ZCS AZZYRRO 3-6-ZSS-HP User manual
QUICK GUIDE
3-6-ZSS-HP HYBRID INVERTER
Rev. 2.0 –26/04/2023
Always wear protective
clothing and/or personal
protective equipment
Always consult the
manual
General notice -
Important Safety
Instructions
TABLE OF CONTENTS
TABLE OF CONTENTS
1. INSTALLATION AND DISTANCES
2. WALL INSTALLATION
3. DISPLAY & BUTTONS
4. MAIN MENU
5. CONNECTING TO THE GRID
6. PHOTOVOLTAIC CONNECTIONS
7. BATTERY CONNECTION
8.1.1 SINGLE PYLONTECH US2000 BATTERY
8.1.2 PYLONTECH US2000 BATTERIES IN PARALLEL
8.1.3 PYLONTECH US2000 BATTERY SETTINGS ON INVERTER
8.2.1 SINGLE PYLONTECH US5000 BATTERY
8.2.2 PYLONTECH US5000 BATTERIES IN PARALLEL
8.2.3 PYLONTECH US5000 BATTERY SETTINGS ON INVERTER
9.1.1 SINGLE WECO 4K4 BATTERY
9.1.2 WECO 4K4 BATTERIES IN PARALLEL
9.1.3 WECO 4K4 BATTERY SETTINGS ON INVERTER
9.2.1 SINGLE WECO 4K4PRO BATTERY
9.2.2 WECO 4K4PRO BATTERIES IN PARALLEL
9.2.3 WECO 4K4PRO BATTERY SETTINGS ON INVERTER
9.3.1 SINGLE WECO 4K4-LT BATTERY
9.3.2 WECO 4K4-LT BATTERIES IN PARALLEL
9.3.4 WECO 4K4-LT BATTERY START-UP
9.3.5 WECO 4K4-LT BATTERY SETTINGS ON INVERTER
9.4 MIXED CONNECTION BETWEEN WECO, WECO 4K4PRO and WECO 4K4-LT BATTERIES
9.5.1 SINGLE WECO 5K3 BATTERY
9.5.2 WECO 5K3 BATTERIES IN PARALLEL
9.5.3 WECO 5K3 BATTERY SETTINGS ON INVERTER
9.6.1 SINGLE WECO 5K3XP BATTERY
9.6.2 WECO 5K3XP BATTERIES IN PARALLEL
9.6.3 WECO 5K3XP BATTERY SETTINGS ON INVERTER
9.7 MIXED CONNECTION BETWEEN WECO 5K3 AND WECO 5K3XP BATTERIES
10.1.1 SINGLE AZZURRO ZSX 5000 BATTERY
10.1.2 AZZURRO ZSX 5000 BATTERIES IN PARALLEL
10.1.3 AZZURRO ZSX 5000 BATTERY SETTINGS ON INVERTER
10.2.1 SINGLE AZZURRO ZSX 5000 PRO BATTERY
10.2.2 AZZURRO ZSX 5000 PRO BATTERIES IN PARALLEL
10.2.3 AZZURRO ZSX 5000 PRO BATTERY SETTINGS ON INVERTER
10.3.1 SINGLE AZZURRO ZSX 5120 BATTERY
10.3.2 AZZURRO ZSX 5120 BATTERIES IN PARALLEL
10.3.3 AZZURRO ZSX 5120 BATTERY SETTINGS ON INVERTER
11.1 MEASUREMENT OF EXCHANGE VIA CURRENT SENSOR
11.2 MEASUREMENT OF EXCHANGE VIA METER DDSU
11.3 METER DDSU SETTING ON EXCHANGE AND INVERTER
11.4 MEASUREMENT OF EXTERNAL PRODUCTION VIA METER DDSU
11.5 METER DDSU SETTING ON EXTERNAL PRODUCTION
11.6 EXCHANGE METER DDSU AND PRODUCTION METER CONFIGURATION
11.7 CHECKING CORRECT READING OF METER DDSU
11.8 METER DTSU READING
11.9 METER DTSU SETTING
11.10 CHECKING THE CORRECT READING OF THE METER DTSU
12. INITIAL SET UP PROCEDURE
13. FIRST CONFIGURATION
14. CHECKING FOR CORRECT OPERATION
15.1 CHECKING OF INVERTER SETTINGS
15.2 CHECKING OF BATTERY SETTINGS
16. ZERO FEED-IN MODE
17. LOGIC INTERFACE (DRMS0)
18.1 EPS MODE (OFF GRID)
18.2 EPS MODE (OFF GRID) -WIRING PROCEDURE AND INSTALLATION TYPES
18.3 EPS MODE (OFF GRID) - OPERATION
18.4 EPS MODE (OFF GRID) -MENU ENABLING
19.1 OFF GRID MODE ONLY
19.2 OFF GRID MODE ONLY -START UP
20.1 PARALLEL INVERTER MODE -CONFIGURATION
20.2 PARALLEL INVERTER MODE -SETTINGS
21.FIRMWARE UPDATE
22.SELF-TEST
23. % CHARGE MODE
24. QUICK INFO ON SYSTEM STATUS
25. OPERATING STATUSES IN AUTOMATIC MODE
1. INSTALLATION
2. WALL INSTALLATION
1. INSTALLATION AND DISTANCES
Distances for installation of a single inverter
Distances for installation of multiple inverters
30
Maximum height from ground permitted: 180 cm
Step 1: Position the mounting bracket on the wall, mark the
fixing points.
Drill holes (10 mm drill bit) in the wall.
Step 2: Insert the expansion bolts vertically into the hole,
making sure that the insertion depth is neither too shallow
nor too deep.
Step 3: Fix the mounting bracket to the wall using dowels
and flat washers.
Step 4: Position the 1PH HYD3000-HYD6000-ZSS-HP inverter
on the mounting bracket.
Step 5: Use the grounding hole of the heat sink to ground
the 1PH HYD3000-HYD6000-ZSS-HP inverter.
Step 1 Step 2 Step 3
Step 4 Step 5
4. MAIN MENU
Status of
the HYD-ES
inverter
On-Grid
Green light
Off-Grid
Green light
Alarm
Red light
On-Grid On
Standby
(On-Grid) Intermittent
Off-Grid On
Standby
(Off-Grid) Intermittent
Alarm On
3. DISPLAY & BUTTONS
Main menu
1. Basic settings
2. Advanced settings
3. Event list
4. System Info
5. Software Update
6. Energy statistics
From the main menu, press
“Menu/Back” to enter the main
menu. 1. Language
2. Date and Time
3. Safety parameters
4. Working mode
5. Self-test
6. Config.input Channels
7. EPS Mode
8. Commun.Address.Select.
1. Battery parameters
2. Active battery
3. Zero feed-in mode
4. IV Curve Scan
5. Logic interface
6. Factory reset
7. Parallel settings
8. Bluetooth Reset
9. CT Calibration
PWD: 0715
1. List of current events
2. List of historical events
1. Inverter Info
2. Battery Info
3. Safety parameters
Start Update ...
PWD: 0715
Today Week Month Year Life Cycle
PV prod.PV prod.PV prod.PV prod.PV prod.
AutoCon AutoCon AutoCon AutoCon AutoCon
Export Export Export Export Export
Consumption Consumption Consumption Consumption Consumption
AutoCon AutoCon AutoCon AutoCon AutoCon
Import Import Import Import Import
INVERTER STATUS
PV1 FIELD STATUS PV2 FIELD STATUS
PV PRODUCTION GRID POWER
BATT POWER CONSUMPTION
DATE TIME
WI-FI/METER
BATT STATUS
METER/WI-FI
PHOTO
MENU/BACK UP DOWN ENTER/FORWARD
5. CONNECTING TO THE GRID
Connector
insertion
Connector
disconnection
GRID LOAD
Step 1: Select the
appropriate cable
type and
specifications. A:
30~50 mm; B: 3~5
mm.
Step 2: Pass the
wire through the
terminal.
Step 3: According to
the mark, lock the
wire into the hole on
the terminal and
tighten it with the
Allen key.
Step 4: Push
the terminal
forward until a
‘click’ sound is
heard.
Step 5: Connect the connected
load terminal to the load port of
the inverter and push the
terminal forward until a ‘click’
sound is heard and the terminal
has been connected.
Component Description Recommended
cable type
Recommended cable
specification
Load
L (U)
Multi-core
copper cable for
outdoor use
Cross-section area of the
conductor: 4~6 mm2
N (W)
PE (O)
AC
L (U)
Multi-core
copper cable for
outdoor use
Cross-section area of the
conductor: 5~8 mm2
N (W)
PE (O)
6. PHOTOVOLTAIC CONNECTIONS
Cross-sectional area (mm2)
Outer diameter of cable (mm2)
Range Recommended
value
4.0~6.0 4.0 4.5~7.8
Recommended specifications for DC input
cables
Insert the crimped positive and negative cables into the corresponding photovoltaic connectors.
1. Positive contact
2. Negative contact
Make sure that the DC parameters of the strings are acceptable according to the technical specifications given in the datasheet and in the
Azzurro ZCS configurator. In addition, check that the polarities of the photovoltaic cables are correct.
Before removing the positive and negative PV connectors, make
sure that the DC rotary circuit breaker is in the OFF position.
3. Positive connector
4. Negative connector
Prepare the positive and negative photovoltaic cables.
Use a MC4 wrench to disconnect the
photovoltaic connectors
NOTE: Both MPPT inputs of the inverter must be populated, even if the system has only
one string. Use a “Y” cable or a square to split the string.
Configure the inverter in parallel mode:
Basic settings
Input channel configuration
Parallel
ATTENTION Before connecting/disconnecting the strings to the inverter, check
that the DC circuit breaker on the side of the inverter is in the OFF position.
Power
connections
Communication connections
7. BATTERY CONNECTION
Step 2
When switching off the system, DISCONNECT THE AC VOLTAGE by
opening the switch dedicated for this purpose. NEVER SWITCH OFF the
batteries before disconnecting the AC voltage, and therefore with the
storage system connected to the AC grid.
3.1 Battery connection
POWER CONNECTION -In case of a single battery,
two power cables (positive and negative) and one
communication cable will be connected, as shown
above.
The communication cable is located
inside the kit in the inverter box.
Maximum DoD
programmable 80%
8.1.1 SINGLE PYLONTECH US2000 BATTERY
3.3 Grid Connections
Note: DIP switches must be set as per
the factory settings, all in the OFF
position (00000)
Communication connections between batteries and inverter:
•CAN of Master Battery COM Port of inverter
Inverter
negative
Inverter
positive
Communication cable pinout between
Pylontech battery and Inverter, from left to right
PIN 1: CAN H (blue wire)
PIN 2: CAN L (white-blue wire)
PIN 1: White-Orange
PIN 2: Orange
PIN 3: White-Green
PIN 4: Blue
PIN 5: White-Blue
PIN 6: Green
PIN 7: White-Brown
PIN 8: Brown
Pylontech
Inverter
3.3 Grid Connections
8.1.2 PYLONTECH US2000 BATTERIES IN PARALLEL
Master
Slave 1
Slave n
…
NOTE: For a parallel connection, use the appropriate cables (power and communication) supplied in the kit.
Communication connections between batteries and inverter:
Batteries are connected IN PARALLEL to each other.
•CAN of Master Battery COM Port of inverter
•Link port 1 of master battery Link Port 0 of Slave 1 battery
•Link port 1 of Slave 1 battery Link Port 0 of Slave 2 battery
•…
•Link Port 1 of slave N-1 battery (second last) Link Port 0 of slave N battery (last)
Power connections between batteries and inverter:
Batteries must be connected in a "loop.”
•Positive input (+) of master battery connected to
positive input (+) of inverter.
•Positive input (+) of master battery connected to
positive input (+) of slave 1 battery.
•Negative input (-) of master battery connected to
negative input (-) of slave 1 battery.
•…..
•Positive input (+) of slave N-1 battery (second-last)
connected to positive input (+) of slave N battery
(last).
•Negative input (-) of slave N-1 battery (second-last)
connected to negative input (-) of slave N battery
(last).
•Negative input (-) of slave N battery (second-last)
connected to negative input (-) of inverter.
Inverter
negative
Inverter
positive
8.1.3 PYLONTECH US2000 BATTERY SETTINGS ON INVERTER
Set the battery channels in the inverter.
To set the battery parameters:
Advanced settings
0715
Battery parameters:
oType:Pylon;Depth of discharge:80%.
1.Battery type Pylon-AH
US2000
4.Depth of Discharge 80%
6.Save
3.1 Battery connection
POWER CONNECTION -In case of a single battery, two power cables (positive and
negative) and one communication cable will be connected, as shown above.
Note: Maximum DoD
programmable 80%
8.2.1 SINGLE PYLONTECH US5000 BATTERY
Inverter
negative
Inverter
positive
Communication cable pinout between
Pylontech battery and Inverter, from left to right
PIN 1: CAN H (blue wire)
PIN 2: CAN L (white-blue wire)
PIN 1: White-Orange
PIN 2: Orange
PIN 3: White-Green
PIN 4: Blue
PIN 5: White-Blue
PIN 6: Green
PIN 7: White-Brown
PIN 8: Brown
Pylontech
Inverter
The communication cable is located
inside the kit in the inverter box.
Communication connections between batteries and inverter:
•CAN of Master Battery COM Port of inverter
Note: DIP switches must be set as per
the factory settings, all in the OFF
position (00000)
3.1 Battery connection
8.2.2 PYLONTECH US5000 BATTERIES IN PARALLEL
Master
Slave 1
Slave n
…
NOTE: For a parallel connection, use the appropriate cables (power and communication) supplied in the kit.
Inverter
negative
Inverter
positive
Communication connections between batteries and inverter:
Batteries are connected IN PARALLEL to each other.
•CAN of Master Battery COM Port of inverter
•Link port 1 of Slave 1 battery Link Port 0 of Slave 2 battery
•…
•Link Port 1 of slave N-1 battery (second last) Link Port 0 of slave N battery (last)
Power connections between batteries and inverter:
Batteries must be connected in a "loop.”
•Positive input (+) of master battery connected to
positive input (+) of inverter.
•Positive input (+) of master battery connected to
positive input (+) of slave 1 battery.
•Negative input (-) of master battery connected to
negative input (-) of slave 1 battery.
•…..
•Positive input (+) of slave N-1 battery (second-last)
connected to positive input (+) of slave N battery
(last).
•Negative input (-) of slave N-1 battery (second-last)
connected to negative input (-) of slave N battery
(last).
•Negative input (-) of slave N battery (second-last)
connected to negative input (-) of inverter.
8.2.3 PYLONTECH US5000 BATTERY SETTINGS ON INVERTER
Set the battery channels in the inverter.
To set the battery parameters:
Advanced settings
0715
Battery parameters:
oType:Pylon;Depth of discharge:80%.
1.Battery type Pylon-AH
US5000
4.Depth of Discharge 80%
6.Save
8.2 PYLONTECH BATTERIES IN PARALLEL
9.1.1 SINGLE WECO 4K4 BATTERY
3.1 Battery connection
Maximum DoD
programmable 90%
DO NOT CHANGE DIP
SWITCH POSITION WITH
THE BATTERY ON!!
OFF
In case of a SINGLE BATTERY:
1. Connect the BMS-CAN input
2. Set the DIP Switches
3. Make the power connections
by connecting the appropriate
B+ and B-wires to the
corresponding input (as shown
in the figure).
4. Connect the ground cable to the
battery
COM
GND
POWER +/-
Communication cable pinout between WeCo
battery and Inverter, from left to right
PIN 1: CAN (White-Orange)
PIN 2: CAN (Orange)
PIN 1: White-Orange
PIN 2: Orange
PIN 3: White-Green
PIN 4: Blue
PIN 5: White-Blue
PIN 6: Green
PIN 7: White-Brown
PIN 8: Brown
WeCo
Inverter
The communication cable is located
inside the kit in the inverter box.
Communication connections between batteries and inverter:
•BMS-CAN of Master Battery COM Port of inverter
8.2 PYLONTECH BATTERIES IN PARALLEL
3.1 Battery connection
In case of MULTIPLE BATTERIES, connect the communication cable from the COM port of the inverter to
the BMS-CAN port of the MASTER battery, after having defined the correct positioning of the DIP Switches
(see following pages).
9.1.2 WECO 4K4 BATTERIES IN PARALLEL
Communication connections between batteries and inverter:
Batteries are connected IN PARALLEL to each other.
•BMS-CAN of master battery COM Port of inverter
•RS485-B of master battery RS485-A of slave 1 battery
•RS485-B of slave 1 battery RS485-A of slave 2 battery
•…
•RS485-B of slave N-1 battery (second last) RS485-A of slave N battery (last)
Power connections between batteries and inverter:
Batteries must be connected in a “loop.”
•Positive input (+) of master battery connected to positive input (+) of inverter.
•Positive input (+) of master battery connected to positive input (+) of slave 1 battery.
•Negative input (-) of master battery connected to negative input (-) of slave 1 battery.
•…..
•Positive input (+) of slave N-1 battery (second-last) connected to positive input (+) of slave N battery
(last).
•Negative input (-) of slave N-1 battery (second-last) connected to negative input (-) of slave N battery
(last).
•Negative input (-) of slave N battery (second-last) connected to negative input (-) of inverter.
NOTE: When switched on for the first time, the WeCo batteries receive a command from the inverter to
start regular operation only when all of them have collectively reached a state of full charge (i.e. a SOC
level of 100%).
Connecting 5
batteries
Connecting 4
batteries
Connecting 3
batteries
Connecting 2
batteries
MASTER SLAVE 1
MASTER SLAVE 1 SLAVE 2
MASTER SLAVE 1 SLAVE 2 SLAVE 3
MASTER SLAVE 1 SLAVE 2 SLAVE 3 SLAVE 4
9.1.3 WECO 4K4 BATTERY SETTINGS ON INVERTER
Set the battery channels in the inverter.
To set the battery parameters:
Advanced settings
0715
Battery parameters:
oType:WeCo;Depth of discharge:80%.
1.Battery type WeCo
4.Depth of Discharge 80%
6.Save
8.2 PYLONTECH BATTERIES IN PARALLEL
9.2.1 SINGLE WECO 4K4PRO BATTERY
3.1 Battery connection
Maximum DoD
programmable 90%
DO NOT CHANGE DIP
SWITCH POSITION WITH
THE BATTERY ON!!
OFF
Communication cable pinout between WeCo
battery and Inverter, from left to right
PIN 1: CAN (White-Orange)
PIN 2: CAN (Orange)
PIN 1: White-Orange
PIN 2: Orange
PIN 3: White-Green
PIN 4: Blue
PIN 5: White-Blue
PIN 6: Green
PIN 7: White-Brown
PIN 8: Brown
WeCo
Inverter
The communication cable is located
inside the kit in the inverter box.
Communication connections between batteries and inverter:
•CAN-A of Master Battery COM Port of inverter
In case of a SINGLE BATTERY:
1. Connect the CAN-A input
2. Set the DIP Switches
3. The power connections must be
made by attaching the appropriate B+
and B-connectors to the corresponding
input (as shown in the figure).
4. Connect the ground
cable to the battery
through the threaded hole
COM
GND
POWER +/-
8.2 PYLONTECH BATTERIES IN PARALLEL
3.1 Battery connection
In case of MULTIPLE BATTERIES, connect the communication cable from the COM port of the inverter to
the CAN-A port of the MASTER battery, after having defined the correct positioning of the DIP Switches
(see following pages).
9.2.2 WECO 4K4PRO BATTERIES IN PARALLEL
Communication connections between batteries and inverter:
Batteries are connected IN PARALLEL to each other.
•CAN-A of master battery COM Port of inverter
•RS485-B of master battery RS485-A of slave 1 battery
•RS485-B of slave 1 battery RS485-A of slave 2 battery
•…
•RS485-B of slave N-1 battery (second last) RS485-A of slave N battery (last)
Power connections between batteries and inverter:
Batteries must be connected in a "loop.”
•Positive input (+) of master battery connected to positive input (+) of inverter.
•Positive input (+) of master battery connected to positive input (+) of slave 1 battery.
•Negative input (-) of master battery connected to negative input (-) of slave 1 battery.
•…..
•Positive input (+) of slave N-1 battery (second-last) connected to positive input (+) of slave N battery
(last).
•Negative input (-) of slave N-1 battery (second-last) connected to negative input (-) of slave N battery
(last).
•Negative input (-) of slave N battery (second-last) connected to negative input (-) of inverter.
NOTE: When switched on for the first time, the WeCo batteries receive a command from the inverter to
start regular operation only when all of them have collectively reached a state of full charge (i.e. a SOC
level of 100%).
Connecting 3
batteries
Connecting 2
batteries
Connecting 4
batteries
Connecting 5
batteries
MASTER SLAVE 1
MASTER SLAVE 1 SLAVE 2
MASTER SLAVE 1 SLAVE 2 SLAVE 3
MASTER SLAVE 1 SLAVE 2 SLAVE 3 SLAVE 4
9.2.3 WECO 4K4PRO BATTERY SETTINGS ON INVERTER
Set the battery channels in the inverter.
To set the battery parameters:
Advanced settings
0715
Battery parameters:
oType:WeCo;Depth of discharge:80%.
1.Battery type WeCo
4.Depth of Discharge 80%
6.Save
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