 ABB. All rights reserved.
Page 103: Qs871A Remote Distribution Monitor And Control Module
QS871A Remote Distribution Monitor and Control Module Overview Although the Pulsar Edge has the ability to directly control and manage a single LVD contactor without additional hardware. It can manage additional LVDs and distributions through the use of remote distribution monitor and control modules like the QS871. The QS871A (CC109103371) allows the Pulsar Edge controller to obtain distribution data and manage a non-latching contactor through serial communications over the RS485 bus.
Page 104 QS871A module. These inputs are for the system controller to read battery or load currents. The polarity of the connections must be positive during battery discharge. Contactor Management: Controls and monitors one load or battery non-latching contactor. Page 104 © Copyright 2021 ABB. All rights reserved.
Page 105 7-Position ID Switch: Rotary 8-position switch that uniquely identifies up to seven remote distribution monitor and control modules. ID position 0 is invalid. The Pulsar Edge can address up to eight unique distribution monitor and control modules.
Page 106 LVD_COILRTN LVD_NO Note: The common or return of the micro switch for these signals shall be attached to Vbus- in the system outside of this board Remote LVD input. Return Aux_Alarm Page 106 © Copyright 2021 ABB. All rights reserved.
Page 107 Note: if these boards are to be used in custom configuration design consideration must be given to the selection of the non-latching contactor as well as thermal considerations when mounting the board. This board requires heat sinking and other thermal management techniques. Page 107 © Copyright 2021 ABB. All rights reserved.
Page 109: Troubleshooting
• Fail None GREEN Discharge • good AC None GREEN Fail fail. representative. GREEN Discharge AMBER GREEN GREEN AMBER position. contactor. AMBER GREEN Open representative. Table 4 Power System Troubleshooting Page 109 © Copyright 2021 ABB. All rights reserved.
Page 110 Troubleshooting (Continued) Module Display None controller. board. AMBER GREEN failed. instructions. fuse. AMBER Fail Normal temperature Table 4 Power System Troubleshooting Page 110 © Copyright 2021 ABB. All rights reserved.
Page 111 Troubleshooting (Continued) Module Display Fail 5Normal temperature Discharge rectifier (s) voltage Normal shutdown replaced. MIN, Clock Amber Normal AMBER GREEN fail Single controller. Table 4 Power System Troubleshooting Page 111 © Copyright 2021 ABB. All rights reserved.
Page 112: Checking For Defective Vt-Probes
If the system controller LED remains green or the number of registered probes is still incorrect, replace the first probe and remove the second probe and repeat Step 2. Continue this procedure until the defective probe has been found. Page 112 © Copyright 2021 ABB. All rights reserved.
Page 113: Specifications
Specifications Specification Item • • • • • • • • • • Methods • • • • • • System Input/Output Specification SELV CAUTION • • • • Page 113 © Copyright 2021 ABB. All rights reserved.
Page 114 System Input/Output Specification Accuracy Resolution 0.01V Accuracy Resolution Accuracy ±1°C Resolution Environmental Specification General Specification Humidity 10% to 95% non-condensing < 60 dBA Item Specification Item Specification • • • • Page 114 © Copyright 2021 ABB. All rights reserved.
Page 117: Safety
• Do not disconnect permanent bonding connections unless all power inputs are disconnected. • Verify that equipment is properly safety earth grounded before connecting power. High leakage currents may be possible. Page 117 © Copyright 2021 ABB. All rights reserved.
Page 118 Personnel with electronic medical devices need to be aware that proximity to DC power and distribution systems, including batteries and cables, typically found in telecommunications utility rooms, can affect medical electronic devices, such as pacemakers. Effects decrease with distance. Page 118 © Copyright 2021 ABB. All rights reserved.
Page 119: Appendix A: Software Backup / Restore Through Network Connection
Web pages config These files must be uploaded to the Pulsar Edge using FTP either through the web page interface or through a direct Telnet session. To use FTP, the user must first initiate a Telnet session through the Craft port or network connection. To use the Ethernet port locally as a Craft port it needs to be configured as a DHCP Server.
Page 120 6. Wait until the message indicating a successful file transfer is displayed. 226 File sent OK ftp: 917504 bytes sent in 2.31Seconds 396.50Kbytes/sec. Type bye to exit/logout of the FTP session. 8. ftp> bye 221 Goodbye! Page 120 © Copyright 2021 ABB. All rights reserved.
Page 121: Application Software
User (192.168.2.1:(none)): guest 331 User name okay, need password Password: administrator 230 Logged in 4. Change directory (cd) to the code directory by typing: cd code. ftp> cd code 250 CWD command successful Page 121 © Copyright 2021 ABB. All rights reserved.
Page 122: Web Pages
221 Goodbye! Backup/Restore Configuration File Using any FTP client, perform the following steps to load default web pages: Type: FTP x.x.x.x (The controller should have a Working IP Address of 192.168.2.1). Page 122 © Copyright 2021 ABB. All rights reserved.
Page 123: Backup/Restore Configuration File
“administrator” and go to the “Software” tab and use the appropriate easy to use tab: “Upgrade Software”, “Restore Configuration”, or “Backup Configuration”. A Sample screen shots are shown below. Page 123 © Copyright 2021 ABB. All rights reserved.
Page 124 Clicking the “Upgrade Software” button provides an interface to select which file is to be upgraded as well as a tool to help select the location of the file to upload. Following is a sample screen Page 124 © Copyright 2021 ABB. All rights reserved.
Page 125: Appendix B: T1.317 Command Language
Pulsar Edge. A super-user can change configurations and perform control operations. An administrator has all the abilities of a super-user but can also change passwords. All access to Pulsar Edge is via the T1.317 command set, to be discussed later.
Page 126: Introduction
15 minutes. Introduction The Pulsar Edge command language is based on the T1.317 standard. This section describes the commands, objects and attributes used to access measurements, configuration, and control parameters in the Pulsar Edge controller.
Page 127: Objects, Attributes, And Related Commands
√ √ ps1,amt √ number ps1,fst √ √ √ defaults ps1,rap √ √ number √ √ number √ √ √ √ admin) ps1,rss √ √ number ringers √ √ number Page 127 © Copyright 2021 ABB. All rights reserved.
Page 128 √ √ number threshold capacity dc1,rss √ √ number dc1,rsq √ √ number dc1,ron √ √ dc1,rot √ √ number dc1,nst √ √ number 1-70 dc1,cps √ √ number Page 128 © Copyright 2021 ABB. All rights reserved.
Page 129 Obj,attr Description Type √ objid,des Description √ √ √ √ objid,ast √ number objid,sev √ √ √ √ number number √ √ objid,acc √ √ √ √ number √ √ number Page 129 © Copyright 2021 ABB. All rights reserved.
Page 132 √ number 0=disable,1=enable s stands for shelf number (1 to 6) r stands for rectifier number (1 to 7) The user may only set the state to ON, STANDBY, or VACANT Page 132 © Copyright 2021 ABB. All rights reserved.
Page 133 √ √ number s stands for shelf number (0 or 1) r stands for converter number (1 thru 6) The user may only set the state to ON, STANDBY, or VACANT Page 133 © Copyright 2021 ABB. All rights reserved.
Page 134 √ √ bs1,stt State √ √ bs1,atm √ √ bs1,tmd √ √ Numbe bs1,amf √ √ Numbe 0.1-9 bs1,cta √ √ Numbe 1-999A stands for battery type number (1 thru 25) Page 134 © Copyright 2021 ABB. All rights reserved.
Page 135 0-9999 Amps The contactors are identified as follows: CN1 = Battery Disconnect (LVBD1) CN2 = Load 1 Disconnect (LVLD1) CN3 = Load 2 Disconnect (LVLD2) CN4 = Load 3 Disconnect (LVLD3) Page 135 © Copyright 2021 ABB. All rights reserved.
Page 136 √ number sc1,lsp √ √ number sc1,usp √ √ number 13 The contactor interface type defaults are as follows: DCN01 = CN1 DCN02 = CN2 DCN03 = CN3 DCN04-DCN08 = CN4 Page 136 © Copyright 2021 ABB. All rights reserved.
Page 137 INP- Input Management Related Commands Obj,attr Description Type m=module Examples: controller inmnn √ number Description √ inmnn √ inmnn √ inmnn √ inmnn √ √ inmnn √ √ Page 137 © Copyright 2021 ABB. All rights reserved.
Page 138 COE- Call-Out Email Address Related Commands Obj,attr Description Type √ x,des Description √ √ x,adr Address √ √ Type √ √ When X is P1 , P2 , P3 , P4 , a1 Page 138 © Copyright 2021 ABB. All rights reserved.
Page 140 √ √ lp1,dbt √ √ lp1,pry Parity √ √ lp1,sbt √ √ Numbe Time-Out √ √ Numbe lp1,hsh Handshaking √ √ lp1,app Application √ √ (HW,SW) lp1,wre √ √ (HW,SW) √ Page 140 © Copyright 2021 ABB. All rights reserved.
Page 141 √ √ Number aco1,cto √ √ Number √ Number aco1,jae √ √ Number √ √ Number aco1,nst √ Number aco1,nae √ √ Number aco1,nto √ √ Number aco1,lbe √ √ Number Page 141 © Copyright 2021 ABB. All rights reserved.
Page 144 √ address √ √ address net2,host Hostname √ √ net2,dom √ √ net2,msrv √ √ “mailhost”) address net2 is currently only used by an attached Gateway Card in the NX400 system. Page 144 © Copyright 2021 ABB. All rights reserved.
Page 145: Additional T1.317 Commands And Samples
MIN, Rect Redundancy Loss MIN, High Battery Current MIN, Minor Communication Fail MIN, Circuit Pack Failure MIN, Mid-cell V Monitor Fail If no alarms are active “NO ACTIVE ALARMS” is reported. Page 145 © Copyright 2021 ABB. All rights reserved.
Page 146 Report Boost History Syntax: his bs1,stt Description This command reports the boost history in the following format: sum bs1,stt 30-MAY-03,15:11:12,RESUMED,COMPLETED,78 30-MAY-03,12:03:34,AUTO,DISCHARGE,14 Page 146 © Copyright 2021 ABB. All rights reserved.
Page 147 MANUALDischarge test initiated by user PERIODICPeriodic discharge test BDNatural battery discharge The stop reasons are: COMPLETEDDischarge completed normally TIMEOUTAuto discharge test timed out DISABLEDAuto discharge test disabled ENDVDischarge test hit end voltage CANCELEDDischarge test canceled by user Page 147 © Copyright 2021 ABB. All rights reserved.
Page 148 This command is used to operate a system control parameter. Examples are listed below to illustrate how this command works. ope ps1,usl=1Update serial link ope dc1,stt="boost"Place plant into boost mode You must be logged in as a super-user to use this command. Page 148 © Copyright 2021 ABB. All rights reserved.
Page 149 The “* ” in the example above is the user command line prompt. The line “:DC1” indicates that the information that follows is for the plant object. The line starting with “VDC” identifies the DC voltage. The “.” line is the end-of-command identifier. Page 149 © Copyright 2021 ABB. All rights reserved.
Page 150 The “LHI=” indicates highest hourly instantaneous reading. The “HHA=” indicates highest hourly average reading. The “.” line is the end-of-command identifier. The “* ” in the example above is the user command line prompt. Page 150 © Copyright 2021 ABB. All rights reserved.
Page 151 The “DHH=” indicates daily highest hourly average reading. The “MAV=” indicates monthly average of daily highest hourly average reading. The “.” line is the end-of-command identifier. The “* ” in the example above is the user command line prompt. Page 151 © Copyright 2021 ABB. All rights reserved.
Page 152 The “.” line is the end-of-command identifier. The “* ” in the example above is the user command line prompt. Report GUI Compatibility Syntax: Description This command is for internal use only. It reports an EasyView compatibility number. The command response is: 841GUI=1.0 Page 152 © Copyright 2021 ABB. All rights reserved.
Page 153: Error Messages
This command is for internal use only. It exists for EasyView compatibility purposes only and does nothing. Error Messages While logging into the Pulsar Edge controller or while entering commands, you may encounter one or more of the following error messages: Description isabled.
Page 155: Appendix C: Battery Functions
The following figure provides a graphical view of the Pulsar Edge’s Battery Thermal Compensation feature and the relationship of its various set points.
Page 156: Temperature Alarms
Refer to Appendix D for the ranges of values the parameters may take and their factory default settings. Temperature Alarms The Pulsar Edge has several alarm thresholds that can be set based on temperature. • High Temperature Alarm: The High Battery Thermal Alarm Threshold (thr) is the monitored battery temperature at which above this threshold results in a High Battery Thermal alarm.
Page 157: High Temperature Compensation
Temperature Compensation Temperature Limit. The low temperature slope setting (rate of increase) can be set from 1mV to 10mV/oC per cell in .1mV/oC per cell increments. The factory default setting is 3mV/oC per cell. Page 157 © Copyright 2021 ABB. All rights reserved.
Page 159: Boost Mode
Boost Mode Boost charging is a feature of the Pulsar Edge controller, which allows the user to temporarily raise the plant voltage to a higher predetermined level to reduce the time needed to charge batteries. The system may manually be placed in the boost-mode through the front panel.
Page 160: Battery Voltage Imbalance Detection
The VT-Probe is to be placed on the negative battery terminal of the battery located in the middle of the battery string. The Pulsar Edge controller has data on the system DC bus voltage. The half-string voltage measurement obtained from the ES771 monitoring the battery string is compared to the system DC bus voltage minus the value of the half-string voltage measurement.
Page 161: Battery Recharge Current Limit
Battery Recharge Current Limit The battery recharge current limit feature enables the Pulsar Edge controller to limit the recharge current flowing into a battery section during the charge cycle. The recharge current flowing into the battery section can be limited to any value between 5A and 1000A.
Page 163: Appendix D: Default Configurations
This document will continue to be revised and updated as feedback and additional requirements come in from the field or as new configurable features and thresholds are added to the standard Pulsar Edge. Features, thresholds, and other configurable items not addressed in the list will remain at the factory default set for each respective item as defined in the standard product offering.
Page 164: Table 6: Standard Configuration Items
"VALVE-REG" BT06,BTC BT06,CAP <=32 chars BT07,DES "12A150FT" BT07,BTY "VALVE-REG" BT07,BTC BT07,CAP <=32 chars BT08,DES "12AVR145" BT08,BTY "VALVE-REG" BT08,BTC BT08,CAP <=32 chars BT09,DES "12FAT130" BT09,BTY "VALVE-REG" BT09,BTC Table 6: Standard Configuration Items Page 164 © Copyright 2021 ABB. All rights reserved.
Page 165 BT15,BTC BT15,CAP <=32 chars BT16,DES "NCX-125" BT16,BTY "NICD" BT16,BTC BT16,CAP <=32 chars BT17,DES "NCX-80" BT17,BTY "NICD" BT17,BTC BT17,CAP <=32 chars BT18,DES "NSB110FT" BT18,BTY "VALVE-REG" BT18,BTC BT18,CAP Table 6: Standard Configuration Items Page 165 © Copyright 2021 ABB. All rights reserved.
Page 166 BT25,BTY "VALVE-REG" BT25,BTC 59.3 BT25,CAP "Valve-Reg" DC1,BTY Batteries DC1,NST "" PS1,SID "" PS1,SDE PS1,DES "" DC1,DES Controller "" PS1,SYS "24" "48V" DC1,TYP 1=Enabled PS1,DLS Feature 0=Disabled Table 6: Standard Configuration Items Page 166 © Copyright 2021 ABB. All rights reserved.
Page 167 0=Disabled 1=Enabled PS1,USR 0=Disabled 1=Enabled PS1,FPE 0=Disabled "0000" PS1,FPP PS1,FPT "3:2:0:120" PS1,DSS "11:1:0:120" PS1,DSE -840 - +840 PS1,TZO hours) PS1,UET 1=Enabled PS1,CEM 0=Disabled "lineage" "super-user" "administrator" Table 6: Standard Configuration Items Page 167 © Copyright 2021 ABB. All rights reserved.
Page 168 CN2,DAM 2=voltage/ time 21.50 43.00 CN2,DTH 0:00:00 CN2,DDY Load 0=none, Disconnect 1 1=voltage CN2,RAM 22.00 44.00 CN2,RTH CN2,RDY <=32 Chars "LVLD1" CN2,DES <=32 Chars CNO2,DES Description Table 6: Standard Configuration Items Page 168 © Copyright 2021 ABB. All rights reserved.
Page 169 <=32 Chars CNO3,DES Description <=32 Chars CNO3,FDS <=32 Chars CNF3,DES Description <=32 Chars CNF3,FDS 1=Enabled CN4,ENA 0=Disabled 0=none, 1=voltage CN4,DAM Load Disconnect 21.00 42.00 CN4,DTH 0:00:00 CN4,DDY Table 6: Standard Configuration Items Page 169 © Copyright 2021 ABB. All rights reserved.
Page 170 "None" DCN06,TYP None/CN1/ "None" DCN07,TYP None/CN1/ "None" DCN08,TYP 1=Enabled DC1,ISD 0=Disabled DC1,ISY 1=Enabled DC1,ISD 0=Disabled 1=Enabled GM1,RME 0=Disabled Rectifiers 1=Enabled GM1,LSE 0=Disabled 30 to 100% GM1,FCL Table 6: Standard Configuration Items Page 170 © Copyright 2021 ABB. All rights reserved.
Page 171 23.0 46.0 CP1,DTH Threshold Converters 25.0 50.0 CP1,RTH Threshold 1=Enabled CP1,LVD 0=Disabled CRL1,THR CMFA1,THR 2:00:00 BR1,TMD "disabled" BR1,BTE BR1,TIN Battery yyyy-mm-dd 1/1/2099 BR1,ATD BR1,ATH BR1,ATW BR1,MTT Table 6: Standard Configuration Items Page 171 © Copyright 2021 ABB. All rights reserved.
Page 172 DCM01,SHA Battery/None "NONE" DCM02,TYP /Load DCM02,SHA Battery/None "NONE" DCM03,TYP /Load DCM03,SHA Battery/None "NONE" DCM04,TYP /Load DCM04,SHA Battery/None "NONE" DCM05,TYP /Load DCM05,SHA Battery/None "NONE" DCM06,TYP /Load DCM06,SHA Table 6: Standard Configuration Items Page 172 © Copyright 2021 ABB. All rights reserved.
Page 173 "AUX3" IN006,TYP "CLOSED" IN006,POL <=32 chars "PBT/TR" IN007,DES "" IN007,TYP CLOSED=Clos "CLOSED" IN007,POL <=32 chars IN008,DES "AUX4" IN008,TYP CLOSED=Clos "CLOSED" IN008,POL <=32 chars IN009,DES "AUX5" IN009,TYP Table 6: Standard Configuration Items Page 173 © Copyright 2021 ABB. All rights reserved.
Page 174 CLOSED=Clos "CLOSED" IN014,POL <=32 chars IN015,DES "AUX11" IN015,TYP CLOSED=Clos "CLOSED" IN015,POL <=32 chars AUX1,DES <=24 chars AUX1,FDS <=32 chars AUX2,DES <=24 chars AUX2,FDS <=32 chars AUX3,DES Table 6: Standard Configuration Items Page 174 © Copyright 2021 ABB. All rights reserved.
Page 175 Desc <=32 chars AUX12,DES <=24 chars AUX12,FDS Desc 1=Enabled 0=Disabled AT1,DUR 1=Enabled AT1,PMJ 0=Disabled 1=Enabled AT1,PMN 0=Disabled 1=Enabled AT1,R1 0=Disabled 1=Enabled AT1,R2 0=Disabled 1=Enabled AT1,R3 0=Disabled Table 6: Standard Configuration Items Page 175 © Copyright 2021 ABB. All rights reserved.
Page 176 MP1,HSH 0=static 1=client DHCP 2=server NET1,DHCP xxx.xxx.xxx.xxx NET1,IP xxx.xxx.xxx.xxx NET1,SUB xxx.xxx.xxx.xxx NET1,GTWY NET1,DOM xxx.xxx.xxx.xxx NET1,DNS Hostname NET1,HOST xxx.xxx.xxx.xxx NET1,MSRV Timeout NET1,TMO xxx.xxx.xxx.xxx NET1,NTP 1=Enabled NET1,WRE 0=Disabled Table 6: Standard Configuration Items Page 176 © Copyright 2021 ABB. All rights reserved.
Page 177 "DATA" "" COP,PHN 2400 COP,BDR 19200 COP,DBT COP,PRY COP,SBT COP,DLY "" COP,PGR Pager Message "" COP,MSG "" PSO,PHN Baudrate 2400 PSO,BDR 19200 PSO,DBT Parity PSO,PRY PSO,SBT Table 6: Standard Configuration Items Page 177 © Copyright 2021 ABB. All rights reserved.
Page 178 "" PSO,CL07 "" PSO,CL08 "" PSO,CL09 "" PSO,CL10 "" COE,ADR "NORMAL" 1=Enabled CBS,STT 0=Disabled "" CBS,PH1 2400 CBS,BR1 19200 "" CBS,PH2 2400 CBS,BR2 19200 "" CBS,PH3 Table 6: Standard Configuration Items Page 178 © Copyright 2021 ABB. All rights reserved.
Page 179 CS1,IP xxx.xxx.xxx.xx "255.255.255.255" CS1,IPM Mask 0=disable CS2,WRE "public-write" CS2,STR xxx.xxx.xxx.xx CS2,IP xxx.xxx.xxx.xx "255.255.255.255" CS2,IPM Mask 0=disable CS3,WRE "private" CS3,STR xxx.xxx.xxx.xx CS3,IP xxx.xxx.xxx.xx "255.255.255.255" CS3,IPM Mask Table 6: Standard Configuration Items Page 179 © Copyright 2021 ABB. All rights reserved.
Page 180 Factory Rectifier Default Default Category Description Range Factory obj,attr 1=Enabled TLM,AUE 0=Disabled 1=Enabled TLM,CTS 0=Disabled 1=Enabled TLM,DSR 0=Disabled Timeout TLM,TMO Port 2020 Table 6: Standard Configuration Items Page 180 © Copyright 2021 ABB. All rights reserved.
Page 181: Table 7 48V Battery Related Items
46.00 CN1,DVX mode CN1,DIN CN1,DIX DC1,CPS 42.00 42.00 42.00 42.00 42.00 BR1,CEV 48.75V 1=Enabled BR1,CLE 0=Disabled BR1,CLT BS1,TMD Batteries BR1,SCV BR1,TTH BTHA1,TH BTVH1,TH BTLA1,TH BTVL1,TH Table 7 48V Battery Related Items Page 181 © Copyright 2021 ABB. All rights reserved.
Page 182 58.50 HVA1,BT 57.0 58.5 57.0 57.0 57.0 HFV1,BT 56.0 58.0 56.0 56.0 56.0 GM1,BS 55.2 57.0 54.5 54.4 54.5 BDA1,BT 51.0 50.0 53.0 51.0 51.0 Table 7 48V Battery Related Items Page 182 © Copyright 2021 ABB. All rights reserved.
Page 183: Table 8 24V Battery Related Items
CN1,DVX mode CN1,DIN CN1,DIX 0-75 DC1,CPS SC1,FSE 21.0 21.00 21.00 21.00 21.00 BR1,CEV 1=Enabled BR1,CLE 0=Disabled BR1,CLT BS1,TMD Batteries BR1,SCV BR1,TTH BTHA1,T BTVH1,T BTLA1,T BTVL1,T Table 8 24V Battery Related Items Page 183 © Copyright 2021 ABB. All rights reserved.
Page 184: Table 9 Converter Related Items
25.54 Table 8 24V Battery Related Items Category Description Range obj,attr 58.0 29.0 CP1,VSD 56.0 28.5 Converters 54.0 27.0 CHFV1,THR 52.0 26.0 CP1,VSP 46.0 23.0 CVLA1,THR Table 9 Converter Related Items Page 184 © Copyright 2021 ABB. All rights reserved.
Page 185: Appendix E: Alarms And Relays
Appendix E: Alarms and Relays Alarm Relays The Pulsar Edge can be configured to provide up to six alarm relays depending on the controller configuration. Four alarm relays provide the alarm condition and two provide the overall system severity associated with the alarm.
Page 186 CFA1 CFN1 CIN1 CRIT CVLA1 CHVA1 CHFV1 CDID1 CRL1 EPO1 EMD1 EXL1 EPR1 FAJ1 FAN1 AMTH1 BTHA1 HFV1 HCL1 DID1 ZID1 ISD1 ICC1 Table 10 Alarms, Alarm Relays and LEDs Assignments Page 186 © Copyright 2021 ABB. All rights reserved.
Page 187 CNF4 CNO4 CMA1 MACF1 CMFA1 MFA1 COR1 POR1 OSA1 PFD1 PHT1 PGI1 COF1 BBL1 RRTL1 CLM1 RFA1 RFN1 RIF1 RLS1 RTL1 STF1 VSF1 Table 10 Alarms, Alarm Relays and LEDs Assignments Page 187 © Copyright 2021 ABB. All rights reserved.
Page 188 USER RELAYS SNMP Description CRIT PFS1 TPA1 NNC1 configurable) BTVH1 HVA1 BTVL1 VLA1 VMF1 MDP1 MZD1 Table 10 Alarms, Alarm Relays and LEDs Assignments Page 188 © Copyright 2021 ABB. All rights reserved.
Page 189: Appendix F: Snmp
Essentially, all elements described in the T1.317 protocol (see Appendix B) are available in SNMP. The MIB will be needed by any SNMP Host that wishes to communicate with the Pulsar Edge and can be retrieved at the “Design Tools and Download” link located at www.abbpowerconversion.com...
Page 190: Snmp Operations
Interactions between the SNMP Host and the SNMP Agent can be any of four different types of commands: Reads, Writes, Traversal operations, and Traps. SNMP utilizes six operations to respond to the various SNMP Hosts: Get, GetNext, GetBulk, Set, Trap, and Inform. The Pulsar Edge implements the Get, GetNext, Set, and Trap operations.
Page 191: Community Strings
The Pulsar Edge defaults the value of the trap community string to “public” with read/write access. There are also up to three Set/Get community strings that can be used. These are defaulted as “public”, “public-write”, and “private”...
Page 193: Appendix G: Secure Protocols
(≥ one upper case, ≥ one lower case, ≥ one number, and ≥ one special character). • Individual protocol (network ports) enables to allow the blocking of non-secure protocols Figure 27: Security Configuration Page 193 © Copyright 2021 ABB. All rights reserved.
Page 194: Internet Protocols (Ipv4 And Ipv6)
MAC address. It is displayed in the Network Settings screen. The link local address can only be used on the local link (subnet) and will not be routed through the network. Browsers will not accept a link local address in a URL. Page 194 © Copyright 2021 ABB. All rights reserved.
Page 195: Https (Ssl)
IPv4 address for HTTPS. Clicking on the Certificate error screen shows the error as seen below. The controller will be fully accessible using IPv4 and HTTPS with this mismatched address. Page 195 © Copyright 2021 ABB. All rights reserved.
Page 196: Figure 30: Mismatched Address Certificate Error Screen
Figure 30: Mismatched Address Certificate Error Screen followed: Contact ABB Critical Power at the 24/7 technical support contacts at either techsupoort@abb.com or 1-877-546- 3243 or 1-972-244-9288 (DC Systems Option 2) for the certificate file. Change the file extension to ".crt"...
Page 197: Snmp
Four Trap Community String entries allow the user to specify a target IP address (IPv4 or IPv6) for alarm notifications (Traps) and one of the SET/GET Profiles to be used with the trap. Page 197 © Copyright 2021 ABB. All rights reserved.
Page 198: Sftp
When logging into the controller using WinSCP, as with FTP, the username is not validated unless the controller has the “User Name and Password” login method enabled (Settings Passwords). Figure 9 Pulsar Edge Status Menu Page 198 © Copyright 2021 ABB. All rights reserved.
Page 199: Figure 35: Winscp Security Key Warning Screen
Press Yes. This key will remain valid until the controller’s IP address is modified. Figure 35: WInSCP Security Key Warning Screen Following is a sample screen of using a WinSCP SFTP connection to a Galaxy Pulsar Edge controller. Page 199 © Copyright 2021 ABB. All rights reserved.
Page 200: Ssh
Figure 36: PuTTY Security Key Warning Screen Below is a sample controller’s screen once the controller’s SSH Server has been accessed. Standard T1.317 commands can be used. Figure 37: PuTTY SSH Login Example Screen Page 200 © Copyright 2021 ABB. All rights reserved.
Page 202 – in whole or in parts – is regard to purchase orders, the agreed particulars shall forbidden without prior written consent of ABB. prevail. ABB does not accept any responsibility whatsoever for potential errors or possible lack of information in this Copyright© 2021 ABB document.

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