The Mitsubishi gps-3 elevator has two switches MON1 and MON0 on the P1 electronic board in the equipment room. As long as the two switches are rotated to different positions, the faulty parts of the elevator can be clarified by the corresponding Chinese description by the displayed letters. And the time and number of times the failure occurred.
Go to the 0 position and rotate the MON0 switch to the 0 position. The result is as follows:
Display results----E0 is not faulty
------When the E1 speed is abnormally low, "SW-TGBL" is detected.
------E2 speed is too large to check out "SW-TGBH"
------E3 reversal is to detect "SW-TGBR"
------When the E4AST is abnormal, "SW-AST" is detected.
------E5 inverter detected "SS-LOCFO" when overcurrent
------E6 rectifier over current detection "SS-COVH"
------S7-LVLT is detected when the voltage of the E7 rectifier is insufficient.
------When the E8LB coil is powered off, the "SW-CFLB" is detected.
------When the E95 coil is powered off, the "SW-CFU" is detected.
------EA-forced contact ON/OFF failure detected "SW-CFBK"
------ EB car direct signal transmission abnormal "ST-STSCE"
------Outside the EC hall and direct signal transmission abnormality "ST-STSHE"
------ED system abnormality "ST-SYER"
------ EE driver can not start "SD-DNRS"
------EF control can not start "SW-NRS"
0. Leave MON1 unchanged and rotate MON0 to the 1 position. Shows the position of the car and the balance camel, the balance is between 0-0, the display 1 is equal to 256MM, then the display 2 is equal to 512MM.
Leave MON1 unchanged and rotate MON0 to the 2 position. Data input "Installation time, use with SW1"
Leave MON1 unchanged and rotate MON0 to position 3. Display Floor
Leave MON1 unchanged and rotate MON0 to position 4. Display Floor
Leave MON1 unchanged and rotate MON0 to position 5. "Weighing data input, use when maintenance"
Leave MON1 unchanged and rotate MON0 to position 6. The manual priority mode changes MON1 and rotates MON0 to the 7 position. Display Floor
Leave MON1 unchanged and rotate MON0 to the 8 position. Display Floor
Leave MON1 unchanged and rotate MON0 to the 9 position. Display Floor
Leave MON1 unchanged and rotate MON0 to the A position. The DLD smart door floor display will change MON1 and rotate MON0 to the B position. The force torque confirms that MON1 is unchanged and MON0 is rotated to the C position. The weighing value percentage check will change MON1 and rotate MON0 to the D position. The weighing value indicates that MON1 is unchanged and MON0 is rotated to the E position. The TSD deviation data check will not change MON1 and rotate MON0 to the F position. TSD action point check.
one. When MON1 is rotated to the 1 position and MON0 is rotated to the 0 position, the result is as follows:
Display results: one - E00 is not abnormal
-----E01 temperature abnormality "SW-THMFT"
-----E02 Emergency stop operation record "SW-EST1"
-----E03CC-WDT 3 times detected "SS-SLCWC4"
-----E04SLC-WDT 4 times detected "SS-SLCWC4"
-------E05 over current detection "SW-SOCR"
------E06 regenerative resistor overload is too large "SW-SOLR"
------E0741DG door lock circuit abnormality "SW-E41"
------E08 terminal limit switch abnormality <SW-TSCK>
------E09PAD anomaly detection <SW-PAD>
------E0A weighing value anomaly detection <SW-WGER>
------E0B stop PAD abnormality detection <SW-PAE>
------E0C charging abnormality <SW-CHRGD>
------E0D is abnormally detected in the flat layer <SW-PRLE>
two. When MON1 is rotated to the 1 position and MON0 is rotated to the 1 position, the result is as follows:
Display results: -----E10 is not abnormal
-----E11 can not retry after reset (SW-RSRTC>
-----E12 Shrimp Camel 16 abnormal detection <ST-SELD>
-----E13 direct transmission CPU transmission abnormality <ST-STER>
-----E14 capacitor abnormal detection <ST-CAPC>
-----E15 manual button error <ST-HDOK>
----E16 mode and speed data deviation is abnormal "SD-OVJP"
----E17LB coil 4 consecutive abnormal power failure detection "ST-DFLR"
----E185 coil 4 consecutive abnormal power failure detection "ST-DF5"
----E19 forced connection loop connection 4 times abnormal detection "ST-BFDK"
----E1A rectifier voltage continuous 8 times voltage detection "ST-DFLV"
----ST-CFRL is detected when E1BRL is abnormal.
----E1CTSD action abnormality detection "SW-TSLDE"
-----E1DESP action abnormality detection "SW-ESPE"
three. When MON1 is rotated to the 1 position and MON0 is rotated to the 2 position, the result is as follows:
Display results: --- E20 is not abnormal
----E2189 loop abnormality detection "SW-E89"
----E22 Emergency stop operation record 2 times "SW-EST2"
----E23 System exception "ST-SYER"
----E24 is trying to check out "ST-RSRQH" after replying
----E25 Collector Driver Board Anomaly "SS-GDFH"
----E26 DC-CT anomaly "SD-CTER"
----E27 When the pressure of the hydraulic pressure is too low, "SW-OPFER" is detected.
----E28 Oil pressure forced oil temperature, abnormal oil quantity detected "SW-OTLER"
----E29 temperature abnormality "SW-THMME"
----E2A and final speed deviation abnormal "ST-UMCH"
----E2B Cannot start "SW-ETST" after abnormal emergency stop
----E2C Forced abnormal action 2 times "SW-REBK2"
----E2D finishing device charging abnormal "SW-VCHGT"
----E2E MELD board charging abnormality "SD-MCHG"
four. When MON1 is rotated to the 1 position and MON0 is rotated to the 3 position, the result is as follows:
Display results: --- E30 is not abnormal
----E31 MELD overload is too large "SD-SLTT"
----E32 abnormal low speed "SW-TGBL"
----E33 Speed ​​is abnormally high "SW-TGBH"
----E34 AST abnormal action "SW-ASTW" low speed ladder use
----E35 reverse running "SW-TGBR"
----E36 AST abnormal action "SW-ASTW"
----E37 AST abnormal action "SW-ASTWV"
----E38 When the rectifier current is too large, "SS-COVF" is detected.
----E39 When the voltage of the rectifier is too low, "SSLVLT" is detected.
----E3A CC-WDT 4 times abnormal detection "SS-CCWC4
----E3B SLC-WDT 4 abnormality detection <SS-SLCWC5>
----E3C When the inverter current is too large, <SS-LOCFO> is detected.
----E3D SLC-CPU action detection when emergency stop <SS-DEST>
----E3E rectifier charging abnormality <SW-CVER>
Fives. The result of rotating MON1 to 1 position and rotating MON0 to 1 position is as follows:
Display results: --- E40 is not abnormal
----E41 Emergency stop operation record 2 times <SW-EST2>
----E42 When the rectifier current is too low, <SS-LVLTT> is detected.
-----E43 Emergency stop reply <SW-ESTR>
-----E44 LB coil detected when power failure
----E45 5 coil detected when power failure
----E46 Force connection point abnormal detection
----E47 89 coil detected when power failure
----E48 89 detected when the fault is six. When MON1 is rotated to the 1 position and MON0 is rotated to the 5 position, the result is as follows:
Display results: --- E50 is not abnormal
----E51 29 when the safety loop is detected <SN-29>
----E52 29 Check out the <SN-29LT> memory latch when the safety loop is active
----E53 Detected <SS-PWFH> when the phase is low or the voltage is too low
----E54 When the rectifier voltage is insufficient, check out <SS-LVLT>
----E55 12V power supply abnormal <SS-12VFL>
----E56 mode has a deviation from the speed ratio <SD-PTC>
----E57 Current load is too large in manual mode <SD-HRT>
----E58 When the driver is issued, the emergency stop command <SD-32GQ>
----E59 Emergency stop command <SC-S29>
----E5A Force substrate abnormality <SS-BKE>
----E5B mode has a deviation from the speed ratio
----E5C EST is abnormal and can not be started again <SW-ETSES>
Seven. When MON1 is rotated to the 1 position and MON0 is rotated to the 6 position, the result is as follows:
Display results: --- E60 is not abnormal
----E61 rectifier voltage is insufficient
----E62 Collector Driver Board Anomaly "SS-GDFH"
----E63 Inverter protection circuit action "SS-LFO"
----E64 29 When the safety loop is activated, the "SS-29LT" latch memory is detected.
----E65 12V power supply is abnormal
----E66 Inverter temperature abnormality detection
----E67 Phase-locked loop detected "SS-PLLFH"
----E68 rectifier current is too large
----E69 Inverter current is too large
----E6A rectifier is detected when the current is too large
----E6B Detected when the phase is too low or the voltage is too low. When MON1 is rotated to the 1 position and MON0 is rotated to the 7 position, the result is as follows:
Display results: --- E70 is not abnormal
----E71 CC-WDT 5 abnormal detection
----E72 CC-WDT 4 times abnormal detection
----E73 CC-WDT 3 times abnormal detection
----E74 SLC-WDT 5 times abnormal detection "SS-SLCWC5"
----E75 SLC-WDT 4 times abnormal detection
----E76 SLC-WDT 3 times abnormal detection IX. When MON1 is rotated to the 1 position and MON0 is rotated to the 9 position, the result is as follows:
Display results: --- E90 is not abnormal
----E92 Current overload is too large "SD-OCR"
----E93 can no longer start "SD-DNRS"
----E94 MELD detected "SD-SLTI" when the load is too large
--------SD-TSDP is detected when the E95 TSD is abnormal.
----E96 Weighing abnormality when walking, "SD-WGHDF2"
----E97 DC-CT abnormal detection "SD-CTER"
----E98 TSD abnormal action detection "SD-TSA"
----E99 Moda decoder Z phase abnormal detection "SD-AZER"
----E9A Motorcycle Decoder F Phase Anomaly Detection <SD-AEER>
----E9B PM motor limit current is too large <SD-TOCR>
ten. When MON1 is rotated to the 1 position and MON0 is rotated to the A position, the result is as follows:
Display results: --- EA0 is abnormal
----EA1 mode and speed deviation abnormality <SD-PVJP>
----EA2 mode and speed deviation abnormality <SD-OVJP>
----Emergency stop command issued by EA3 driver
----EA4 Regeneration resistor load is too large
----EA5 Deviation between the local mode and the speed measurement <SD-PTC>
----EA6 current is too large in manual mode
----EA7 Inverter detected when the current is too large
----EA8 TSD-PAD fault detection <SD-PADE>
----EA9 MCP detects rectifier current is too large <SD-COCF>
----EAA MCP initial setting abnormality <SD-INITF>
----EAB RAM abnormal detection <SD-RAMER>
----EAC volume setting data abnormality <SD-DTER>
----EAD MCP restart abnormality <SD-RBOTNG>
--eleven. When MON1 is rotated to the 1 position and MON0 is rotated to the B position, the result is as follows:
The display is as follows: --- EBO is not abnormal
----EB1 can not start at <SW-32DT10 for 10 minutes of shutdown.
----EB2 can not be started after 16 minutes of shutdown
----EB3 can't start more than 10 minutes <SW-DSTR10>
----EB4 can't start more than 10 minutes <SW-57EBT>
----EB5 door can not be opened for more than 2 minutes <SW-CONE>
----EB6 FUSE is broken for more than 2 minutes <SW-EFSOF>
----EB7 60 abnormal detection <SW-60CFK>
----EB8 door can not be opened
----EB9 main control board abnormal detection <SQMBCIJH>
----EBB sleepy alarm <SZ-EMBH>
----EBC alarm cannot be used <SZ-EMBH>
----EBD group control management abnormality <SZ-GCIJO>
twelve. When MON1 is rotated to the 1 position and MON0 is rotated to the C position, the result is as follows:
Display results: --- EC0 has no abnormalities
----EC1 SLC transmission abnormality <SS-TRER>
----EC2 SLC emergency stop action
----The speed in the EC3 SLC is too high
----EC4 SLC AST Action <SS-AST>
----KC action in EC5 SLC <SS-DKC>
----EC6 SLC RAM anomaly detection <SS-RAMER>
thirteen. When MON1 is rotated to the 1 position and MON0 is rotated to the D position, the result is as follows:
Display results; --- EDO is not abnormal
----ED1 Car BC-CPU1 abnormal detection <SF-FBCIIJH>
----ED2 car main door BC-CPU2 abnormal detection
----ED3 car main door BC-CPU3 abnormal detection
----ED4 car main door BC-CPU4 abnormal detection
----ED5 CPU abnormality detection of the main door CAR-STATION <SF-FCSJJH>
----ED6 Positive gate control CPU abnormality detection <SF-FDCIJH>
---- ED7 CPU abnormality detection of the main door car display light, <SF-FICIJH>
----ED8 OPTION-CPU abnormal detection of the main door car <SF-FCZIJH>
----ED9 SC-CPU serious fault <SC-SCER8>
----EDA SH-CPU is seriously faulty
----EDB SC-CPU minor failure
---- EDC SH-CPU minor failure
----EDD HS-CPU failure <SC-HSAIJ>
fourteen. When MON1 is rotated to the 1 position and MON0 is rotated to the E position, the result is as follows:
Display results; --- EE0 is abnormal
----EE1 Car rear door BC-CPU5 abnormal detection <SF-RBC5IJH>
----EE2 car rear door BC-CPU6 abnormal detection
----EE3 car rear door BC-CPU7 abnormal detection
----EE4 Car rear door BC-CPU8 abnormal detection <SF-RBC8IJH>
----EE5 CPU abnormality detection of back door CAR-ASTTION <SF-RCSIJH>
----EE6 backdoor control CPU abnormality detection
----EE7 CPU abnormality detection of the rear door car display light <SF-RICIJH>
----EE8 OPTION-CPU anomaly detection of the rear door car <SF-RCZIJH>
--EAE MCP-WDT 4 abnormality detection <SD-MCPWDE>
Zhejiang Kaimin Electric Co., Ltd. , https://www.ckmineinverter.com