ASHAPOWER SURYA-40 HV Benutzerhandbuch - Seite 9

Blättern Sie online oder laden Sie pdf Benutzerhandbuch für Inverter ASHAPOWER SURYA-40 HV herunter. ASHAPOWER SURYA-40 HV 12 Seiten. Solar mptt charge controller

Seite drucken

Changing the default settings of MPPT charge controller

Before changing the default settings values of the device, ensure the maximum ampere and voltage

Note:

ratings applicable for your battery type and brand (SMF, LEAD-ACID, GEL) This device is not designed for

direct charging of lithium Phosphate battery . Blind settings may cause severe damage to the batteries and

charge controller. Default values given are for lead acid C10 grade solar batteries.To reset to default settings

enter settings menu 14 F-RST and set the value to "1".(Refer user manual function settings page)

Refer battery user manual for recommended charging ampere and voltage for the connected batteries.

Never try to change the default settings of the device without the help of technical advice. Note down the default

settings of the device before changing. Read function settings page before changing default settings of the

device.

Entering setup mode of MPPT charge controller.

Connect the charge controller to the desired battery bank. Consecutive pressing of the ENTER button (

displays the existing function settings of the charger.

To enter Setup mode , keep pressing DOWN arrow button ( ) for 3 seconds & press ENTER button ( )

also without releasing DOWN arrow button (

version number and model name. Press the ENTER button (

shown in the function settings page.Use the UP button ( ) to increase and DOWN button ( ) to decrease the

default values. When kept idle for 5 seconds or gone through all settings menu new settings will be saved and

the device goes to normal mode.

When default settings is changed MPPT will be in Auto bypass OFF mode. To turn ON the Auto bypass mode

press and hold UP button ( ) for 2 seconds.

CONVERTING A NORMAL INVERTER TO A SMART SOLAR INVERTER

USING MPPT CHARGE CONTROLLER

Before starting it is better to make a plan of your solar energy needs and ensure your existing inverter and

batteries are suitable for solar application. When a battery is charged with limited charging ampere (6AMP to

10AMP ) for long hours it delivers good energy backup. Solar charging and discharging is a daily process with

high current from solar panels. We get only 4 to 5 hours average sun light in a day and have to charge the

batteries in this time. C10 grade solar batteries above 100 Ah have the capacity to handle high current charging

and discharging. Usually inverter batteries are either C20 grade or C10 grade normal batteries. An inverter

battery is always connected to grid power and continuously charging the batteries in limited ampere for

longhours (6AMP to 10AMP) and gives good back up. That is why we don't get enough backup from normal

batteries when charged from solar power with high current. If we use normal batteries for solar charging with

limited charging current they can't be gotfully charged before evening. So always insist on C10 grade solar

batteries for solar applications. Now check your home inverter is provided with a grid charging ON/OFF switch.

Most of the branded normal type inverters are not provided with a grid charging ON/OFF switch on them.When

we use this type of normal inverter in solar o -grid system it will charge batteries from grid power and we do

not get actual solar beneﬁt.

HOW THE CHARGE CONTROLLER DRIVES THE CONNECTED INVERTER

Most of the SMU type solar MPPT charge controllers are provided with an inbuilt relay to control grid power

to the inverter.Remove grid power phase wire from your inverter and connect to PHASE IN terminal of

MPPT.Connect a wire from the PHASE OUT terminal of MPPT to the PHASE IN terminal of the inverter. (Never

connect the neutral wire of grid power to any connectors of MPPT). When charging starts terminal volt of the

battery rises to the preset voltage 14.2 V (this value is adjustable) MPPT disconnects the AC mains to the

inverter and the connected load on the inverter works on battery power (solar power). when the battery

terminal volt goes down (in the evening or cloudy sky) and reaches 11.5 V (this value is adjustable) MPPT

reconnect grid power to the inverter. If your inverter is a normal type without a grid charging disabling switch

it will charge the batteries and we don't get the solar beneﬁt. To overcome this it is better to limit the load on

the inverter and keep the battery terminal volt always high. Some customers use solar power only in the

daytime and shift the load to AC mains by keeping the shifting to AC mains voltage 12.0 V or more. Fitting an

external grid change over the relay system for bypassing grid power directly to load is also applicable. If we

use an inverter with a grid charging ON/OFF switch we can keep the switch in o position to avoid charging

from the grid. Only on cloudy days we can keep the switch in on position and charge the batteries from grid

power.

) for 3 seconds. Now MPPT enters setup mode , displaying

) to scroll through the various setup menu as

)