LUCAS-BENNING World Class Power Solutions With compliments Helmut Singer Elektronik www.helmut-singer.de info@helmut-singer.de fon +49 241 155 315 fax +49 241 152 066 Feldchen 16-24 D-52070 Aachen Germany World Class Power Solutions MPR-Systems Mini Power Racks 1200 W - 8100 W
2 BENNING World Class Power Solutions Mini Power Racks High density, compact design General Information The MPR (Mini Power Rack) family of products can be used for wide array of telecommunications applications. Featuring wide input voltage and operational temperature ranges the MPR family support global indoor and outside plant applications. The system carrier provides the system communications, distribution interface and has been designed to support the wide array of hot-plug rectifier modules for simple system expansion. Rectifier modules Each hot-plug rectifier is designed to support a constant power characteristic typical of today s telecom loads. This results in a reduced number of rectifier modules and higher output current of up to 20% during the battery recharge cycle. The hot-plug rectifiers are quickly and easily user installed and removed without effecting the system operation. Mini Power Rack Features: Mains Voltage Range: 90 V 264 V (MPR 1200 und 2600) 176 V 264 V (MPR 5400 und 8100) Simple installation and maintenance via hot-plug technology Compact design Integrated infrastructure,( battery fuses, low voltage disconnect, load fuses or breakers) Wide operating temperature range: -33 to +55 C (MPR1200 and MPR2600) -5 to +45 C (MPR5400 and MPR8100) Front panel LCD display (current, voltage, temperature, etc) Data communications via a serial interface. Alarm and System monitoring The MPR systems alarms are monitored via the system MCU. The MPR1200 and 2600 system are available with either basic or MCU monitoring while the MPR5400 and 8100 feature MCU monitoring only. The two monitoring options allow the system to be optimally configured to meet specific application requirements. Each monitor allows the specification of which alarms constitute Urgent (Major) or Non Urgent (Minor) alarm messages. Remote indication of these alarms can be made via potential free alarm contacts. Each system includes front panel LEDs and the LCD display detailing system conditions and measured values. (e.g. current, voltage, temperature) MPR 1200 MPR 2600 57,2 132,5 57,2 257 MPR 1200 MPR 2600 299 With compliments Helmut Singer Elektronik www.helmut-singer.de info@helmut-singer.de fon +49 241 155 315 fax +49 241 152 066 Feldchen 16-24 D-52070 Aachen Germany
4 BENNING World Class Power Solutions Flexible DC Distribution Options Distribution DC Distribution provides the system DC load and batteries connections. Each system supports dual battery strings connected via the supplied fuses or breakers. The MPR1200 and MPR2600 also feature a convenient connection point for a temporary battery string, which can be used during battery services. DC loads for the MPR1200 and 2600 systems are connected using size 5 x 20mm fuses (GMA type) while the MPR5400 and 8100 utilize breakers. The MPR1200 and 2600 fuses also feature visual LED indicators while each battery and DC load protection device is monitored via the MCU. Mechanical Design Each Mini Power Rack system has been design for ease of cable management. All systems support complete front access connectivity. The distribution module of the MPR1200 and 2600 is equipped with removal, plug-in type terminals for battery and load connections and is set back within the rack to aid with cable routing. The MPR 5400 and MPR 8100 systems also feature front access connectivity including the DC distribution and battery connections via using terminal connections located behind a removable front panel. MPR 5400 MPR 8100 32 235 76,2 190,5 266 356 2700 2700 2700 1800 1800 1800 380 28 503 28 MPR 5400 MPR 8100
BENNING World Class Power Solutions Type Table Hot plug Rectifier Systems MPR 1200 MPR 2600 MPR 5400 MPR 8100 Max number of rectifiers 4 4 3 3 Rectifier rating [W] 300 650 1800 2700 Total Output power [W] 300-1200 650-2600 1800-5400 2700-8100 Input voltage [V] 1 phase 1 phase 1 / 3 phase 1 / 3 phase Input Voltage Range 90-264 90-132, 187-264 176-264 176-264 Input current [A] 1,5 3,3 6,5 13,0 Input power factor [A] 0,95 0,95 0,99 0,99 Output current [A] 5,5-22 (7,0-28) 12-48 (15-60) 33-99 (40-120) 50-150 (60-180) Output Voltage Boost [V/Z] 2,4 Float [V/Z] 2,23 Direct [V/Z] - 2,05 Battery availability test [V/Z] 1,8 Stability of Output power Static [%] ±1 Dynamic load step [%] (10-90-10) (dt<200μs) ±5 Response time [ms] 5 Efficiency [%] 85 85 93 93 Characteristic IPU (power constant) Noise voltage [mv] 2 Radio Interference Class B Protection Class EN 60950 Protection IP 20 (Front) Ambient temperature -33 C to +55 C -5 C to +45 C Installation height up to 2000 above sea level Battery fuse rating [A] 2 x 25 2 x 50 2 x 125 2 x 160 Low voltage disconnect [A] 25 50 100 160 Distribution fuse rating 6 pcs / 5 x 20 mm 10 pcs / 5 x 20 mm Max. 8 pcs MCB s Max. 11 pcs MCB s System monitoring Standard or MCU MCU 1000 Dimensions Height [U] 3 4 6 8 Width [mm ; inches] 483 ; 19 Depth [mm ; inches] 257 ; 10,12 299 ; 11,77 380 ; 14,9 503 ; 19,8 Weight [kg ; lbs] 15 ; 33 20 ; 44 30 ; 66 40 ; 88 Cooling temperature-controlled forced ventilation Standards EN 60950 / UL 1950
BENNING World Class Power Solutions 3 Remote Monitoring via the MCU MPR 1200-2600 Modem TCP / IP MPR 5400-8100 Telephone line Internet MCU Remote Monitoring System The MCU remote monitoring system collects and monitors critical system information providing operational controls and local/remote reporting functions of the Mini Power Rack. For example, the MCU can perform a fail-safe battery capacity test. The battery availability test can be initiated automatically, remotely or locally via the MCU. The test is accomplished by reducing the output voltage of the rectifiers to 1.80 volts per cell. The battery is then discharged via the connected load. This partial discharge is terminated after a pre-programmed period of time. If the monitored battery voltage falls below the preset test value, an alarm is activated and the results are stored within the MCU. A negative result from battery availability test can be used to alert the field support staff to travel to the site and perform an on-site battery capacity test. This feature reduces unnecessary site visits. All important system information from the MCU can be transmitted remotely via an optional telephone modem or through communication via Internet/intranet to a central control station. Modem