DISCOVER 14-36-3000 운영 매뉴얼 - 페이지 11
{카테고리_이름} DISCOVER 14-36-3000에 대한 운영 매뉴얼을 온라인으로 검색하거나 PDF를 다운로드하세요. DISCOVER 14-36-3000 16 페이지. Lithium ion battery
• All battery cables and their connections should be tight, intact, and NOT broken or frayed
• Replace any damaged batteries
• Replace any damaged cables
• Ensure correct torque is used for the terminal bolts
8.3 Battery Firmware
Consult the Discoverbattery.com website for the latest battery firmware versions. If a battery firmware update is require, ensure
this is done by a qualified and authorized person using the AES Dashboard software tool.
9. Troubleshooting
If you have not already, read the manual. Most troubleshooting needs arise from misuse, or a failure to understand
installation and operating instructions.
As soon as possible, record the condition of the system at the time the problem occurred so you can provide details to help
aid in troubleshooting.
Download the separate data log from each battery using the AES Dashboard software tool and have the file(s) ready to
share with technical support.
9.1 Check the Fuse
Check the fuse. If the fuse is blown (open) it requires replacement.
9.2 Review Voltage
Was the battery stored or left for a long period of time at low voltage? The battery may be self discharged and damaged
beyond repair.
Was the battery charged above BMS protection voltage? The BMS will have likely disconnected the battery. The battery
needs to be left to rest until the high voltage has dissipated. The battery will operate again when the BMS detects that
voltage is within safe operating parameters for at least 120s. Note that the charging device's voltage needs to be reduced in
order not to repeat this fault.
Was the battery discharged below low voltage cut-Off? The BMS has likely disconnected battery. The BMS will not
reconnect the battery after a low voltage disconnection. Disconnect all loads, set the battery to ON and then charge the
battery.
9.3 Review Temperature
Was the battery operated above BMS protection temperature? The BMS will have likely disconnected the battery. The
battery needs to be moved to a cooler environment and left to rest until the high internal temperature has dissipated. The
battery will operate again when the BMS detects that internal temperature is within safe operating parameters for at least
120s.
Was the battery operated at high current in a moderate to high temperature? The BMS will have likely disconnected the
battery. High current operation can increase the internal battery temperature above ambient temperature.
Was the battery operated below BMS protection temperature? The battery needs to be moved to a warmer environment
and left to rest until the low internal temperature increases. The battery will operate again when the BMS detects that
internal temperature is within safe operating parameters for at least 120s.
9.4 Review Current
Did the BMS protect against over current when an inverter was turned ON? A large capacitor bank in the inverter likely
tried to draw amps in excess of the battery's peak power rating and the BMS has disconnected the battery. Increasing the
number of batteries in the battery bank will help support a high peak amp draw, or surge current.
Did the BMS protect against over current when a motor was turned ON? The initial surge current required to start the motor
is likely in excess of the battery's peak power rating and the BMS has disconnected the battery. Increasing the number of
batteries in the battery bank will help support a high peak amp draw, or surge curreect level.
Is the battery bank undersized as compared to the peak surge requirements of the system? Increasing the number of
batteries in the battery bank will help support a high peak amp draw, or surge current.
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