Sunny INV220 Series Manuel utilisateur
USER MANUAL For Central Battery Systems - INV220V Series
Table of Contents
Part 1 : Overview Central Battery Systems
Features
Technical Specifications
Indicators
Electrical Connector
Part 2 : Installation and Operation
Battery Connection
Steps for Connecting the Input and Output
Device Initialization
Part 3 : Maintenance
Device Maintenance
Initial Trouble Shooting
Important Note on Using the Unit
Testing the Unit’s Operability
1
Page
2
3
4
5
6
7-9
10-11
12
12
12
1.1
1.2
1.3
1.4
2.1
2.2
2.3
2.4
3.1
Part 4 : Terms for Warranty and Service
Terms for Warranty and Service 13
4.1
3.2
3.3
Part 1
Overview Central Battery Systems
Central Battery Systems by Inverter 220V is used to detect any abnormalities of the main power distribution
system. In case of error or emergency, the unit will convert the battery voltage stored in the chemical form into the
electric power and supply it to the inverter where the DC voltage from the battery will be converted into the AC
voltage at 220VAC 50Hz to turn on the emergency light. On the other hand, when the main power distribution
system resumes its normal operation, the unit will stop supplying the backup power and start recharging the battery
for later use in case of another error or for the emergency light test.
Central Battery Systems by Inverter 220V Series has 2 function modes of operation.
1.1
1
Transformer
DC
AC
Display
Rectifier Controller Power Inverter
Transfer
Transfer
Battery
Maintained
System
Non - Maintained
System
AC Input
220-240VAC
1.1 Features
1. MAINTAINED (Providing lighting constantly throughout the period when the AC line lights are in the normal
status and when the AC Line lights are off.)
2. NON–MAINTAINED (Providing emergency lighting only when the AC line lights are off.)
1.2 Technical Specifications
2
Model
Rated Capacity
(Wattage)
Mode of Operations
Input
Voltage
Frequency
Output
Voltage
Frequency
Output Wavefrom
Terminal Output
Maximum Load @ PF=1
(Wattage)
Efficiency
Battery Type
Battery Rated Voltage
Protections
Operate of
Temperature
Size L x W x H (mm)
INV220 Series
200 300 400 500 700 1000 1200 1500 2000 2500 40003000
2000 2500 40003000
Maintained and Non - Maintained
220 -240VAC
50Hz
AC220V± 2%
50Hz ± 1%
(Battery Mode)
2 Output
200 300 400 500 700 1000 1200 1500
>80%
Sealed Lead – Acid Battery
24V48V
10°C to50°C
440x230x660 600x250x810 640x250x970 620x400x1200 620x600x1200
(Battery Mode)
Pure Sine Wave
-Overload & Short circuit
-Battery Low voltage cut-off
-AC Input Low Voltage Protections
800x600x1500
1AC. VOLTMETER
2DC.VOLTMETER
3LED
AC. Input
4LED DC. Input
5LED Operate
6LED Testing
7LED Charging
8LED Battery Fail
9LED Charge Fail
Indicating the input and output voltage.
Indicating the battery voltage.
Indicating the status of the input voltage of 220-240VAC.
Indicating the status of the battery power into the device.
Indicating the operation status of the inverter unit.
Indicating automatic battery discharge status.
Indicating charging status.
Indicating the failure status of the battery.
Indicating the failure status of the battery charging.
1.3 Indicators
3
1
2
3
4
5
6
7
8
9
No. Symbol Description
1AC.INPUT 220VAC
2
3
1 BATT
2AC.INPUT 220VAC
3
4
1.4 Electrical Connector
4
MAINTAINED
NON - MAINTAINED
AC.INPUT 220VAC MAINTAINED NON-MAINTAINED
BATT
MAINTAINED
NON - MAINTAINED
Terminal for connecting power to the device
Terminal Maintained for Continuous Power Supply Mode
Terminal Non-Maintained for Use in Emergency Power Supply Mode
No. Symbol Description
No. Symbol Description
Circuit Breaker for Battery Operation On/Off
Circuit Breaker for On/Off Power Supply to the Device
Circuit Breaker for On/Off Output Power
Circuit Breaker for On/Off Output Power
Part 2
Installation and Operation
4 Batteries in Series (48V)
Since the inverter operates at a voltage of 24 Volts and 48 Volts, for maximum efficiency the batteries
are connected together to increase its voltage from 12 Volts to 24 and 48 Volts as shown in the diagram
connecting the battery with the battery in the box connecting the positive (+) and negative (-) cables correctly.
1. Set all the breakers to Off prior to connecting the batteries.
2. Connect the cables to the correct battery terminal following the wiring diagram.
3. Do not short-circuit the battery terminals.
4. Check the Voltage of the battery after the connection to make sure if it is the desired 24 Volts or 48 Volts.
Warning
2 Batteries in Series (24V) 2 Parallel Sets of Batteries in Series (24V)
4 Batteries in Series (48V) 2 Parallel Sets of Batteries in Series (48V)
2.1 Battery Connection
5
1.) Test the readiness of the output load, for example, check for any short-circuits or if the total wattage
exceeds the acceptable load. (Caution: The Output Line and Neutral circuit should be independent from
other circuits otherwise damage could occur to the inverter.)
2.) When connecting to the Load Output in the circuit box there will be 2 outputs to choose from, which are
2.1 Output Maintained. This connection will provide a constant 220Vac 50Hz current. This is suitable
for uses that requires a constant current both during normal conditions and during power outages,
for example, providing power for emergency exit signs without a built-in battery or lights that need to be
constantly on such as lights installed in fire escapes or in parking lots.
2.2 Output Non-Maintained. This connection will not provide a 220Vac 50Hz during normal conditions.
The connection will only provide power during power outages. This connection is suitable for things such
as emergency illumination lamps.
Caution: For the correct connection the Line should be connected into L, Neutral should be connected to N and
Ground should be connected to PE The cables should be connected securely and no foreign objects should be in
the circuit box that could potentially cause a short-circuit.
3.) Connect the Input cables to the Input 220VAC terminal inside the red frame inside the circuit box. The Line
cable should be connected to the L terminal, the Neutral cable to the N terminal and the Ground cable to the PE
terminal. The cables should be connected securely and no foreign objects should be in the circuit box that could
potentially cause a short-circuit.
2.2 Steps for Connecting the Input and Output
6
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