The design affords a whole answer for high-voltage battery administration, that includes monitoring, energy conversion, and security options for ESS. Learn extra!
The high-voltage reference design from Texas Devices (TI) affords a complete answer for engineers centered on exact monitoring and management inside Battery Power Storage Programs (BESS). Designed to deal with present, insulation impedance, and battery well being in lithium-ion (Li-ion) or LiFePO4 battery racks, this design is right to be used throughout residential, industrial, industrial, and grid-based functions. The system can handle as much as 4 high-voltage bus inputs, measure shunt present, monitor temperature, and monitor insulation impedance as much as 1500V—guaranteeing secure and dependable operation in complicated battery rack setups.
Key to the design’s versatility, it consists of each onboard Serial Peripheral Interface (SPI) communication and an off-board daisy-chain interface, permitting engineers to implement stackable, cost-effective connections with bolstered isolation. The BQ79731-Q1 machine performs a central position, enabling exact monitoring of important battery system parameters and boosting system well being and effectivity. The design additionally incorporates the TPSI2140-Q1 and a reed relay in a high-voltage, side-grounded, unbalanced bridge configuration to supply correct insulation impedance measurements.
For energy conversion, the design makes use of the SN6507 machine and a transformer to effectively step down 24V from the low-voltage aspect to 12V on the high-voltage aspect, guaranteeing easy operation throughout totally different voltage ranges. The system adheres to rigorous 1500V bolstered insulation requirements, assembly UL1973 and IEC60664-1-2020 necessities by means of isolation elements just like the ISO7841DWWR digital isolator, transformers, and resistor ladders.
The design integrates correct monitoring, sturdy management, and dependable security options, that are essential for assembly the demanding necessities of recent grid and industrial vitality storage programs. Engineers can use built-in present sensors to observe very important battery parameters reminiscent of voltage, present, insulation ranges, and state of cost. Extra pins facilitate temperature measurements and relay management, enabling fast administration of overcurrent situations and simple communication with the primary controller.
A solid-state relay acts as a high-tech change, effectively managing excessive voltages without having an exterior energy supply, and is designed to deal with voltage surges and difficult situations. A quad-channel digital isolator offers important electrical isolation between system elements, enhancing security whereas permitting information alerts to go by means of. The high-frequency push-pull transformer driver ensures a compact, secure energy provide, minimizing electrical interference and providing sturdiness throughout a large temperature vary. Moreover, a voltage regulator maintains secure voltage with minimal energy consumption, guaranteeing steady operation for important gadgets reminiscent of hearth alarms or sensible meters whereas defending quick circuits.
The reference design offers engineers with an answer for growing high-voltage battery administration programs for industrial and grid-based vitality storage functions. TI has examined this reference design. It comes with a invoice of supplies (BOM), schematics, meeting drawing, printed circuit board (PCB) structure, and extra. The corporate’s web site has extra information in regards to the reference design. To learn extra about this reference design, click on right here.
