UPS WEB/SNMP MANAGER SNMP Adapter User Manual – English Rel.
Limited Warranty This use of this product and the enclosed materials are provided without warranty of any kind. The entire risk as to software quality, performance of the program, media free of defects, faulty workmanship, incorrect use of the software or UPS, error free documentation and enclosed material is assumed by the user.
English Manual Dieses Handbuch ist auch in Deutsch verfügbar! Eine aktuelle Kopie erhalten Sie unter download bei www.generex.de. This manual is also available in German! To obtain an actual copy please see the download-page of www.generex.
Contents English Manual 3 1. 1.1 1.1.1 1.1.2 1.2 1.3 1.4 1.5 1.6 1.7 1.7.1 1.7.2 1.8 The CS121 family - Introduction About your CS121 General information Functionalities of your CS121 About the communication with the CS121-Adapter The CS121 Adapter Package Comparison CS121 overview A typical installation - CS121 in a network environment Connect your CS121 ... ... via serial port ... via LAN Verifying the CS121 connectivity 6 6 6 6 8 8 10 11 12 13 13 14 14 2. 2.1 2.1.1 2.1.2 2.1.2.1 2.1.2.2 2.1.2.3 2.1.
3.3 Reading the Alarm-Logfile 44 4. 4.1 4.2 4.3 4.4 Adapter Software-Updates (Firmware) Firmwareupdate via Setup-tool Firmwareupdate via FTP Firmware flash renewal and recovery Changing the Adapter’s MAC-Address 46 46 46 47 48 5. 5.1 5.1.1 5.1.2 5.1.3 5.2 5.3 Additional Software RCCMD Installation RCCMD client as relay station License regulations gChart UPS Monitor (UPSMON) 50 50 50 52 52 52 53 6. 6.1 6.1.1 6.1.2 6.1.3 6.1.4 6.1.5 6.2 6.3 6.3.1 6.3.2 6.3.3 6.3.4 6.4 6.5 6.6 6.
1. 1.1 1.1.1 The CS121 family - Introduction About your CS121 General information The CS121-series are a group of products designed especially for critical resource management within technical facilities. The CS121 can act as a UPS (uninterruptible power supply) manager for all other computers in the network. All of these products share many of the same basic CS121 features, and some have special components and functions.
functions. The MODBUS-version uses the COM2 as RS485 and is not available for configuration. The MODBUS version can be configured only via Webbrowser, Telnet and Default IP address. • SNMP-Traps for remote monitoring and pre-alarming: The main function of the SNMPadapter lays in the transmission of alarm conditions of the UPS to the monitoring station (SNMP traps and RCCMD traps/commands). It also makes UPS data access able for users in the network upon request.
and set after which, the CS121 can be changed from AUTO to the given speed, "100half" for example. • Email client: The CS121 adapters incorporate a built-in SMTP email-client, which is able to send emails automatically in the event of an alarm. • Web server: The CS121 Models contain a web-server, which displays all functions and settings of the adapter. Non-Windows users may use the JAVAMON as graphically display for UPS data (The JAVAMON module is not implemented in all versions.).
CS121SC (Slot Chinese) User manual English. Configuration cable for serial port configuration via Terminal software - and for connection of optional devices for your CS121. CS121F (Slot FUJI) User manual English. Configurationcable for serial port configuration via Terminalsoftware - and for connection of optional devices for your CS121. CS121R (Slot RIELLO/AROS) User manual English.
1.4 Comparison CS121 MODELS CS121L external FEATURES and OPTIONS Second mini din 9 COM port for RS232. AUX port for digital input/ output. MODBUS RS485 option. Remote RAS management options. CS121SC slot Like CS121 L external. CS121F FUJI slot CS121R Riello slot 10 CS121 COMMON FEATURES FOR ALL MODELS * All CS121 devices are capable of managing the UPS models for which they are compatible via the UPS’s native serial protocol.
1.5 CS121 overview For CS121L, C and Slot card types Figure 1: No. Description (1) Network connection RJ45 10/100 Base T Connector (with Status LED, green=link, yellow=activity) (2) Serial com-port (COM2) for configuration or connection of optional devices.
Figure 2: DIP-Switches: CS121L (left) in configuration mode (IP 10.10.10.10) and CS121SC (right) in normal mode Switch 1 Switch 2 Description ON OFF Normal operation, device runs on the configured IP-address OFF OFF Configuration mode with default IP Address 10.10.10.
Figure 3: 1.7 CS121 in a network environment Connect your CS121 ... In generally you can choose between 3 ways to configure the CS121-adapter: • By using the serial port you can make the configuration via a Terminalprogram such as e.g. Microsoft-HyperTerminal. This configuration-mode allows you to make the fundamental settings for network connectivity and for defining the event and action-settings.
configuration of the SNMP adapter please ensure that the DIP switches are in the correct position. Please also refer to the section 1.5 CS121 overview in this manual. 1.7.2 ... via LAN Connect the CS121 with RJ45 cable (not included) to your LAN. 1.8 Verifying the CS121 connectivity After the CS121-adapter is connected to the UPS and to the Computer via serial port or via LAN, please verify the connectivity before you start to configure the CS121.
2. Quickstart The Quickstart manual gives you a short instruction into the main features and how to make some basic settings and guides you in connecting the SNMP-adapter to the network and UPS. Note: Before you start to configure the CS121 please ensure that your connections are valid as described in section 1.8 Verifying the CS121 connectivity (Red network-LED off; green network-LED flashing in intervals).
2.1.1 Using HTTP/Webbrowser The entire configuration can be done via Webbrowser. Please use the default IP-address 10.10.10.10 and the TELNET password (default: “cs121-snmp”). The username is always “admin”. For the configuration using the webbrowser please observe the following: We recommend the use of Microsoft Internet Explorer 6.x (or higher) or Mozilla 1.3x. Please note, that Java scripting has to be activated.
Change to menu “Network & Security” and specify IP-address, Gateway and Subnet mask to the CS121-adapter. Figure 6: HTTP - Network & Security Settings Apply your settings with the button at the right side. Change to menu “Save Configuration” and click “Save Configuration”. 2.1.2 2.1.2.1 Using Telnet / MS-HyperTerminal Building up a connection Use of Telnet, enter the command: „telnet “, whereas is in the configuration mode set to 10.10.10.10. Start a Terminalprogram (e.g.
2.1.2.2 Figure 8: Main menu & IP-Settings Telnet - Main Menu To select any option in the main menu enter the number of the option at the Enter command => prompt. The program displays the desired screen. Type 1 at the prompt and you enter the menu “IP Settings”. Within this menu you can enter basic network configurations, e.g. IP-address, Gateway-address etc. Figure 9: Telnet - IP Settings To change values, enter the number of the option, type and enter the name. Press .
Enter Command => 6 USV 1 To assign the UPS location SysLocation, type 6 and enter the location name: Enter Command => 7 Building 12 2.1.2.3 UPS Settings Choose option 4 from the main menu and you enter the menu “UPS Settings”. Within this menu the user needs to select the UPS model the CS121-adapter is connected to (usually at COM1). Figure 10: Telnet - UPS Settings The CS121-adapter distinguishes here generally between Cable- and Serial-models.
minutes, ensure you start (configure) the shutdown (or other event action) 3 minutes before the UPS is switched off, so that more than enough time is available to complete the corresponding event action. 2.1.2.4 Save configuration Call “Save, Exit and Reboot”-command from the main menu. (The communication to the adapter will be lost). ATTENTION: Keep the Telnet, Terminal, Webbrowser window open until the device has been lost or you see a message that reboot is under progress.
to several client stations. In addition, it is possible to specify when and how often an action is to be released. 2.3.1 About same basic events Please call the menu “Events / Alarms” in the Web-browser to open the main configurationsite, whereon all configurable events are listed. In the following, we introduce same basic and important events which should be in general handled from every CS121-Adapter. For a complete description in-deep please see section 3 Configuration of the CS121.
For example to configure a job, which initiates a shutdown-signal to a client-workstation, please enter the event “System shutdown” in the menu “Events / Alarms”. The following “Event Editor” then lets you add a new job. Figure 12: HTTP – Job Editor – Introduction See the figure above, how to configure the RCCMD shutdown for a Client-Workstation. Note, that you enter the correct IP-Address of the Client. Now the RCCMD shutdown procedure is already completed.
3. Configuration of the CS121 Note: 3.1 After you have finished the basic network configuration you should have set DIP-switch 1 in position ON and rebooted the adapter. At the SC slot cards you have to remove the card from its slot and change the DIP Switch 1 to position ON. After this, re-insert the card. Info: There is no risk to remove/insert the slot card, there will be no effect on the UPS output.
Figure 15: HTTP - UPS Functions AUX & SensorMan Status: The AUX & TEMPMAN status shows the actual measurements of the connected environmental sensor devices SM_T_COM, SENSORMANAGER or TEMPMAN. Figure 16: HTTP - AUX & SensorMan Status In the above figure, a button menu is presented in which the ports 1 and 2 can be clicked on and off.
Figure 17: HTTP - UPS Model & System With the parameters UPS ID, system-name, -location, -contact you can describe the UPS and CS121. This is useful e.g. to locate the UPS physically and can be used among others for event settings. Note: Do not change the default UPS-Parameters for Baud Rate and Hold time unless you have special instructions from the UPS maker.
3.2.2 Network & Security Figure 18: HTTP - Network & Security Settings This menu configures the CS121 network card settings, passwords and enable/disables several adapter and network services. Among others, here you can allow the CS121 to act as an RCCMD listener client. This makes it possible for another UPSMAN-Manager, CS121, SITEMANAGER or other RCCMD compatible sender to send the adapter an RCCMD command like sending one of the AUX output ports a high or low signal – or to start other actions.
The UPSMON password blocks entry to the UPSMON tools battery test and emergency shut down. Knowledge of this password enable users to gain access to these security relevant functions. 3.2.3 Email If you wish to define actions to send Emails depending on specified events you need to configure the Email settings. Figure 19: HTTP - Email Settings In this menu the internet name of your SMTP mail client is required. If DNS is not configured, the actual mail server name’s IP-address has to be entered.
3.2.4 Timeserver The CS121 uses a timeserver to supply the correct date and time of any event in its local logfile. If no Timeserver is set, the CS121 will not use date and time in the logfile, but a date stamp of 1970. For the normal operation of the CS121 a timeserver is not required, but we strongly recommend to set access to a timeserver. Figure 20: HTTP - Timeserver Settings The timeserver is important to synchronize the UPS logfile to the actual time.
Figure 21: MS-Timeservices To turn your Windows computer into a timeserver, double-click on the clock in the lower right taskbar and open the following example. After some seconds the tab “Internet Time” appears. Click on “Internet Time” and check if the timeserver you have chosen here works correctly. After having configured and started your Microsoft Windows Timeserver you have to reboot your computer and check the Event Logfile of Windows to ensure, the service was started correctly.
Figure 22: HTTP - Event Configuration with tool tip Choose the event you wish to configure to enter the event editor. Figure 23: HTTP - Event Editor The Event Editor allows you to edit, delete and test existing events, as well as to add a new event job. Please click on the desired action to enter the Job Editor, who lets you make the configuration. Here in the following a short example how to configure an RCCMD-Shutdown signal. For further explanations please see section 3.2.5.
3.2.5.1 Treshold events Some UPS models allow you to configure thresholds for releasing UPS specific threshold events individually. CS121 also supports these features if the UPS includes this option. In this case, you see at the main Event menu “Event configuration” at the bottom an additional link “Configure threshold events”. Click here to add a new individual threshold event and you enter the configuration page “Threshold Events”, within you get the possibilities to configure individual events.
3.2.5.3 Email-Job Figure 27: HTTP - Job Editor: Email-Job To configure an Email-job follow the entries in the figure above. Note: Please ensure that your Email settings in the menu “Email” are valid. (See also section “Email” above) Besides text entries, variables can also be integrated into the email from the CS121-adapter. This may personalize your emails. A list of available variables are documentated in the appendix (Section E Available Variables of the CS121).
Note: RCCMD clients are optional and not freeware. Most CS121 are equipped today with a single RCCMD standard license, some UPS makers add more licenses, other do not deliver any license at all with a CS121. Contact your UPS maker and ask for the license regulations for RCCMD in conjunction with your CS121. • Certain pre-settings are imperative for all RCCMD actions.
Note: 3.2.5.4.1 All network components, such as routers, hubs etc. need to be fully UPS-supported, as it is otherwise not possible to reach all clients during the network shutdown. RCCMD Shutdown Figure 29: HTTP - Job Editor: RCCMD Shutdown Here, IP-addresses from computers with RCCMD connection (receivers) in the network can be entered. The CS121-adapter can then initiate a multi-server shutdown.
3.2.5.4.3 RCCMD Execute/command This RCCMD signal will cause any RCCMD receiver (e.g. another CS121, RCCMD client or SITEMANAGER, SITESWITCH4) to execute a command or program. Figure 30: HTTP - Job Editor: RCCMD execute/command Any CS121, SITEMANAGER, SITESWITCH can also act as an RCCMD listener; see the following examples: 3.2.5.4.
y=1 => switch on y=0 => switch off “20000” is the command to switch outputs. (for other commands please contact GENEREX support) Syntax examples: |UPSCMD|20000|1,1 |UPSCMD|20000|1,0 |UPSCMD|20000|2,1 |UPSCMD|20000|8,0 = = = = Output 1 on Output 1 off Output 2 on Output 8 off Figure 32: HTTP - Job Editor: RCCMD-Command • Confirm a digital alarm : You can also use this syntax to e.g. confirm alarms for digital inputs (e.g. Fire-alarm, door open, air-condition failed, etc.
Figure 33: HTTP - Job Editor: RCCMD-Trap 3.2.5.5 UPS shutdown This event action enables an UPS shutdown. It is possible to configure when to send a shutdown signal to the UPS in case of an e.g. battery low, firealarm or if a complete power down is wanted.
3.2.5.7 Wake on LAN (WOL) Figure 36: HTTP - Job Editor: Wake on LAN WOL stands for “Wake on LAN”. This function uses data packages to prompt other computers in a local network to start-up. Please use this function in the event “UPSMAN started” to wake up computers which have been shutdowned previously after an extended poweroutage, which cause the CS121 or UPS to switch off completey. Additional you may add this WOL signal to the EVENT “Power restored”. Note: 3.2.
Figure 38: HTTP - SNMP • Network Server Settings The user may activate or deactivate different options from this menu. Telnet and or SNMP may be switched on or off and the UPSMON access can be blocked. The network speed can also be selected and the user can select and adjust the desired security level. Note: Please ensure that in the menu “Network & Security” the option “SNMP Agent” is enabled. SNMP Traps have nothing to do with RCCMD traps or the RCCMD shutdown functions.
Figure 39: HTTP - COM2 Mode overview • Configuration Mode: This sets the normal configuration mode for using the provided cable (CS121-TEMP configuration cable). Note: Unless DIP-switch 1 is OFF the COM2 port is always running in configuration mode. • Pipe-Through Mode 1: Enable or disable the “pipe-through” of the adapter.
Figure 40: HTTP - COM2 & AUX with TEMPMAN The TEMPMAN and SENSORMANAGER are extensions to the CS121 that connect to COM2 of the adapter. The newer of the two products is the SensorManager. These devices are simply plugged into the CS121 for setup and the only mandatory change on the adapter to enable this functioning is to set the COM2 Settings to either TEMPMAN or SENSORMAN. The configuration is easily achieved via the HTML page of the CS121 web server.
set to “Output”, this is equivalent to activating the „SS4 Mode“. The SS4 mode is to be activated when connecting a SITESWITCH4 to the AUX port of the CS121. When the Output options are deactivated, the AUX ports act as inputs used for monitoring signals such as input from alarm contacts.
Figure 41: HTTP – Sensor Manager Settings Please see SensorMan in section “Accessories” of this manual. 3.2.10 RAS Configuration This is the standard setting for the RASManager, the CS121 with the built-in modem. Most of the CS121 products can also have the RASManager feature enabled by purchasing PPP License Key and by connecting a supported modem. The RASManager and RASControl software come with an extra user manual for describing this feature.
3.2.11 Save Configuration / Reboot If you are satisfied with your configuration select “Save, Exit & Reboot” and wait until the adapter informs you about the reboot-process. Please notice that a reboot of the CS121 may take up to 3 minutes. During the boot phase the CS121 is compiling the user settings and waits for timeserver response.
01/17/2007,16:35:51,MAIL: subject "CS121 Event 44" successfully sent 01/17/2007,16:35:57,MAIL: subject "CS121 Event 45" successfully sent These are 8 Emails sending information about analogue sensors (temperature, humidity and the like) that are connected to a SENSORMANAGER, indicating that all controlled values are within tolerance levels - or that no sensor is connected to the device or connection port.
4. Adapter Software-Updates (Firmware) Usually the CS121-Adapter already contains a specified firmware-version and does not need to be updated unless you have problems or you find a update recommendation on our website. (use firmware online update link on CS121 page). If you have connected your CS121 via LAN a link at the Webbrowser configuration page (CS121 Firmware Update) indicates you with red or green coloured information whether you should perform a Firmware-Update or not.
the configuration can be saved back into the „flash“ directory of the CS121 per ftp. Figure 44: CS121-configuration settings via ftp. A firmware-update via FTP changes not only the operating system part of the CS121, if you want to change also UPS manufacturers data you have to overwrite also the file UPSTYP.UPS. Please contact your UPS software support for further information. 4.3 Firmware flash renewal and recovery Caution: This upgrade process requires some technical knowledge.
3. Check if your route is correctly set with the console command "route print". You should see that 10.10.10.10 is in the list. 4. Make sure that no other device is answering on "ping 10.10.10.10". If you get any answer then you have to disable this device first before you can continue. 5. As an extra notice, the update interface displays an stereo button with the text "Format & Rewrite" to show that all settings will be lost. 6.
BACS, SiteMonitor, SiteManager: 00-03-05-0A-xx-xx where XX-XX represents the HEX code of the GENEREX CS121 Board’s serialnumber (decimal). • How to find the CS121 board serialnumber: Note: This is not the serial number of the CS121 itself, its the serial number of the CS121. Motherboard. At a CS121 Slot this number is found as a white lable on the board, the text of this lable maybe like this: "SN:B (or C)-xxxxx QC:Passed". The number after SN:B (or C) is the motherboards serialnumber.
5. 5.1 Additional Software RCCMD RCCMD is the client module for integrating an unlimited number of computers of any operating system into an UPSMAN managed UPS facility. The main purpose is to transmit shutdown signal or messages to RCCMD clients in other networks or on other OS.
Figure 46: RCCMD Client Installation – IP-Address The following window gives you the possibility to enable a periodical connection check and to attach a batch-file to be executed in the case of a failure. Figure 47: RCCMD Client Installation – Connection check With the following window you complete the installation by attaching batch-files to each action the RCCMD-client can receive from the CS121-adapter.
Figure 48: RCCMD Client Installation – Batch-files 5.1.2 RCCMD client as relay station In order to reach a bigger number of RCCMD receivers, the adapter needs to be operated as relay station. The receiver will be configured so that it will receive a RCCMD signal and this signal is then used to start a batch file, which then starts even more RCCMD sender signals. This computer is then sender and receiver at the same time and is therefore an important link in the UPS monitoring chain.
Figure 50: gchart plug-in for the internet explorer Get the gChart experience now by visiting our online CS121 at: http://q01.generex.de/ and be sure to follow the GChart logfile links. 5.3 UPS monitor (UPSMON) UPS-Monitor (UPSMON) is the graphical monitoring and command inferface application for UPSMAN and is available in standard and custom interfaces. In order to display the UPSMAN provided data via the network customer friendly, the modules UPSMON and JAVAMON are delivered for free.
6. 6.1 CS121-Enhancements, Field of applications SiteSwitch4 (SS4) and SiteSwitch4AUX (SS4AUX) Figure 51: SideSwitch4 and SS4 AUX SITEWITCH4AUX is a high-performed extension of the CS121-adapter but can also be operated as stand-alone solution with the possibility to connect to UPS or UPS-similar devices. The SITESWITCH has 4 power outputs sockets, which can be configurated by the event settings of the CS121 or any other RCCMD compliant sender like SITEMANAGER, SITEMONITOR.
Figure 53: Exchange COM Ports 1 & 2 for SS4 6.1.1 SS4 Feature overview • 4 configurable powers sockets with a breaking capacity of 230V/8A • Power socket status indicator via HTML, UPSMON, UNMS or SNMP • Control via the internal CS121 or via remote CS121 or RCCMD compatible devices • Remote control of the powers sockets via HTML Browser (Password protected) • LED-Status of the power sockets • Small metal casing with 1.
The CS121 establishes a user interface for the SS4 for which the user has the option of using either UPSMON, Webbrowser, UNMS or an SNMP-Program. All communications take place either through a modem or network connection. Detailed information is covered in section 7.7.9 AUX and SS4 Settings. 6.1.4 SS4 - Technical data Inputvoltage: 230V AC +/- 5% Max. Power Input: 16A Max.
6.3 6.3.1 SENSORMANAGER General information If more than 1 or 2 environmental values are wanted to manage, than the SENSORMANGER (SensorMan) is your choice. This device is a data measurement and collecting unit which allows the individual measurement and monitoring of 8 analog measurement devices (0-10V) and 4 digital alarm inputs or 4 outputs (open collectors).
6.3.2 Installation and Network integration Figure 57: CS121-Installation with SENSORMANAGER As shown in the figure above CS121 can also be applied to observe and react on alarms of the SENSORMANAGER-Inputs. Therefore, the CS121 COM2 port is connected and configurated for the SensorManager’s AUX- and Sensor-Input/Outputs. Within the CS121 configuration it is possible to define actions, which will be released from events of the SensorManager’s devices. 6.3.
6.3.4 Configuration For setting up the sensors in the SensorMan make sure your configuration matches your sensor type, e.g. see example: Figure 58: HTTP - SENSORMANAGER Settings Using the splitting plugs (Part NO.SPSMRJ) it is possible to connect up to 8 sensors and 4 contacts to the SensorMan. A Mounting Kit (sold separately) is available for affixing the SensorMan to walls and railings.
6.4 RASMANAGER The RAS-Manager relays alarm signals coming from monitoring devices such as UPS, SiteManagers, contact alarms and the like to monitoring stations or email receivers. Any computer with RAS capabilities (Windows, Linux) can be used as a monitoring station. The only requirement is the setup of an PPPServer on the monitoring station.
that measures temperature and humidity and communicates the results to a computer. Modbus is often used to connect a supervisory computer with a remote terminal unit (RTU) in supervisory control and data acquisition (SCADA) systems. The CS121-series (exclude BUDGET models) support MODBUS over IP and MODBUS over RS232 generally. Additionally, the CS121MODBUS-series also includes an RS485 interface at COM2, which can be connected to a 485Bus-system.
Figure 63: UNMS-Installation MIB-Integration into your NMS Standard-NMS Installations require for each device to be monitored its specific MIB (Management Information Base). To monitore the CS121 the Standard-MIB for UPS-systems, RFC1628, is generally to be integrated into your NMS. To identify CS121 adapters in your network you may use the MAC address.
iso.org.dod.internet.mgmt.mib2.upsMIB Please check your MIB directory before compiling the RFC1628! Configure the NMS • Set/compile the device MIB, if there is no standard UPS MIB RFC 1628 (CS121 only!) • Add the SNMP adapter object to the management map and configuration of the events (e.g. message to the operator) • Ping the SNMP adapter Due to the different compilation procedures of the SNMP software products, it is not possible to explain the general procedures in greater detail.
Appendix A. CS121 - Technical data Product Power Size Weight Operating temperature CS121L (Extern) 12VDC 300 mA. 12,5 x 7 x 2,8 cm 210 gr. < 40° C CS121SC (Slot chinese) 13,5 x 6 x 1,5 cm 66 gr. < 40° C CS121F (Slot FUJI) 7,5 x 8 x 1,5 cm 64 gr. < 40° C CS121R (Slot RIELLO) 14,5 x 7,5 x 1,5 cm 80 gr. < 40° C CS121MOD (MODBUS Extern) 12,5 x 7 x 2,8 cm 210 gr. < 40° C 12,5 x 7 x 2,8 cm 202 gr. < 40° C 12,5 x 7 x 2,8 cm 59 gr. < 40° C CS121BL (Budget Extern) 12VDC 300mA.
Figure 64: Cable configuration COM2 Figure 65: Cable type 113: CS121 adapter to modem Pin Layout CS121 COM1: Figure 66: External D-SUB 9-polig male Pin1: DCD Pin6: Pin2: RxD Pin7: DSR RTS Pin3 TxD Pin8: CTS Pin4 DTR Pin9: RI Pin5 GND Figure 67: Slot version: Circuit board connection Pin1: -> GND Pin2: -> VDD Pin3: -> TxD 65
Pin4: -> RxD Pin9: -> GND Pin8 connected with Pin 10 Figure 68: Pin COM2 Mini-DIN 8 pol Mini DIN 8 socket RS-232: Pin1: -> DCD Pin2: -> RxD Pin3: -> TxD Pin4: -> DTR Pin5: -> DSR Pin6: -> RTS Pin7: -> CTS Pin8: -> RI Schirm -> GND RS-485 (optional): Pin1: -> RS485-A Pin5: -> RS485-B RS-422 (optional): Pin1: Pin5: Pin2: Pin6: -> RS422-TX-A -> RS422-TX-B -> RS422-RX-A -> S422-RX-B Figure 69: AUX-Port (Hardware Revision 1.
Pin5: Pin6: -> Input/Output 4 -> GND The maximum input voltage is 3,3V. The input signals may be fed from external power sources or feed directly from Pin 1. If the external power supply delivers more than 5V a pre-resistor has to be fitted. The input resistance of the input is 5,1 kΩ When using a opto coupler switch, a Pull up resistor of 1,5kOhm has to be used. Output-voltage: If configured as OUTPUT, every Pin delivers 3.3 Volt/10mA.
D. MODBUS Interface D.1. General information For remote control and monitoring of devices the MODBUS interface in each CS121 M can read out measurement values, events, status and other information in a master-slave protocol. Note: D.2. Please note that not all UPS models support all or specific measurement values (e.g. battery low).
For the CS121 there is normally no difference between these two functions.
ng interval number code count >= 3.5 charact ers RTU HEX [01] [04] [02] s of the word interval >= 3.5 charact ers high byte low byte low byte high byte [12] [34] [B4] [47] Æ The word at address contains the value 1234h = 4660 decimal. D.5. UPS Parameter Standard UPS – Address Description Please note that this is just an example for a typical UPS, not every UPS has all these values, some UPS may have more, some less.
132 133 134 135 136 137 138 139 U U U U U U U U 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 140 U 3 / 4 AUX Port 2 141 U 3 / 4 AUX Port 3 142 U 3 / 4 AUX Port 4 143 U 3 / 4 Mesurement sensor 1 Alarm: general fault Alarm: diagnose test failed Alarm: communication lost Alarm: awaiting power Alarm: shutdown pending Alarm: shutdown imminent Alarm: test in progress AUX Port 1 1 = active; 0 = not active 1 = active; 0 = not active 1 = active; 0 = not active 1 = active; 0 = not active 1 = active; 0 = not active
Section OEM RITTAL Digital Input Status(DI) 0 bit 2 Bypass working 1 bit 2 Bypass Interruption 2 bit 2 Rectifier Failure 3 bit 2 Inverter Failure 4 bit 2 Over Temperature 5 bit 2 Over Load 6 bit 2 0 7 bit 2 Battery Voltage too Low 8 bit 2 Fuse broken 9 bit 2 Battery discharging 10 bit 2 0 11~3 bit 0 After bit 31 Status 0: Normal, Status 1: Alert Status 0: Normal, Status 1: Alert Status 0: Normal, Status 1: Alert Status 0: Normal, Status 1: Alert Status 0: Normal, Status 1: Alert Status 0: Normal, Status
UPS Status Hex-Value Description UPS_SB_BYPASS_MODE 0x0001 power piped thru UPS_SB_SHUTDOWN 0x0002 shutdown ups UPS_SB_OUTPUT_ACT 0x0004 inverter on UPS_SB_BACKUP_MODE 0x0008 battery power UPS_SB_BATTERY_LOW 0x0010 low battery err UPS_SB_OVER_TEMP 0x0020 over temp err UPS_SB_TEST_ACT 0x0040 test in progress UPS_SB_INPUT_HIGH 0x0080 over power err UPS_SB_OUTPUT_HIGH 0x0100 over load err UPS_SB_INVERTER_FAILURE 0x0200 Inverter error UPS_SB_BATTERY_BAD 0x0400 Battery error U
snmp 161/udp snmptrap 162/udp time (rfc868) 37/tcp time (sntp) 123/tcp rccmd 6003 Upsmon 5769 Modbus over IP 502/tcp D.9. MODBUS Cables The following cable (Cable 112) is used for connecting the Schneider Electrics TSX SCY CM6030 MODBUS device and the CS121 MODBUS adapter. Figure 74: MODBUS - Cable 112 NOTE: it is very important that the Shield is connected to the MINI 8 housing and to the MODBUS requesting device common ground! E.
CABLE ID of the used cable type POWER Configurated UPS Power LOAD Configurated Load HOLDTIME Configurated hold time RECHARGETIME Configurated time for a complete battery charging MODEL UPS model name TIMEREMAIN Resttime (AUTONOMTIME-POWERREMAIN) LOCALTIME Local timestamp OUTPHASES Output phase INPHASES Input phase LOCATION UPS-Adapter location DATE Date TIME Time ATTACHED_DEVICES Attached devices MANUFACTURER Manufacturer TEMP1, …, TEMP8 Actual measurement for sensors 1-8, used
Pin 4 Ground Pin 5 OUTPUT: Open collector OUT 9-24 V, max. 30mA Pin 6 INPUT: Digital Input 9-24V INPUT 4: Pin 1 Input Voltage 9-24 Volt + Pin 2 Analog Channel 4 (0-10V+) Pin 3 Analog Channel 8 (0-10V+) Pin 4 Ground Pin 5 OUTPUT: Open collector OUT 9-24 V, max.
Index RJ45, 11 Table of figures Figure 1: Figure 2: Figure 3: Figure 4: Figure 5: Figure 6: Figure 7: Figure 8: Figure 9: Figure 10: Figure 11: Figure 12: Figure 13: Figure 14: Figure 15: Figure 16: Figure 17: Figure 18: Figure 19: Figure 20: Figure 21: Figure 22: Figure 23: Figure 24: Figure 25: Figure 26: Figure 27: Figure 28: Figure 29: Figure 30: Figure 31: Figure 32: Figure 33: Figure 34: Figure 35: Figure 36: Figure 37: Figure 38: Figure 39: Figure 40: Figure 41: Figure 42: Figure 43: Figure 44: Figu
Figure 51: Figure 52: Figure 53: Figure 54: Figure 55: Figure 56: Figure 57: Figure 58: Figure 59: Figure 60: Figure 61: Figure 62: Figure 63: Figure 64: Figure 65: Figure 66: Figure 67: Figure 68: Figure 69: Figure 70: Figure 71: Figure 72: Figure 73: Figure 74: 78 SideSwitch4 and SS4 AUX ................................................................................ 54 CS121-Installation with SideSwitch4..................................................................
