ElectroDacus SBMS100 Bedienungsanleitung
1
user manual
user manual
v0.9
www.ElectroDacus.com
www.ElectroDacus.comSBMS100 / SBMS60
SBMS100 / SBMS60
2www.ElectroDacus.com
www.ElectroDacus.comSBMS100 / SBMS60
SBMS100 / SBMS60
Table of contents
Table of contents
Simplified diagram 3
Specifications 4
1. Install instructions 5
2. Thermal management 9
3. Cable selection 11
4. E ternal Load 12
5. Battery temperature 14
6. The 20pin connector 15
7. Selecting the battery and PV panels 16
8. WiFi
9. Internal data logging
18
20
10. User interface 23
3SBMS100 / SBMS60
SBMS100 / SBMS60
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www.ElectroDacus.com
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1
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2
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Brown
Brown Red
Red Orange
Orange Yellow
Yellow Green
Green Blue
Blue
Grey
Grey Black
Black&
&Whi e
Whi e
Purple
Purple
Simplified circuit diagram for the SBMS100 with max configuration.
(Two PV arrays each with x 250W PV panels for a total of 3kW).
4SBMS100 / SBMS60
SBMS100 / SBMS60
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www.ElectroDacus.com
Specication
Specication
Battery type
Battery type any type of Lithium cells and Supercapacitors
any type of Lithium cells and Supercapacitors
Number of cells
Number of cells 3 to 8 cells
3 to 8 cells
Battery voltage limits min/max)
Battery voltage limits min/max) 8V to 32V
8V to 32V
Battery/PV recommandation 12V
Battery/PV recommandation 12V 4 cell LiFePO4 / 32 or 36 cells PV panel
4 cell LiFePO4 / 32 or 36 cells PV panel
Battery/PV recommandation 24V
Battery/PV recommandation 24V 8 cell LiFePO4 / 60 cells PV panels
8 cell LiFePO4 / 60 cells PV panels
Max PV Open Circuit voltage
Max PV Open Circuit voltage 47V mono or polycristaline panels with up to 72 cells)
47V mono or polycristaline panels with up to 72 cells)
Dual PV input
Dual PV input PV1+ and PV2+ with separate current measurement and ideal diode
PV1+ and PV2+ with separate current measurement and ideal diode
PV1 or PV2 max current
PV1 or PV2 max current SBMS60 72A ) / SBMS100 72A )
SBMS60 72A ) / SBMS100 72A )
PV1 + PV2 max current
PV1 + PV2 max current SBMS60 72A ) / SBMS100 120A )
SBMS60 72A ) / SBMS100 120A )
Load+ overcurrent limit
Load+ overcurrent limit SBMS60 72A ) / SBMS100 120A )
SBMS60 72A ) / SBMS100 120A )
Cell balancing current
Cell balancing current max 200mA
max 200mA
Power terminal max wire size / recommended
Power terminal max wire size / recommended 35mm2 #2 AWG) / 16mm2 #6 AWG) 200C silicone
35mm2 #2 AWG) / 16mm2 #6 AWG) 200C silicone
Battery temperature sensor
Battery temperature sensor Thermistor optional)
Thermistor optional)
20pin connector
20pin connector Includes Ext IO, 16bit ADC, external current shunt input 500A max
Includes Ext IO, 16bit ADC, external current shunt input 500A max
Data logging to internal Flash memory
Data logging to internal Flash memory 128Mbit 16Mbyte) 2 minute interval for one year of data
128Mbit 16Mbyte) 2 minute interval for one year of data
WiFi
WiFi WiFi used for remote monitoring SBMS acts as AP )
WiFi used for remote monitoring SBMS acts as AP )
Display
Display 2.2” Color LCD 320x240
2.2” Color LCD 320x240
Weight
Weight 255g
255g
Dimensions
Dimensions 100mm x 90mm x 26mm
100mm x 90mm x 26mm
Self consumption
Self consumption 250mW to 700mW WiFi and Backlight ON)
250mW to 700mW WiFi and Backlight ON)
Max TDP
Max TDP SBMS100 22W) / SBMS60 14W)
SBMS100 22W) / SBMS60 14W)
5SBMS100 / SBMS60
SBMS100 / SBMS60
www.ElectroDacus.com
www.ElectroDacus.com
1 Install Instructions
1 Install Instructions
*before starting with electrical installation take a look at the thermal management the SBMS needs a heatsink in most cases)
Step 1
Step 1
Connect the Batt+ power connector to battery positive terminal with a ma 2m of 16mm2 (#6AWG) fle ible copper wire with 200°C
silicone insulation (check page 11 for more details about the recommended cable).
Make sure this is the first connected and the last to be removed.
Step 2
Step 2
Connect the 10pin monitor and balancing cable. Make sure this is the second one to be connected after Batt+ and never disconnect
while anything else is connected except for Batt+. (see details on page 3 or Parameter Settings on how this has to be connected to
individual cells).
6SBMS100 / SBMS60
SBMS100 / SBMS60
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Step 3
Step 3
Go to Parameter Settings menu and select the type of cell, number of cells and battery capacity then push Store Parameters button to
save data to SBMS. Then remove the 10pin connector and reconnect for the new stored parameters to be accepted.
*you need to be connected to battery to Store Parameters will not work on USB power since ISL94203 is not powered.
Step 4
Step 4
Go to monitoring menu page 3 and push ok button then a small sub menu will be displayed in the top left corner. Use down key to select
Load OFF and then push OK to enable this.
You should see CFET and DFET flags change state from highlighted to not being highlighted meaning that load+, PV1 and PV2 are
disconnected internally.
7SBMS100 / SBMS60
SBMS100 / SBMS60
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Step 5
Step 5
Connect Load+ using the same type of cable mentioned in step1 to a 125A circuit breaker in OFF position and from there to your load.
Step 6
Step 6
Connect the PV1 and or PV2 to your PV array to appropriate size circuit breaker in OFF position.
See the page 16 for the type of PV panels recommended based on the number of cells and battery voltage.
8SBMS100 / SBMS60
SBMS100 / SBMS60
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Step 7
Step 7
Switch the Load and PV breakers to ON position and then go again to page 3 of the monitoring menu and select Load ON this time.
The CFET and DFET should be highlighted and the Load should now have power also the PV1 and PV2 should provide charging
current.
Step 8
Step 8
Check the first page of the Monitoring Menu to see if all works correctly. You are done. Make sure you follow the install procedure in
reverse when you want to remove the SBMS. Never remove the Batt+ or 10pin cell monitoring connector while PV1, PV2 or Load+ is
connected.
9SBMS100 / SBMS60
SBMS100 / SBMS60
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www.ElectroDacus.com
2 Thermal Management
2 Thermal Management
The SBMS60 and SBMS100 will need to be mounted on an appropriate size heatsink able to dissipate the ma TDP (Total Dissipated
Power) that is as high as 22W for SBMS100 and 14W for the SBMS60 at full load (charge and discharge at the same time).
The SBMS has two ( 5mm ) mounting holes as you see in the below drawing.
10 SBMS100 / SBMS60
SBMS100 / SBMS60
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www.ElectroDacus.com
The SBMS100 without any heatsink or fan can at most dissipate 4W to 5W so below is an e ample with lower power to allow this.
E ample SBMS100 with ma 40A load and 24A on each PV
on Load+ TDP = 40A 40A 0,001Ω = 1,6W
on PV TDP = 24A 24A 0,0024Ω = 1,38W
Total 1,6W + 1,38W + 1,38W = 4,36W
So 40A load and 48A charging is around ma supported by SBMS100 without a heatsink.
The SBMS has an internal 10k thermistor installed on the power board and will measure and
display the temperature of that board. If temperature e ceeds +60°C the charging and
discharging will be turned off and only turn on the charging and discharging when
temperature drops below +50°C.
If size and weight is of great concern in your installation a low speed fan can be used to cool the back of the SBMS.
If SBMS is not used with full configuration then a smaller heatsink can be used or even no heatsink at all.
You can use the simple formula below to calculate the TDP.
TDP[W] = I[A] I[A] R[Ω]
For e ample you need to know the R for Load+ and PV1/PV2. Load+ resistance path on SBMS100 is 1mΩ and SBMS60 is 1,5mΩ
where PV input on SBMS100 is 2,4mΩ and on SBMS60 is 3mΩ.
For ma configuration on SBMS100 you have:
on Load+ TDP = 100A 100A 0,001Ω = 10W
on PV TDP = 50A 50A 0,0024Ω = 6W
So total 10W + 6W + 6W = 22W on full load SBMS100
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