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Tra Cứu Một Số Lỗi Của Biến Tần Schneider
Drive does not start, no error code displayed
Thiết bị không chạy, không có mã lỗi hiển thị
- If the display does not light up, check the power supply to the drive (ground and input phases connection, see page 20).
Nếu màn hình không sáng lên, kiểm tra việc cấp điện cho thiết bị (nối đất và đầu nguồn, xem trang 20).
- The assignment of the “Fast stop” or “Freewheel” functions will prevent the drive starting if the corresponding logic inputs are not powered up. The ATV12 then displays nSt in freewheel stop and FSt in fast stop, it will display rdY en freewhell stop. This is normal since these functions are active at zero so that the drive will be stopped if there is a wire break. Assignment of LI to be checked in COnF/ FULL/FUn-/Stt- menu.
Việc chuyển đôi từ “Freewheel” chức năng “dừng nhanh” hoặc sẽ ngăn chặn các thiết bị bắt đầu nếu tín hiệu vào logic tương ứng không được mở điện. Các ATV12 sau đó hiển thị NST trong dừng freewheel và FSt trong dừng nhanh, nó sẽ hiển thị RDY en freewhell dừng. Điều này là bình thường vì các chức năng đang hoạt động tại số không để các thiết bị sẽ được dừng lại nếu có một break dây. Phân công LI để được kiểm tra trong conf / FULL menu / FUn- / Stt-.
- Make sure that the run command input(s) is activated in accordance with the selected control mode (parameters Type of control tCC page 48 and 2 wire type control tCt page 51, in COnF/FULL/ I_O-menu).
Hãy chắc chắn rằng các đầu vào lệnh chạy) được kích hoạt phù hợp với các chế độ điều khiển lựa chọn
- If the reference channel or command channel is assigned to Modbus, when the power supply is connected, the drive displays “nSt” freewheel and remain in stop mode until the communication bus sends a command.
Nếu các kênh tham chiếu hoặc lệnh kênh được gán cho Modbus, khi nguồn điện được kết nối, hiển thị ổ đĩa “nst” freewheel và vẫn còn trong chế độ dừng cho đến khi xe buýt truyền thông sẽ gửi một lệnh.
- In factory setting “RUN” button is inactive. Adjust parameters Reference channel 1 Fr1 page 62 and Command channel 1 Cd1 page 63 to control the drive locally (COnF/FULL/CtL-menu). See How to control the drive locally page 46.
Trong thiết lập nhà máy nút “RUN” không hoạt động. Điều chỉnh các thông số tham khảo kênh 1 FR1 trang 62 và kênh Lệnh 1 Cd1 trang 63 để kiểm soát các ổ đĩa cục bộ (conf / FULL / CTL-menu). Xem Làm thế nào để kiểm soát các ổ đĩa cục trang 46.
Fault detection codes that cannot be cleared automatically
Phát hiện mã lỗi mà không thể xóa tự động
The cause of the detected fault must be removed before clearing by turning off and then on. SOF and tnF faults can also be cleared remotely by means of a logic input (parameter Detected fault reset assignment rSF page 91 in COnF/FULL/FLt-menu).
| Code | Name Possible causes Remedy | ||
| CrF1 | Precharge | • Charging relay control fault or | • Turn the drive off and then back on again |
| charging resistor damaged | • Check the connections | ||
| • Check the stability of the main supply | |||
| • Contact your local Schneider Electric | |||
| representative | |||
| InFI | Unknown drive rating | • The power card is different from | • Contact your local Schneider Electric |
| the card stored | representative | ||
| InF2 | Unknown or incompatible power | • The power card is incompatible | • Contact your local Schneider Electric |
| board | with the control card | representative | |
| InF3 | Internal serial link | • Communication interruption | • Contact your local Schneider Electric |
| between the internal cards | representative | ||
| InF4 | Invalid industrialization zone | • Inconsistent internal data | • Contact your local Schneider Electric |
| representative | |||
| InF9 | Current measurement circuit | • Current measurement is not | • Contact your local Schneider Electric |
| correct due to hardware circuit | representative | ||
| —- | Problem of application Firmware | • Invalid application firmware | • Flash again the application firmware of the |
| update using the Multi-Loader tool | product | ||
| InFb | Internal thermal sensor detected | • The drive temperature sensor is | • Contact your local Schneider Electric |
| fault | not operating correctly | representative | |
| • The drive is in short circuit or open | |||
| InFE | Internal CPU | • Internal microprocessor | • Turn the drive off and then back on again |
| • Contact local Schneider Electric | |||
| representative | |||
Fault detection codes that cannot be cleared automatically (continued)
Phát hiện mã lỗi nhưng không thể xoá tự động (tiếp tục)
| Code | Name Possible causes Remedy | ||
| OCF | Overcurrent | • Parameters in the Motor control menu drC- page 57 are not | • Check the parameters• Check the size of the motor/drive/load |
| correct | • Check the state of the mechanism | ||
| • Inertia or load too high• Mechanical locking | • Connect line chokes• Reduce the Switching frequency SFr | ||
| page 59 | |||
| • Check the ground connection of drive, motor | |||
| cable and motor insulation. | |||
| SCF1 | Motor short circuit | • Short-circuit or grounding at the | • Check the cables connecting the drive to the |
| drive output | motor, and the motor insulation | ||
| SCF3 | Ground short circuit | • Ground fault during running status | • Connect motor chokes |
| • Commutation of motors during | |||
| running status | |||
| • Significant current leakage to | |||
| ground if several motors are | |||
| connected in parallel | |||
| SCF4 | IGBT short circuit | • Internal power component short | • Contact your local Schneider Electric |
| circuit detected at power on | representative | ||
| SOF | Overspeed | • Instability | • Check the motor |
| • Overspeed associated with theinertia of the application | • Overspeed is 10% more than Maximumfrequency tFr page 57 so adjust this | ||
| parameter if necessary | |||
| • Add a braking resistor | |||
| • Check the size of the motor/drive/load | |||
| • Check parameters of the speed loop (gain | |||
| and stability) | |||
| tnF | Auto-tuning | • Motor not connected to the drive | • Check that the motor/drive are compatible |
| • One motor phase loss | • Check that the motor is present during auto- | ||
| • Special motor | tuning | ||
| • Motor is rotating (being driven by | • If an output contactor is being used, close it | ||
| the load, for example) | during auto-tuning | ||
| • Check that the motor is completely stopped | |||
Fault detection codes that can be cleared with the automatic restart function, after the cause has disappeared
These faults can also be cleared by turning on and off or by means of a logic input (parameter Detected fault reset assignment rSF
page 91).
Code Name Possible causes Remedy
| LFFI | AI current lost fault | Detection if:• Analog input AI1 is configured as current• AI1 current scaling parameter of | • Check the terminal connection |
| 0% CrL1 page 52 is greater | |||
| than 3 mA | |||
| • Analog input current is lower than | |||
| 2 mA | |||
| ObF | Overbraking | • Braking too sudden or driving load | • Increase the deceleration time |
| too high | • Install a module unit with a braking resistor if necessary | ||
| • Check the line supply voltage, to be sure that it is under | |||
| the maximum acceptable (20% over maximum line supply | |||
| during run status) | |||
| OHF | Drive overheat | • Drive temperature too high | • Check the motor load, the drive ventilation and the |
| ambient temperature. Wait for the drive to cool down | |||
| before restarting. See Mounting and temperature | |||
| conditions page 13. | |||
| OLC | Process overload | • Process overload | • Check the process and the parameters of the drive to be |
| in phase | |||
| OLF | Motor overload | • Triggered by excessive motor | • Check the setting of the motor thermal protection, check |
| current | the motor load. | ||
| OPF1 | 1 output phase loss | • Loss of one phase at drive output | • Check the connections from the drive to the motor |
| • In case of using downstream contactor, check the right | |||
| connection, cable and contactor | |||
| OPF2 | 3 output phase loss | • Motor not connected | • Check the connections from the drive to the motor |
| • Motor power too low, below 6% of | • Test on a low power motor or without a motor: In factory | ||
| the drive nominal current• Output contactor open | settings mode, motor phase loss detection is activeOutput Phase loss detection OPLpage 94 = YES. To | ||
| • Instantaneous instability in the | check the drive in a test or maintenance environment, | ||
| motor current | without having to use a motor with the same rating as the | ||
| drive, deactivate motor phase loss detection OutputPhase loss detection OPL = nO | |||
| • Check and optimize the following parameters: IRcompensation (law U/F) UFr page 58, Rated motor voltageUnS page 57 and Rated motor current nCr page 57 and perform an Auto-tuning tUn page 60. | |||
| OSF | Main overvoltage | • Line voltage too high: | • Check the line voltage |
| – At drive power on only, the |
supply is 10% over the maximum acceptable voltage level
– Power with no run order, 20% over the maximum line supply
- Disturbed line supply
Fault detection codes that can be cleared with the automatic restart function, after the cause has disappeared (continued)
Code Name Possible causes Remedy
PHF Input phase loss • Drive incorrectly supplied or a fuse
|
|||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
- Check the power connection and the fuses.
Faults codes that will be cleared as soon as their causes disappear
The USF fault can be cleared remotely by means of a logic input (parameter Detected fault reset assignment rSF page 91).
| Code | Name Possible causes Remedy | ||
| CFF | Incorrect | • HMI block replaced by an HMI | • Return to factory settings or retrieve the backup |
| configuration | block configured on a drive with a | configuration, if it is valid. | |
| different rating | • If the fault remains after reverting to the factory settings, | ||
| • The current configuration of | contact your local Schneider Electric representative | ||
| customer parameters is | |||
| inconsistent | |||
| CFI | Invalid configuration | • Invalid configuration | • Check the configuration loaded previously. |
| (1) | The configuration loaded in the | • Load a compatible configuration | |
| drive via the bus or communication | |||
| network is inconsistent. The | |||
| configuration upload has been | |||
| interrupted or is not fully finished. | |||
| CFI2 | Download invalid | • Interruption of download operation | • Check connection with Loader or SoMove. |
| configuration | with Loader or SoMove | • To reset the default re-start the download operation or | |
| restore the factory setting | |||
| USF | Undervoltage | • Line supply too low• Transient voltage dip | • Check the voltage and the parameters of UndervoltagePhase Loss Menu USb- page 95. |
(1) When the CFI is present in the past fault menu, it means the configuration has been interrupted or is not fully finished.
HMI block changed
When an HMI block is replaced by an HMI block configured on a drive with a different rating, the drive locks in Incorrect configuration CFF fault mode on power-up. If the card has been deliberately changed, the fault can be cleared by returning to factory setting.
Fault detection codes displayed on the remote display terminal
| Code | Name Description | |
| InIt | On initializing itself | • Micro controller initializing• Communication configuration search |
| COM.E (1) | Communication error | • It has 50ms time out error.• This message is shown after 220 retry attempts. |
| A-17 (1) | Key alarm | • Key has been pressed consecutively for more than 10 seconds.• Membrane switch disconnected.• Keypad woken up while a key is being pressed. |
| cLr (1) | Confirm Fault reset | • This message appears if the STOP key is pressed when there is a keypad fault. |
| dEU.E (1) | Drive mismatch | • Drive type (brand) did not match with keypad type (brand) |
| rOM.E (1) | ROM abnormality | • Keypad ROM abnormality detected by the checksum calculation. |
| rAM.E (1) | RAM abnormality | • Keypad RAM abnormality detected. |
| CPU.E (1) | The other defect | • The other detected fault. |
(1) Flashing
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