Morningstar EcoBoost MPPT Manuel utilisateur

Taper
Manuel utilisateur
Solar Charging System Controller
Installation, Operation and Maintenance Manual
www.morningstarcorp.com
EcoBoost MPPT
TM
MAXIMUM POWER POINT TRACKING
For the most recent manual revisions, see the version at:
www.morningstarcorp.com
MODELS
EB-MPPT-20 EB-MPPT-20M
EB-MPPT-30 EB-MPPT-30M
EB-MPPT-40 EB-MPPT-40M
EcoBoost MPPT Operator’s Manual
iii
ii
SPECIFICATION SUMMARY
EB-MPPT-20 EB-MPPT-30 EB-MPPT-40
Nominal Battery
Voltage
12/24V 12/24V 12/24V
Max. PV Open-
Circuit Voltage*
120V 120V 120V
Nominal Max.
InputPower**
300 / 600W 400 / 800W
560 /
1120W
Max. Battery
Charging Current
20A 30A 40A
Rated Load Current 20A 30A 30A
DIMENSIONS (centimeters)
TABLE OF CONTENTS
1.0 Important Safety Instructions ........................... 1
2.0 General Information
.... .................................... ... 5
2.1 Overview
................................................................5
2.2
Features
................................................................. 6
2.3 Optional Accessories
..............................................8
3.0 Installation ..............................................................9
3.1 General Installation Notes
.......................................9
3.2 Configuration
........................................................11
3.3 Mounting
..............................................................14
3.4 Wiring
..................................................................15
4.0 Operation ............................................................ 23
4.1 TrakStar MPPT Technology ......................................23
4.2 Battery Charging Information ..................................23
4.3 Load Control Information ....................................... 26
4.4 LED Indications......................................... .... .........27
4.4.1 Power-up....................................................... ...........28
4.4.2 Status LED.............................................................. 28
4.4.3 State-of-charge LEDs...............................................29
4.5 Alarms......................................................................29
4.6 Custom Settings.......................................................30
4.6.1 Adjusting Set-points with Meter Display................ 30
4.6.2 Meter Display Operation......................................... 31
4.6.2.1 Directional Key Use and Operation / Navigating
the Meter Map........................................................31
4.6.2.2 Adjusting the Meter Display................................. .32
4.7 Data Logging (future use).......................................32
4.8 Auxilliary USB Charging..........................................32
4.9 Inspection and Maintenance...................................33
Continued...
*Array voltage should never exceed this limit
**These power levels refer to the maximum wattage the EcoBoost MPPT
can process. Higher power arrays can be used without damaging the
controller.
(
14.8 )
( 17.0 )
( 19.6 )
(
18.1
)
(
7.1
)
1.0
EcoBoost MPPT Operator’s Manual
1
iv
1.0 IMPORTANT SAFETY INSTRUCTIONS
SAVE THESE INSTRUCTIONS.
This manual contains important safety, installation, operating
and maintenance instructions for the EcoBoost MPPT solar
controller.
The following symbols are used throughout this manual to
indicate potentially dangerous conditions or mark important
safety instructions:
WARNING: Indicates a potentially dangerous condition.
Use extreme caution when performing this task.
CAUTION: Indicates a critical procedure for safe and
proper operation of the controller.
NOTE: Indicates a procedure or function that is important
to the safe and proper operation of the controller.
Safety Information
Read all of the instructions and cautions in the manual
before beginning installation.
There are no user serviceable parts inside the
EcoBoost MPPT. Do not disassemble or attempt to repair
the controller.
WARNING: Risk Of Electrical Shock.
NO POWER OR ACCESSORY TERMINALS ARE
ELECTRICALLY ISOLATED FROM DC INPUT, AND MAY BE
ENERGIZED WITH HAZARDOUS SOLAR VOLTAGE. UNDER
CERTAIN FAULT CONDITIONS, BATTERY COULD BECOME
OVER-CHARGED. TEST BETWEEN ALL TERMINALS AND
GROUND BEFORE TOUCHING.
WARNING: THE COMMUNICATIONS PORT IS
CONSIDERED TO BE DVC B. AN EXTERNAL
ISOLATOR IS REQUIRED IF IT IS TO BE CONNECTED TO A DVC
A CIRCUIT.
.....Continued
5.0 Troubleshooting...........................................35
5.1 LED Fault Indications...................................................35
5.2 Battery Charging and Performance Issues.................39
6.0 Warranty ....................................................40
7.0 Technical Specifications............................... 41
8.0 Appendix.....................................................44
9.0
Certifications...............................................45
1.0
Important Safety Instructions
EcoBoost MPPT Operator’s Manual
32
A means of disconnecting all power supply poles must be
provided. These disconnects must be incorporated in the
fixed wiring.
The EcoBoost MPPT negative power terminals are common,
and must be grounded as instructions, local codes, and
regulations require.
A permanent, reliable earth ground must be established
with connection to the EcoBoost MPPT heatsink.
The grounding conductor must be secured against any
accidental detachment.
Battery Safety
WARNING: A battery can present a risk of electrical
shock or burn from large amounts of short-circuit
current, fire, or explosion from vented gases.
Observe proper precautions.
WARNING: Risk of Explosion.
Proper disposal of batteries is required. Do not
dispose of batteries in fire. Refer to local
regulations or codes for requirements.
CAUTION: The EcoBoost charging algorithm is not
suitable for lithium batteries. Use only lead-acid
batteries.
CAUTION: When replacing batteries, use properly
specified number, sizes, types, and ratings based on
application and system design.
CAUTION: Do not open or mutilate batteries.
Released electrolyte is harmful to skin, and may be
toxic.
NOTE: Although not anticipated, in the exceedingly
rare chance of component failure, there is a risk of
battery overcharging. Use of a voltage limiting device
can safeguard unattended systems against the
possibililty of such an occurrence.
External solar and battery disconnects are required.
Disconnect all sources of power to the controller before
installing or adjusting the EcoBoost MPPT.
There are no fuses or disconnects inside the
EcoBoost MPPT Do not attempt to repair.
Installation Safety Precautions
Mount the EcoBoost MPPT indoors. Prevent exposure
to the elements and do not allow water to enter the
controller.
Install the EcoBoost MPPT in a location that prevents
casual contact. The EcoBoost MPPT heatsink can become
very hot during operation.
Use insulated tools when working with batteries.
Avoid wearing jewelry during installation.
The battery bank must be comprised of batteries of same
type, make, and age.
IEC 62109 certified for use in negative ground or floating
systems only.
Do not smoke near the battery bank.
Power connections must remain tight to avoid excessive
heating from a loose connection.
Use properly sized conductors and circuit interrupters.
This charge controller is to be connected to DC circuits
only. These DC connections are identified by the symbol
below:
Direct Current Symbol
The EcoBoost MPPT controller must be installed by a
qualified technician in accordance with the electrical
regulations of the country of installation.
EcoBoost MPPT Operator’s Manual
5
2.0
Important Safety Instructions4
Servicing of batteries should be performed, or supervised,
by personnel knowledgeable about batteries, and the
proper safety precautions.
Be very careful when working with large lead-acid
batteries. Wear eye protection and have fresh water
available in case there is contact with the battery acid.
Remove watches, rings, jewelry and other metal objects
before working with batteries.
Wear rubber gloves and boots
Use tools with insulated handles and avoid placing tools or
metal objects on top of batteries.
Disconnect charging source prior to connecting or discon
-
necting battery terminals.
Determine if battery is inadvertently grounded. If so, re
-
move the source of contact with ground. Contact with any
part of a grounded battery can result in electrical shock.
The likelihood of such a shock can be reduced if battery
grounds are removed during installation and maint enance
(applicable to equipment and remote battery supplies
not having a grounded supply circuit).
Carefully read the battery manufacturer's instructions
before installing / connecting to, or removing batteries
from, the EcoBoost MPPT.
Be very careful not to short circuit the cables connected to
the battery.
Have someone nearby to assist in case of an accident.
Explosive battery gases can be present during charging.
Be
certain there is enough ventilation to release the
gases.
Never smoke in the battery area.
If battery acid comes into contact with the skin, wash with
soap and water. If the acid contacts the eye, flood with fresh
water and get medical attention.
Be sure the battery electrolyte level is correct before starting
charging. Do not attempt to charge a frozen battery.
Recycle the battery when it is replaced.
2.1 Overview
Thank you for choosing the EcoBoost MPPT charge control-
ler with TrakStar
TM
MPPT Technology. The EcoBoost MPPT
is an advanced maximum power point tracking solar battery
charger. The controller features a smart tracking algorithm
that finds and maintains operation at the power source's
peak power point, maximizing energy harvest.
The EcoBoost MPPT battery charging process has been
optimized for long battery life and improved system
performance. Self-diagnostics and electronic error
protections prevent damage when installation mistakes or
system faults occur. The controller also features eight (8)
adjustable settings switches, several communication ports,
and terminals for remote battery temperature and voltage
measurement.
Please take the time to read this operator’s manual to
become familiar the many benefits the EcoBoost MPPT can
provide for your PV systems, for example:
Rated for 12 or 24 volt systems, and 20, 30 or 40 Amps of
charging current
Testing indicates peak short-circuit current of 620A on the
PV terminals and 850A on the battery terminals. This is for
informational purposes only. No specific action required.
Fully protected with automatic and manual recovery
Seven standard charging programs selectable with DIP
switches
Continuous self-testing with fault notification
LED indications and push-button or meter key functions
Power terminal maximum of #6 AWG wire.
Digital meter display options
Optional remote battery temperature sensor
2-year warranty (see Section 6.0)
2.0 GENERAL INFORMATION
General Information
EcoBoost MPPT Operator’s Manual
7
6
2.0
2.2 Features
The features of the EcoBoost MPPT are shown in Figure 2-1
below. An explanation of each feature is provided below.
1
5
8
6
13
9
7
4
2
3
11
10
12
Figure 2-1. EcoBoost MPPT Features
1 - Charging Status / Error LED
Indicates charging and error condition statuses.
2 - Heatsink / Grounding Screw (M4 screw for grounding heatsink)
Aluminum heatsink (underneath) to dissipate controller heat (the
EcoBoost MPPT is 100% passively cooled for reliability)
3 - Meter Display
Digital LCD monitoring and programming display
4 - Battery Status / Fault LED Indicators
Three state of charge (SOC) LED indicators show charging status and
controller faults
5 - Solar Positive and Negative Terminals
Power connections for Solar (+) and (-) cable terminations
6 - Load Positive and Negative Terminals
Power connections for Load (+) and (-) cable terminations
7 - Battery Positive and Negative Terminals
Power connections for Battery (+) and (-) cable terminations
8 - Remote Temperature Sensor Terminals (RTS)
Connection points for a Morningstar RTS to remotely monitor battery
temperature
9 - USB Micro-B Data Port (future use)
Micro-B USB port for (future) data transfer
10 - USB-A Charging Ports
USB-A sockets for charging electronic devices
11 - DIP Switches
Eight (8) settings switches to configure operation of the EcoBoost MPPT
12 - Meter Directional Buttons
Used to navigate throughout meter map
13 - Local Temperature Sensor
Compensates charging based on ambient temperature (not used if
Remote Temperature Sensor is connected)
EcoBoost MPPT Operator’s Manual
9
3.0
General Information
8
2.3 Optional Accessories
The following accessories are available for purchase
separately from your authorized Morningstar dealer:
Remote Temperature Sensor (Model: RTS)
The RTS measures battery temperature for accurate
temperature compensation and is recommended when
the ambient battery temperature differs from the ambient
controller temperature by more than 5º C. The standard
cable length is 33 ft (10m).
N
OTE: The use of a Remote Temperature Sensor is
strongly recommended. Controller location, air flow, and
system power can drastically affect the local temperature sensor
reading. An RTS will provide optimal charg
ing performance.
Ground-fault Protection Device (GFPD-150V)
As a safety measure, the GFPD-150V detects power source
ground faults and interrupts current.
3.1 General Installation Notes
Read through the entire installation section first before
beginning installation.
Be very careful when working with batteries. Wear
eye protection. Have fresh water available to wash
and clean any contact with battery acid.
Use insulated tools and avoid placing metal objects
near the batteries.
WARNING: Equipment Damage or Risk of
Explosion
Never install the EcoBoost MPPT in an enclosure
with vented/flooded batteries. Battery fumes
are flammable and will corrode and destroy the
EcoBoost MPPT circuits.
CAUTION: Equipment Damage
When installing the EcoBoost MPPT in an
enclosure, ensure sufficient ventilation. Installation
in a sealed enclosure will lead to over-heating and
a decreased product lifetime.
WARNING: Equipment Damage
The EcoBoost MPPT is designed for negative
or floating ground systems ONLY, and is NOT
approved for use in a positive ground system.
Damage to USB connected devices may result.
WARNING: Equipment Damage
DO NOT connect a laptop PC to the USB data
port while the laptop is connected to an AC
charger. Damage to the USB port may result. If
the laptop ground and EcoBoost ground are
dissimilar, excessive current can flow through the
USB cable and ports.
!
3.0 INSTALLATION
Installation
EcoBoost MPPT Operator’s Manual
1110
3.0
It is recommended that all conductors be sized for
nameplate current, and meet specific ampacity
requirements (See Appendix for minimum wire sizes)
Wiring must comply with all codes and regulations of
country and locale of installation.
Do not install in locations where water can enter the
controller.
Loose power connections and /or corroded wires
may result in resistive connections that melt wire
insulation, burn surrounding materials, or even cause
fire. Ensure tight connections and use cable clamps to
secure cables and prevent them from swaying in mobile
applications.
Preset charging profiles are generally designed for
lead acid batteries. Custom settings can be used for
varied charging requirements (see sections 3.2 and 4.7
for details). Note that some battery types may not be
compatible.
The EcoBoost MPPT battery connection may be wired
to one battery, or a bank of batteries. The following
instructions refer to a singular battery, but it is implied
that the battery connection can be made to either one
battery or a group of batteries in a battery bank.
The EcoBoost MPPT uses self-tapping fasteners,
an anodized aluminum heat sink, and conformal
coating to protect it from harsh conditions. However,
for acceptable service life, extreme temperatures and
marine environments should be avoided.
The EcoBoost MPPT prevents reverse current leakage at
night, so a blocking diode is not required in the system.
The EcoBoost MPPT is designed to regulate ONLY solar
(photovoltaic) power. Connection to any other type of
power source e.g. wind turbine or generator may void
the warranty. However, other power sources can be
connected directly to the battery.
The maximum power terminal wire size is #6 AWG /
16 mm
2
(solid/multi-strand) or #8 AWG / 10 mm
2
(fine
strand). Use a flathead insulated screwdriver, and
torque tightly up to 3.95 Nm.
Stranded wires to be connected to the EcoBoost MPPT
terminals should be prepared first with e.g. clamped
copper heads, etc. to avoid the possibility of one
conductor free out of the connection screw, and
possible contact with the metal enclosure.
WARNING: Solar and battery fuses or DC breakers
are required in the system. These protection devices
are external to the EcoBoost MPPT controller, and must be
a maximum of 25 Amps for the EB-20/M, 35 Amps for the
EB-30/M, and 50 Amps for the EB-40/M.
WARNING: Breakers and fuses may require lower
ratings than referenced above, so as not to exceed
any specific wire ampacity.
WARNING: Minimum over-current protection
device interrupt ratings must be 2000A for 12V
systems, and 4000A for 24V systems.
3.2 Configuration
The DIP switch block shown in Figure 3.1 below is used to
set the operating parameters for the EcoBoost MPPT.
Switch 1: Load / Lighting
Mode Switch 1
Normal OFF
Lighting ON
Figure 3.1. DIP Switch Block to set charging parameters
Installation
EcoBoost MPPT Operator’s Manual
1312
3.0
With DIP 1 ON, the EcoBoost MPPT will follow a dusk-to-
dawn lighting schedule.
Switches 2, 3: System Voltage
Three (3) system voltage configurations are available as shown
in the table below:
System Voltage Switch 2 Switch 3
Auto OFF OFF
12 OFF ON
24 ON OFF
NOTE: Before connecting the battery, measure the open-circuit
voltage. It must be over 10 volts to start the controller. If the
system voltage Settings Switches are set to Auto-detect, battery
voltage over 15.5V will be detected as a 24V nominal battery,
and the unit will charge accordingly. The 12/24V auto selection is
only done at start-up, and the detected system voltage will never
change during operation.
Generally, the specfic system voltage is known, and it is best
to set DIPs 2,3 accordingly; the auto-detect setting should be
used only in rare circumstances.
Switches 4, 5, 6: Battery Type Selection
Preset EcoBoost MPPT battery charging options are shown in
table 3-1 below. All voltage settings listed are for nominal 12
volt batteries.
Multiply the voltage settings by two (2) for 24 volt systems.
NOTE: These settings are general guidelines for
use at the operator’s discretion. The EcoBoost MPPT
can be programmed to satisfy a wide range of charging
parameters.
Consult the battery manufacturer for optimal battery
charge settings.
DIP
Switch
S
ettings
4
-5-6
B
attery
T
ype
A
bsorp.
S
tage
(
volts)
F
loat
S
tage
(
volts)
E
qualize
S
tage
(
volts)
A
bsorp.
T
ime
(
mins)
E
qualize
T
ime
(
mins)
E
qualize
T
imeout
(
mins)
E
qualize
I
nterval
(
days)
off-off-off
1 - Sealed*
14.00
13.50
150
off-off-on
2 - Sealed*
14.15
13.50
14.40
150
60
120
28
off-on-off
3 - Sealed*
14.30
13.50
14.60
150
60
120
28
off-on-on
4- AGM/Flooded
14.40
13.50
15.10
180
120
180
28
on-off-off
5 - Flooded
14.60
13.50
15.30
180
120
180
28
on-off-on
6 - Flooded
14.70
13.50
15.40
180
180
240
28
on-on-off
7 - L-16
15.40
13.40
16.00
180
180
240
14
on-on-on
8 - Custom
Custom
Custom
Custom
Custom
Custom
Custom
Custom
* “Sealed” baery type includes gel and AGM baeries
Table 3.1. Battery charging settings for each selectable battery type
Switch 7: Battery Equalization
Mode Switch 7
Manual Equalization OFF
Auto Equalization ON
Switch 8: Reserved for Future Use
Installation
EcoBoost MPPT Operator’s Manual
1514
3.0
3.3 Mounting
Inspect the controller for shipping damage. Mount the Eco-
Boost MPPT to a vertical surface (4-#8 self-tapping screws
are included). Tighten the mounting screws, using care not
to crack the plastic case. Do not install directly over an easily
combustible surface since the heat sink may get hot under
certain operating conditions.
NOTE: The heat sink must be in a vertical position (fins
up and down).
For proper air flow, allow at least 15 cm (6 in) of space
above and below the controller, and 50 mm (2 in) at the
sides - see Figure 3-2 below. Install in an area protected
from direct rain and sun.
If the controller is installed in an enclosure, some
ventilation is recommended. Do not locate in an enclosure
where battery gases can accumulate.
Figure 3-2. Proper Clearances for Passive Cooling
15 cm
15 cm
5 cm
+
-
2
1
3
4
5
6
To properly
sized PV array
To battery (+)
and (-) terminals
To load (+) and
(-) terminals
To battery (-) post for
temperature sensing
+
+
+
-
-
-
3.4 Wiring
Figure 3-3. Wiring the EcoBoost MPPT
REFER TO FIGURE 3.3 WHEN USING THE WIRING INSTRUCTIONS
BELOW.
Installation
EcoBoost MPPT Operator’s Manual
1716
3.0
STEP 1: Check Controller Limitations
Verify that the highest temperature compensated solar array
open-circuit voltage (Voc), and load current do not exceed
the ratings of the EcoBoost MPPT version being installed.
Multiple controllers can be installed in parallel on the same
battery bank to achieve greater total charging current. In
this type of system, each EcoBoost MPPT must have its own
solar array. The load terminals of multiple controllers can be
wired together only if the total load draw does not exceed
the nameplate current of the LOWEST rated controller.
STEP 2: Remote Temperature Sensor
WARNING: Risk of Fire.
If no Remote Temperature Sensor (RTS) is connected,
use the EcoBoost MPPT within 3m (10 ft) of the batteries. Internal
Temperature Compensation will be used if the RTS is not
connected. Use of the RTS is strongly recommended.
All charging settings are based on 25°C (77°F). If the
battery temperature varies by 5°C, the charging setting
will change by 0.15 Volts for a 12 Volt battery. This is a
substantial change in the charging of the battery, and the
use of the optional Remote Temperature Sensor (RTS) is
recommended to adjust charging to the actual battery
temperature. The RTS can be added at any time after the
system has been installed.
Connect the (+) and (-) RTS wires to the 2-position terminal
located below the DIP switches (see figure 3.3).
The RTS is supplied with 10 m of 22 AWG (0.34 mm
2
) cable.
There is no polarity, so either wire (+ or -) can be connected
to either screw terminal. The RTS cable may be pulled
through conduit along with the power wires. Tighten the
connector screws to 0.56 Nm of torque. Separate installa-
tion instructions are provided inside the RTS bag.
WARNING: Equipment Damage
Never place the temperature sensor inside a battery cell.
Both the RTS and the battery will be damaged.
CAUTION: The EcoBoost MPPT will use the local
temperature sensor for compensation if the RTS is not
used.
NOTE: The RTS cable may be shortened if the
full length is not needed.
STEP 3:
Grounding and Ground Fault Interruption
WARNING:
This unit is not provided with a GFDI device. This
charge controller must be used with an external GFDI
device as required by local regulations.
NOTE:
Depending on the country of installation, conductors
identified by the color green, or a combination
of green/yellow, shall only be used for earthing
conductors.
Use the M4 screw on the left side of the heatsink to attach
a grounding wire to the screw / heatsink, and connect the
wire to the earth ground. Also tie any dead metal to earth
ground.
WARNING: Risk of Fire
DO NOT bond the DC system electrical negative to
the EcoBoost MPPT heatsink / earth ground. If local
regulations require the use of a GFDI, the system
negative must be bonded through the GFDI to earth
ground at only one point.
Installation
EcoBoost MPPT Operator’s Manual
1918
3.0
Per IEC 62109, minimum sizes for equipment copper
grounding wire are:
EcoBoost MPPT-20 10 mm
2
EcoBoost MPPT-30 10 mm
2
EcoBoost MPPT-40 10 mm
2
OR, of the same, or greater, cross-sectional area as the PV
wires.
For safety, and effective lightning protection, it is
recommended, and may be required by code, that the
negative conductor of the charging system be properly
grounded. Do not connect the negative conductor to the
heatsink equipment grounding teminal.
STEP 4: Battery Connections - see diagram below
Be sure that DIP switches 2 and 3 are set for 12 or 24V, as
described in Section 3.2
NOTE: Before connecting the battery, measure the open-circuit
voltage. It must be over 10 volts to start the controller. If the
system voltage Settings Switches are set to Auto-detect, battery
voltage over 15.5V will be detected as a 24V nominal battery, and
the unit will charge accordingly. The 12/24V auto selection is only
done at start-up.
With the battery disconnect open, connect the battery (+)
and (-) wires from the battery to controller. DO NOT CLOSE
THE BREAKER AT THIS TIME.
15 cm
MAX.
BATTERY (-)
BATTERY (+)
+
-
(at battery
OR solar side,
but NOT both)
System Ground
12V / 24V
BATTERY
Fuse or breaker sizing
based on required wire
ampacity
STEP 5: Solar Connections - see diagram below
WARNING: Shock Hazard
The solar PV array can produce open-circuit voltages
in excess of 120 Vdc when in sunlight. Verify that the
solar input breaker or disconnect has been opened
(disconnected) before installing the system wires.
With the solar disconnect open, connect the solar (PV) array
wires to the EcoBoost MPPT solar terminals. Use caution,
since the solar array will produce current whenever in
sunlight. A solar disconnnect is a convenient way to break
the PV connection when necessary. DO NOT CLOSE THE
BREAKER AT THIS TIME.
Installation
EcoBoost MPPT Operator’s Manual
2120
3.0
40 Volt
MODULE
40 Volt
MODULE
40 Volt
MODULE
SOLAR (+)
Solar
Disconnect
SOLAR (-)
(+)
(+)
(+)
(-)
(-)
(
-
)
120Voc Maximum
Fuse or breaker sizing
based on required wire
ampacity
STEP 6: Load Connections - see diagram below
CAUTION: Equipment Damage
Do not wire any AC inverter to the load terminals of the
EcoBoost MPPT. Damage to the load control circuit may result.
An inverter should be wired to the battery. If there is a possibility
that any other load will sometimes exceed the EcoBoost’s
maximum voltage or current limits, the device should be wired
directly to the battery or battery bank. If load control is required,
contact Morningstar Tech Support for assistance.
Turn the loads off, and connect the load wires to the load
terminals. DO NOT CLOSE THE BREAKER AT THIS TIME.
LOAD (+)
LOAD (-)
Fuse or breaker sizing based
on required wire ampacity
STEP 7: Power-Up and Verify System Operation
NOTE:
Carefully observe the LEDs after each
connection. The LEDs will indicate proper polarity and
a good connection.
Close the battery breaker to power on the controller. Watch
the the charging status, and then the three battery state-
of-charge (SOC) LEDs blink in sequence (G-Y-R), confirm
-
ing proper start-up. If they do not light, check the battery
polarity (+/–) and battery voltage.
Next, the green, yellow or red LED will light depending on
the battery state-of-charge (SOC). Confirm that one of these
LEDs is on before going to the next step.
Close the solar disconnect. If the solar input is connected
while in sunlight, the charging LED indicator will light.
Confirm proper connection by observing the charging LED.
Close the load disconnect, and turn the load on, to confirm
a proper connection.
EcoBoost MPPT Operator's Manual
23
4.0
Installation 22
If the load does not turn on, it could be for various reasons:
the EcoBoost MPPT is in LVD (red LED on)
there is a short circuit in the load (LEDs blinking R/G – Y)
there is an overload condition (LEDs blinking R/Y - G)
the load is not connected, not working, or turned off
After all connections have been completed, observe the
LEDs to make sure the controller is operating normally for
system conditions. If the optional digital meter is used,
observe that the display is scrolling with proper voltage
and current values. Also, a self- test can be performed with
digital meter units.
STEP 8: To Power-down
WARNING: Risk of Damage
ONLY disconnect the battery from the
EcoBoost MPPT AFTER the solar input has been
disconnected. Damage to the controller may result if the
battery is removed while the EcoBoost MPPT is charging.
To prevent damage, power-down must be done in the
reverse order as power-up.
4.1 TrakStar
TM
MPPT Technology
The EcoBoost MPPT utilizes Morningstar’s TrakStar
Maximum Power Point Tracking technology to extract
maximum power from the solar module(s). The tracking
algorithm is fully automatic and does not require user
adjustment. TrakStar technology will track the array
maximum power point voltage (Vmp) as it varies with
weather conditions, ensuring that maximum power is
harvested from the array through the course of the day.
High Voltage Strings and Grid-tie Modules
Another benefit of TrakStar MPPT technology is the ability
to charge 12 or 24 Volt batteries with solar arrays of higher
nominal voltages. A 12 Volt battery bank can be charged
with a 12, 24, 36 or 48V nominal off-grid solar array.
Certain grid-tie solar modules may also be used if the solar
array open circuit voltage (V
oc
) rating will not exceed the
EcoBoost MPPT 120V maximum input voltage rating at
worst-case (lowest) module temperature. The solar module
documentation should provide V
oc
vs. temperature data.
Higher solar input voltage results in lower solar input current
for a given input power. High voltage solar input strings
allow for smaller gauge solar wiring. This is especially helpful
for systems with long wiring runs between the solar array
and the EcoBoost MPPT.
4.2 Battery Charging
4-Stage Charging
The EcoBoost MPPT has a 4-stage battery charging
algorithm for rapid, efficient, and safe battery charging.
Figure 4-1 shows the sequence of stages.
4.0 OPERATION
Operation
EcoBoost MPPT Operator's Manual
25
24
4.0
NIGHT
NIGHT
BULK
CHARGE
ABSORPTION
FLOAT
EQUALIZE
VOLTAGE
TIME
Figure 4-1. EcoBoost MPPT Charging Algorithm
WARNING: Risk of Explosion
Equalizing vented batteries produces explosive gases.
The battery bank must be properly ventilated.
CAUTION: Equipment Damage
Equalization increases the battery voltage to levels that
may damage sensitive DC loads. Verify all system loads
are rated for the temperature compensated Equalize
voltage before beginning an Equalization charge.
CAUTION: Equipment Damage
Excessive overcharging and gasing 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.
Battery Charge Settings
Preset EcoBoost MPPT battery charging options are shown
in tables 4-1 and 4-2 below. All voltage settings listed are
for nominal 12 Volt batteries. Multiply the voltage settings
by two (2) for 24 Volt batteries.
!
!
NOTE: These settings are general guidelines for
use at the operator’s discretion. The EcoBoost MPPT
can be programmed to satisfy a wide range of charging
parameters. Consult the battery manufacturer for optimal
battery charge settings.
DIP
Switch
S
ettings
4
-5-6
B
attery
T
ype
A
bsorp.
S
tage
(
volts)
F
loat
S
tage
(
volts)
E
qualize
S
tage
(
volts)
A
bsorp.
T
ime
(
mins)
E
qualize
T
ime
(
mins)
E
qualize
T
imeout
(
mins)
E
qualize
I
nterval
(
days)
off-off-off
1 - Sealed*
14.00
13.50
150
off-off-on
2 - Sealed*
14.15
13.50
14.40
150
60
120
28
off-on-off
3 - Sealed*
14.30
13.50
14.60
150
60
120
28
off-on-on
4- AGM/Flooded
14.40
13.50
15.10
180
120
180
28
on-off-off
5 - Flooded
14.60
13.50
15.30
180
120
180
28
on-off-on
6 - Flooded
14.70
13.50
15.40
180
180
240
28
on-on-off
7 - L-16
15.40
13.40
16.00
180
180
240
14
on-on-on
8 - Custom
Custom
Custom
Custom
Custom
Custom
Custom
Custom
* “Sealed” baery type includes gel and AGM baeries
Table 4.1. Battery charging settings for each selectable battery type
Shared Settings Value Units
Absorption Extension Voltage 12.50 Volts
Absorption Extension Time Absorption Time + 30 minutes
Float Exit Time-out 30 minutes
Float Cancel Voltage 12.30 Volts
Equalize Time-out Equalize Time + 60 minutes
Temperature Compensation Co-efficient - 30
millivolts / °C
/ 12V
Table 4.2. Battery settings that are shared among all battery types
Operation
EcoBoost MPPT Operator's Manual
27
26
4.0
4.3 Load Control Information
The primary purpose of the load control function is to
disconnect system loads when the battery has discharged to
a low state of charge, and to reconnect system loads when
the battery is sufficiently recharged. System loads may be
lights, DC appliances, or other electronic devices. The total
current draw of all loads must not exceed maximum load
ratings of 20 Amps (EB-20/M) or 30 Amps (EB- 30/M or EB-
40/M).
CAUTION: Equipment Damage
Do not wire any AC inverter to the load terminals of the
EcoBoost. Damage to the load control circuit may result. An
inverter should be wired to the battery. If there is a possibility
that any other load will sometimes exceed the EcoBoost MPPT's
maximum voltage or current limits, the device should be wired
directly to the battery or battery bank. If load control is required,
contact Morningstar Tech Support for assistance.
Current Compensation:
All LVD and LVR set-points are current compensated.
Under load, the battery voltage will sag in proportion to the
current draw of the load. Without the current compensation
feature, a short-term large load could cause a premature
LVD. LVD and LVR set-points are adjusted lower per the
following table:
System Voltage
Current Compensation
12 Volt -15 mV per amp of load
24 Volt -30 mV per amp of load
Table 4-3. Current Compensation Values
LVD Warning:
As the battery discharges, the Battery Status LEDs will
transition from green to yellow and then from yellow to
flashing red. The flashing red indication is a warning that a
low voltage disconnect (LVD) event will occur soon.
The amount of time between a green SOC indication and
load disconnect will depend on many factors including:
rate of discharge (amount of load draw)
capacity of the battery
health of the battery
LVD set-point
If the battery discharges to the LVD set-point the load will
disconnect and a solid red Battery Status LED indication will
be displayed.
General Load Control Notes:
Do not wire multiple EcoBoost MPPT load outputs together
in parallel to power DC loads with a current draw greater
than 20 or 30A, depending on the EcoBoost MPPT model in
use. Equal current sharing cannot be assured and an over-
load condition will likely occur on one or more controllers.
CAUTION: Equipment Damage
Exercise caution when connecting loads with
specific polarity to a live load circuit. A reverse polarity
connection may damage the load. Always double check
load connections before applying power.
4.4 LED Indications
KEY:
G = green G - Y - R = flashing sequencially
Y = yellow G / Y = flashing together
R = red G / Y - R = G and Y flashing together,
alternating with R flash
Operation
EcoBoost MPPT Operator's Manual
29
28
4.0
4.4.1. Power-up
Normal power-up: Status LED flashes G, then SOC LEDS
flash G - Y - R, then SOC LEDs indicate battery charge status
with a single battery status LED.
Failed bootload: Status LED flashes G, then SOC LEDS
flash G - Y and stop on solid Y.
4.4.2 Status LED
The Status LED indicates charging status and any exist-
ing solar input error conditions. The Status LED is on when
charging during the day and off at night. The Status LED will
flash red whenever an error condition(s) exists. Table 4.4 lists
the Status LED indications.
Color Indication
Operating
State
None
Off (with heart-
beat¹)
Night
Green
On Solid
( with heart-
beat² )
Charging
Red Flashing Error
Red
On Solid
( with heart-
beat
2
)
Critical Error
¹ heartbeat indication flickers the Status LED on briefly every 5 seconds
² heartbeat indication flickers the Status LED off briefly every 5 seconds
Table 4.4. Status LED Definitions
NOTES:
1) R flashing is generally a user addressable fault / error
2) R charging status LED ON with heartbeat blink OFF
every 5 secs is a critical fault that generally requires service.
See, "Solid Charging Status LED with Self-test (R-Y-G) SOC
Faults", in Section 5.1.
4.4.3 State-of-Charge LEDs
Battery SOC LED Indications are shown in Table 4-5 below:
Condition Indication
Absorption G flash - every sec
Float
G flash - every 2 secs
Equalize
G flash - 2 / sec
SOC > 13.5V
G solid
13.5V > SOC > 13.0V
G / Y solid
13.0V > SOC > 12.5V
Y solid
SOC < 12.5V
Y / R solid
Low voltage disconnect warning
R flash - every sec
Low voltage disconnect
R solid
Table 4.5. Battery SOC LED Indications
4.5 Alarms
Solar Overload
No LED indication. The EcoBoost MPPT will limit battery
current to the 20, 30 or 40 amp maximum rating. An over-
sized solar array will not operate at peak power. The solar
array should be less than the EcoBoost MPPT nominal max.
input power rating for optimal performance. See Section
7.0 - Technical Specifications for more information.
High Temperature Current Limit
The EcoBoost MPPT will limit the solar input current if the
heatsink temperature exceeds safe limits. Solar charge
current will be tapered back (to 0 amps if needed) to reduce
the heatsink temperature. The EcoBoost MPPT is designed
to operate at full rated current at the maximum ambient
temperature. This alarm indicates that there is insufficient
airflow and that the heatsink temperature is approaching
unsafe limits. If the controller frequently reports this alarm
condition, corrective action must be taken to provide better
air flow or to re-locate the controller to a cooler spot.
Operation
EcoBoost MPPT Operator's Manual
31
30
4.0
High Input Voltage Current Limit
The EcoBoost MPPT will limit the solar input current as
the solar array Voc approaches the maximum input voltge
rating. The array Voc should never exceed the 120 volt
maximum input voltage - see the array voltage de-rating
graph in Appendix.
Current Limit
The array power exceeds the rating of the controller. This
alarm indicates that the EcoBoost MPPT is limiting battery
current to the maximum current rating.
RTS Open
The Remote Temperature Sensor is not connected to the
controller. Use of the RTS is recommended for proper
battery charging.
Heatsink Temperature Sensor Open / Shorted
The heatsink temperature sensor is damaged. Return the
controller to an authorized Morningstar dealer for service.
Uncalibrated
The controller was not factory calibrated. Return the
controller to an authorized Morningstar dealer for service.
4.6 Custom Settings
4.6.1 Adjusting Set-points with the Meter Display
The EcoBoost MPPT is available in metered and
non-metered versions. The metered model allows:
Custom programming directly from the unit.
Extensive settings adjustment and information as shown
partially in Figure 4-2 below.
Figure 4-2. Simplified Meter Map.
For metered models, see the included complete meter
map insert, also available in the EcoBoost MPPT support
documents at:
www.morningstarcorp.com
4.6.2 Meter Display Operation
4.6.2.1 Directional Key Use and Operation / Navigating
the Meter Map
The EcoBoost MPPT's meter map consists of two main
axes: The horizontal top level daily monitoring screens, and
the vertical Main Menu stacked screens. The four lighted
triangular directional control keys allow movement to reach
Start Lighting Test
Load Disconnect
Factory Reset
Reset Control
Backlight Timer
Backlight
Target Voltage
Battery Temp.
Display Screens and Programming
Models:
EcoBoost-20M
EcoBoost-40M
EcoBoost-30M
Main Screens
Daily Charging Stage - Time
Daily Charge Transferred -
Battery and Load
Solar Current - Battery
Current - Load Current
Daily Max / Min
Battery Voltages
STATUS
HISTORY
See Complete History
Screens Online, or in
Manual Insert
SYSTEM
DISPLAY
SETTINGS
COMMANDS
Faults
Load / Light State
Charge State
Input Voltage
Alarms
CUSTOM PROGRAMMING:
To
Programming
Screens
Clear KWh
Records
Graphs
Error Log
Battery Sense
Hour Meter
Last Equalization
Brightness
Auto Scroll
Contrast
Auto Return
Auto Scroll Timer
Language
Temp. Units
See Complete
Programming Screens
Online or in Manual Insert
See Complete
Programming Screens
Online or in Manual Insert
Clear Resettable Ah
Clear Total Ah
Serial No.
Firmware Version
Battery Type
Absorption Voltage
Float Voltage
EQ Voltage
Input Mode
System Voltage
Operation
EcoBoost MPPT Operator's Manual
33
32
4.0
any desired point on the meter map. A lit key indicates
a valid direction in the map. The current location is
indicated on the display with a column heading, and a bold
descriptor.
4.6.2.2 Adjusting the Meter Display
The display setting options, as shown in Figure 4-2, are
adjustable by using the directional keys to locate and edit a
desired setting or variable.
4.7 Data Logging (future use)
The EcoBoost MPPT logs thirty days of basic system data:
Daily minimum battery voltage
Daily maximum battery voltage
Daily Events (Equalize triggered, Entered Float, Alarm/
Fault occurred, Reset)
Faults / Alarms - recorded only if a fault or alarm occurs
that day
Daily charge to battery
The EcoBoost MPPT USB Micro-B port (for future use) will
allow data transfer in mobile applications.
4.8 Auxilliary USB Charging
NOTE: When using USB-A charging cables, install the
included ferrite choke(s) by wrapping at least one
loop of cable through the core in a position as close to the
EcoBoost MPPT as possible. Chokes will ensure compliance with
electromagnetic emissions standards.
1) The EcoBoost MPPT has two USB-A ports for use as
charging sources for small electronics. Energy is taken
from the system battery, so any auxilliary charging must be
balanced with other load draws on the system battery.
2) The USB charging ports will operate in all conditions
except for LVD, HVD, or a user requested Load Disconnect
(from a meter command, for example). In LVD, HVD & Load
Disconnect, the main load and the USB ports are powered
off.
3) If the main load gets faulted for some reason (shorted
FET, etc), the USB charging ports will still operate.
4.9 Inspection and Maintenance
Table 4-6 below lists the recommended maintenance
schedule to keep your EcoBoost MPPT performing
optimally.
WARNING: RISK OF ELECTRICAL SHOCK.
NO POWER OR ACCESSORY TERMINALS ARE ELEC-
TRICALLY ISOLATED FROM DC INPUT, AND MAY BE ENER-
GIZED WITH HAZARDOUS SOLAR VOLTAGE. UNDER CERTAIN
FAULT CONDITIONS, BATTERY COULD BECOME OVER-
CHARGED. TEST BETWEEN ALL TERMINALS AND GROUND
BEFORE TOUCHING.
WARNING: SHOCK HAZARD
DISCONNECT ALL POWER SOURCES TO THE
CONTROLLER BEFORE REMOVING THE WIRING BOX
COVER. NEVER REMOVE THE COVER WHEN VOLTAGE
EXISTS ON THE ECOBOOST MPPT POWER CONNECTIONS.
EcoBoost MPPT Operator’s Manual
35
5.0
Operation
34
Schedule Maintenance Items
2 weeks after installation
Re-tighten power terminal
connections to specified
torque values.
3 months after installation
Re-tighten power terminal
connections to specified
torque values.
Monthly or After Each
Equalization
Inspect the battery bank.
Look for cracked or
bulging cases, and corroded
terminals.
For wet cell (flooded type)
batteries, make sure the
water level is correct. Wet
cell water levels should be
checked monthly or accord
-
ing to the manufacturer’s
recommendations.
Annually
Clean the heatsink fins with a
clean, dry rag.
Inspect all wiring for
damage or fraying.
Inspect for nesting insects.
Re-tighten all wiring terminal
connections to specified
torque values.
Inspect the system earth
grounding for all
components. Verify all
grounding conductors are
appropriately secured to
earth ground.
Table 4-6. Maintenance Schedule
WARNING: RISK OF ELECTRICAL SHOCK.
NO POWER OR ACCESSORY TERMINALS ARE ELEC-
TRICALLY ISOLATED FROM DC INPUT, AND MAY BE ENER-
GIZED WITH HAZARDOUS SOLAR VOLTAGE. UNDER CERTAIN
FAULT CONDITIONS, BATTERY COULD BECOME OVER-
CHARGED. TEST BETWEEN ALL TERMINALS AND GROUND
BEFORE TOUCHING.
WARNING: SHOCK HAZARD
A MEANS OF DISCONNECTING ALL POWER SUPPLY
POLES MUST BE PROVIDED. THESE DISCONNECTS
MUST BE INCORPORATED IN THE FIXED WIRING. OPEN
ALL POWER SOURCE DISCONNECTS BEFORE REMOVING
CONTROLLER WIRING COVER, OR ACCESSING WIRING.
5.1 LED Fault Indications
Load Over-current
Error Status LED: Flashing red. Battery status LEDs: R/Y-
G sequencing. If the load current exceeds the maximum
load current rating, the EcoBoost MPPT will disconnect the
load. The greater the overload the faster the load will be
disconnected. A small overload could take a few minutes to
disconnect. The EcoBoost MPPT will attempt to reconnect
the load two (2) times. Each attempt is approximately 10
seconds apart. If the overload remains after two (2)
attempts, the load will remain disconnected until power is
removed and re-applied.
Solar Short Circuit
Charging Status LED: OFF. Solar input power wires are
short-circuited. Charging automatically resumes when the
short is cleared.
Battery Reverse Polarity
No LED indication, the unit is not powered. No damage to
the controller will result. Correct the miswire to resume
normal operation.
5.0 TROUBLESHOOTING
  • Page 1 1
  • Page 2 2
  • Page 3 3
  • Page 4 4
  • Page 5 5
  • Page 6 6
  • Page 7 7
  • Page 8 8
  • Page 9 9
  • Page 10 10
  • Page 11 11
  • Page 12 12
  • Page 13 13
  • Page 14 14
  • Page 15 15
  • Page 16 16
  • Page 17 17
  • Page 18 18
  • Page 19 19
  • Page 20 20
  • Page 21 21
  • Page 22 22
  • Page 23 23
  • Page 24 24
  • Page 25 25
  • Page 26 26
  • Page 27 27
  • Page 28 28
  • Page 29 29
  • Page 30 30
  • Page 31 31
  • Page 32 32
  • Page 33 33
  • Page 34 34
  • Page 35 35
  • Page 36 36
  • Page 37 37
  • Page 38 38
  • Page 39 39
  • Page 40 40
  • Page 41 41
  • Page 42 42
  • Page 43 43
  • Page 44 44
  • Page 45 45
  • Page 46 46
  • Page 47 47
  • Page 48 48
  • Page 49 49
  • Page 50 50
  • Page 51 51
  • Page 52 52
  • Page 53 53
  • Page 54 54
  • Page 55 55
  • Page 56 56
  • Page 57 57
  • Page 58 58
  • Page 59 59
  • Page 60 60
  • Page 61 61
  • Page 62 62
  • Page 63 63
  • Page 64 64
  • Page 65 65
  • Page 66 66
  • Page 67 67
  • Page 68 68
  • Page 69 69
  • Page 70 70
  • Page 71 71
  • Page 72 72
  • Page 73 73
  • Page 74 74
  • Page 75 75
  • Page 76 76
  • Page 77 77
  • Page 78 78
  • Page 79 79
  • Page 80 80
  • Page 81 81
  • Page 82 82
  • Page 83 83
  • Page 84 84
  • Page 85 85
  • Page 86 86
  • Page 87 87
  • Page 88 88
  • Page 89 89
  • Page 90 90
  • Page 91 91
  • Page 92 92

Morningstar EcoBoost MPPT Manuel utilisateur

Taper
Manuel utilisateur