battery_compatibility:pylontech_phantom
Differences
This shows you the differences between two versions of the page.
Both sides previous revisionPrevious revisionNext revision | Previous revisionLast revisionBoth sides next revision | ||
battery_compatibility:pylontech_phantom [2019-01-22 10:16] – external edit 127.0.0.1 | battery_compatibility:pylontech_phantom [2019-10-26 12:55] – boekel | ||
---|---|---|---|
Line 1: | Line 1: | ||
- | ====== Victron & Pylontech | + | ====== Victron & Pylontech |
The combination of Victron products with Pylontech lithium batteries has been tested and certified by the Victron and Pylontech R&D departments. | The combination of Victron products with Pylontech lithium batteries has been tested and certified by the Victron and Pylontech R&D departments. | ||
Line 7: | Line 7: | ||
This manual is intended to be used in conjunction with the product manual supplied by Pylontech. It provides additional and specific information regarding integration with Victron systems. | This manual is intended to be used in conjunction with the product manual supplied by Pylontech. It provides additional and specific information regarding integration with Victron systems. | ||
- | The Pylontech includes a Battery Management System (BMS) with each battery module. This interfaces with the Victron [[venus-os: | + | The Pylontech includes a Battery Management System (BMS) with each battery module. This interfaces with the Victron [[venus-os: |
===== 1. Product & system compatibility ===== | ===== 1. Product & system compatibility ===== | ||
Line 13: | Line 13: | ||
{{: | {{: | ||
- | ^ Battery ^ | + | ^ Battery ^ |
- | | Module capacity| | + | | Module capacity| |
=== 1.1 Offgrid, Backup and Energy Storage Systems are possible === | === 1.1 Offgrid, Backup and Energy Storage Systems are possible === | ||
Line 25: | Line 25: | ||
- | === 1.2 A Venus-device is required, eg Color Control GX (CCGX) or Venus GX (VGX) === | + | === 1.2 A GX-device is required, eg Color Control GX (CCGX) or Venus GX (VGX) === |
- | It is essential to use the CAN-bus connection of the [[venus-os: | + | It is essential to use the CAN-bus connection of the [[venus-os: |
The minimum required firmware version for the [[https:// | The minimum required firmware version for the [[https:// | ||
- | In grid connected systems, advanced control functions are configurable in the ESS settings on the [[venus-os: | ||
- | |||
- | In off-grid systems, the system control functions from the Pylontech Battery Management System (BMS) are built into the latest version of the [[venus-os: | ||
=== 1.3 All 48V Multi, MultiPlus, MultiGrid and Quattro are compatible === | === 1.3 All 48V Multi, MultiPlus, MultiGrid and Quattro are compatible === | ||
Line 39: | Line 36: | ||
The minimum firmware version is 422. Though updating to the latest firmware is recommended where possible. | The minimum firmware version is 422. Though updating to the latest firmware is recommended where possible. | ||
- | These inverter/ | + | These inverter/ |
Line 48: | Line 45: | ||
__MPPTs with a VE.Direct port__ | __MPPTs with a VE.Direct port__ | ||
- | MPPTs are controlled via the [[venus-os: | + | MPPTs are controlled via the [[venus-os: |
- | The MPPT requires connection to the [[venus-os: | + | The MPPT requires connection to the [[venus-os: |
- | To test operation, try disconnecting the [[venus-os: | + | To test operation, try disconnecting the [[venus-os: |
__MPPTs with a VE.Can port__ | __MPPTs with a VE.Can port__ | ||
Line 62: | Line 59: | ||
Each US2000B Plus battery module is approximately 50Ah at 48V, can provide 25A continuous charge and discharge and 100A peak for 1 minute. | Each US2000B Plus battery module is approximately 50Ah at 48V, can provide 25A continuous charge and discharge and 100A peak for 1 minute. | ||
- | The charge and discharge rates are managed automatically by the Pylontech battery and [[venus-os: | + | The charge and discharge rates are managed automatically by the Pylontech battery and [[venus-os: |
Using very large solar arrays with battery banks that are too small can exceed the limits of the batteries ability to charge and possibly lead to the BMS triggering over-current alarms. | Using very large solar arrays with battery banks that are too small can exceed the limits of the batteries ability to charge and possibly lead to the BMS triggering over-current alarms. | ||
Line 91: | Line 88: | ||
The batteries will automatically detect and link to each other, no adjustment of dip switches or software changes are necessary on the batteries. | The batteries will automatically detect and link to each other, no adjustment of dip switches or software changes are necessary on the batteries. | ||
- | The battery with the empty link port 0 is the master battery. | + | The battery with the empty link port 0 is the master battery. |
+ | You must use the //VE.Can to CAN-bus BMS type B Cable//, part number ASS030720018, | ||
- | Then, plug a [[https:// | + | Plug the type B cable with the side which is labeled Battery BMS into the Pylontech CAN port of the master battery. Plug the side labeled Victron VE.Can into the [[venus-os: |
+ | |||
+ | Then, plug a [[https:// | ||
More information about the cable can be found in [[battery_compatibility: | More information about the cable can be found in [[battery_compatibility: | ||
- | Without properly connecting this cable, the battery will not show up on the display of the [[venus-os: | + | Without properly connecting this cable, the battery will not show up on the display of the [[venus-os: |
- | It is important to ensure this connection and display of the battery on the [[venus-os: | + | It is important to ensure this connection and display of the battery on the [[venus-os: |
Line 118: | Line 118: | ||
=== Charger tab === | === Charger tab === | ||
^ Parameter | ^ Parameter | ||
- | | Battery type | Lithium | | + | | Battery type | Lithium | |
| Charge curve | Fixed | | Charge curve | Fixed | ||
- | | Absorption voltage | + | | Absorption voltage |
- | | Float voltage | + | | Float voltage |
| Absorption time | 1 Hr | | | Absorption time | 1 Hr | | ||
- | Note: make sure to double check the float voltage after completing Assistants, and if necessary set it back to 53.0 V. | + | Note: make sure to double check the float voltage after completing Assistants, and if necessary set it back to 51.0 V. |
+ | |||
+ | Note For off-grid use: ignore the 'bms assistant required' | ||
=== 4.3 Inverter Settings === | === 4.3 Inverter Settings === | ||
Line 130: | Line 132: | ||
In the Inverter tab of VEConfigure | In the Inverter tab of VEConfigure | ||
^VEConfigure Inverter Parameter | ^VEConfigure Inverter Parameter | ||
- | |DC input low shut-down | 47V| | + | |DC input low shut-down | 44V| |
- | |DC input low restart | + | |DC input low restart |
- | |DC input low pre-alarm* | 48.5V| | + | |DC input low pre-alarm* | 48V| |
Line 157: | Line 159: | ||
=== Hardware Protection Points === | === Hardware Protection Points === | ||
- | In normal operation, the charge parameter limits are set by the Pylontech battery and communicated through the system by the [[venus-os: | + | In normal operation, the charge parameter limits are set by the Pylontech battery and communicated through the system by the [[venus-os: |
* Low Voltage: When the battery discharges to 44.5V or less, battery protection will turn on. | * Low Voltage: When the battery discharges to 44.5V or less, battery protection will turn on. | ||
Line 168: | Line 170: | ||
If operation is attempted outside the operating range, the battery will disconnect to protect itself. | If operation is attempted outside the operating range, the battery will disconnect to protect itself. | ||
- | ===== 5. Venus-device | + | ===== 5. GX Device |
- | On the [[venus-os: | + | On the [[venus-os: |
^Venus Settings -> System Setup Parameter ^ Value ^ | ^Venus Settings -> System Setup Parameter ^ Value ^ | ||
Line 189: | Line 191: | ||
===== 6. VE-Direct MPPT Settings ===== | ===== 6. VE-Direct MPPT Settings ===== | ||
- | In normal operation the MPPT charge characteristics are governed by the [[venus-os: | + | In normal operation the MPPT charge characteristics are governed by the [[venus-os: |
This section presumes familiarity with [[victronconnect: | This section presumes familiarity with [[victronconnect: | ||
Line 207: | Line 209: | ||
If the system is not operating correctly, go through these steps. | If the system is not operating correctly, go through these steps. | ||
- | === Step 0. If the Inverter/ | + | === Step 0. If the Inverter/ |
- | As a safety precaution, the inverter/ | + | As a safety precaution, the inverter/ |
- | You can then start the inverter/ | + | You can then start the inverter/ |
- | === Step 1. Check that the Pylontech battery is visible on the Venus-device list === | + | === Step 1. Check that the Pylontech battery is visible on the GX device list === |
{{ : | {{ : | ||
Line 219: | Line 221: | ||
If its not visible, check: | If its not visible, check: | ||
- | * [[venus-os: | + | * [[venus-os: |
* CAN-bus communication cabling between Pylontech and Victron system. Make sure that it is in the right way around. | * CAN-bus communication cabling between Pylontech and Victron system. Make sure that it is in the right way around. | ||
* Pylontech system is up and running (LEDs are on) | * Pylontech system is up and running (LEDs are on) | ||
Line 225: | Line 227: | ||
=== Step 2. Check that the Pylontech battery is ready for use === | === Step 2. Check that the Pylontech battery is ready for use === | ||
- | Check the Max Charge Voltage parameter. This voltage parameter is sent, together with the other three parameters, | + | Check the Max Charge Voltage parameter. This voltage parameter is sent, together with the other three parameters, |
=== Step 3. Check the Pylontech manual === | === Step 3. Check the Pylontech manual === | ||
The Pylontech manual contains additional diagnostic and troubleshooting information, | The Pylontech manual contains additional diagnostic and troubleshooting information, | ||
- | ===== 9. FAQ ===== | ||
- | **The maximum charge and discharge current is limited to 25A, but the data sheet tells me the maximum is 100A.** | + | ===== 9. FAQ and Known Issues===== |
+ | |||
+ | ==== The maximum charge and discharge current is limited to 25A, but the data sheet tells me the maximum is 100A. ==== | ||
The maximum current is limited to keep the battery healthy and reach the 10 year guarantee. In off-grid, the inverter can draw more than the 25A limit to run the loads, make sure you have sufficient batteries installed to keep the load per battery around this limit. | The maximum current is limited to keep the battery healthy and reach the 10 year guarantee. In off-grid, the inverter can draw more than the 25A limit to run the loads, make sure you have sufficient batteries installed to keep the load per battery around this limit. | ||
- | **After charging the battery the charge current often changes between 0A and 25A.** | + | ==== After charging the battery the charge current often changes between 0A and 25A. ==== |
This is caused by cell balancing inside the battery. This happens with new batteries and after a deep discharge. | This is caused by cell balancing inside the battery. This happens with new batteries and after a deep discharge. | ||
+ | ==== My system isn't charging at the rated capacity, or my PV is shutting down ==== | ||
+ | Pylontech' | ||
+ | You can confirm if this is affecting your installation be entering the Pylontech Battery menu on your GX device, and then the Parameters Menu. This will report the Charge Current Limit (CCL) and Discharge Current Limit (DCL). | ||
+ | |||
+ | ==== My system only charges the battery to 52V ==== | ||
+ | When DVCC is enabled, the battery (via the CAN-bms) is responsible for the charge voltage. The Pylontech battery requests a charge voltage of 53.2V. We have however found that in practice this is too high. | ||
+ | |||
+ | The Pylontech battery has 15 cells in series, so 53.2V equates to 3.55V per cell. This is very highly charged and makes the system prone to go overvoltage. | ||
+ | |||
+ | It should also be noted that a LiFePO4 cell stores very little additional energy above 3.45V. | ||
+ | |||
+ | For this reason we opted to override the BMS and cap the voltage at 52V. This sacrifices almost none of the capacity and greatly improves the stability of the system. | ||
+ | |||
+ | ==== The battery won't charge to 100% ==== | ||
+ | Also see the question above. The state of charge of the battery is estimated based on the overall voltage and on how well balanced the internal cells are. Because we cap the battery voltage at 52V, the state of charge will sometimes rise very slowly once it reaches the mid-90s. This is normal and usually resolves over time. | ||
===== 10. Further Information ===== | ===== 10. Further Information ===== | ||
Line 251: | Line 270: | ||
===== DISQUS ===== | ===== DISQUS ===== | ||
~~DISQUS~~ | ~~DISQUS~~ | ||
- |
battery_compatibility/pylontech_phantom.txt · Last modified: 2023-11-13 14:41 by guy_stewart