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Victron energy SBP-100, Manual, Page: 8 / 18

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Victron energy SBP-100 Manual Download Page 8

3.3.2. Smart BatteryProtect remote on/off switch

The below example shows a Smart BatteryProtect in a simple system with a remote on/off switch wired to the remote terminals.

This switch can be used, for example, to turn the system remotely on and off. The power consumption of the Smart BatteryProtect
is negligible at less than 1mA when switched off (check the 

Specifications chapter [14]

).

DC loads

System on/off switch

Smart BatteryProtect with remote on/off switch

3.3.3. Smart BatteryProtect in a lithium battery system with external BMS

The image below shows a Smart BatteryProtect in a lithium battery system with external BMS. The external BMS (

Victron Lynx

Smart BMS

 in this example) has an ATD (allowed to discharge) and ATC (allowed to charge) output. Designed as a dry contact,

ATD and ATC function as a switch that directly controls the SBP via its remote terminal.

For this, the Smart BatteryProtect must be programmed to Li-ion mode.

The dry contact is wired between the L and H connectors of the remote terminal.

If, for example, ATD opens in the event of a lithium battery cell undervoltage, the SBP will immediately disconnect the load without
delay.

The SBP will remain disengaged for 30 seconds, even if ATD closes within this period. After this 30 seconds, it responds
immediately and connects the load to the battery.

Please note that the under voltage thresholds and alarm output of the SBP are inactive in this mode.

If you have a lithium battery with internal BMS (so-called drop-ins) that does not have an output for controlling
loads or chargers, the SBP must be programmed in mode A or B. Mode C is not applicable in this case.

DC loads

BMS cables

ATD (allowed to discharge)

Lynx Smart BMS

SBP-65

Smart BatteryProtect in Li-ion mode controlled by ATD from a Lynx Smart BMS

Smart BatteryProtect 12/24V

Page 6

Installation and wiring examples

Summary of Contents for SBP-100

Page 1: ...Smart BatteryProtect 12 24V 12 24V 65A 12 24V 100A 12 24V 220A rev 00 08 2022 ENGLISH...

Page 2: ...m system with external BMS and load disconnect output 7 3 3 5 Two Smart BatteryProtects for load and charger control 8 3 3 6 Smart BatteryProtect Alarm output wiring 8 4 Operation and programming 9 4...

Page 3: ...ared to the BatteryProtect the Smart BatteryProtect can be conveniently programmed via Bluetooth and our VictronConnect app or the PROG pin to GND pin method All necessary parameters can be set in thi...

Page 4: ...ooth on This is important in case of Li ion batteries especially after low cell voltage shutdown Over voltage protection To prevent damage to sensitive loads due to over voltage The load is disconnect...

Page 5: ...otection of the SBP will be activated if you try to directly connect loads with capacitors for example inverters or inverter chargers on their DC inputs For that use case please use the SBP to control...

Page 6: ...erter charger via a SBP you must use the SBP to control the inverter or inverter charger via its remote port See example below Note that the image shown below is an example for all BatteryProtect mode...

Page 7: ...the load after 90 seconds automatically DC loads Smart BatteryProtect in a simple system with wire loop between L and H input factory default The same example below This time the switch is wired betw...

Page 8: ...ly controls the SBP via its remote terminal For this the Smart BatteryProtect must be programmed to Li ion mode The dry contact is wired between the L and H connectors of the remote terminal If for ex...

Page 9: ...gh when there is an actual low cell voltage and the SBP will disconnect the load and remains off for 30 seconds even if it receives a restart signal H becomes high again within this period After this...

Page 10: ...of the SBPs always follow the current flow from IN to OUT The positive terminal of the charger goes to the IN input of the SBP DC loads SBP 65 charge SBP 65 load Two Smart BatteryProtects take contro...

Page 11: ...SBP will disconnect the load after 90 seconds and the relay will disengage In case of over voltage the load will be disconnected immediately and the alarm output will remain inactive Overvoltage trip...

Page 12: ...t to set the restart voltage 9 Click on the 3 dots in the top right corner and then on Product info 10 In the Product info menu the PIN code can be changed a custom name can be set and Bluetooth can b...

Page 13: ...0V 3 11 25V 22 5V 13 25V 26 5V 4 11 5V 23 0V 13 8V 27 6V 5 10 5V 21 0V 12 8V 25 6V 6 11 5V 23 0V 12 8V 25 6V 7 11 8V 23 6V 12 8V 25 6V 8 12 0V 24 0V 13 0V 26 0V 9 10 0V 20 0V 13 2V 26 4V User defined...

Page 14: ...f switch to the positive supply of the BMS for this purpose Similarly if a system shutdown occurred due to low cell voltage the SBP will remain disengaged for 30 seconds even if it receives a re engag...

Page 15: ...nce in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference...

Page 16: ...oad on alarm output 50mA short circuit proof Load disconnect delay 90 seconds immidiate if triggered by a BMS Load reconnect delay 30 seconds Default thresholds Disengage 10 5 V or 21 V Engage 12 V or...

Page 17: ...t draw does not exceed the SBP current rating 2 Check for loose high resistance connections and ensure that appropriate gauge wiring is used in the installation 3 Do not install the SBP unit in a loca...

Page 18: ...ween BMS and SBP Remote terminal 4 Check BMS for proper operation E8 Reverse current Reverse current protection is activated in the event that reverse current flow is detected CAUTION The SBP is desig...

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