Lindy RMS LITE, RMS ADVANCED User Manual

User Manual for Rack Monitoring System
Monitoring System
Rack Monitoring System
SAFE WORKING
Important passages which must be observed are
highlighted with the following symbols:
Note
Recommends actions and provides tips for trouble-free operation
Caution!
Highlights what must be done or not done in order not to damage material assets.
Attention
The Rms LITE will be delivered without LCD-display and front console
Rack
RMS
LITE
CONTENTS
3
CONTENTS
This user manual applies exclusively to the RMS Rack Monitoring System. Software version: 2.0
– Illuminated LCD display for plain text displays
– 4 keys on the front of the device
– Measurement and monitoring of temperature, humidity,
door contact (access), vibration, movement (infrared room
surveillance), smoke, mains voltage
– Flexible filter structure for uncomplicated realisation of
even complex signal conditions
– Operation and display of alarms via LCD display,
serial interface or network (Telnet and SNMP)
Different interfaces for sensors, data transmission, digital
inputs and switching outputs
V
ALIDITY OF THIS MANUAL
RMS PERFORMANCE FEATURES
LINDY-Elektronik GmbH • LINDY Electronics Ltd.
LINDY Italia S.r.l. • LINDY France Sarl
LINDY-Elektronik AG • LINDY Computer Connection
LINDY Australia Pty Ltd • LINDY International Ltd.
E-MAIL: info@lindy.com
Internet: http://www.lindy.com
Monitoring System
Rack Monitoring System
RMS
LITE
RMS LITE
CONTENTS
CONTENTS
1
1
1
3
Please note
Technical description
Installation and commissioning
Operation
Example configuration Malfunctions Technical data Glossary
Appendices
1.1 General information 05
1.2 Safe working 06
1.3 Warranty 06
1.4 Service 07
1.5 Standards, regulations and licence 07
2.1 Rack monitoring 08
2.2 Sensors 09
3.1 Preparations 11
3.2 19" installation 12
3.3 Electrical installation 13
3.3.1 Connections and cabling 13
3.3.2 Fuse 16
3.4 Commissioning 16
4.1 Operator control elements 17
4.2 Initial state 17
4.3 Operation via keys on the front of the device 18
4.4 Operation via Telnet or serial interface COM 20
4.5 Network configuration 23
4.5.1 SNMP configuration 24
4.5.2 Log service 25
4.6 System configuration and update 25
4.6.1 Configuration via TFTP 26
4.6.2 Update via TFTP 26
4.7 User administration 27
4.8 I/O configuration 28
4.8.1 Digital outputs 29
4.8.2 Digital inputs 30
4.8.3 Temperature inputs 30
4.8.4 Humidity inputs 31
4.8.5 Mains monitoring 31
4.8.6 Connect external devices via serial interface 32
4.8.7 AUX device selection 33
4.9 Filters 34
4.10 Message log 39
40 45 46 47
A1 Conformity, EMC, CE, FCC 48 A2 Documentation of the system configuration 49 A3 Explanation of the MIB for RMS 50 A4 GNU General Public Licence 57
1
2
3
4
5 6 7 8
Rack
5
PLEASE NOTE
PLEASE NOTE
1.1
GENERAL INFORMATION
Normal use
Copyright
Technical status
Liability
SAFE WORKING
Danger
Cauntion
Note
Attention
0The RMS is supplied in flawless condition in terms of safety.
LINDY can only guarantee the safety, reliability and performance of the device if:
• modifications, conversions or repairs are carried out only by persons authorised by the manufacturer,
• the electrical installation of the installation room conforms with the general requirements according to IEC,
• the device is operated in an office environment (class 3K2 according to EN 60721). More stringent requirements apply to rooms with a hig­her degree of pollution.
• the device is operated at a maximum ambient temperature of +35°C.
All rights to this manual are held by LINDY. The reproduction and reprinting even of parts of this Manual are permitted only if the source is stated.
Technical status 07/2004 LINDY reserves the right, without prior notice, – to make changes to the design and components and, instead of the stated components, to use equivalent other components in the pursuit of technical progress, – to change the performance features of the software, – to change the information in this manual.
LINDY accepts no liability for the complete correctness of the information. In particular, no liability whatsoever is accepted for damage or injury caused as a result of the use of the device.
Important passages which must be observed are highlighted as follows in these instructions:
Calls attention to safety measures to prevent personal injury.
Highlights what must be done or not done in order not to damage material assets.
Recommends actions and provides tips for trouble-free operation.
The RMS LITE will be delivered without display and front console.
1
Monitoring System
Rack Monitoring System
RMS
LITE
1
Rack
PLEASE NOTE
PLEASE NOTE
1.2.2
1.2.3
1.3
General Saftey Information
Disposal
WARRANTY
Lapse of warranty
For safe operation of the RMS please ensure you read all of this user manual and that you observe the instructions and information contained in it. Please also observe other documentation by manufacturers of connected devices.
• Always keep the user manual within reach of the device.
• Ensure the rack monitoring is in perfect technical condition. Have damage and faults remedied immediately by authorised persons.
• Only use the supplied mains cable.
• When plugging in and unplugging the mains plug, – never pull the cable – never touch the plug with wet hands
• When connecting devices to the cable clamps, always observe the VDE regulations!
• Do not convert or repair the device yourself!
• Use only original accessories.
• If liquids are spilled on the device, immediately unplug the mains cable from the mains and contact your dealer.
• Protect from heat. Heat can damage both parts of the outside of the device and internal circuits and components.
• To clean the device, use only cloths moistened with water or washing­up liquid. Alcohol, thinners or similar chemicals damage the surface of the enclosure.
The device contains a lithium battery on the circuit board and toxic substances in the LCD display.
• The device must be disposed of properly
LINDY offers a warranty of 2 years for this products. For further details, please see the General Terms of Business of LINDY.
The warranty is void if improper modifications are made to the device.
7
1
PLEASE N
OTE
PLEASE NOTE
1
Monitoring System
Rack Monitoring System
1.4
1.5
SERVICE
HOTLINE
E-MAIL
STANDARDS, REGULATIONS AND LICENCE
LICENCE
In the event of malfunction, please first follow the instructions in the relevant section (> 5). For all other questions, please do not hesitate to contact LINDY technical support.
DE: 0621 / 47 005 - 0
UK: 01642 754040 IT: 031 48 40 11 FR: 0 825 825 111 CH: 061 335 97 00 USA: (256) 771-0660 Australia: 07 3262 9033
support@lindy.com
• To receive a speedy reply, please provide the following information: – Device type – Serial number – Software version – Configuration file – Description of problem
• Please also leave your telephone number. You will receive a qualified reply by e-mail or telephone.
The LINDY RMS has been built and tested in accordance with the rele­vant guidelines. In connection with installation in a terminal (for exam­ple, a rack), the additional requirements in accordance with IEC 950 must be observed and complied with. The RMS conforms to the safety requirements of the EU Directive on electromagnetic compatibility (EMC) (89/33/EEC) and the low voltage Directive (73/23/EEC).
Below is a list of the standards and regulations on which the RMS is based: EN 55 022/Class B EN 60 950 (IEC 950) EN 61 000-4-2 EN 61 000-4-3
All LINUX source codes which were used to produce the product and are subject to the GPL (see GNU Public Licence ä A4 ) can be obtained for a service charge. This does not include the source codes of the RMS software itself. However, the LINUX sources are freely available, for example at URL: “http://metalab.unc.edu/pub/Linux”.
Rack
2.1
RACK MONITORING
Sensors
Display
Inputs and outputs
Operation and configuration
Software
The RMS monitors, protects and controls all the installations in net­work, switch cabinet and server racks and their environment.
Local ambient conditions (for example, temperature or humidity) or operational status (for example fluctuations in mains voltage) can be detected via various sensors and inputs (> 2.2 ).
Signals are transmitted and data displayed via an LCD display, serial interface or Ethernet (Telnet or SNMP).
Digital inputs and switching outputs make it possible to continuously monitor the operating status and ambient conditions in the rack, and to react to events.
The RMS is operated locally via 4 keys on the front.
RMS inputs and settings can be made remotely via the serial interface or via Telnet and SNMP. The entire configuration of the system is permanently saved. Settings are retained even after a power failure or transportation.
The operating software of the RMS is subject to continuous improve­ment and expansion. Updates can be loaded quickly and easily at any time. The latest version is available on the Internet (> 1.4).
TECHNICAL
DESCRIPTION
TECHNICAL
DESCRIPTION
2
RMS
LITE
RMS
LITE
RMS LITE
RMS ADVANCED
9
1
Monitoring System
Rack Monitoring System
TECHNICAL D
ESCRIPTION
TECHNICAL DESCRIPTION
2
2.2
Connection options
SENSORS Temperature (digital)
Humidity (digital)
Combined Humidity and Temperature sensor (digital)
Vibration
Smoke alram
The RMS has a wide variety of connection options (> 3.3.1):
A Three mains monitoring connections (6-pole plug connector) B Four digital, potential-free switching outputs (8-pole plug connector) C
Eight digital, potential-free inputs with 12 V auxiliary voltage (16-pole plug
connector)
D Four digital, potential-free alarm inputs for the connection of differential
signal lines (8-pole plug connector))
E Four modular jacks for temperature or humidity sensor (RJ11) F Two potential-free UPS switching inputs (4-pole plug connector) G Ethernet network connection (RJ45 – 10 base T) H AUX serial interface (SUB-D, 9-pole) to control and monitor external devi-
ces (for example, chipcard reader, UPS, …)
I COM serial interface (SUB-D, 9-pole) as terminal connection
– Temperature range: 0 °C to 60 °C – Measuring accuracy: ±1 °C – Recalibration not necessary – Cable length: 4 m – Maximum cable length: 20 m – With mounting hardware
- Humidity range: 10 % to 90 % relative humidity at 0 °C to 60 °C – Measuring accuracy: ±3 % relative humidity – Recalibration not necessary – Cable length: 4 m – Maximum cable length: 20 m – With mounting hardware
Combination of temperature and humidity sensor, equipment as above.
Detects movements and vibrations of varying intensity.
– Ajustable sensitivity – Cable length: 4 m – Maximum cable length: 20m – With mounting hardware
Optical smoke alarm with German insurance accreditation (VdS) for early detection of fires (producing light smoke). – Temperature range for deployment: -20 °C to 75 °C – Cable length: 4 m – Maximum cable length: 20 m – With mounting hardware
RMS
LITE
TECHNICAL D
ESCRIPTION
TECHNICAL DESCRIPTION
2
Rack
Door Contact
Chipcard reader
Infrared room surveillance
Extension cable
Water sensor
Mains Power Strips
Note
Monitors access using a magnetic bridge sensor which responds to any magnetic material (no contact required). – Also for monitoring side panels or cover – Cable length: 4 m – Maximum cable length: 20 m – With mounting hardware
The chipcard reader is integrated in the door frame of the server cabinet. – It reads chipcards. – It controls an electrical door opener using DIGITAL OUT 4 if the card is valid. – It is connected to the AUX serial interface.
Detects movements in the surveillance area. – Adjustable sensitivity – Sabotage protection – Cable length: 4 m – Maximum cable length: 20 m – With mounting hardware
– RJ11 cable for temperature or humidity sensors Length: 5 m; 10 m; 15 m; 20 m – 4-core sensor cable (for all other sensors) Length: 5 m; 10 m; 15 m; 20 m
Watersensor to detect floods / water
Switchable mains power strips can be managed by the RMS – by RS-232 (IP versions
also available) – 4 out / 1 in (19" 1U) – 8 out / 2 in (redundant
power supply support)
Other sensors can be connected to DIGITAL IN, ALERT IN or UPS IN according to the requirements in 3.3.1.
INSTALLATION AND COMMISSIONING
INSTALLATION AND COMMISSIONING
3
11
Monitoring System
Rack Monitoring System
3.1
3.1.3
3.1.2
PREPARATIONS Check the supplied items
Transport Damage
Danger
Necessary Accessories
Note
Necessary Tools
– RMS – Power cable (for the country in question) – User‘s Manual – 6 plug connectors
If the device has visible transport damage, it must not be taken into operation as its safety is no longer guaranteed.
• Immediately report transport damage to the carrier and the manufacturer.
• Only use original accessories.
If other sensors are used , pay attention to the specification of the inouts and outputs (> 3.3.1) !
For 19" installation of the RMS (> 3.2): – 3mm flat-blade screwdriver for fixing the cable – 4 mounting screws (with washers and nuts) for the 19" rack – A screwdriver suitable for the mounting screws
– Serial communication cable (RJ11 connector to 9-pole sub­D socket) – 10 cable links, stripped – CD-ROM
INSTALLATION AND COMMISSIONING
INSTALLATION AND COMMISSIONING
3
Rack
19'' installation
Caution!
Note
When installing the RMS in a rack, the additional requirements in accordance with IEC 950 must be observed and complied with!
• Determine the position in which the RMS is to be located within the 19" rack. Observe the existing number of blanking plates for a uni­form rack appearance.
Danger of overheating! Allow sufficient space from built-in fans or air-conditioners to ensure an unimpeded flow of air in the rack.
hten.
• Mount the RMS on sliding rails if possible. This makes handling the device easier and reduces wear on the rack.
If the RMS is mounted freely suspended, hold the device horizontally when tightening the screws and start with the two bottom screws.
• Mount the RMS in the desired position with 4 mounting screws, washers and nuts.
3.2
INSTALLATION AND COMMISSIONING
INSTALLATION AND COMMISSIONING
3
13
Monitoring System
Rack Monitoring System
3.3.1
3.3
ELECTRICAL INSTALLATION
Connections and cabling
Connection
Cabling
Mains montoring
Digital Out
1 Fuse plug > 3.3.3
2 Mains Connections > 3.3.2 3 MAINS MONITORING
Mains monitoring connections
4 DIGITAL OUT
Digital switching outputs 1 - 4
5 DIGITAL IN
Digital inputs 1 - 8
6 ALERT IN
Alarm inputs 1 - 4
7 TEMPERATURE/HUMIDITY
• Before connecting the RMS to the mains, properly connect all the components to the rear of the device. Observe VDE regulations!
• Only have mains voltages connected by authorised skilled persons.
• Use wire end ferrules when connecting litz cables!
• Observe the information on documentation (> A2)!
• Avoid tensile loads, serious kinking and damage to the cables as a
result of sharp edges or unsuitable tools (optional cable protection avai-
lable).
– 3 terminal pairs L1, L2 and L3 for the connection of 3 mains voltages – Potential-free, no common earth reference – UIN50 … 255 V AC – Only have mains voltages connected by authorised skilled persons. Observe VDE regulations!
- 4 terminal pairs for the connection of 4 consumers – Potential-free relay switch contacts – Relay 108 cycles purely mechanically, 105 cycles at maximum loads­witched – M
aximum load switched 1.5 A at 230 V AC, 2 A at 30 V DC
temperature or humidty sensor connections 1-4
8 UPS IN
UPS connections 1 - 2
9 10 BASE T
RJ45 Ethernet network connection
10 AUX
Serial interface for the control and monitoring of external devices
11 COM
Serial interface for terminal connection
1 2 3 4 5 6 7 8 9 10 11
1 2 3 4 6 8 9 10
RMS LITE
RMS ADVANCED
INSTALLATION AND COMMISSIONING
INSTALLATION AND COMMISSIONING
3
Rack
DIGITAL IN
Note
ALERT IN
TEMPERATURE/HUMIDITY
UPS IN
10BASET
– 8 terminal groups (of 4 terminals) for connecting 'break contact/make contact' type devices, or devices with switching output – Potential-free, digital – Left terminal pair “IN+” AND “IN-” digital input – For the connection of a break contact/make contact, an auxiliary vol­tage of +12 V (top terminal) and an earth reference GND (bottom ter­minal) can be connected from the right terminal pair using the enclosed cable links (see connection examples below). – UIN+5 V…+25 V
– IINmaximum 5 mA – With auxiliary +12 V supply, maximum current draw of 200 mA
– Auxiliary voltage interruption in connection with overload or short cir­cuit in the sensor cable:
“Fault” LED lights up. Confirm the "overload" message in the LCD display using the ENTER key, then switch back on in the menu “Aux.Volt.” with the ENTER key (> 6 ).
In the event of interruption of auxiliary voltage, all auxiliary voltages (and thus all sensors) are switched off!
– 4 terminal pairs for the connection of 4 differential signal lines or break contact/make contact type devices (only connect passive components) – Maximum drawable alarm current approximately 20 mA – For differential signal lines, ensure that the closed-circuit current of the entire signal line does not exceed a total of 900 µA.
– 4 RJ11 modular jacks for the connection only of the Infratecplus sen­sors available in the delivery programme (temperature sensor, humidity sensor or combined temperature/humidity sensor) – digital
– 2 terminal pairs for the connection of UPS switching outputs – Potential-free, digital – UIN+5 V…+25 V
– IINmaximum 5 mA
– RJ45 modular jack for connection to a 10 Mbit Ethernet
IN+
IN
GND
+12V
06 12S Overload
Enter
{
{
RMS
LITE
RMS
LITE
INSTALLATION AND COMMISSIONING
INSTALLATION AND COMMISSIONING
3
15
Monitoring System
Rack Monitoring System
COM
AUX
Cable protection (optional)
• Mount the cable clamp bracket
• Fix the cables with suitable aids (cable binders, etc.) to the sheet metal lugs (serves as a cable grip).
• Insert the cover in the slots on the device, close the cover and snap it into the embossed areas.
– Serial interface – directly
connected to the COM connection on the front of the device.
Never connect both COM interfaces at the same time!
– Serial interface for the connection of external devices (for example, UPS, fans, airconditio­ners, chipcard reader heating, …) – Specific protocols on request. Please contact your RMS dealer.
Pin
Signal
1-
2 RXD 3 TXD 4­5 GND
Pin
Signal
6 -
7 ­8 ­9 -
-
Pin
Signal
1 DCD
2 RXD 3 TXD 4 DTE 5 GND
Pin
Signal
6 DSR
7RTS 8 CTS 9-
{
1 2 3 4 5
6 7 8 9
1 2 3 4 5
6 7 8 9
RMS
LITE
INSTALLATION AND COMMISSIONING
INSTALLATION AND COMMISSIONING
3
Rack
3.3.2
3.4
Fuses Double -pole fuse / fuse of the neutral wire
Caution!
Danger!
Fuse for the auxiliary voltage supply
COMMISSIONING
Mains Socket
Fire risk. Only replace fuses with fuses of the same type (250 V, 1 A, slow-acting, high switching
• Switch off the device and unplug the mains plug.
• Remove the fuse plug and replace the fuse.
The device is supplied from several power sources.
• The device may only be
opened by trained personnel. To disconnect the device from the voltage supply before opening:
• Disconnect the mains plug.
• Disconnect the MAINS
MONITORING inputs.
• Open the cover of the device.
• Replace the fuse and close the device again.
Only replace fuse F1 on the +12 V auxiliary voltage supply (marked in the device) with a fuse of the same type (250 V, 400 mA, fast-acting, 5 x 20 mm, UL-listed).
• Check that the RMS and the connected components are correctly
cabled (> 3.3.1).
The mains socket is on the rear of the device.
• Use only the supplied power cable.
After connection, wait for the message in the LCD display.
• Input the network parameters via
Telnet, the COM interface (> 4.4)
or by hand via the keys (> 4.3).
If function problems should arise: (> 5)
All functions and displays indicated in the manual depend on the version of the operating software.The latest version is available on the Internet (> 1.4).
RMS ready
1 Reset
Resets the RMS to a defined standard state (> 5).
2LED
"Fault" (red) lights, up in connection with reset,overload or a serious sys­tem fault. “Warning“ (yellow) lights up if the conditions of an appropriately configured filter apply (> 4.9), when booting and in connection with Reset. “Power“ (green) lights up when the device is supplied with voltage.
9 “COM” communication socket
for connection to a PC or terminal (serial communication cable included).
Never connect both COM interfaces at the same time!
In the initial state, various status messages are displayed cyclically in the LCD display. Each message is displayed for approximately 2 seconds.
Device name
SNMP Information (> 4.5.1) – Name (N) – Location (L) – Contact (C)
Network Information (> 4.5) – IP Address (I) – Netmask (N) – Broadcast Address (B) – Gateway Address (G)
OPERATION
OPERATION
4
17
Monitoring System
Rack Monitoring System
4.1
4.2
OPERATOR CONTROL ELEMENTS
Note
INITIAL STATE
3 Illuminated LCD display. Plain
text display of inputs, messages and alarms.
4
Contrast controller for the LCD display
5 Left key
Page back in the menu, reduce values
6 Right key
Page forward in the menu,
increase values
7 MENU key
Change to menu level
8 ENTER key
Menu selection of confirm values
LINDY RMS
N: RMS
L:Rechenzentrum
C: Fred Clever
I192.168.018.103
N255.255.255.000
B192.168.018.255
G192.168.018.200
RMS ADV. & RMS LITE
RMS ADVANCED
1 2 3 4 5 6 7 8 9
1 2 9
RMS ADVANCED
RMS LITE
Rack
4.3
OPERATION VIA KEYS ON THE FRONT OF THE DEVICE
Selecting a menu item
The functions accessible via the keys are mainly displays, i.e. current statuses are displayed without the possibility of entering data. Exception: menu items under “Network – Interface”.”
• Change from the initial state to the menu level using the MENU key.
• Change between the menu items using the arrow keys
• Confirm the menu selection with the ENTER key.
Confirmation of the menu item Exit leads to the previous menu level.
Change to the initial state using the MENU key.
EXIT
Menu
Enter
Menu
{
RMS
LITE
19
Monitoring System
Rack Monitoring System
Filter messages
Display in the “Confirm“ menu
Entering network parameters
Filter messages are displayed on the LCD display as follows:
<Message number> (2-digit) blank <Time> (2-digit) <Unit of time> (s; m = min; h; d) Blank <Filter-designation> (9-digit)
• Confirm filter messages with the ENTER key. In the “Message Log” (> 4.10) the message is marked accordingly in the “Ack” column with an “x”. For the filter message to be displayed, it is necessary for the “Message Priority” other than “none” to be assigned in the “Filter Configuration” menu (> 4.9.2).
<Filter-Number> („F“; 2-digit; “:“) * (only with confirmed filter) <Current filter result > (3-digit: “off“ or “on“) Blank <Filter-designation> (9-digit)
For the display, it is necessary for “Confirmation” “yes” to be assigned in the “Filter Configuration” menu (> 4.9.2). Otherwise, the message "no confirm" appears.
If a connection via the COM interface is not possible, the following four network parameters must be entered via the keys before the device can be operated with Telnet: – IP address – Netmask – Broadcast – Gateway
If one of these menu items is selected in the LCD display, the first position flashes after confirmation.
• Select the desired parameter with the arrow keys (the position selected flashes) and confirm with the ENTER key.
• Change the value of the selected parameter using the arrow keys (the parameter flashes) and confirm with the ENTER key.
Leave the numerical input:
• Select "OK" with the arrow keys and confirm with the ENTER key.
Enter
Enter
Enter
Enter
Enter
I192.168.018.103
IP: 192.168.018.103 OK
08 17stemperatu
F03:*off humidit
F03: no confirm
OPERATION
OPERATION
4
Rack
4.4
OPERATION VIA TELNET OR SERIAL INTERFACE COM
Note
Note
All the settings in the RMS can easily be made via Telnet or via the serial interface (COM). COM parameters: 9600 baud, 8 data bits, no parity, 1 stop bit, soft­ware handshake.
Never connect both COM interfaces at the same time!
Create a Telnet connection on the computer:
• Input: Example: #telnet 192.168.18.103 <Return> The Login screen appears
• Log in with an entered user name (> 4.7). On first startup: rms <Return>
• Enter password. On first startup: rms <Return>
After successfully logging in, the main menu appears (see over).
Letters in square brackets designate keys with which individual menu items can be selected.
OPERATION
OPERATION
4
21
Monitoring System
Rack Monitoring System
M
AIN MENU
From the main menu it is possible to switch to the various submenus. References to sub-menus are marked with “>”
[N] N
ETWORK CONFIGURATION
Network and SNMP settings (> 4.5).
[S] SYSTEM CONFIGURATION ANDUPDATE
Load and save system configuration and update operating software via TFTP (> 4.6).
[U] U
SER ADMINISTRATION
User administration settings and their rights (> 4.7).
[I] I/O CONFIGURATION Setting input/output parameters (> 4.8).
[F] FILTER
CONFIGURATION
Setting filter parameters (> 4.9).
[M] MESSAGE LOG
Display and confirmation of system messages (> 4.10). Unlike the system log (> 4.5.2), only filter messages are logged here.
[?] HELP
Explanation of the menu items.
[Q] Q
UIT SESSION
Quit session.
OPERATION
OPERATION
4
Rack
Block diagram The signals applied at the physical input terminals (left) are combined in
a complex filter structure (centre). The resulting filter result can then be supplied for switching and signalling purposes at physical output termi­nals (right) or be used to influence other filters (feedback).
Method of operation and configuration options of the filters. (> 4.9).
OPERATION
OPERATION
4
23
1
Monitoring System
Rack Monitoring System
4.5
Network Configuration
Note
Central input mask for settings for the Ethernet interface. References to sub-menus are marked with “>”.
The Ethernet interface makes it possible to integrate the RMS into a local network (10 Mbit Ethernet), thus making the following functions available:
– SNMP support, thus integration into network management platforms – Log book functional capabilities (syslog service) – Loading and saving the system configuration (TFTP) – Updating the system (TFTP)
• If the RMS is not operated in an Ethernet network, the settings descri­bed in this chapter can be ignored.
If you are unclear about the conditions of the local network, please ask your network administrator for assistance.
Incorrect settings can have the effect that the device is isolated from the network and/or is no longer capable of sending messages to the desired destination addresses (see also > 4.5.1).
[I] IP A
DDRESS
IP address of the Ethernet interface.
[N] N
ETMASK
Netmask of the Ethernet interface.
[B] B
ROADCAST
Broadcast address of the Ethernet interface.
[G] G
ATEWAY
Gateway to adjacent networks of the local network, which may be required.
[S] SNMP CONFIGURATION All SNMP-specific settings of the device (> 4.5.1).
[L] L
OG SERVICE
System log settings (> 4.5.2). [?] H
ELP
Explanation of the menu items..
[Q] QUIT WITHOUT SAVING
Jump back to the main menu without saving changes.
[R
ETURN] QUIT WITH SAVING
Jump back to the main menu and save changes.
Rack
4.5.1
(SNMP CONFIGURATION)
Complete control of the RMS via SNMP with alarm (trap function) and support of separate communities for read and write operations. SNMP V1 in accordance with RFC 1213 is implemented. MIB-II including RMS private MIB is supported. The complete MIB file of the RMS is on the supplied CD-ROM. Explanation of the MIB variables > A3.
Visualised integration in manage­ment platforms on request.
[N] N
AME
Administrative name of the device. For example: “RMS”
[L] L
OCATION
Description of the location of the device.
[C] C
ONTACT
Name of the person responsible for this device and contact infor­mation. For example: “LINDY support, Tel. +49 (0) 621 / 47 005 - 0”
[R] R
EAD COMMUNITY
Name of the community with the right to read SNMP variables. For example: “public”
[W] WRITE COMMUNITY
Name of the SNMP community with the right to write SNMP variables. For example: “private”
[T] T
RAP COMMUNITY
Name of the SNMP community with the right to receive traps from this device. For example: “alarm”
OPERATION
OPERATION
[S] SEND AUTHTRAPS
Send trap with unauthorised access with invalid or incorrect Community String (authority trap)..
[M] SNMP A
CCESS
Enable or disable access via SNMP.
– Trap Destinations –
List of a maximum of 8 IP addresses to which SNMP traps are sent.
[A] A
DD NEW TRAP DESTINATION
Add an IP address to the list of trap receivers..
[D] D
ELETE TRAP DESTINATION
Delete IP address from the list of trap receivers.
[?] HELP
Explanation of the menu items.
[Q] QUIT WITHOUT SAVING
Jump back to the “Network Configuration” menu without saving changes..
[R
ETURN] QUIT WITH SAVING
Jump back to the “Network Configuration” menu and save changes
LINDY LINDY Rack Monitoring System see www.lindy.com
25
Monitoring System
Rack Monitoring System
OPERATION
OPERATION
4
4.5.2
4.6
L
OG
SERVICE
Specify receivers of log messages in the network which support the standardised syslog service (UNIXServer). Two types of messages can be logged via the syslog service:
– Filter results similar to the displays under [M] Message Log in the main menu (> 4.10).
– Debug messages in the event of error analysis (please contact technical support).
SYSYTEM CONFIGURATION UPDATE
Reference to sub-menus are mar­ked with “>”.
[M] M
ESSAGE LOG
Switch on/off display of filter messages.
[A] A
DD A NEW DESTINATION
Add the IP address of a computer to receive log data.
[D] D
ELETE A D
ESTINATION
Delete a computer from the list.
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT WITHOUT SAVING
Jump back to the “Network Configuration” menu without saving changes.
[R
ETURN] QUIT WITH SAVING
Jump back to the “Network Configuration” menu and save changes.
[C] C
ONFIGURATION VIA TFTP
Save and load device configuration on other computers via TFTP (>4.6.1)
[U] U
PDATE VIA TFTP
Update system software via TFTP (>4.6.2). [E] E
RASE CONFIGURATION
Reset all settings to the standard settings.
[R] Reboot
Warm restart of the device, session is interrupted.
[?] Help
Explanation of the menu items.
[Q] Q
UIT WITHOUT SAVING
Jump back to the main menu without saving changes.
[R
ETURN] QUIT WITH SAVING
Jump back to the main menu and save changes.
Rack
4.6.1
4.6.2
CONFIGURATION VIA TFTP
Tool for saving the system configuration in the network and thus capturing it in a central data backup.
The loading allows rapid startup without reparameterisation, for example after a system failure. This requires that the TFTP service is running on the computer stated (TFTP server).
• Please contact your network administrator.
UPDATE VIA TFTP
Tool for simple updating of the operating software via the net­work. This requires that the TFTP service is running on the computer stated (TFTP server)..
F] F
ILENAME
Complete file name related to the exported TFTP directory
[T] TFTP-S
ERVER
IP address of the TFTP server.
[S] S
AVE CONFIG
Save the system configuration. The configuration can only be saved in an existing file! This prevents overflow on the server hard disk as a result of the uncontrolled saving of configurations.
[L] L
OAD CONFIG
Load the system configuration.
Status:
Display of the current or last TFTP process.
[?] HELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu
[F] F
ILENAME
File name of the operating software.
[T] TFTP-S
ERVER
IP address of the TFTP server.
[U] U
PDATE SYSTEM
Update system software.
Status:
Display of the last or current TFTP update.
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu.
OPERATION
OPERATION
4
27
Monitoring System
Rack Monitoring System
OPERATION
OPERATION
4
4.7
User Administration
Input mask to set up users with access rights. All users are displayed with their user names, passwords and rights as well as their chipcard code, if applicable.
Note
[A] A
DD USER
Add new user.
[D] D
ELETE U
SER
Delete selected user (-->)
[-] P
REVIOUS
USER
Selection pointer to previous user.
[+] N
EXT USER
Selection pointer to next user.
[L] L
EARN CHIPCARD
Assign a chipcard to the selected user.
[U] U
NLEARN
CHIPCARD
Withdraw the chipcard from the selected user.
[?] H
ELP
Explanation of the menu items..
[Q] Q
UIT WITHOUT SAVING
Jump back to the main menu without saving changes.
[R
ETURN] QUIT WITH SAVING
Jump back to the main menu and save changes..
A maximum of 12 users (RMS Advanced 99) can be created. Reading or writing/reading rights can be assigned to each user. Users with reading rights cannot save changes and do not have access to user administration. The name and password are case-sensitive. If the chipcard reader has been activated (> 4.8.7), the DIGITAL OUT 4 output is assigned exclusi­vely to the door opener, in other words it is not possible to influence this output with the filters.
Rack
4.8
I/O CONFIGURATION
Input mask for the digital input and output settings. References to sub-menus are marked with “>”.
[O] D
IGITAL
OUTPUTS
Configure digital outputs.
[I] D
IGITAL INPUTS
Configure digital inputs.
[T] T
EMPERATURE
INPUTS
Configure temperature (sensor) inputs.
[H] H
UMIDITY
INPUTS
Configure humidity (sensor) inputs.
[M] M
AINS MONITORING
Configure mains monitoring input.
[A] AUX
Configure serial interface AUX.
[?] H
ELP
Explanation of the menu items.
[Q] QUIT WITHOUT SAVING
Jump back to the main menu without saving changes.
[RETURN] QUIT WITH SAVING
Jump back to the main menu and save changes.
OPERATION
OPERATION
4
29
Monitoring System
Rack Monitoring System
OPERATION
OPERATION
4
4.8.1
DIGITAL OUTPUTS
Input mask for the DIGITAL OUT digital outputs settings. Digital outputs are displayed with the number, description, combi­ned filters, logic operation and effect.
F
OR CONFIGURATION WITH THE
CHIPCARD READER ONLY
If the chipcard reader has been activated (> 4.8.7), the DIGITAL OUT 4 output is assigned exclusively to the door opener, in other words it is not possible to influence this output with the fil­ters.
[D] D
ESCRIPTION
Description of the digital output.
[F] F
ILTER
Specify the filter(s) (> 4.9) which act(s) on a digital output. [L] L
OGIC
Specify the logic operation with which the filters are combined.
[E] E
FFECT
State how the logic result acts on the digital output.
ON permanently switched on (independent of settings in Filter and
Logic) OFF switched off (independent of settings in Filter and Logic) THRU switched through INVERT switched through in inverted fashion
[-] P
REVIOUS OUTPUT
Selection pointer to previous output.
[+] N
EXT OUTPUT
Selection pointer to next output.
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu.
The menu points [D], [F], [L] and [E] are disabled for DIGITAL OUT 4 whilst, the current status of the output is displayed in the column headed “State”.
Rack
4.8.2
4.8.3
DIGITAL INPUTS
Displays the DIGITAL IN, ALERT IN and UPS IN digital inputs with the number, description, status (on/off), number of status chan­ges and time of the last change.
TEMPERATURE INPUTS
Displays the TEMPERATURE/HUMIDITY digital temperature inputs with the number, description and current value.
[D] D
ESCRIPTION
Description of the digital input.
[R] R
ESET ALERT IN
Reset the sensors connected to the ALERT IN inputs (deletes the alarm status in the sensor).
[-] P
REVIOUS INPUT
Selection pointer to the previous input.
[+] NEXT INPUT
Selection pointer to the next input.
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu..
[D] D
ESCRIPTION
Description of the temperature input.
[-] P
REVIOUS TEMPERATURE
Selection pointer to the previous input.
[+] N
EXT TEMPERATURE
Selection pointer to the next input.
[?] H
ELP
Explanation of the menu items.
[Q] Quit
Jump back to the previous menu.
OPERATION
OPERATION
4
31
Monitoring System
Rack Monitoring System
OPERATION
OPERATION
4
4.8.4
4.8.5
HUMIDITY INPUTS
Displays the TEMPERATURE/ HUMIDITY digital humidity inputs with the description and current value.
MAINS MONITORING
Displays the MAINS MONITORING digital inputs with the number, description and current value.
[D] D
ESCRIPTION
Description of the humidity sensor.
[-] P
REVIOUS HUMIDITY
Selection pointer to the previous input.
[+] N
EXT H
UMIDITY
Selection pointer to the next input
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu.
[D] D
ESCRIPTION
Description of the mains.
[+] N
EXT MAINS
Selection pointer to the next mains.
[-] P
REVIOUS MAINS
Selection pointer to the previous mains.
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu.
Rack
4.8.6
CONNECT EXTERNAL DEVICES VIA SERIAL INTERFACE (AUX)
Devices with a serial interface (for example chipcard reader, UPS, etc.) can be connected to the AUX port on the rear of the RMS.
Software version 1.4 can support a chipcard reader to implement an access control system.
[U] U
PDATE SCREEN
Update the screen..
[D] AUX D
EVICE SELECTION
Select a different device.
[L] LOGIC
Set the logic for the door opener contact.
make The contact is made if successful (default status open) break The contact is broken if successful (default status closed)
[T] O
PEN TIME
Set the open time.
[O] OPEN DOOR MANUALLY
Open the door.
[?] HELP
Explanation of the menu points.
[Q] QUIT
Return to the previous menu.
OPERATION
OPERATION
4
33
Monitoring System
Rack Monitoring System
OPERATION
OPERATION
4
4.8.7
AUX DEVICE SELECTION
Note
[-] Previous Device
Set the selection pointer to the previous device.
[+] Next Device
Set the selection pointer to the next device.
[?] Help
Explanation of the menu points.
[Q] Quit
Return to the previous menu.
[Return] Quit With Saving
Save the changes and return to the previous menu.
These settings affect the display and function in the menus “User Configuration” (> 4.7), “Digital Outputs” (> 4.8.1) and “AUX Configuration” (> 4.8.6).
Rack
4.9
FILTER
Mode of operation
The filters are the central elements of the RMS. They make it it possible to logically combine the results recorded at the inputs, and to supply the result to the digital outputs or to generate various signals.
It is possible to configure a total of 12 filters (RMS Advanced 40) with an identical structure. In this case, all inputs are available to each filter.
Depending on the type of input signal (measured value, status, filter feedback), in principle there are three different function blocks for pro­cessing the results.
The results of all the function blocks are combined via a common, logi­cal OR element to form the filter result.
This filter result can then, depending on requirements, be used to gene­rate alarm messages (SNMP Trap, LED Warning, Buzzer), to control digital outputs, or for feedback to other filters.
OPERATION
OPERATION
4
35
Monitoring System
Rack Monitoring System
OPERATION
OPERATION
4
4.9.1
4.9.2
FILTER SELECTION
All filters are displayed with the number, description, status, result, reactivation time and confirmation status.
F
ILTER
CONFIGURATION
References to sub-menus are marked with “>”. A “(*)” before the “>” indicates that at least one of the inputs is applied to this filter.
[D] D
ISABLE
Deactivate the selected filter without changing the filter settings.
[C] C
ONFIRM FILTER
Confirm selected filter. The confirmation deactivates the filter for the duration of the reactivation time (> 4.9.2).
[F] F
ILTER CONFIGURATION
Configure selected filter.
[-] P
REVIOUS
FILTER
Selection pointer to the previous filter.
[+] NEXT FILTER
Selection pointer to the next filter.
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the main menu without saving changes.
[D] D
ESCRIPTION
Description of the filter.
[E] EFFECT
Effect of the filter result after the OR element. thru switched through off switched off invert switched through in
inverted fashion
[S] SNMP TRAP
In connection with an event, send traps to all entered trap receivers (> 4.5.1).
no No trap once Trap if the filter event
occurs repeat Repeated traps (every 60 seconds) until the filter event occurs
OPERATION
OPERATION
4
Rack
4.9.3
DIGITAL/ALERT/UPS INPUTS
The inputs are displayed with the type, number, description and effect.
[L] LED WARNING
In connection with an event switch the LED on "Warning"
[B] B
UZZER WARNING
In connection with an event, switch on the buzzer.
[M] M
ESSAGE PRIORITY
Characterises the priority of the filter event.
none no entry in the message critical warning
[C] C
ONFIRMATION
Enable or disable confirmation of a filter result.
[R] R
EACTIVATION TIME
Specify the time after which a confirmed filter is reactivated.
[-] P
REVIOUS DIGITAL/ALERT/UPS INPUT
Input Selection pointer to the previous input.
[+] N
EXT DIGITAL/ALERT/UPS INPUT
Selection pointer to the next input.
[E] E
FFECT
Effect of the input signal on the OR element. thru switched through off switched off invert switched through in inverted fashion
[?] Help
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu.
[I] DIGITAL/ALERT/UPS INPUTS
Configure general digital inputs..
[T] TEMPERATURE INPUTS
Configure temperature inputs.
[H] H
UMIDITY
INPUTS
Configure humidity inputs.
[M] M
AINS I
NPUTS
Configure mains monitoring inputs
[F] F
EEDBACK INPUTS
Configure feedback inputs.
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT WITHOUT SAVING
Jump back to the previous menu without saving changes.
[R
ETURN
] QUIT WITH SAVING
Jump back to the previous menu and save changes.
OPERATION
OPERATION
4
37
Monitoring System
Rack Monitoring System
4.9.4
TEMPERATURE/MAINS/HUMIDITY INPUTS
The filter inputs for measured values are displayed with the threshold, mode and effect. They have a flexible structure for the creation of larger/smaller comparisons or window compari­sons.
Thus the following filter conditi­ons can easily be realised:
1) Simple larger/smaller compari-
son (switch if the input variable is smaller/larger than the threshold). Example 1 – Switch if temperature 1 > 35 °C: mode A “>”; threshold A 35; mode B “off”; threshold B any value; effect “thru”.
2) “Window comparison” (switch
if the input variable is inside/outsi­de a defined range) Example 2 – Switch if voltage 1 is between 210 V and 240 V: Mode A “>”; threshold A 210; Mode B “<”; threshold B 240; effect "thru" Example 3 – Switch if humidity 1 is less than 30 % or greater than 80 %: Mode A “>”; threshold A 30; Mode B “<”; threshold B 80; effect “invert”
[A] M
ODE-A [B] MODE-B
Set comparison module..
[1] T
HRES-A [2] THRES-B
Set threshold.
[E] E
FFECT
State how the input acts on the OR element. thru switched through off switched off invert switched through in
inverted fashion
[-] P
REVIOUS
INPUT
Selection pointer to previous input.
[+] N
EXT INPUT
Selection pointer to next input.
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu..
OPERATION
OPERATION
4
Rack
4.9.5
[-] Previous Feedback Input
Selection pointer to previous input.
[+] N
EXT FEEDBACK INPUT
Selection pointer to next input.
[F] F
ILTER
Origin of the feedback.
[D] D
ELAY
TIME
Set the delay time after the operation of the input event f1 in s.
[H] H
OLD TIME
Set the hold time of f2after the release of f1in s.
[P] P
ASS C
ONDITION
Set the pass mode. thru pass conditional pass if input condi-
tion is still met
[E] E
FFECT
State how the input acts on the OR element. thru switched through off switched off invert switched through
in inverted fashion
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu.
FEEDBACK INPUTS
To realise complex filter conditi­ons, each filter has two feedback inputs where filter events can be further processed. The special feature here is the possibility of delay (delay time), conditional evaluation (pass condition) and hold time.
F1: Filter 1 F2: Feedback input of filter 2. f1: F1output event, input event
of F
2
f2: Output of the feedback input
of F
2
With a pass condition = thru, the effective hold time of f2can
be extended by any time by sub­sequent events of f1 (retriggering).
f2in this case is not released until thold after the last falling
edge of f1.
OPERATION
OPERATION
4
39
Monitoring System
Rack Monitoring System
4.10
MESSAGE LOG
The messages are displayed with the number, priority, acknowled­gement, spent time and filter description.
A maximum of the 15 last messages can be displayed.
[A] A
CKNOWLEDGE
Select message acknowledged (mark with x).
[-] P
REVIOUS M
ESSAGE
Selection pointer to previous message.
[+] N
EXT MESSAGE
Selection pointer to next message.
[?] H
ELP
Explanation of the menu items.
[Q] Q
UIT
Jump back to the previous menu.
EXAMPLE CONFIGURATION
EXAMPLE CONFIGURATION
5
Rack
Preconfigured filters with an example of terminal assign­ment.
• Connect sensors to the suggested terminals.
Example of filter configuration using filter 1 (temperature).
• Activate the filter by setting the respective effect to “thru” or “invert” (preset: “off”).
• Make individual settings (effect, warnings, …) for each filter required. See also > 4.9.2.
Examples of filter settings
TEMPERATURE/HUMIDITY input 1 with simple comparison: Alarm if temperature > 35 °C. TEMPERATURE/HUMIDITY input 2 with window comparison: Alarm if temperature < 5 °C or > 45 °C. See also > 4.9.4.
When the RMS is delivered, the most common applications (descri­bed in part in the following) have been preconfigured so that com­missioning involves setting fewer parameters.
EXAMPLE CONFIGURATION
EXAMPLE CONFIGURATION
5
41
Monitoring System
Rack Monitoring System
TEMPERATURE/HUMIDITY input 3 with window comparison: Alarm if humidity < 35 % or > 60% relative humidity. See also > 4.9.4.
MAINS inputs 1 to 3 with window comparison: Alarm if U < 200 V or U > 245 V.See also > 4.9.4.
ALERT IN inputs 1 and 2: Alarm if smoke detector or vibra­tion sensor operate. See also > 4.9.3.
UPS IN inputs 1 and 2: Alarm if UPS 1 or 2 reports power failure. See also > 4.9.3.
EXAMPLE CONFIGURATION
EXAMPLE CONFIGURATION
5
Rack
DIGITAL IN input 1: Alarm if passive infrared sensor operates. See also > 4.9.3.
DIGITAL IN input 2: Alarm if door is open for longer than 60 s. In the Filter Configuration menu, set effect to “thru” for filter 7. In the Feedback Input menu, set effect to “thru” for filter 8. See also > 4.9.5.
EXAMPLE CONFIGURATION
EXAMPLE CONFIGURATION
5
43
Monitoring System
Rack Monitoring System
Limited alarm duration for filter 4: Internal buzzer active for 5 seconds if filter 4 (smoke and shock sensor) is active Set input for filter 10 Effect to “thru” in the Feedback menu..
Specimen output configuration
Additional fan on DIGITAL OUT 1: activated if filter 1 trips (temperature). Signal horn on DIGITAL OUT 2: activated if filter 4 (smoke or shock) or filter 6 (passive infra red) trip. Second fan on DIGITAL OUT 3 with hysteresis for tempe­rature 1: switch on fan if tempe­rature 1 > 37 °C and do not switch off until temperature 1 < 25 °C.
EXAMPLE CONFIGURATION
EXAMPLE CONFIGURATION
5
Rack
Two filters are required for this (copy of an RS flip-flop using NOR gate array).
MALFUNCTIONS
MALFUNCTIONS
6
45
Monitoring System
Rack Monitoring System
Caution
In the event of malfunctions
System no longer starts.
The “Fault” LED lights up, the sensors do not work, “Overload”
is displayed in the LCD display.
If the malfunction still occurs after performing the remedial measures
If, during operation, the “Power” LED goes out or smoke or an abnor­mal smell is ascertained,
• Unplug the power cable.
• Please contact your dealer.
• Check whether your system is properly set up (> 3).
Cause: Current operating software faulty.
Remedy:
• Ensure that a correctly configured (> 4.1.2 ) terminal is connected to the COM interface on the front of the device or on the back.
• Press the Reset key on the front of the device with a pointed object. The device will reboot. The following boot messages appear on the terminal screen:
RMS-BIOS version 1.0.03 (c) LINDY-Elektronik GmbH 1998 Memory Test : 00004096k Ok Status of IDE : Ok Drive 0 : MZX023157, (C/H/S) : 123/2/32 Drive 1 : Not detected. Probing...[NE*000] NE*000 base 0x0300, addr 00:10:6C:00:04:41 LILO
------------------------------------------------­RMS - Rack Monitoring System System is ready to boot. You may choose your old image by pressing 'o'.
------------------------------------------------­boot: <TAB> r RMS-Boot o RMS-Old boot: o <ENTER> Loading o Linux version 2.1.97 (root@PC14) (gcc version 2.7.2.1) #7 SMP Tue May 5 10:26:58 Calibrating delay loop... 3.70 BogoMIPS
• If, during the boot: display, the keys o and Return on the terminal keyboard are pressed, the system boots with the last valid operating software (otherwise it boots again with the current version, which is faulty here).
• Load the current operating software from the Internet and update the system(> 4.4.3).
Cause: Auxiliary voltage interruption in connection with overload or short circuit in the sensor cable.
Remedy:
• Confirm the “Overload” message in the LCD display with the ENTER key.
• Remove the overload or short circuit.
• Switch the auxiliary voltage back on in the “Aux.Volt.”(>4.3) menu
with the ENTER key.
• Please contact technical support (> 1.4) or your dealer.
7
TECHNICAL DATA
TECHNICAL DATA
Rack
RMS dimensions
Weight
Rated voltage
Rated frequency
Rated current
Protection class
Rated ambient temperature
External (WxDxH): 483 x 223 x 43.6mm Mounting dimensions (WxDxH): 445 x 218 x 43.6mm
3.5 kg
AC 110 – 230 V
50/60 Hz
200 mA
I
5 . . . 35 °
GLOSSARY
GLOSSARY
8
47
Monitoring System
Rack Monitoring System
19" Construction
Broadcast
EMC
FAQ
Gateway
HE
IP
MIB
Netmask
RFC
SNMP
TFTP
Trap
URL
VDE
19-inch construction is the common name for a standardised modular system for electronic devices and system parts. It specifies the width of the front panel of plug-in units and subracks.
General, network-wide information.
Abbreviation for Electromagnetic Compatibility.
Abbreviation for Frequently Asked Questions. The most frequent questions and problems on a subject are listed under FAQ on the Internet.
Junction between network segments or networks, also with different protocols.
Height classification dimension of 44.45 mm = 1 HE (1 U). From 19" technology.
Abbreviation for Internet Protocol. Standardised protocol for data transmission and on the Internet for addressing computers. An IP address consists of a combination of 4 Bytes written as follows: A.B.C.D (for example, 192.168.0.88). For more information, see RFC.
Abbreviation for Management Information Base. Data structure which contains information on the SNMP agent.
Used to divide the IP address into network address and interface address.
Abbreviation for Request For Comment. RFCs are the official form of publication of Internet standards and other technical documents on the Internet. Rules for formatting and publis­hing RFCs themselves are laid down in RFC 1543.
Abbreviation for Simple Network Management Protocol. Established protocol for the exchange of management information. Standard RFCs on SNMP are RFC 1155, RFC 1157 and RFC 1213.
Trivial File Transfer Protocol Simple protocol in IP-based networks for sending and receiving files.
(Alarm) message from an SNMP agent to the management environ­ment.
Abbreviation for Universal Resource Locator. Full Internet address.
Abbreviation for Verband Deutscher Elektrotechniker (Association of German Electrotechnical Engineers).
APPENDICES
APPENDICES
Rack
A1
Conformity Manufacturer LINDY-Elektronik GmbH
Markircher Str. 20 D-68229 Mannheim, Germany
Product designation Data Terminal Equipment Model Remote Managment System
The product conforms to the regulations of the following EU Directive: 73/23/EEC.
The conformity of the product to the requirements of Directive 89/336/EEC was tested using the following standards: EN 55022/Kl. B; EN 55024; EN 61000-4-2; EN 61000-3; EN 61000-4; EN 61000-6.
Tested to Comply With FCC Standards For Commercial Use Only
FCC Compliance Statement (United States)
This equipment generates, uses and can radiate radio frequency energy and if not instal­led and used properly, that is, in strict accordance with the manufacturer’s instructions, may cause interference to radio communication. It has been tested and found to comply with the limits for a class A computing device in accordance with the specifications in Part 15 of FCC rules, which are designed to provide reasonable protection against such inter­ference when the equipment is operated in a commercial environment. Operation of this equipment in a residential area may cause interference, in which case the user at his own expense will be required to take whatever measures may be necessary to correct the interference. If this equipment causes interference, what can be determined by turning the equipment on and off, the user is encouraged to try to correct the interference by one or more of the following measures: a) Reorient or relocate the receiving antenna. b) Increase the separation between the equipment and receiver. c) Connect the equipmment to an outlet on a circuit different from that
to which the receiver is connected.
d) Consult the dealer or an experienced radi/TV technician
FCC WARNING
Changes or modifications not expressly approved by the manufacturer could void the user’s authority to operate the equipment under FCC Rules.
Canadian Department of Communications RFI statement
This equipment does not exceed the class A limits for radio noise emissions from digital apparatus set out in the radio interference regulations of the Canadian Department of Communications.
Le présent appareil numérique n’émet pas de bruits radioélectriques dépassant les limites applicables aux appareils numériques de la classe A prescrites dans le règlement sur le
brouillage radioélectriques publié par le ministère des Communications du Canada
APPENDICES
APPENDICES
49
Monitoring System
Rack Monitoring System
A2
DOCUMENTATION OF THE SYSTEM CONFIGURATION
• Mark the cables of your RMS at both ends clearly with meaningful markings.
Use cable binders with marking areas or labels with sealing film.
• The following block diagram (master) can be used for documenta­tion of the filter configuration
APPENDICES
APPENDICES
Rack
A3
EXPLANATION OF THE MIB FOR RMS
Structure of the MIB
Key to the following Tables: INT Integer CNT Counter DS Display String OS Octet String TT TimeTicks RO Read Only RW Read Write
Objects under RMS system
(1.3.6.1.4.1.1909.10.1)
for example Reset RMS
1.3.6.1.4.1.1909.10.1.4.0 := 1
The RMS can be accessed under the OID 1.3.6.1.4.1.1909. (iso.org.dod.internet.private.enterprises.infratec.rms)
rms
1 rmssystem 2 input
1 digitalInTable 2 alertInTable 3 upsInTable
3 output
1 outputTable 2 outputLogicTable
4 temp
1 tempTable
5 humid
1 humidTable
6 mains
1 mainsTable
7 filter
1 filterTable 2 filterDigitalInTable 3 filterAlertInTable 4 filterUPSINTable 5 filterTempTable 6 filterHumidityTable 7 filterMainsTable 8 filterFeedbackTable
8 message
1 messageTable
9 user
1 userTable 20 aux 21 icc
Variable Type Value Access
1 systemVersion DS RO 2 systemSNMPsave INT { default (1), RW
save (2) }
3 systemMsgToSyslog INT { msglog-off (1) RO
msglog-on (2) }
4 systemReset INT { default (1), RW
reset (2) }
5 systemSNMPaccess INT { readonly (1), RO
readwrite (2) }
10
10
The complete MIB in ASN.1­Notation is on the enclosed CDROM as the file “RMS MIB”
APPENDICES
APPENDICES
51
Monitoring System
Rack Monitoring System
Objects under
digitalInTable
(1.3.6.1.4.1.1909.10.2.1)
for example: number of changes of input 9:
1.3.6.1.4.1.1909.10.2.1.1.5.9
Objects under
alertInTable
(1.3.6.1.4.1.1909.10.2.2)
for example : Reset sensors on Alert In 2
1.3.6.1.4.1.1909.10.2.2.1.3.2 := 1
Object under ups I
NTABLE
(1.3.6.1.4.1.1909.10.2.3)
Variable Type Value Access
1 digitalInEntry
1 digitalInIndex INT RO
2 digitalInDescr DS RW
3 digitalInState INT { off (1), on (2)} RO
4 digitalInLastChange TT RO
5 digitalInChanges CNT RO
Variable Type Value Access
1 alertInEntry 1 alertInIndex INT RO 2 alertInDescr DS RW 3 alertInState INT {off (1), on (2)} RO 4 alertInLastChange TT RO 5 alertInChanges CNT RO 6 alertInReset INT {default (1) RW
alertIn-reset (2)}
Variable Type Value Access
1 upsInEntry 1 upsInIndex INT RO 2 upsInDescr DS RW 3 upsInState INT {off (1), on (2)} RO 4 upsInLastChange TT RO 5 upsInChanges CNT RO
APPENDICES
APPENDICES
Rack
Objects under outputTable
(1.3.6.1.4.1.1909.10.3.1)
for example: Read put description DIGITAL OUT 4:
1.3.6.1.4.1.1909.10.3.1.1.2.4
Objects under
outputLogicTable
(1.3.6.1.4.1.1909.10.3.2)
Objects under tempTable
(1.3.6.1.4.1.1909.10.4.1)
for example: Read out current temperture of temperature sensor 1:
1.3.6.1.4.1.1909.10.4.1.1.3.1
Objects under humidTable
(1.3.6.1.4.1.1909.10.5.1)
Variable Type Value Access
1 outputEntry
1 outputIndex INT RO 2 outputDescr DS RW 3 outputEffect INT {off (1), on (2), RW
thru (3), invert (4)}
4
outputLastChange
TT RO
5
outputChanges
CNT RO
6 outputLogic INT {and (1), or (2)} RW 7 outputState INT {open (1), short(2)} RO
Variable Type Value Access
1 outputLogicEntry
1
outputLogicOutputIndex
INT RO
2
outputLogicFilterIndex
INT RO
3 outputLogicFilter INT
{off(1),on(2)}
RW
Variable Type Value Access
1 tempEntry
1 tempIndex INT RO
2 tempDescr DS RW
3 tempValue INT {no-sensor (665)} RO
Variable Type Value Access
1 humidEntry
1 humidIndex INT RO
2 humidDescr DS RW
3 humidValue INT { no-sensor (255) } RO
APPENDICES
APPENDICES
53
Monitoring System
Rack Monitoring System
Objects under mainsTable
(1.3.6.1.4.1.1909.10.6.1)
Objects under filterTable
(1.3.6.1.4.1.1909.10.7.1)
for example: allow confirmation for filter 4
1.3.6.1.4.1.1909.10.7.1.1.9.4 := 1
Objects under
filterDigitalInTable
(1.3.6.1.4.1.1909.10.7.2)
for examle : Make DIGTIAL INPUT 2 act on filter 6:
1.3.6.1.4.1.1909.10.7.2.1.3.6.2
Variable Type Value Access
1 mainsEntry
1 mainsIndex INT RO 2 mainsDescr DS RW 3 mainsValue INT RO
Variable Type Value Access
1 filterEntry
1 filterIndex INT RO 2 filterDescr DS RW 3 filterResult INT {false (1), true (2)} RO 4 filterEffect INT {off (1), thru (2), RW
invert (3)}
5 filterTrap INT {no (1), once (2), RW
repeat (3) }
6 filterLED INT {no (1), yes (2)} RW 7 filterBuzzer INT {no (1), yes (2)} RW 8 filterMessagePriority INT {no-message (1), RW
priority-warning (2), priority-critical (3)}
9 filterConfirmation INT {disabled (1), RW
enabled (2) }
10
filterReactivationTime
INT {no-timeout (1)} RW
11 filterConfirm INT {not-confirmed (1), RW
confirmed (2) }
Variable Type Value Access
1 filterDigitalInEntry
1 filterDigitalInIndex
INT RO
2 filterDigitalInPort
INT RO
3 filterDigitalInEffect
INT {off (1), thru (2), RW
invert (3) }
APPENDICES
APPENDICES
Rack
Objects under
filterAlertInTable
(1.3.6.1.4.1.1909.10.7.3)
Objects under
filterUPSInTable
(1.3.6.1.4.1.1909.10.7.4)
Objects under
filterTempTable
(1.3.6.1.4.1.1909.10.7.5)
for example: Exclude TEMPERATURE/HUMIDITY input from Filter 1
1.3.6.1.4.1.1909.10.7.5.1.3.1.2 := 0
Objects under
filterHumidityTable
(1.3.6.1.4.1.1909.10.7.6)
Variable Type Value Access
1 filterAlertInEntry
1 filterAlertInIndex INT RO 2 filterAlertInPort INT RO 3 filterAlertInEffect INT {off (1), thru (2), RW
invert (3) }
Variable Type Value Access
1 filterUPSInEntry
1 filterUPSInIndex INT RO 2 filterUPSInPort INT RO 3 filterUPSInEffect INT {off (1), thru (2), RW
invert (3) }
Variable Type Value Access
1 filterTempEntry
1 filterTempIndex INT RO 2 filterTempSensor INT RO 3 filterTempEffect INT {off (1), thru (2), RW
invert (3) }
4 filterTempAThres INT RW 5 filterTempAMode INT {off (1), greater (2), RW
less (3) }
6 filterTempBThres INT RW 7 filterTempBMode INT {off (1), greater (2),RW
less (3) }
Variable Type Value Access
1 filterHumidityEntry
1 filterHumidityIndex INT RO 2 filterHumiditySensor INT RO 3 filterHumidityEffect INT {off (1), thru (2), RW
invert (3) }
4 filterHumidityAThres INT RW 5 filterHumidityAMode INT {off (1), greater (2), RW
less (3) }
6 filterHumidityBThres INT RW 7 filterHumidityBMode INT {off (1), greater (2), RW
less (3) }
APPENDICES
APPENDICES
55
Monitoring System
Rack Monitoring System
Objects under
filterMainsTable
(1.3.6.1.4.1.1909.10.7.7)
Objects under
filterFeedbackTable
(1.3.6.1.4.1.1909.10.7.8)
For example: Feedback input 1 of filter 8 is only to operate if the event is still applied:
1.3.6.1.4.1.1909.10.7.8.1.5.8.1 := 1
Objects under
messageTable
(1.3.6.1.4.1.1909.10.8.1)
For example: Read out filter description from message 5:
1.3.6.1.4.1.1909.10.8.1.1.3.5
Variable Type Value Access
1 filterMainsEntry
1 filterMainsIndex INT RO 2 filterMainsSensor INT RO 3 filterMainsEffect INT {off (1), thru (2), RW
invert (3) }
4 filterMainsAThres INT RW 5 filterMainsAMode INT {off (1), greater (2), RW
less (3) }
6 filterMainsBThres INT RW 7 filterMainsBMode INT {off (1), greater (2),RW
less (3) }
Variable Type Value Access
1 filterFeedbackEntry
1 filterFeedbackIndex INT RO 2 filterFeedbackInput INT RO 3 filterFeedbackInFilter INT RW 4 filterFeedbackDelay INT RW 5 filterFeedbackPassCond INT { thru (1), RW
conditional (2) }
6 filterFeedbackHold INT RW 7 filterFeedbackEffect INT { off (1), on (2), RW
invert (3) }
Variable Type Value Access
1 messageEntry
1 messageIndex INT RO 2 messageFilter INT RO 3 messageFilterDescr DS RO 4 messageTime TT RO 5 messagePriority INT {no-message (1), RO
warning (2), critical (3) }
6 messageAcknowledged INT {not-acknow- RW
ledged (1), acknowledged (2) }
APPENDICES
APPENDICES
Rack
Objects under userTable
(1.3.6.1.4.1.1909.10.9.1)
Objects under aux
(1.3.6.1.4.1.1909.10.20)
Objects under icc
(1.3.6.1.4.1.1909.10.21)
Variable Type Value Access
1 userEntry
1 userIndex INT RO 2 userName DS RO 3 userRight INT { readonly (1), RO
read-write (2)}
4 userChipcardKey DS RO 5 userChipcardAccess INT { denied (1), RO
granted (2) }
Variable Type Value Access
1 auxDevice INT { no-device (1), RO
chipcardreader (2) }
2 auxDeviceName DS RO
Variable Type Value Access
1 readerConnected INT { no (1), yes (2) } RO 2 readerCardInside INT { no (1), yes (2) } RO 3 readerCardKey DS RO 4 readerLEDcolor INT { red (1), green (2) RO
yellow (3) }
5 openerLogic INT { break (1), make (2) } RO 6 openerOpenTime INT RO 7 openerState INT { closed (1), open (2) } RO
APPENDICES
APPENDICES
57
Monitoring System
Rack Monitoring System
A4
GNU GENERAL PUBLIC LICENSE
Version 2, June 1991, Copyright (C) 1989, 1991 Free Software Foundation, Inc., 59 Temple Place ­Suite 330, Boston, MA 02111-1307, USA
Everyone is permitted to copy and distribute ver­batim copies of this license document, but chan­ging it is not allowed.
Preamble
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TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
0 This License applies to any program or other work which contains a notice placed by the copyright
holder saying it may be distributed under the terms of this General Public License. The "Program", below, refers to any such program or work, and a "work based on the Program" means either the Program or any derivative work under copyright law: that is to say, a workcontaining the Program or a portion of it, either verbatim or with modifications and/or translated into another language. (Hereinafter, translation is included without limitation in the term"modification".) Each licensee is addressed as "you". Activities other than copying, distribution and modification are not covered by this License; they are outside its scope. The act of running the Program is not restricted, and the output from the Program is covered only if its contents constitute a work based on the Program (independent of having been made by running the Program). Whether that is true depends on what the Program does.
1 You may copy and distribute verbatim copies of the Program's source code as you receive it, in any medium, provided that you conspicuously and appropriately publish on each copy an appropriate copy­right notice and disclaimer of warranty; keep intact all the notices that refer to this License and to the absence of any warranty; and give any other recipients of the Program a copy of this License along with the Program. You may charge a fee for the physical act of transferring a copy, and you may at your opti­on offer warranty protection in exchange for a fee.
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3 You may copy and distribute the Program (or a work based on it, under Section 2) in object code or executable form under the terms of Sections 1 and 2 above provided that you also do one of the fol­lowing: a) Accompany it with the complete corresponding machine-readable source code, which must be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or, b) Accompany it with a written offer, valid for at least three years, to give any third party, for a charge no more than your cost of physically performing source distribution, a complete machine-readable copy of the corresponding source code, to be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or, c) Accompany it with the information you received as to the offer to distribute corresponding source code. (This alternative is allowed only for noncommercial distribution and only if you received the pro­gram in object code or executable form with such an offer, in accord with Subsection b above.) The sour­ce code for a work means the preferred form of the work for making modifications to it. For an exe­cutable work, complete source code means all the source code for all modules it contains, plus any asso­ciated interface definition files, plus the scripts used to control compilation and installation of the exe­cutable. However, as a special exception, the source code distributed need not include anything that is normally distributed (in either source or binary form) with the major components (compiler, kernel, and so on) of the operating system on which the executable runs, unless that component itself accompanies the executable. If distribution of executable or object code is made by offering access to copy from a designated place, then offering equivalent access to copy the source code from the same place counts as distribution of the source code, even though third parties are not compelled to copy the source along with the object code.
4 You may not copy, modify, sublicense, or distribute the
Program except as expressly provided
APPENDICES
APPENDICES
Remo
Rack
under this License. Any attempt otherwise to copy, modify, sublicense or distribute the Program is void, and will automatically terminate your rights under this License. However, parties who have received copies, or rights, from you under this License will not have their licenses terminated so long as such par­ties remain in full compliance.
5 You are not required to accept this License, since you have not signed it. However, nothing else grants you permission to modify or distribute the Program or its derivative works. These actions are pro­hibited by law if you do not accept this License. Therefore, by modifying or distributing the Program (or any work based on the Program), you indicate your acceptance of this License to do so, and all its terms and conditions for copying, distributing or modifying the Program or works based on it.
6 Each time you redistribute the Program (or any work based on the Program), the recipient automati­cally receives a license from the original licensor to copy, distribute or modify the Program subject to these terms and conditions. You may not impose any further restrictions on the recipients' exercise of the rights granted herein. You are not responsible for enforcing compliance by third parties to this License.
7 If, as a consequence of a court judgment or allegation of patent infringement or for any other reason (not limited to patent issues), conditions are imposed on you (whether by court order,agreement or otherwise) that contradict the conditions of this License, they do not excuse you from the conditions of this License. If you cannot distribute so as to satisfy simultaneously your obligations under this License and any other pertinent obligations, then as a consequence you may not distribute the Program at all. For example, if a patent license would not permit royaltyfree redistribution of the Program by all those who receive copies directly or indirectly through you, then the only way you could satisfy both it and this License would be to refrain entirely from distribution of the Program. If any portion of this section is held inva­lid or unenforceable under any particular circumstance, the balance of the section is intended to apply and the section as a whole is intended to apply in other circumstances. It is not the purpose of this section to induce you to infringe any patents or other property right claims or to contest validity of any such claims; this section has the sole purpose of protecting the integrity of the free soft­ware distribution system, which is implemented by public license practices. Many people have made generous contributions to the wide range of software distributed through that system in reliance on consistent applicati­on of that system; it is up to the author/donor to decide if he or she is willing to distribute software through any other system and a licensee cannot impose that choice. This section is intended to make thoroughly clear what is believed to be a consequence of the rest of this License.
8 If the distribution and/or use of the Program is restricted in certain countries either by patents or by copyrighted interfaces, the original copyright holder who places the Program under this License may add an explicit geographical distribution limitation excluding those countries, so that distribution is permit­ted only in or among countries not thus excluded. In such case, this License incorporates the limitation as if written in the body of this License.
9 The Free Software Foundation may publish revised and/or new versions of the General Public License from time to time. Such new versions will be similar in spirit to the present version, but may differ in detail to address new problems or concerns. Each version is given a distinguishing version number. If the Program specifies a version number of this License which applies to it and "any later version", you have the option of following the terms and con­ditions either of that version or of any later version published by the Free Software Foundation. If the Program does not specify a version number of this License, you may choose any version ever published by the Free Software Foundation.
10 If you wish to incorporate parts of the Program into other free programs whose distribution conditi­ons are different, write to the author to ask for permission. For software which is copyrighted by the Free Software Foundation, write to the Free Software Foundation; we sometimes make exceptions for this. Our decision will be guided by the two goals of preserving the free status of all derivatives of our free software and of promoting the sharing and reuse of software generally.
NO WARRANTY
11 BECAUSE THE PROGRAM IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE PRO-
GRAM, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WAR­RANTY OF ANY KIND, EITHER EXPRESSEDOR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
12 IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSE­QUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
Remote Management System
Monitoring System
Rack Monitoring System
PRODUCT MATRIX
PRODUCT MATRIX
59
Type RMS LITE RMS ADVANCED
Feature Speed 25 mhz 33 mhz Flash 8mb 32mb Housing 19” IHE 19” IHE Front LCD Display no yes Front Keypad no yes Status LED’s yes yes Buzzer yes yes Power supply range 110/230 V AC 110/230 V AC DC, optional 48 V DC 48 V DC Internal voltage supply for all sensors yes yes Ethernet-Port 10 Mbit 10 Mbit DHCP no yes Telnet yes yes SSH no no HTTP yes yes HTTPS no no SNMP (get , set, trap) yes yes TFTP yes yes Mains Voltage measurement 1 3 Digital Out 4 4 Digital In 8 8 Alert In - 4 Temperature / humidity 4 4 UPS In / Digital In 9 & 10 - 2 Com port Front 1 1 Com port Rear - 1 VT 100 yes yes AUX port 1 1 Free programmable filters 12 40 Number of users 12 99 Email function no yes Time server function no yes Syslog function yes yes Chipcard function yes yes Proximity reader no yes USV support no yes activation of external power socket outlets yes yes
Rack
International & Eire
LINDY International Ltd. Sadler Forster Way Teesside Industrial Estate, Thornaby Stockton-on-Tees TS17 9JY, England Tel: +44 1642 - 754020 Fax: +44 1642 - 754029 E-Mail: Postmaster@lindy.com
Italia
LINDY Italia S.r.l. Via Varesina, 126/B 22079 - Villa Guardia (CO) Tel: 031 48 40 11 Fax: 031 48 06 52 E-Mail: italia@lindy.it Supporto Tecnico: supporto.tecnico@lindy.it
France
LINDY France Sarl 6 rue Rapp CS 31015 67451Mundolsheim Cedex Services clients Tél: 0 825 825 111 Fax: 03 88 20 57 74 Services administratifs: Tél: 03 88 20 04 66 E-Mail: france@lindy.fr
Australia
LINDY Australia Pty Ltd Unit 2, 43-49 Sandgate Road AU- 4010 Albion Qld Tel: 07 3262 9033 Fax: 07 3262 9055 E-Mail: info@lindy.com.au
USA
LINDY Computer Connection Technology Inc. 16214 Phillips Road Athens, AL 35613 Tel: (256) 771-0660 Fax: (256) 771-0460 E-Mail: usa@lindy-usa.com
Great Britain
LINDY Electronics Ltd. Sadler Forster Way Teesside Industrial Estate, Thornaby Stockton-on-Tees TS17 9JY, England Tel: 01642 - 754000 Sales Fax: 01642 - 765274 General Fax: 01642 - 754027 E-Mail: Postmaster@lindy.co.uk
Schweiz / Suisse / Svizzera
LINDY-Elektronik AG Florenzstrasse 9 CH-4023 Basel 67451Mundolsheim Cedex Services clients Tel: 061 335 97 00 Fax: 061 335 97 09 E-Mail: info@lindy.ch
Deutschland
LINDY-Elektronik GmbH Markircher Str. 20 68229 Mannheim Tel: 0621.47 005-0 Fax: 0621.47 00 5-0 E-Mail: info@lindy.de
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