Power Master Budget SERIES
Contents
1. e Disconnect the PV array and momentarily disconnect the lead from the BATTERY positive terminal Reconnect the battery terminal and leave the PV array disconnected The Green charging light should not be lit Measure the voltage at the SOLAR terminals with the array still disconnected If the Green charging light is on or battery voltage is measured at the SOLAR terminals the controller may be damaged 152. Solid Red Charging in the state of fault Over Current Blinking Red Charging in the state of fault Over Temp Push Buttons PUSH Restart Stop When there is a fault occurring push Restart Stop Equalization to reset it Equalization HOLD asal Restart Stop When DIP Switch 5 is set at OFF hold Restart Stop Equalization to manually hee start equalization and press it again to stop equalization Equalization X Optional Remote LCD Meter for PM SCC 30AB One Remote LCD Meter can be added to the PM SCC 30AB at any time during or after installation The display is a 2x16 LCD meter with backlighting One pushbutton is used to scroll through the displays function There are a series of display screens that provide information such as e Operating information and data e Reset Amp Hours Budget Series Chapter 2 Budget series Operation 2 1 Installation Steps This section provides a brief overview of how to get started using the Budget controller However please review the entire manual to ensure best performance and vears of trouble free service NOTES e The Budget prevents reverse current leakage at night so a blocking diode is not required in the system e The connector terminals will accept a maximum wire size of AWG 10 up to 5 2 mm A flathead screwdriver is required Some 10 spade connectors may not fit in this terminal e Tighten each terminal clamping screw to 20 inch pounds of torque e The Budget is
3. and over gassing the battery The current will taper off to safe levels as the battery becomes more fully charged 3 Equalization Many batteries benefit from a periodic boost charge to stir the electrolyte level the cell voltages and complete the chemical reactions 4 Float When the battery is fully recharged the charging voltage is reduced to prevent further heating or gassing of the battery Battery Charging Notes The Budget manages many different charging conditions and system configurations Some useful functions to know follow below Solar Overload Enhanced radiation or edge of cloud effect conditions can generate more current than the controller s rating The Budget will reduce this overload up to 130 of rated current by regulating the current to safe levels If the current from the solar array exceeds 150 the controller will interrupt charging Battery Temperature Compensation All charging setpoints are based on 25 C 77 F If the battery temperature varies by 5 C the charging will change by 0 15 volts for a 12 volt battery This is a substantial change in the charging of the battery Battery Types The Budget s standard battery charging programs are suitable for a wide range of lead acid battery types These standard programs are select by DIP Switch 2 4 Standard Battery Charging Programs The Budget provides 8 standard battery charging algorithms programs that are selected 10 with the DIP Switches
4. manages the charging process to be efficient and to maximize the life of the battery Charging includes a bulk charging stage PWM absorption float and equalization for PM SCC 10AB PM SCC 20AB and PM SCC 30AB 2 2 Adjustability of Solar Battery Charging Five DIP Switches permit the following parameters to be adjusted at the installation site DIP Switch Solar battery charging 1 Select Batterv Voltage ON 12V svstem OFF 24V system 2 4 Standard battery charging programs 5 Select Auto Manual Equalization ON Auto Equalization OFF Manual Equalization PWM Battery Charging PWM Pulse Width Modulation battery charging is the most efficient and effective method for recharging a battery in a solar system Selecting the best method for charging your battery together with a good maintenance program will ensure a healthy battery and long service life Although the Budget s battery charging is fully automatic the following information is important for getting the best performance from your Budget controller and battery Four Stages of Solar Charging VOLTAGE 2 PWM 1 ABSORPTION 4 BULK FLOAT CHARGING TIME Solar Charging Stages 1 Bulk Charging In this stage the battery will accept all the current provided by the solar system 2 PWM Absorption When the battery reaches the regulation voltage the PWM begins to hold the voltage constant This is to avoid over heating
5. temperature changes but it may also undercharge or gas too much depending on how much the temperature changes The BTS corrects the three charging setpoints noted above by the following values e 12 volt battery 0 030 volts per C 0 017 volts per F e 24 volt battery 0 060 volts per C 0 033 volts per F Variations in battery temperature can affect charging battery capacity and battery life The greater the range of battery temperatures the greater the impact on the battery For example if the temperature falls to 10 C 50 F this 15 C 27 F change in temperature will change the PWM equalization and float setpoints by 0 90V in a 24V system Temperature 12 Volt 24 Volt 50 C 122 F 0 75 V 1 50 V 45 C 113 F 0 60 V 1 20 V 40 C 104 F 0 45 V 0 90 V 35 C 95 F 0 30 V 0 60 V 30 C 86 F 0 15 V 0 30 V 25 C TIPE OV OV 20 C 68 F 0 15 V 0 30 V 15 C 59 F 0 30 V 0 60 V 10 C 50 F 0 45 V 0 90 V 5 C 41 F 0 60 V 1 20 V 0 C 32 F 0 75 V 1 50 V Temperature Compensation Equalization Routine equalization cycles are often vital to the performance and life of a battery particularly in a solar system During battery discharge sulfuric acid is consumed and soft lead sulfate crystals form on the plates If the battery remains in a partially 12 discharged condition the soft crystals will turn into hard crystals over time This process ca
6. Power Master Budget SERIES SOLAR CHARGE CONTROLLER 6Amp 10Amp 20Amp 30Amp Installation and Operation Manual USER MANUAL Solar Battery Charging VER B 980729 CONTENTS Chapter 1 Budget series Installation s resennesznnzzsnnazznnennznnnnnnnazezansnnnannnnaaseanznnnnnnzenazz 1 1 Introduction ii ka a saatas oee Eseese sears SaaS 1 2 Safety Iistruetieii sisiliiiiiiiieiisiii wf bi tn tasasen sinodico srasni asiasanastoa 1 3 SpedficationS a G b g a du rd kd a vu hes da 1 4 Mounting Dimension i ikseb dakka kg de dassactisadesieeiesdedssidstacacthacasivs 1 5 Installation OVGr Wie Weievc i i rd e a sse fe ge a Chapter 2 Budget series Operation sssenssennesnnsannnazknnennznnannnnazennnsnnnnaennaneanannnnnzznnazz 2 1 Installation Steps iii gie ian abbord ak Ea kabbar asa dad 2 2 Adjustabilitv of Solar Battery Charging sssenssnsesennoosnnonseneseonnoenenesnnnnoena ZS 4 STPOUDTCSHO OU ia a d A dk A ABB e Sa Na ad daw Chapter 1 Budget series Installation 1 1 Introduction The Budget is an advanced design using a microcontroller for digital accuracv and fullv automatic operation PM SCC 6AB can be used for 12V and PM SCC 10AB PM SCC 20AB PM SCC 30AB can be used for 12V and 24V system for solar charging The PWM batterv charging has been optimized for longer batterv life Budget is designed for user friendly operation Please take the time to read this operator s manual and follow the instructi
7. These standard algorithms are suitable for lead acid batteries ranging from sealed gel AGM maintenance free to flooded to L 16 cells and Ni cad etc The table below summarizes the major parameters of the standard charging algorithms Note that all the voltages are for 12V systems 24V 2X All values are 25 C 77 F A B C D E F DIP Equalize Equalize Switches Battery Bulk Float Equalize Time Interval 2 3 4 Type Voltage Voltage Voltage hours days off off off 1 Sealed 14 0 13 4 None off off on 2 Sealed 14 1 13 4 14 2 1 28 off on off 3 Sealed 14 3 13 4 14 4 2 28 off on on 4 Flooded 14 4 13 4 15 1 3 28 on off off 5 Flooded 14 6 13 4 15 3 3 28 on off on 6 Flooded 14 8 13 4 15 3 3 28 on on off 7 L 16 15 0 13 4 15 3 3 14 on on on 8 NiCad 16 0 14 5 None Standard Battery Charging Programs A Battery Type These are generic lead acid and Ni cad battery types B BULK Voltage This is the PWM Absorption stage with constant voltage charging The PWM voltage is the maximum battery voltage that will be held constant As the battery becomes more charged the charging current tapers off until the battery is fully charged C Float Voltage When the battery is fully charged the charging voltage will be reduced to 13 4 volts for all battery types D Equalization Voltage During an equalization cycle the charging voltage will be held constant at this voltage E Equalization Time The charg
8. designed to regulate power from a PV array Other generators can be connected directly to the battery however with no effect on the Budget STEPS 1 Mount the Budget on to a vertical surface Allow a minimum of 5 cm 2 inches space above and below the controller for air flow 2 Make sure the PV currents will not exceed the ratings of the Budget model being installed 3 The connections to the Budget terminals are shown in the panel drawing 4 Connect the BATTERY first Be careful that bare wires do not touch the metal case of the controller X The BATTERY must be connected before the SOLAR to properly start the microcontroller X A battery below 10 volts may not start the microcontroller properly Make sure the battery is charged before installing the system 5 Connect the SOLAR PV array next The green LED indicator will light if the array is connected during the daytime and the array is wired correctly X Remember that the Solar array will generate power whenever in sunlight Also be careful not to shortcircuit the PV arrav while connected to the controller since this will damage the controller 6 Set the DIP Switch 1 for the voltage svstem set the DIP Switch 2 3 4 for batterv charging algorithm 7 For most effective surge protection it is recommended that the negative svstem conductor be properlv grounded Solar Batterv Charging The energy output of a solar array is used for recharging the system battery The Budget
9. e voltage Mix the electrolyte In flooded batteries especially tall cells the heavier acid will fall to the bottom of the cell over time This stratification of the electrolyte causes loss of capacity and corrosion of the lower portion of the plates Gassing of the electrolyte from a controlled overcharging equalization will stir and remix the acid into the battery electrolyte NOTE Excessive overcharging and gassing too vigorously can damage the battery plates and cause shedding of active material from the plates An equalization that is too high or for too long can be damaging Review the requirements for the particular battery being used in your system Standard Equalization Programs Both automatic and manual equalizations can be performed using the standard charging programs Manual Equalization The Budget is shipped with the DIP Switch set for manual equalization only This is to avoid an unexpected or unwanted automatic equalization In the manual mode the pushbutton is used to both start or stop a manual equalization Hold the pushbutton down for 5 seconds to start or stop an equalization depending on whether an equalization is in progress or not 13 There are no limits to how manv times the pushbutton can be used to start and stop equalizations Equalizations will be terminated automatically as per the charging program selected if the pushbutton is not used to manually stop the equalization Automatic Equalization If t
10. he equalization DIP Switch 5 is moved to the ON position the equalizations will begin automatically as per the charging program selected Other than starting the automatic and manual equalizations are the same and follow the standard charging program selected The pushbutton can be used to start and stop equalizations in both the manual and automatic mode Typical Equalizations The automatic equalizations will occur at the selected charging program from DIP Switch 2 4 When an equalization begins auto or manual the battery charging voltage increases up to the equalization voltage Veq The battery will remain at Veq for the time specified in the selected charging program The equalization process will continue until the voltage has been held above the bulk setting for a cumulate period of two hours A second manual equalization cycle can be started with the pushbutton if needed If the equalization cannot be completed in one day it will continue the next day or days until finished After an equalization is completed charging will return to PWM absorption When to Equalize The ideal frequency of equalizations depends on the battery type leadcalcium lead antimony etc the depth of discharging battery age temperature and other factors One very broad guide is to equalize flooded batteries every 1 to 3 months or every 5 to 10 deep discharges Some batteries such as the L 16 group will need more frequent equalizations The diffe
11. ing at the selected equalization voltage will continue for this number of hours This mav take more than one dav to complete F Equalization Interval Equalizations are typically done once a month Most of the cycles are 28 days so the equalization will begin on the same day of the month It can be set by DIP Switch 2 4 for different interval days Each new cycle will be reset as the equalization starts so that a setting day period will be maintained Temperature Effects Battery Temperature Sensor BTS A sensor next to the remote panel is used for temperature compensated battery charging 11 As the battery gets warmer the gassing increases As the battery gets colder it becomes more resistant to charging Depending on how much the battery temperature varies it may be important to adjust the charging for temperature changes There are three battery charging parameters that are affected by temperature PWM Absorption This is the most important part of charging that is affected by temperature because the charging may go into PWM absorption almost every day If the battery temperature is colder the charging will begin to regulate too soon and the battery may not be recharged with a limited solar resource If the battery temperature rises the battery may heat and gas too much Equalization A colder battery will lose part of the benefit of the equalization A warmer battery may heat and gas too much Float Float is less affected by
12. lled lead sulfation causes the crystals to become harder over time and more difficult to convert back to soft active materials Sulfation from chronic undercharging of the battery is the leading cause of battery failures in solar systems In addition to reducing the battery capacity sulfate build up is the most common cause of buckling plates and cracked grids Deep cycle batteries are particularly susceptible to lead sulfation Normal charging of the battery can convert the sulfate back to the soft active material if the battery is fully recharged However a solar battery is seldom completely recharged so the soft lead sulfate crystals harden over a period of time Only a long controlled overcharge or equalization at a higher voltage can reverse the hardening sulfate crystals In addition to slowing or preventing lead sulfation there are also other benefits from equalizations of the solar system battery These include Balance the individual cell voltages Over time individual cell voltages can drift apart due to slight differences in the cells For example in a 12 cell 24V battery one cell is less efficient in recharging to a final battery voltage of 28 8 volts 2 4 V c Over time that cell only reaches 1 85 volts while the other 11 cells charge to 2 45 volts per cell The overall battery voltage is 28 8V but the individual cells are higher or lower due to cell drift Equalization cycles help to bring all the cells to the sam
13. mm 229 mm 1 5 Installation Overview The installation is straight forward but it is important that each step is done correctly and safely A mistake can lead to dangerous voltage and current levels Be sure to carefully follow the following instructions for all the terminal connection Charge DIP Status Switches LED Fig R Poser Master u PV Battery Pos pv Batey oi PO b Neg Control Terminal Connection Name Description PV Connecting terminal for Solar Array Positive PV Connecting terminal for Solar Array Negative Battery Connecting terminal for Battery cable Positive Battery Connecting terminal for Battery cable Negative DIP Switch 1 ON Selection of battery voltage for 12V system OFF Selection of battery voltage for 24V system DIP Switch 2 3 4 Battery charge control mode Battery charging algorithm ON Selection of Auto Equalization DIP Switch 5 OFF Selection of Manual Equalization There is no DIP switches for PM SCC 6AB model Reni Panel Connecting port for the optional LCD remote panel for PM SCC 30AB model BTS Battery Temperature Sensor is built in Budget for temperature compensation LED Status Indicators Blinking Green Charging is in the state of Bulk or Absorption Solid Green Charging is in the state of Float Charge Status LED Solid Orange Charging in the state of Equalization
14. negative system conductor should be properly grounded Grounding should comply with local codes 1 3 Specifications PM SCC PM SCC PM SCC PM SCC MODEL 6AB 10AB 20AB 30AB ELECTRICAL System voltage ratings 12 Vdc 12 24 Vdc Current ratings Battery Charge ei 10A 20A 30A Control Accuracy 60 mV 12 24V 80 1 50 mV Min voltage to operate 6V 9V Max solar array Voc 30 V 50 V Max operating voltage 16 V 34 V Total current consumption 6 mA 9 mA 90 C disconnect solar High temp shutdown N A TOC reconnect sohr BATTERY CHARGING Built in BTS Charge algorithm PWM constant voltage Temp comp coefficient p b SN Hi cl Cais TEN 25 C ref 24V 10mV C cell 25 C ref Temp comp range 0 C to 50 C PWM Temp comp setpoints setpoint PWM float equalize with BTS 14 1V MECHANICAL Weight 0 2 Kgs 0 3 Kgs 0 4 Kgs Power terminals 6A Rated 10A Rated 20A Rated 30A Rated ENVIRONMENTAL Ambient temperature 40 to 45 C Storage temperature 55 to 85 C Humidity 100 NC Enclosure Indoor amp vented powder coated steel OPTIONS Remote Panel Optional LCD display for PM SCC 30AB only Specifications subject to change without notice 1 4 Mounting Dimension Unit mm Ta D Length Model L L PM SCC 6AB 106 mm 99 mm PM SCC 10AB PM SCC 20AB 168 mm 161 mm PM SCC 30AB 236
15. on step by step to help you make full use of the charging system 1 2 Safety Instruction This manual contains important instructions that should be followed during installation and maintenance of the Budget controller Be very careful when working with batteries Lead acid batteries can generate explosive gases and short circuits can draw thousands of amps from the battery Read all instructions provided with the battery Do not exceed the rated current ratings of the controller Do not exceed a battery voltage of 24V nominal for PM SCC 10AB PM SCC 20AB PM SCC 30AB and 12V for PM SCC 6AB Do not use a battery less than 12V Charge only 12 or 24 volt lead acid batteries when using the standard battery charging programs or NI CAD batteries when DIP Switch number 2 4 is in the ON position in the Budget DO NOT short circuit the PV array or load while connected to the controller This will damage the controller The controller should be protected from direct sunlight Ensure adequate space for air flow around the controller Do not install a Budget in a sealed compartment with batteries Never allow the solar array to be connected to the Budget with the battery disconnected This can be a dangerous condition with high open circuit solar voltage present at the terminals Pressure terminal connectors are not required Use only copperwire with minimum 75 C insulation rating and between 10 AWG 5 2 mm and 14 AWG 2 1 mm gage The
16. ould be on if it is daytime e Check that the proper battery charging has been selected by DIP Switches e Check that all wire connections in the system are correct and tight Check the polarity and of the connections Measure the PV array open circuit voltage and confirm it is within normal limits If the voltage is low or zero check the connections at the PV array itself Disconnect the PV from the controller when working on the PV array e Check that the load is not drawing more energy than the PV array can provide Check if there are excessive voltage drops between the controller and the battery This will cause undercharging of the battery e Check the condition of the battery Determine if the battery voltage declines at night with no load If unable to maintain its voltage the battery may be failing Measure the PV voltage and the battery voltage at the Budget terminals If the voltage at the terminals is the same within a few tenths of volts the PV array is charging the battery If the PV voltage is close to the open circuit voltage of the panels and the battery voltage is low the controller is not charging the batteries and may be damaged 2 BATTERY VOLTAGE IS TOO HIGH e First check the operating conditions to confirm that the voltage is higher than specifications e Check that the proper battery charging has been selected by DIP Switches Check that all wire connections in the system are correct and tight
17. rence between the highest cell and lowest cell in a battery can also indicate the need for an equalization Either the specific gravity or the cell voltage can be measured The battery manufacturer can recommend the specific gravity or voltage values for your particular battery Float When a battery becomes fully charged dropping down to the float stage will provide a very low rate of maintenance charging while reducing the heating and gassing of a fully charged battery When the battery is fully recharged there can be no more chemical reactions and all the charging current is turned into heat and gassing The purpose of float is to protect the battery from long term overcharge From the PWM absorption stage charging is dropped to the float voltage This is typically 13 4V 14 2 3 Troubleshooting The Budget is verv rugged and designed for the most extreme operating conditions Most PV svstem problems will be caused bv connections voltage drops and loads Troubleshooting the Budget controller is simple Some basic troubleshooting procedures are listed below CAUTIONS 1 Troubleshooting should be done by qualified personnel only 2 Remember that a batterv can cause serious damage if shorted 3 There are no user serviceable parts fuses or circuit breakers inside the Budget 4 Observe all normal precautions when working with energized circuitry 1 BATTERY IS NOT CHARGING e Check the green LED indicator The green CHARGING LED sh
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