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Items supplied as part of the basic product (without any of the additional cost options):
- REC Q 16S BMS Electronic unit for 5 to 16 cells
- Shunt sense cable (1 metre twin sheilded cable with 2 x 4mm eye lugs for Murata shunts. Note: lugs may also suit your existing shunt)
- Two temperature sensors each on 2metre shielded cable with one Dallas DS18B20 digital temperature sensor to measure battery temperature at two locations or measure battery and ambient temperatures (4 sensors, each on separate 2 metre cable into the one connector are in stock in Melbourne)
- Victron firmware installed (other versions can be downloaded & installed with either the Wifi unit (+ your phone/tablet/PC) or the REC PC software & galvanically isolated RS485 Cable.
BMS Features:
- suitable for 5 to 16 cells
- configurable by firmware version for:
1) autonomous / standalone operation, or
2) operation with Victron Energy, Studer, Stecca Innotec, GoodWe, Solax, Solis, etc
- single cell voltage measurement (0.1 – 5.0 V, resolution 1 mV)
- single cell - under/over voltage protection
- single cell internal resistance measurement
- SOC (state of charge) calculation & time remaining
- SOH (state of health) calculation based on number of discharge cycles
- battery temperature sensor using
- over temperature protection (1 standard, but up to 3 temperature sensors with optional product)
- under & over temperature charging protection
- cell balancing via 4.1 ohm resistors
- shunt current measurement (resolution 7.8 mA @ ± 200 A)
- 1 galvanically isolated user defined multi-purpose digital output
- internal relay (normally open)
- galvanically isolated RS-485 communication protocol
- CAN Bus communication (125 kbit, 250 kbit and 500 kbit)
- error LED + buzzer indicator
- hibernate switch
- BMS shutdown @ 0.98 x minimum cell disconnect threshold
- ISO16315, ISO10133, EN61558-1, EN61558-2 and EN50498 compliant
Latest BMS manuals are available on the REC BMS website: https://rec-bms.com/battery-management-system/
Note that the REC BMS is an entirely different class of BMS to the ""typical BMS"" in a fully enclosed LiFePO4 battery. The REC BMS does not have internal MOSFETS, as it is intended to be used with any size battery and any charge/discharge current (within reason). Compare this with a “typical BMS” with MOSFETS where these are sized to suit the maximum charge/discharge currents.
Refer to https://www.solar4rvs.com.au/batteries/lithium/bms/accessories-for-rec-bms/ to see details of other components that you might want for your REC BMS system.
General Description of the BMS Unit: The Battery Management System (BMS) monitors and controls each cell in the battery pack by measuring its parameters. The capacity of the battery pack differs from one cell to another and this increases with number of charging/discharging cycles. The Li-poly batteries are fully charged at typical cell voltage 4.16 - 4.20 V or 3.5 – 3.7 V for LiFePO4. Due to the different capacity this voltage is not reached at the same time for all cells in the pack. The lower the cell’s capacity the sooner this voltage is reached. When charging series connected cells with a single charger, voltage on some cells might be higher than the maximum allowed voltage. Overcharging the cell additionally lowers its capacity and number of charging cycles. The BMS equalizes cell’s voltage by diverting some of the charging current from higher voltage cells to power resistors – passive balancing. The device’s temperature is measured to protect the circuit from over-heating due to unexpected failure. Battery pack’s temperature is monitored by Dallas DS18B20 digital temperature sensor/s. Maximum 4 temperature sensors per unit may be used. Current is measured by a low-side shunt resistor. Battery pack current, temperature and cell’s voltage determine state of charge (SOC). State of health (SOH) is determined by comparing cell’s current parameters with the parameters of a new battery pack.
For the Victron/SMA etc firmware version, all the parameters that control the charging/discharging behaviour are calculated by the BMS and transmitted on the CAN Bus to the charging device (eg, Venus GX, Wakespeed WS500 unit if connected) in every measurement cycle. Near full and near discharged, the REC BMS will throttle back the permitted charge/discharge current and the charging device will follow the reduced limit by reducing the charge current output from units controlled by the GX device.
Customisation of firmware is subject to quotation; please email Solar 4 RVs in the first instance with details of what is required.
1 year