User's Manual
Table Of Contents
- 1.0 INTRODUCTION
- 2.0 FEATURES & OPTIONS
- 3.0 SAFETY WARNINGS
- 4.0 WARRANTY (summary)
- 5.0 UNPACKING AND INSPECTION
- 6.0 GENERAL SPECIFICATIONS
- 7.0 PRINCIPAL OF OPERATION
- 8.0 FRONT PANEL DESCRIPTION
- 9.0 REAR PANEL DESCRIPTION
- 10.0 LED Indicators
- 11.0 MAKING CONNECTIONS TO THE X75
- 12.0 INSTALLATION
- 13.0 USING THE CONTROLLER WEB BROWSER INTERFACE
- Appendix 1 – SNMP MIB Information
- Appendix 2 – Load LVD Configuration (model X75-12-A-GHHIL-S-578 only)
- Appendix 3 – Revision History
- Figure 1 - X75 Compact Integrated DC Power System
- Figure 2 - Block Schematic
- Figure 3a - Front View with Breakers (configuration A)
- Figure 3b - Front View with GMT Fuses (configuration B)
- Figure 4 - Rear Views of Base and Expansion Units
- Figure 5 - LED Indicators
- Figure 6 - Recommended Load Circuit Wire Sizes
- Figure 7 - Battery Temp. Probe & Alarm Relay Connector Pin-Out
- Figure 8 - Ethernet Connector Pin-Out
- Figure 9 - Auxiliary Connector Pin-Out
- Figure 10 - Input Current Ratings
- Figure 11 - Controller Status WEB Page (typical)
- Figure 12 - Rectifier Status WEB Page (typical)
- Figure 13 - Rectifier I²C Addressing
- Figure 14 - Controller Factory Calibration WEB Page (typical)
- Figure 15 - Controller Site Installation WEB Page (typical)
- Figure 16 - Alarm Configuration WEB Page (typical)
- Figure 17 - Controller Network Settings (typical)
- Figure 18 - Controller Alarm Log WEB Page (typical)
- Figure 19 - Controller Control Panel WEB Page (typical)
- Figure 20 - Controller System Settings WEB Page (typical)
- Figure 21 - SNMP Configuration WEB Page (typical)
- Figure 22 - Controller Help WEB Page (typical)
- Figure 23 - About UNIPOWER Telecom WEB Page (typical)
Page 16
X75 SERIES
INSTALLATION & OPERATING MANUAL
Manual No. x75-10b
x75-man-Rev10b-0514.indd
11.0 MAKING CONNECTIONS TO THE X75
11.1 DCLoadConnections
The DC load distribution connections at the rear left of the unit are clearly marked
as follows:
11.1.1 Circuit breaker option.
For each load circuit there are two terminals marked V1, V2, V3, V4 and V5
respectively for the DC ‘feed’ and two marked RTN for the DC ‘return’.
11.1.2 GMT Fuse option.
For each load circuit there is one terminal marked V1 through to V10
respectively for the DC ‘feed’ and one marked RTN for the DC ‘return’.
Note that in the case of -48VDC system the ‘feed’ terminals are at a negative potential
with respect to the ‘return’ terminals. In the case of +24VDC and +12VDC systems
the ‘feed’ terminals are at a positive potential with respect to the ‘return’ terminals.
When connecting to the DC load terminals it is important to ensure that the cables
used are adequately sized to carry the expected load current for the circuit in question.
The maximum current rating for the individual load terminals is 32A, but where
long cable runs to the load are expected care should be taken to avoid unacceptable
cable voltage drop; this is most likely to occur at currents in excess of 20A if only a
single feed and return cable are employed. It is recommended that for circuits where
a 20A or greater breaker is tted pairs of feed and return cables are installed.
The terminals can accommodate wire sizes in the range #24AWG to #12AWG.
The table below gives recommended cable sizes for the available circuit capacities
assuming semi-conned conditions.
Circuit Rating Minimum Cable Size
½A , ¾A, 1A,
1⅓A, 2A, 2½A
24AWG
3A, 5A 22AWG
10A. 12A 18AWG
15A 16AWG
20A 14AWG or 2 x 18AWG
25A, 30A 12AWG or 2 x 16AWG
Fi
gure6-RecommendedLoadCircuitWireSizes