1. DC power system training The purpose of this presentation is to give an introduction to DC power systems and DC power fundamentals. DC Power System
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5. DC power system PUMP = RECTIFIER DAM = BATTERY Pipe = Resistance Water = Current
6. Definition of electrical terms DC power system The time rate at which energy is transmitted to the time rate of doing work. Power is measured in Watts (W) Power: The opposition to the flow of current. Resistance is measured in ohms ( ) Resistance: The differences in potential between two points that causes electrical charge to flow. Voltage is measured in Volts (V) Voltage: A flow of electrical charge caused by an potential difference. Current is measured in Amps (A). Current:
7. DC power system The derivation between the AC current and the AC voltage. Power factor is a number between 0 and 1. The power factor or any equipment should be close to 1. Power Factor: The ratio of the output power to the input power. Usually measured in percentage (%) Efficiency: The ability to do work. Energy is measured in joules (J) Energy:
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9. DC power system P ower system building blocks SURGE PROTECTION POWER DISTRIBUTION LVBD BATTERY DISTRIBUTION UPS AC/DC BATTERY DC/AC TELECOM EQUIPMENT BATTERIES INVERTER DC/AC AC LOAD AC INPUT PROTECTION Control Module RECTIFIER #1 RECTIFIER #2 RECTIFIER #n REDUNDANT RECTIFIER SYSTEM AC/DC G DIESEL GENERATOR AC switch board
10. DC power system The elements in a Power system P rotection against surge and voltage spikes on the AC supply. Surge protection: Circuit breakers for protection of individual rectifiers. AC input protection: The diesel generator is a small power plant that generate AC current. The generator is used as a standby power, that will be connected when mains fail. The generator can be connected manually or automatically. Diesel generator: The AC input to the power system is taken from the switch board AC Switch board:
11. DC power system Fuses of circuit breakers for distribution of DC power to the telecom equipment. Power distribution The control unit monitors all the essential parameters in the system (voltage, current and alarms). Parameters can also be changed from the unit. Control and monitoring unit: The rectifiers converts AC to DC. Rectifiers: The rectifier system converts the current from AC to DC. The system consist of rectifiers and a control and monitoring unit DC rectifier system: AC DC
12. DC power system Converts from DC to AC. Used for AC load that require long battery backup. Inverter Converts power from AC to DC and back to AC again. The UPS usually have a small battery bank on the DC side UPS Fuses for protection o f individual battery banks against short circuit. Battery distribution: Low voltage battery disconnect (LVBD) is used for disconnecting the batteries before the y are damaged due to deep discharge. LVBD The batteries stores the energy for use when the AC mains fail Batteries
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16. System operation U 54.5 43.2 Float charge Battery discharge Battery recharge t - - - w/current limitation Disconnect Voltage Voltage sequence: Mains failure Mains resume
19. Battery management Battery management – definitions The nominal capacity referred to a 10 hours discharge rate C 10 Is the electrical energy stored in the battery and is measured in ampere hours (Ah) Capacity A group of battery cells linked in series to produce the operating voltage. Battery string The recommended charge voltage to be applied to a battery under normal conditions Float voltage:
20. Battery management A technique that change the battery voltage as a function of battery temperature. This technique will increase the lifetime of the batteries and the rate of change is usually specified by the battery manufacturer Temperature compensation Is a voltage higher then the float voltage for fast charging or equalising of batteries Boost voltage A high voltage is applied to the batteries in order to equalise the cell voltage on a string of batteries Equalising batteries:
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22. Battery management Open Circuit Voltage in relation to state of charge of the cell. 25 50 75 100 V DC 1.90 Open Circuit Voltage (per cell)l 1.95 2.00 2.05 2.10 2.15 0 State of charge (%)
23. Battery management Float Voltage versus temperature Temp (ºC) V DC 2.22 Volt per cell 2.24 2.26 2.28 2.30 2.32 2.34 2.36 2.38 -10 0 10 20 30 40
24. Battery management Battery capacity versus temperature Temp (ºC) V DC 70 Available capacity (%) 75 80 85 90 95 100 105 110 5 10 15 20 25 30