Universal fault annunciator for panel mounting Communication over Ethernet USM - Universal-fault annunciator for panel mounting Low depth housing for panel mounting Versions with 8, 16, 32 or 48 inputs Sealed front panel, protection class IP 54 Integrated buttons, function inputs and relay outputs Networkable over Ethernet IP-Structures Self-monitoring Software parameterisation per PC or over USS Web-Interface All common reporting procedures can be realised Signal and operating voltage ranges 12 V 250 V AC/DC Very bright LED with large reading angle and a wide range of colours Plug-in screw terminals Pockets for individual LED and button labels 21.01.2012 Datasheet MSM-USM-DB-UK-002
msm-usm General system description The universal-fault annunciator USM was developed especially for facilities which are networked by Ethernet structures and it is based on the approved BSM fault annunicator family. USM are available in 4 different versions: 1. System devices a. Acquisition device for acquiring messages over galvanical inputs, as well as the indication and transmission over Ethernet to a Universal fault annunciating server (USS) by a probrietary communication protocol. b. Indication device for display of fault messages, which are provided over the Ethernet interface of the Universal fault annunciating server by a probrietary communication protocol. c. Universal fault annunciating server USS with processing logic and mapping of acqiured and formed messages to indication devices and also to the IEC interface. Transmission to a superior system Indication device Acquisition device 2. Fault annunciating devices with normed interface a. Acquisition device for acquiring messages over galvanical inputs, as well as the indication and forwarding over Ethernet interface with the IEC 60870-5-104 protocol. Transmission to a superior system Page 2 of 12
universal fault annunciator for panel mounting b. Indication device for display of fault messages, which are provided by arbitrary automatisation devices over the Ethernet-interface by the IEC 60870-5-104 protocol. Acquisition and indication devices The fault annunciator for panel mounting are produced with 8, 16, 32 or 48 channels. The sealed front face comprises 4 buttons and the LED-displays. The fault annunciator is structured into groups of 8 messages each. All fault annunciators have an Ethernet interface in common, which can be used as protocol interface by proprietary protocol or IEC 60870-5-104. A windows based PC-program is provided for the parameterisation. Herewith the common alarm sequences, input processings, formation of collective reports and horn control can be set, beside protocol parameters, IP address and the assignment to the information object addresses. Customer-specific fault reporting procedures can be preset in the factory. The parameterisation can be done via the RS232-interface or by Ethernet via Telnet-Port. When using the optional USS fault annunciating server, the attached acquisition and indication modules can be configured on alternative via standard internet browser by the integrated webserver of the USS. Message inputs Reporting groups LED colours Buttons Function inputs Relay outputs Collective report According to the design variant the fault annunciator has message inputs, which can be specified with different voltages. They can be preprocessed or receive its messages from the protocol interface. 8 reporting inputs are consolidated to form a reporting group featuring 8 LED displays and a common label pocket. red, green, yellow, white or blue (mixed configuration available on request) The function of the four buttons that are integrated in the front panel depends on the implemented reporting procedure (e.g. message acknowledgement, reset, lamp test etc.) The two function inputs of the fault annunciator are used according to the selected reporting procedure, e.g. external acknowledgement. 4 change-over contacts 1 x live contact / malfunction 3 x message-specific function (e.g. collective report 1, collective report 2, horn etc.) The function of the collective report depends on the parametrization procedure and is specified in the type data sheet. Page 3 of 12
Msm-usm Self-monitoring Softwareparameterising The fault annunciator has an integrated self-monitoring signalling fault-free function via LED and relay contact. Possibly connected expansion modules are also monitored. The fault annunciators can be parameterised with a PC program based on Windows. Transferring the parameters is done via connection between RS-232 COM-port and service- and parameterisation interface of the USM or by Ethernet via telnet port. Following parameters can be adjusted: IP-adress Protocol specific parameters Assignment of fault messages and alarming functions Reporting sequence with single- or double frequency flashing light First-up value or new value sequence Collective report static or dynamic Buttons and function inputs can be assigned on available relay outputs (e.g. acknowledgement or lamp test) If inputs available: Inputs configurable for NO- or NC contacts per each Response delay adjustable per input between 5 ms und 60 s Free assignment of inputs to reporting sequences and collective reports Automatic horn acknowledgement (adjustable horn duration time 1... 250 s) Message processing The function specification of a fault annunciator includes message processing, which is structured in three groups: Alarm sequence Formation of collective reports Horn control Alarm sequences Using the the PC program for parameterisation, reporting sequences can be build up from the following components: first-value or new-value sequence 1- or 2-frequency flashlight, steadylight-steadylight or operation fault indication If messages are used as indication displays, they must be parameterised as operation indicators. Default setting in the standard variant: new-value sequence with one frequency flash light and single acknowledgement Page 4 of 12
universal fault annunciator for panel mounting Collective reports The different fault reporting procedures use different options to form collective reports. In principle, the following variants may be used: Description static / parallel to input static / parallel to input / acknowledgeable static / parallel to output static / parallel to output / acknowledgeable static / dynamic / parallel to input static / dynamic / parallel to output dynamic Procedure The collective report is set with the first incoming message and resets with the last receding message. The collective report is set with the first incoming message and resets with the last receding message or when acknowledged. The collective report is set with the first incoming message. Once all messages have been gone and acknowledged the collective report is cancelled. The collective report is set with the first incoming message and reset independently from the state of the messages by the acknowledgement. The collective report is set with the first incoming message. For each further message, the collective report is cancelled for approx. 0.8 s and then set again. Once all messages have been receded, the collective report is cancelled permanently. The collective report is set with the first incoming message. For each further message, the collective report is cancelled for approx. 0.8 s and then set again. Once all messages have been receded and acknowledged, the collective report is deleted permanently. The collective report is activated for approx. 0.8 s with each incoming message. Default setting of the standard variant: Horn triggering static / parallel to input Function Selection Meaning Horn triggering (can be set via DIP switch) retriggerable The horn is retriggered by new incoming messages, even if messages are already present. not retriggerable The horn is retriggered for new incoming messages only if no messages are already present. Horn acknowledgement manual (continuous tone) The horn is acknowledged manually via a button or function input. automatic (pulse tone) The horn is acknowledged automatically according to the set time. manual with acknowledgement The horn is acknowledged together with the lamp acknowledgement via the acknowledgement button. There is no special horn acknowledgement. Horn locking none The horn can always be acknowledged. message acknowledgement The horn can only be acknowledged once the message has been acknowledged. Default setting of the standard variant: horn triggering selectable per DIP switch horn acknowledgement manual ( continous tone ) no horn lock Furthermore information about the integrated alarm sequences can be found in the separate documentation Alarm sequences of the EES-fault annunciators Document set SM-MA-ZI-DE. Page 5 of 12
Msm-usm Labelling The labelling of the USM is done by designation strips, which are inserted under the protective sheet after releasing the front frame. Designation templates are available in Word and pdf format. With the software parameterising variant the strips can be created directly from the parameterisation program. Universal fault annunciator (USS) The universal fault annunciator USS is able to be networked with acquisition fault annunciators and indication devices and is used for the following tasks: Fault annunciating server for up to 100 networkable fault annunciators Support of up to 3072 messages as plain text messages Selectable routing of acquired and formed messages to IEC-interface, indication modules and processing logic Forming of collective reports and relaying of selective parameterisable messages or collective reports per IEC 60870-5-101/-104 Plain text message buffer for 1000 messages ( ring buffer ) Centralised parameterisation over Web-Browser per network or DSL Service access over gateway per network or DSL Connection of additional indication modules per network with message input Technical data USM Supply voltage Key Rated voltage Voltage range Power consumption* USM 08 USM 16 USM 32 USM 48 0 12 V AC/DC 10 19 V DC 8 13 V AC < 4 W < 4,5 W < 6 W < 7 W 1 24 V AC/DC 19 37 V DC 14 26 V AC < 4 W < 4,5 W < 6 W < 7 W 2 48 V AC/DC 60 V DC 37 73 V DC 26 51 V AC < 4,5 W < 5 W < 6,5 W < 8 W 5 110 V AC/DC 220 V AC/DC 100 370 V DC 85 264 V AC < 5 W < 5,5 W < 7 W < 8 W Page 6 of 12
universal fault annunciator for panel mounting Signal voltage (if inputs are present) Key Rated voltage Voltage range Input resistance 0 12 V AC/DC 7 35 V AC/DC ~ 5 kω 1 24 V AC/DC 16 50 V AC/DC ~ 10 kω 3 48 V AC/DC 60 V AC/DC 28 75 V AC/DC ~ 22 kω 4 110 V AC/DC 55 130 V AC/DC ~ 70 kω H 125 V AC/DC 80 170 V AC/DC ~ 100 kω 5 220 V AC/DC 150 260 V AC/DC ~ 200 kω If not otherwise noted, the given information for alternating voltage are refering to a sinusoidal alternating voltage with a frequency of 50/60 Hz. General data Buffer time in the event of failure / short circuit 100 ms Response delay Standard variant pre-set in factory 5 ms... 60 s; standard 100 ms Software parameterisable variant adjustable (5 ms... 60 s) Flashing frequency Single frequency 2 Hz Slow flashing 0.5 Hz Load capacity of relay contacts 24... 250 V AC 2 A; 110 V DC 0.5 A; 220 V DC 0.3 A Ethernet-Connection 100 Base-T / RJ 45 Mechanical data Type Front frame H x W x D [mm] Front panel cut-out [mm] Depth with front frame and terminals [mm] Weight USM 08 96 x 96 x 100 91 x 91 +0,5 100 approx. 0,40 kg USM 16 96 x 96 x 100 91 x 91 +0,5 100 approx. 0,45 kg USM 32 96 x 192 x 100 91 x 185 +0,5 100 approx. 0,70 kg USM 48 96 x 287 x 100 91 x 282 +0,5 100 approx. 1,00 kg Mounting panel mounting Required installation depth 120 mm Minimal horizontal gap between 2 devices 15 mm Connection terminals pluggable Wire cross section rigid or flexible Without wire sleeves 0,2... 2,5 mm 2 With wire sleeves 0,25... 2,5 mm 2 Ambient environment Operating temperature -20 C... +60 C without condensation Storage temperature -20 C... +70 C without condensation Duty cycle 100 % Protection class at the front IP 54 Protection class at the rear IP 20 Humidity 75% r.h. max. on average over the year; up to 93% r.h. during 56 days; condensation during operation not permitted [Test: 40 C, 93% r.h. >4days] Page 7 of 12
Msm-usm Dielectric strength Voltage dielectric strength RS232 interface against Digital inputs 4 kv AC / 50 Hz 1 min Relay outputs 4 kv AC / 50 Hz 1 min Supply ( 110 / 230 V AC/DC ) 3 kv AC / 50 Hz 1 min Supply ( 12 / 24 / 48 V AC/DC ) 1 kv AC / 50 Hz 1 min relay contacts against each other 500 V / 50 Hz 1 min Impulse withstand strength RS232 interface against Digital inputs 2.5 kv; 1.2 / 50 μs; 0.5 J; acc. to IEC60255-5:2000 Relay outputs 2.5 kv; 1.2 / 50 μs; 0.5 J; acc. to IEC60255-5:2000 Supply 2.5 kv; 1.2 / 50 μs; 0.5 J; acc. to IEC60255-5:2000 relay contacts against each other 500 V; 1.2 / 50 μs; 0.5 J; acc. to IEC60255-5:2000 Electromagnetic compatibility Noise immunity acc. to DIN EN 61000-4-2:2001-12 DIN EN 61000-4-3:2008-06 DIN EN 61000-4-4:2005-07 DIN EN 61000-4-5:2007-06 DIN EN 61000-4-6:2008-04 DIN EN 61000-4-12:2007-08 Noise irradiation acc. to DIN EN 61000-3-3:2006-06 DIN EN 55011:2007-11 Technical data USS Mechanical data Assembly on C-DIN rail TS 35 acc. to EN60715:2001-09 Housing / Protection class ABS / IP 40 Terminals pluggable Wire cross section rigid or flexible Without wire sleeves 0,2 2,5 mm 2 With wire sleeves 0,25 2,5 mm 2 Operating and storage temperature -20 C... +60 C without condensation Humidity max. 95% non condensing Operation voltage Nominal operation voltage UB 24 V DC Operation voltage range 10 32 V DC Power consumption approx. 2,5 W Ethernet Connection 100 Base-T / RJ 45 Range with Twisted-Pair network cable 100 m Load on relays contacts 24 250 V AC 2 A; 110 V DC 0,5 A; 220 V DC 0,3 A EMC compatibility acc. to Noise immunity for industry areas EN 61000-6-2:2006-03 Static discharge (ESD) EN 61000-4-2:2001-12 Class 3 Electromagnetic fields EN 61000-4-3:2008-06 Class 3 Fast transients (BURST) EN 61000-4-4:2005-07 Class 3 Surge EN 61000-4-5:2007-06 Class 3 Conducted disturbance EN 61000-4-6:2008-04 Class 3 Voltage dips EN 61000-4-29: 2001-10 Noise emmission for industry areas EN 61000-6-4:2007-09 Radio disturbances EN 55011:2007-11 Class A Page 8 of 12
universal fault annunciator for panel mounting Terminal assignment Message inputs 1...8 Acqusition device 8 channels Functional inputs 1 and 2 Message inputs 9...16 Relays: Live Acqusition device 16 channels Functional inputs 1 and 2 Relays: Live Message inputs 25...32 Message inputs 17...24 Message inputs 9...16 Message inputs 1...8 Relays: Live Message inputs 1...8 Functional inputs 1 and 2 Acqusition device 32 channels Page 9 of 12
Msm-usm Terminal assignment Message inputs 41...48 Relays: Live Message inputs 33...40 Message inputs 25...32 Message inputs 17...24 Message inputs 9...16 Message inputs 1...8 Functional inputs 1 and 2 Acqusition device 48 channels Terminal assignment operation indicator Relays: Live Functional inputs 1 and 2 Example: Operation indicator 48 channels Page 10 of 12
universal fault annunciator for panel mounting Terminal assignment USS2010 Protocol-interface RS-232 Fault alarming relay SDP-interface Ethernet jack Dimensional drawing USS2010 approx. 70 Protocol interface IEC 60870-5-101 Ethernet - interface for IEC 60870-5-104 Communication to USM and parameterisation Dimensions in mm. Subject to changes without prior notice. Page 11 of 12
Msm-usm Order identification System integrated devices Article-No. Designation Detail 58U08E0AS0.. USM08E-00ECP-S0-.. Acquisition device 8 inputs 58U16E0AS0.. USM16E-00ECP-S0-.. Acquisition device 16 inputs 58U32E0AS0.. USM32E-00ECP-S0-.. Acquisition device 32 inputs 58U48E0AS0.. USM48E-00ECP-S0-.. Acquisition device 48 inputs 58U08A0AS0.X USM08A-00ECP-S0-.X Indication device 8 messages 58U16A0AS0.X USM16A-00ECP-S0-.X Indication device 16 messages 58U32A0AS0.X USM32A-00ECP-S0-.X Indication device 32 messages 58U48A0AS0.X USM48A-00ECP-S0-.X Indication device 48 messages 58USS2010 USS2010 Fault annunciating server with IEC 60870-5-101/104 Stand-alone devices with standard interface (IEC 60870-5-104 - substation) Article-No. Designation Detail 58U16E0HS0.. USM16E-00104-S0-.. Acquisition device 16 inputs 58U32E0HS0.. USM32E-00104-S0.. Acquisition device 32 inputs 58U48E0HS0.. USM48E-00104-S0.. Acquisition device 48 inputs 58U48A0HM0.X USM48A-00104-M0-.X Indication device 48 messages The. are wildcards for the supply- and respective signalvoltage according to the voltage keys in the technical data section. Please specify them when placing your order. Kontakt Contact Elektra Elektronik GmbH & Co Störcontroller KG Hummelbühl 7-9 71522 Backnang Germany Tel.: +49 (0) 7191/182-0 Fax: +49 (0) 7191/182-200 E-Mail: info@ees-online.de Internet: www.ees-online.de