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Complete Solar Systems
Grid Tie Only Power Systems:
Solar panels: 230 w solar panels, with 3rd party quality and performance insurance (2 years manufacturing, 10 years 90%, 20 year 80% power production). UL listed on CA CEC list. Poly-crystalline, 6" cells, 60 cells.
Tolerance +/- 3%
Voc, 37 V
Vmax 30 V
Isc 8.18 A
Imax 7.66 A
Dimensions: 65" x 39.1" x 2"
INVERTERS: SMA, AC/DC disconnect and combiner included. 600 vdc max. Temperature correction factor must be followed. Colder climates may require
lower string voltages.
Mounting systems: Professional Solar Products, Roof Trac, Anodized aluminum and stainless steel hardware. Ground mounting systems are available.
Systems performance is based on 5 hr average sun day.
$2,000.00
700 watt inverter, 690 watts of solar power.
Average power production is 3kWh per day.
1 - SMA SB 700 US (150 VDC) Inverter
3 - 230 watt solar panels
1 - MC Cable
1 - Roof Trac rail and clip mounting system
6 - fast jacks
$4,200.00
2,000 watt inverter, 1,840 watts of solar power.
Average power production is 7.8kWh per day.
1 - SMA SB 2000 HFUS Inverter
8 - 230 watt solar panels
1 - MC Cable
2 1/2 - Roof Trac rail and clip mounting system
14 - fast jacks
$4,800.00
2,500 watt inverter, 2,300 watts of solar power.
Average power production is 9.8kWh per day.
1 - SMA SB 2500 HFUS Inverter
10 - 230 watt solar panels
1 - MC Cable
3 - Roof Trac rail and clip mounting system
16 - fast jacks
$5,900.00
3,000 watt inverter, 2,990 watts of solar power.
Average power production is 12.6kWh per day.
1 - SMA SB 3000 HFUS Inverter
13 - 230 watt solar panels
1 - MC Cable
4 - Roof Trac rail and clip mounting system
22 - fast jacks
$8,375.00
4,000 watt inverter, 4,600 watts of solar power.
Average power production is 19.5kWh per day.
1 - SMA SB 4000 HFUS Inverter
20 - 230 watt solar panels
2 - MC Cables
6 - Roof Trac rail and clip mounting system
34 - fast jacks
$10,421.60
5,000 watt inverter, 5,520 watts of solar power.
Average power production is 23.4kWh per day.
1 - SMA SB 5000 HFUS Inverter
24 - 230 watt solar panels
2 - MC Cables
8 - Roof Trac rail and clip mounting system
44 - fast jacks
$11,880.00
6,000 watt inverter, 6,440 watts of solar power.
Average power production is 27.2kWh per day.
1 - SMA SB 6000 HFUS Inverter
28 - 230 watt solar panels
2 - MC Cables
9 1/2 - Roof Trac rail and clip mounting system
54 - fast jacks
$13,690.00
7,000 watt inverter, 7,590 watts of solar power.
Average power production is 32.1kWh per day.
1 - SMA SB 7000 HFUS Inverter
33 - 230 watt solar panels
3 - MC Cables
11 - Roof Trac rail and clip mounting system
60 - fast jacks
$14,950.00
8,000 watt inverter, 8,280 watts of solar power.
Average power production is 35kWh per day.
1 - SMA SB 8000 HFUS Inverter
36 - 230 watt solar panels
3 - MC Cables
12 - Roof Trac rail and clip mounting system
68 - fast jacks
$70,200.00
36,000 watt inverter, 38,640 watts of solar power.
Average power production is 163.69kWh per day.
1 - SMA Sunny Tower, ST 36, all combiners and disconnects included
168 - 230 watt solar panels
12 - MC Cables
56 - Roof Trac rail and clip mounting system
316 - fast jacks
$80,890.00
4,200 watt inverter, 45,540 watts of solar power.
Average power production is 193kWh per day.
1 - SMA Sunny Tower, ST 42, all combiners and disconnects included
198 - 230 watt solar panels
18 - MC Cables
66 - Roof Trac rail and clip mounting system
374 - fast jacks
$87,900.00
4,800 watt inverter, 49,600 watts of solar power.
Average power production is 210.5kWh per day.
1 - SMA Sunny Tower, ST 48, all combiners and disconnects included
216 - 230 watt solar panels
18 - MC Cables
72 - Roof Trac rail and clip mounting system
408 - fast jacks
Primary Power Systems:
All systems listed below are based on average 5hr @ day sun. Duty cycle is based on 20% Battery cycle (DOD).
20% DOD assures our systems are at peak efficiency. We do not design system at 50% DOD because this greatly
increases inefficiency which means you must now put more money and products into power production. However, the
real problem is not efficiency but reliability. The system designed to 50% DOD is DEAD in less than two cycles.
Totally unacceptable for anyone relying on a power system for their primary power needs. Anyone designing off grid or
primary power systems to 50% DOD obviously doesn't and never has lived with these systems. We have, for over 30 years.
Off-grid, independent power systems, RVs, Boats, Cabins, Homes, Commercial and Military.
$116.00
Average daily system power production: 200w @ 12 vdc
1 - 50 watt solar panel
1 - MC cable
1 - 6.6 amp Charge Controller, status LEDs, Load management
10 amp in line fuse & fuse holder
Battery bank suggested: 90-100 AH @ 12 vdc
$175.00
Average daily system power production: 400w @ 12 vdc
1 - 100 watt solar panel
1 - MC cable
1 - 6.6 amp Charge Controller, status LEDs, Load management
1 - 10 amp in line fuse & holder
Battery bank suggested: 200-220 AH @ 12 vdc
Add an inverter: 100-300w
$400.00
Average daily system power production: 800w @ 12 vdc
2 - 100 watt solar panels
2 - MC cables
1 - 20 amp Charge Controller, status LEDs, load management
Battery bank suggested: 440-500 AH @ 12 vdc
Add an inverter: 200-1000w @ 12 vdc
$1,000.00
Average daily system power production: 3000w @ 24 vdc
4 - 175 watt solar panels
4 - MC cables
1 - 4 circuit combiner
1 - 20 amp Charge Controller, Status LEDs, Load management
1 - 20 amp in line fuse and holder
Battery bank suggested: 750 AH @ 24 vdc
Add an inverter: 500-2000w @ 24 vdc
$2,800.00
Average daily system power production: 7500w @ 24 vdc
10 - 175w solar panels
10 - MC cables
1 - 10 circuit combiner
1 - 60 amp Charge Controller
1 - DC load center with D70amp brkrs
Battery bank suggested: 1000 AH @ 24 vdc
Add an inverter: 1000-4000w @ 24 vdc
$4,660.00
4,000 watt inverter (120 vac only or 120/240), 1,050 watts of solar power.
Average power production/useage is 5kWh per day.
6 - 175 watt solar panels (VOC 43.9V, Vmax 38.2v, lsc 5.3a, lmax 4.85a)
2 - MC cables
2 - Ground trac ground mount rail and clip mounting system
1 - 2 Circuit outdoor combiner
1 - 250 amp DC Main with bonding block
2 - 80 amp charge controller breakers
1 - 45 amp MPPT solar charge controller
1 - 4,000watt Magnum inverter/charger
1 - Magnum remote inverter montior
2 - 6' 4/0 inverter cables
1 - Tri Metric monitoring system. Monitors volts, amps, amp hr, production and usage
Battery bank recommended 700-1000 AH @ 24 VDC
$6,171.00
4,000 watt inverter (120 vac only or 120/240), 2,100 watts of solar power.
Average power production/useage is 10kWh per day.
12 - 175 watt solar panels (VOC 43.9V, Vmax 38.2v, lsc 5.3a, lmax 4.85a)
4 - MC cables
3 - Ground trac ground mount rail and clip mounting system
1 - 4 Circuit outdoor combiner
1 - 250 amp DC Main with bonding block
2 - 80 amp charge controller breakers
1 - 60 amp MPPT solar charge controller
1 - 4,000watt Magnum inverter/charger
1 - Magnum remote inverter montior
2 - 6' 4/0 inverter cables
1 - Tri Metric monitoring system. Monitors volts, amps, amp hr, production and usage
Battery bank recommended 1000-1200 AH @ 24 VDC or 500-600 @ 48 VDC
$9,850.00
8,800 watt inverter (120/240), 3,150 watts of solar power.
Average power production/useage is 15kWh per day.
18 - 175 watt solar panels (VOC 43.9V, Vmax 38.2v, lsc 5.3a, lmax 4.85a)
6 - MC cables
5 - Ground trac ground mount rail and clip mounting system
1 - 6 Circuit outdoor combiner
1 - dual 175 amp DC Main with bonding block
2 - 100 amp charge controller breakers
1 - 80 amp MPPT solar charge controller
2 - 4,400watt Magnum inverter/charger
1 - Magnum router (controls up to 4 inverters)
4 - 6' 4/0 inverter cables
1 - Tri Metric monitoring system. Monitors volts, amps, amp hr, production and usage
Battery bank recommended 1000-1200 AH @ 48 VDC
$17,218.00
13,200 watt inverter (120/240), 6,300 watts of solar power.
Average power production/useage is 30kWh per day.
36 - 175 watt solar panels (VOC 43.9V, Vmax 38.2v, lsc 5.3a, lmax 4.85a)
12 - MC cables
9 - Ground trac ground mount rail and clip mounting system
2 - 6 Circuit outdoor combiner
1 - dual 175 amp DC Main with bonding block
1 - single 175 amp DC Main with bonding block
4 - 100 amp charge controller breakers
2 - 80 amp MPPT solar charge controller
2 - 4,400watt Magnum inverter/charger
1 - Magnum router (controls up to 4 inverters)
6 - 6' 4/0 inverter cables
1 - Tri Metric monitoring system. Monitors volts, amps, amp hr, production and usage
Battery bank recommended 2,000-2,200 AH @ VDC
$24,500.00
17,600 watt inverter (120/240), 9,450 watts of solar power.
Average power production/useage is 50kWh per day.
54 - 175 watt solar panels (VOC 43.9V, Vmax 38.2v, lsc 5.3a, lmax 4.85a)
18 - MC cables
14 - Ground trac ground mount rail and clip mounting system
3 - 6 Circuit outdoor combiner
2 - dual 175 amp DC Main with bonding block
6 - 100 amp charge controller breakers
3 - 80 amp MPPT solar charge controller
4 - 4,400watt Magnum inverter/charger
1 - Magnum router (controls up to 4 inverters)
8 - 6' 4/0 inverter cables
1 - Tri Metric monitoring system. Monitors volts, amps, amp hr, production and usage
Battery bank recommended 3,000-4,000 AH @ 48 VDC
Note: The
System components can be changed or added to, such as wind turbines and hydros. Please verify inverter cable lengths.
Systems are designed for gound mounted solar panels and roof mounted systems are available.
Add API industrial battery banks with watering systems:
| Model: |
Price: |
| 300 AH @ 12 VDC |
$400.00 |
| 1200 AH @ 24 VDC |
$3,500.00 |
| 1200 AH @ 48 VDC |
$7,000.00 |
Batteries can be shipped dry, prices are flexible based on total AH required.
Pre-assembled, tested, programmed, Plug and Play option available.
Email for more information, product description and alternatives, E-mail us here.
Village Power Systems:
480 vdc battery based inverter systems up to 1 MW that can be coupled to any AC signal.
Village Power Systems produce power by Solar, Hydro and Wind. They do not need the typical
power system infrastructure of fuel supply lines, road systems and elaborate grids. Village Power
Systems can be used as generator support for island power system to reduce diesel fuel consumption,
generator maintenance costs and enhance environmentally friendly technologies. Village Power
Systems can also be grid support for lag and lead power factor issues of rural electrical systems.
Village Power Systems are independent power systems supplying clean, renewable energy, totally
independent of any other power source. They do not need any other power source to function.
These systems are designed to power cities, towns and entire communities. They do not need
generator or utility power. Village Power Systems can be ordered pre-assembled into shipping containers.
Totally pre wired, tested and ready to be connected. Village Power Systems can supply power rapidly,
within hours, not days and can be helicopter transported virtually anywhere in the world. Have a village that
needs power? Have a substation that just failed or need upgrades? Have a business or island that need better,
cleaner, more reliable power? Have an emergency situation and the power is expected to be out for
weeks? Need emergency support for catastrophic events such as earthquakes, fires, floods?
Village Power Systems are the answer.
For more information email us here.
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Questions? E-mail us at advance@advancepower.net
Or call 1-888-228-9694 toll free or (707) 485-0588
Se habla Español
We are located at 6331 N. State St, Calpella, Ca.
Open 9-5 Monday-Friday, 10-4 Saturday and Sunday
© 2011 - Advance Power Inc.
Site Design: Do It Once Consulting
Webmaster: Valkyrie Technologies
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