User manual
Table Of Contents
- 1 General information
- 2 Quick guide
- 3 Overview
- 4 Installation of the base system
- 5 Initial commissioning of the base system
- 6 Installation and initial commissioning of optional components
- 6.1 Commissioning the SD card (MPPT 6000-M only)
- 6.2 AUX 1,2,3 relay output connection (MPPT 6000-M only)
- 6.3 AUX IO remote control input connection (MPPT 6000-M only)
- 6.4 PA TS-S external temperature sensor connection
- 6.5 StecaLink slave connection
- 6.6 StecaLink master connection (MPPT 6000-M only)
- 6.7 UART/RS-232 interface connection (MPPT 6000-M only)
- 6.8 Redundancy function (MPPT 6000-S only)
- 6.9 Install cable strain relief
- 7 Display (layout, function, operation)
- 8 System functions
- 8.1 Protection functions
- 8.2 Battery type setting
- 8.3 Current limit system setting (MPPT 6000-M only)
- 8.4 Current limit device setting
- 8.5 Lead-acid battery system functions
- 8.5.1 Equalisation cycle mode
- 8.5.2 Battery control mode (MPPT 6000-M only)
- 8.5.3 Battery capacity test (MPPT 6000-M only)
- 8.5.4 Battery type
- 8.5.5 Battery capacity
- 8.5.6 Current limit system (MPPT 6000-M only)
- 8.5.7 Current limit device
- 8.5.8 Charge voltages
- 8.5.9 IUIA charge mode (MPPT 6000-M only)
- 8.5.10 Start boost charge
- 8.5.11 Battery temperature sensor
- 8.5.12 Cable compensation
- 8.5.13 PV string connection
- 8.5.14 Expert menu
- 8.6 Li-Ion battery system functions (MPPT 6000-M only)
- 8.7 NiCd battery system functions (MPPT 6000-M only)
- 8.8 StecaLink bus
- 8.9 Internal data logger
- 8.10 Clear log data
- 8.11 Clear event log
- 8.12 Factory settings
- 8.13 UART/RS-232 interface (MPPT 6000-M only)
- 8.14 Acoustic alarm
- 8.15 SD card (MPPT 6000-M only)
- 9 Control functions via AUX 1/2/3 (MPPT 6000-M only)
- 10 Troubleshooting
- 11 Maintenance, dismounting and disposal
- 12 Technical data
- 13 Guarantee conditions, exclusion of liability, contacts, notes
NOTICE!
MPPT 6000-S devices can be connected to each other when the MPPT 6000-M has a software
version of IFUSYS4 APP 1.5.0 or later.
1. Set a unique address at the device with the StecaLink slave connection. For the MPPT 6000-S,
see
Ä
Chapter 8.8.1 ‘StecaLink slave address setting’ on page 86.
2. Plug the slave device into the StecaLink master connection. Connect the ‘StecaLink master’
connection to the ‘StecaLink slave’ connection.
3. Additional slaves are connected to the free ‘StecaLink slave’ connection on the slave device.
4. Terminate the free ‘StecaLink slave’ connection of the last slave member using the
termination plug.
5.
Register and configure the added StecaLink slave devices at the MPPT 6000-M, see
Ä
Chapter
8.8.2 ‘StecaLink master setting (MPPT 6000-M only)’ on page 86.
Tarom
MP
PT 6000-M
StecaLink
Slave Slave
StecaLink
Master
Tarom
MP
PT 6000-S
StecaLink
Slave Slave
......
Tarom
MP
PT 6000-S
StecaLink
Slave Slave
PA HS400
S
tecaLink
Slave Slave
......
PA HS400
S
tecaLink
Slave Slave
Term.
Fig. 12: Bus cabling example using an MPPT 6000-M, MPPT 6000-S and PA HS400 current sensors
Tarom
MP
PT 6000-M
StecaLink
Slave Slave
StecaLink
Master
PA HS400
St
ecaLink
Slave Slave
......
PA HS400
St
ecaLink
Slave Slave
Term.
Fig. 13: Bus cabling example using an MPPT 6000-M and additional PA HS400 current sensors
Tarom
MP
PT 6000-M
StecaLink
Slave Slave
StecaLink
Master
Tarom
MP
PT 6000-M
StecaLink
Slave Slave
StecaLink
Master
Fig. 14: Master/slave connection of two or more MPPT 6000-M devices is not possible
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