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
control communication with the master is interrupted, see
Ä
Chapter 6.8
‘Redundancy function (MPPT 6000-S only)’ on page 51. If the MPPT 6000-M was
previously operated with a Li-Ion or NiCd system, then the automatic redundancy
function of the MPPT 6000-S is not activated for safety reasons. In this state the
battery selection at the MPPT 6000-S is undefined. The user can manually set the
charge parameters for lead-acid batteries.
– A combination of the Save setting and Single mode or Master mode configurations
is possible.
– A combination of Single mode and Master mode is not prevented but is not sensible.
In this combination the Master mode takes precedence.
Configuration MPPT slave
✔
‘Main menu è System settings è StecaLink master menu
è Change slave settings è Selection [ xx - Tarom MPPT 6000]
è Configuration MPPT Slave
’
1. Press SET. The Configuration MPPT slave dialogue
appears (Fig. left).
2.
Press D, Ñ. The selected configuration is marked.
3. Press SET. The Settings MPPT slave dialogue appears,
with the configuration menu for the Tarom MPPT 6000-S (Fig.
left).
4. Repeat steps 2. and 3. if necessary until the desired
configurations have been selected.
5. Press ESC to exit the menu.
Delete slave
NOTICE!
– StecaLink slave members can be deleted to remove them from the communications
network.
–
This is necessary when StecaLink slave members have been removed or their slave address
has been changed.
– Display and data logging data is no longer exchanged with a StecaLink slave member after
it has been deleted.
– Deleted slave members are removed from all other relevant configuration lists in the MPPT
6000-M.
Delete slave
✔
‘Main menu è System settings è StecaLink master menu
è Delete slave
’
1. Press SET. The Delete slave dialogue appears with a list of
the recognised StecaLink slave members. The list is sorted by
increasing order of the member addresses. (Fig. left).
2.
Press D, Ñ to select the StecaLink slave member to be deleted.
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