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Question #: 13665

Question: I received a VFD 110v yl600-2s-2k20 p 110v with 220v instructions, also the connectors on the VFD dose not match any wiring configuration you have.

Current Solution

Ok, I will check the YL600 documentation Monday 4/3 and provide the answer here.

Additional Information:


Additional Information:
I also received one of these and the button labels do not even match your programming instructions as stated on your web set. Please provide updated instruction to match the model shipped with the correct button names to press in The programming process.

Additional Information:
7/15/17 - I have exact problem. I do not see the solution posted???

Additional Information:
Mine is a 2.2Kw YL-620 connected to a 1.5Kw spindle.

Code Address Function Set Range &Function Explanation Factory Setting User Set Vendor Suggested As shipped Code Address Decimal
P00.00 0 Main Frequency 0-120HZ(400HZ) 50.0HZ  400 60 399.6 P00.0 0
P00.01 1 Start / stop command source 0: Operator board 0 0  0 P00.1 1
1:From external end control Electric machinery,operation panel STOP key effective
2:From external end son control Electric machinery,operation panel STOP key invalid
3:from (Modbus Rs485) control Electric machinery
4:By user application program control Electric machinery
P00.02 2 Reserved   0   0 P00.2 2
P00.03 3 Stopping Mode 0:Decelerating stop 0 0  1 P00.3 3
1:Coasting stop 10
2:DC brake stop 0.2
P00.04 4 VF:Highest output frequency 1.0-120.0HZ(400HZ) 50.0HZ 400 60 400 P00.4 4
P00.05 5 VF:Maximum Voltage Output Frequency 5.0-120.0HZ(400HZ) 50.0HZ 400 60 400 P00.5 5
P00.06 6 VF:Highest output Voltage 10.0%-150.0% 100.00% 100.00% 100.00% 100 P00.6 6
P00.07 7 VF:Middle Frequency 1.0-120.0HZ(400HZ) 3.0Hz 3.5Hz 3.0Hz 3.5 P00.7 7
P00.08 8 VF:Middle Voltage 10.0%-100.0% 10% 20% 10% 10 P00.8 8
P00.09 9 VF:Min Frequency 0-120.0HZ(400HZ) 0.2HZ 0.2Hz 0.2Hz 0.2 P00.9 9
P00.10 10 VF:Min Voltage 0%-100.0% 5% 10.00% 5.00% 5 P00.10 10
P00.11 11 Analog Input quantity 1 Regulation Multistage velocity 0%-100% 100 100 100 100 P00.11 11
P00.12 12 VF :Curve Setting 0-4 0 0 P00.12 12
P00.13 13 Parameter Lock 0: lnvalid 0 0 P00.13 13
1: Valid
10: Restore the factory setting No other function
P00.14 14 Reserved 0 0 P00.14 14
P00.15 15 Power on Time prohibit External end son Start-up 0:Power on time,allow External end input effective level,start-up Electric machinery 0 0 P00.15 15
1:Power on time,Not allow
P00.16 16 0: FWD(X5)yes,Positive run the 0 P00.16 16
1: REV(X6) Determine direction : Open Yes
2:X_EF=EF,X_REV(X5)_DIR=DIR,FWD(X6)=
3: Stop ,FWD(X5) turn off Instantaneous
4: FWD(X5) turn off Instantaneous
5: FWD(X5) turn off Instantaneous
6: Stop ,FWD(X5) turn off Instantaneous
7: REV(X6)When open,FWD(X5)Start-up
P00.17 17 Many function input X1 function Choice ####################################### ####################################### 1 1 P00.17 17
P00.18 18 Many function input X2 function Choice 1.0HZ 1 P00.18 18
P00.19 19 Many function input X3 function Choice 1 P00.19 19
P00.20 20 Many function input X4 function Choice 1 P00.20 20
P00.21 21 External Terminal rise/Slow down increment 0-120HZ(400HZ) 1.0HZ 1 P00.21 21
P00.22 22 External Terminal rise/Slow down time interval 0.2 0.2 P00.22 22
P00.23 23 Physics amount display Proportion constant 0-999.9% 100.00% 100 P00.23 23
P00.24 24 After power supply, display project choice 0: Display current target frequency 0 0 P00.24 24
1:Display Electric machinery run frequency.
2:Display Electric machinery run current.
3:Display input AC voltage
4:Display mother Line voltage
5:Display output voltage
6:Display speed paragraph Number SP x
7:Display inverter temperature t xx
8:Display input signal X1-X3/output signal
9:Display user variable
10:Display user Count value
11:Display temporary debugging variable
12:Display automatic multi segment run step and time
P00.25 25 Display project automatic Return delayed time (10/S) 0:No,Automatic return;1-6delayed 10-60S Back Return 1 1 P00.25 25
P01.00 256 REV Rotation Select 0: Rev Run Enable 0 0 P01.0 256
1: Rev Run Forbidden 0
P01.01 257 Electric machinery Reversing wait for time 0 P01.1 257
P01.02 258 Deceleration Prevention overvoltage setting(%) 130 130 P01.2 258
P01.03 259 Accelerated Prevention overcurrent setting(%) 130 130 P01.3 259
P01.04 260 Overcurrent Set up (%) 200 200 P01.4 260
P01.05 261 Overload protection Set up (%) 130 130 P01.5 261
P01.06 262 Overload protection time Set up (s) 120 120 P01.6 262
P01.07 263 Undervoltage protection Set up (%) 80 80 P01.7 263
P01.08 264 Overvoltage protection Set up (%) 150 150 P01.8 264
P01.09 265 After shutdown, start DC Brake voltage Setup (%) 15 15 P01.9 265
P01.10 266 After shutdown, End DC Brake voltage Setup (%) 0 0 P01.10 266
P01.11 267 After shutdown, DC Braking Time Set up 2 2 P01.11 267
P01.12 268 After shutdown, DC Braking Initial Frequency Set up 0.6 0.6 P01.12 268
P01.13 269 Before start , input DC brake voltage set up (%) 20 20 P01.13 269
P01.14 270 Before start , End DC Brake voltage Set up (%) 15 15 P01.14 270
P01.15 271 Before start , DC Braking Time Set up 3 3 P01.15 271
P01.16 272 Direct start Initial frequency (Improve starting torque ) 100 100 P01.16 272
P01.17 273 Direct start Initial frequency Hold time 0 0 P01.17 273
P01.18 274 power failure frequency decline 80 80 P01.18 274
P01.19 275 The power down frequency decline rate 5 5 P01.19 275
P01.20 276 Restart No load time 10 10 P01.20 276
P01.21 277 Restart voltage rise time 200 200 P01.21 277
P02.00 512 When speed up torque will increased   100  100 100 60 P02.0 512
P02.01 513 Deceleration time - Torque Boost   100  100 100 60 P02.1 513
P02.02 514 Accelerate curve Choice 0  0 P02.2 514
P02.03 515 Deceleration curve Choice 0  0 P02.3 515
P02.04 516 Avoid the f requency 1 20 400 P02.4 516
P02.05 517 Avoid the f requency 2 30 30 P02.5 517
P02.06 518 Avoid the f requency 3   40 40 P02.6 518
P02.07 519 Avoid the f requency Width   0 0 P02.7 519
P02.08 520 Window frequency 1 45 45 P02.8 520
P02.09 521 Window frequency 2 50 50 P02.9 521
P02.10 522 ? 400 P02.10 522
P03.00 768 RS485 Communication Baud Rate 0: 1200Bps 5 4 P03.0 768
1: 2400Bps
2: 4800Bps
3: 9600Bps
4: 19200Bps
5: 38400Bps
6: 57600Bps
P03.01 769 RS485 Communication Addresses 1-254 10 10 P03.1 769
P03.02 770 0: 8 bit data, 1 stop bits, odd parity 2 2 P03.2 770
1: 8 bit data, 1 stop bits, parity check
2: 8 bit data, 1 stop bit, no parity
3: 8 bit data, 2 stop bits, odd parity
4: 8 bit data, 2 stop bits, parity check
5: 8 bit data, 2 stop bit, no parity
P03.03 771 Communication error handling 0 P03.3 771
P03.04 772 Communication error tolerance time 20 P03.4 772
P03.05 773 4-20mA Break detection time 0 P03.5 773
P03.06 774 Panel potentiometer,Lower limit of AD norm 3 P03.6 774
P03.07 775 Panel potentiometer,Upper limit of AD specification 1020 1015 1015 P03.7 775
P03.08 776 Panel potentiometer, frequency given of lower limit 0.0HZ 0 0 P03.8 776
P03.09 777 Panel potentiometer, frequency given of Upper limit 0-120HZ(400HZ) 60.0HZ 400  60Hz 400 P03.9 777
P03.10 778 Analog lnput 1 AD lower limit 0-1023 3.0Hz  60Hz 3 P03.10 778
P03.11 779 Analog lnput 1 AD Upper limit 0-1023 1020 1010 1010 P03.11 779
P03.12 780 Analog lnput 1 frequency given lower limit 0.0HZ 0 P03.12 780
P03.13 781 Analog lnput 1 frequency given Upper limit 60.0HZ 400 400 P03.13 781
P03.14 782 Analog lnput 2 AD lower limit 3.0Hz 3 P03.14 782
P03.15 783 Analog lnput 2 AD Upper limit 1020 1010 1010 P03.15 783
P03.16 784 Analog lnput 2 frequency given lower limit 0.0HZ 0 P03.16 784
P03.17 785 Analog lnput 2 frequency given Upper limit 60.0HZ 60 P03.17 785
P03.18 786 Analog output correlation 0 0 P03.18 786


P03.19 787 Analog output gain setting 100 100 P03.19 787
P04.00 1024 Mo analog multiplier output frequency multiplier 10 10 P04.0 1024
P04.01 1025 Mo1 Function Options 0 0 P04.1 1025
P04.02 1026 Mo2 Function Options 1 1 P04.2 1026
P04.03 1027 Multi-function Relay 1 Function selection 0:fault Yes Electric , otherwise power failure 0 2 2 2 P04.3 1027
P04.04 1028 Multi-function Relay 2 Function selection 1:Running Yes Electric ,otherwise power failure 3 3.0Hz 3 P04.4 1028
2: Reserved
3: Arbitrary frequency arrival Time, have Electric,Related to P02-10 settings
4: , The power down Time,have Electric
5:, low voltage Time, have Electric
6:, Overvoltage Time, have Electric
7: Overcurrent Time, have Electric
8: Nonzero velocity Time,have Electric
9:, DC brake Time, have Electric
10: Over torque Time, have Electric
11: External interrupt fault Time, have
12: Forward Time, have Electric
13: Reversal Time, have Electric
14: Move Time, have Electric
15: Accelerate Time, have Electric
16: Deceleration Time, have Electric
17: Constant speed Time, have Electric
18:X1 close Time, have Electric
19:X2 close Time, have Electric
20:X3 close Time, have Electric
21:X4 close Time, have Electric
22:X5 close Time, have Electric
23:X6 close Time, have Electric
24: Forward and bus voltage greater than 400V Time, have Electric
25: Reverse and bus voltage greater than 400V Time, have Electric
P04.05 1029 Multi-function Relay 1 Action close Delayed 0-65.5 S 0 0 P04.5 1029
P04.06 1030 Multi-function Relay 1 disconnect delay action 0-65.5 S 0 0 P04.6 1030
P04.07 1031 Multi-function Relay 1 Action close Delayed 0-65.5 S 0 0 P04.7 1031
P04.08 1032 Multi-function Relay 1 disconnect delay action 0-65.5 S 0 0 P04.8 1032
P04.09 1033 Stall rotor detection time 0-65.5 S 1 1 P04.9 1033
P04.10 1034 Switch amount (Di) sampling time 0-1000mS 8 24 24 P04.10 1034
P04.11 1035 Stopping Mode 0:Decelerating stop 0 0 P04.11 1035
1:Coasting stop
P05.00 1280 PID Output Upper limit frequency 50 50 P05.0 1280
P05.01 1281 PID Output lower limit frequency 25 25 P05.1 1281
P05.02 1282 PID Given Source 0 0 P05.2 1282
P05.03 1283 PID Values Given 0.2 0.2 P05.3 1283
P05.04 1284 PID Output characteristic(FOR /REV) 0 0 P05.4 1284
P05.05 1285 PID Output characteristic (FOR/REV) 0 0 P05.5 1285
P05.06 1286 PID Proportional Gain 0-100.0 50 50 P05.6 1286
P05.07 1287 PID Integration Time Ti 0-100.0 0-100.0 50 50 P05.7 1287
P05.08 1288 PID Derivative Time Td 0-100.0 0-100.0 50 50 P05.8 1288
P05.09 1289 PID Deviation Limit 0-50.0 5 5 P05.9 1289
P05.10 1290 PID Integral upper limit 50 50 P05.10 1290
P05.11 1291 PID Given Change Time 0-600.0 1 1 P05.11 1291
P05.12 1292 PID Feedback Filter Time 0 0 P05.12 1292
P06.00 1536 Acceleration Time 0  0 P06.0 1536
P06.01 1537 Accel.Time 1 0.1-6553.5 5.0 9  5.0 5 P06.1 1537
P06.02 1538 Decel. Time 1 0.1-6553.5 5.0 8.6  5.0 5 P06.2 1538
P06.03 1539 Accel.Time 2 0.1-6553.5 0.1-6553.5 2 2 P06.3 1539
P06.04 1540 Decel. Time 2 0.1-6553.5 0.1-6553.5 2 2 P06.4 1540
P06.05 1541 Accel.Time 3 0.1-6553.5 0.1-6553.5 2 2 P06.5 1541
P06.06 1542 Decel. Time 3 0.1-6553.5 0.1-6553.5 2 2 P06.6 1542
P06.07 1543 Accel.Time 4 0.1-6553.5 0.1-6553.5 2 2 P06.7 1543
P06.08 1544 Decel. Time 4 0.1-6553.5 0.1-6553.5 2 2 P06.8 1544
P06.09 1545 Accel.Time 5 0.1-6553.5 0.1-6553.5 2 2 P06.9 1545
P06.10 1546 Decel. Time 5 0.1-6553.5 0.1-6553.5 2 2 P06.10 1546
P06.11 1547 Accel.Time 6 0.1-6553.5 0.1-6553.5 2 2 P06.11 1547
P06.12 1548 Decel. Time 6 0.1-6553.5 0.1-6553.5 2 2 P06.12 1548
P06.13 1549 Accel.Time 7 0.1-6553.5 0.1-6553.5 2 2 P06.13 1549
P06.14 1550 Decel. Time 7 0.1-6553.5 0.1-6553.5 2 2 P06.14 1550
P06.15 1551 Accel.Time 8 0.1-6553.5 0.1-6553.5 2 2 P06.15 1551
P06.16 1552 Decel. Time 8 0.1-6553.5 0.1-6553.5 2 2 P06.16 1552
P06.17 1553 Jog Acceleration Time 0.1-6553.5 0.1-6553.5 2 2 P06.17 1553
P06.18 1554 Jog Deceleration Time 0.1-6553.5 0.1-6553.5 2 2 P06.18 1554
P07.00 1792 Frequency 1 0-120HZ(400HZ) 50HZ 50 50 P07.0 1792
P07.01 1793 Frequency 2 50HZ 45 45 P07.1 1793
P07.02 1794 Frequency 3 50HZ 40 40 P07.2 1794
P07.03 1795 Frequency 4 50HZ 35 35 P07.3 1795
P07.04 1796 Frequency 5 50HZ 30 30 P07.4 1796
P07.05 1797 Frequency 6 50HZ 25 25 P07.5 1797
P07.06 1798 Frequency 7 50HZ 20 20 P07.6 1798
P07.07 1799 Frequency 8 50HZ 15 15 P07.7 1799
P07.08 1800 Frequency source selection 1 0: Operator board (parameter: P03.06~P03.09) 0 0 P07.8 1800
P07.09 1801 Frequency source selection 2 1: Pre-set Freq, P00.00 Set frequency value,Operation panel keyboard,Can be set directly 2 2 P07.9 1801
P07.10 1802 Frequency source selection 3 2:No. X paragraph frequency P07.00~P07.07 2 2 P07.10 1802
P07.11 1803 Frequency source selection 4 3: Analog Input. :P03.10~P03.13) 2 2 P07.11 1803
P07.12 1804 Frequency source selection 5 4: external simulation amount 2 (VI2) 2 2 P07.12 1804
P07.13 1805 Frequency source selection 6 5: (Modbus Rs485)Given frequency 2 2 P07.13 1805
P07.14 1806 Frequency source selection 7 6: User application program, given frequency 2 2 P07.14 1806
P07.15 1807 Frequency source selection 8 7:( Pid)Output frequency 2 2 P07.15 1807
Other: Reserved
Note:three control methods (P07.08) 1808 1.The motor speed is controlled by the operating panel P07.16 1808
2.Motor speed control by external terminals (Potentiometer 10K). P00.01 set to 1, P07.08 set to 3
3.Motor speed control by external terminals. P00.01 set to 1,P07.08 set to 1.
P07.16 1809 Jogging Frequency FORWARD 0-120HZ(400HZ) 15.0HZ 15 P07.17 1809
P07.17 2048 Jogging Frequency REV 0-120HZ(400HZ) 15.0HZ 13.0Hz 13 P08.0 2048
P08.00 2049 Automatic many paragraph Running: Running direction Binary data format to set the direction of operation, see (the automatic multi segment operation, the operation of the direction set table) 0  0 P08.1 2049
P08.01 2050 Automatic many paragraph Running: mode Choice 0:Automatic multi segment operation is invalid; 0 0 P08.2 2050
1:After execution complete,Stop;
2:After execution complete,Keep the last running state,Continued running;
3:After execution complete, Repeated execution.
P08.02 2051 Automatic many paragraph Running time Units:S/M 0:S;1:M 0 0 P08.3 2051
P08.03 2052 Automatic many paragraph Running: No.1 paragraph Running time Automatic multi-section run time,Set up Section speed run time。Time units are determined by P08.02 Decision。Set run is 0,Indicates that this section is not executed. 10 1 1 P08.4 2052
P08.04 2053 Automatic many paragraph Running: No.2 paragraph Running time 10 1.5 1.5 P08.5 2053
P08.05 2054 Automatic many paragraph Running: No.3 paragraph Running time 10 1 1 P08.6 2054
P08.06 2055 Automatic many paragraph Running: No.4 paragraph Running time 10 1.5 1.5 P08.7 2055
P08.07 2056 Automatic many paragraph Running: No.5 paragraph Running time 10 1 1 P08.8 2056
P08.08 2057 Automatic many paragraph Running: No.6 paragraph Running time 10 1.5 1.5 P08.9 2057
P08.09 2058 Automatic many paragraph Running: No.7 paragraph Running time 10 1 1 P08.10 2058
P08.10 2304 Automatic many paragraph Running: No.8 paragraph Running time 10 1.5 1.5 P09.0 2304
P09.00 2305 frequency Range(%) 0-200% 0 0 P09.1 2305
P09.01 2306 frequency wave Range(%) 0-400% 200 30 30 P09.2 2306
P09.02 2307 frequency Rise time(S) 0.1-999.9 S 6.0 S 6 P09.3 2307
P09.03 2560 frequency decline time(S) 0.1-999.9 S 5.0 S 5 P10.0 2560
P10.00 2561 Counter reload,value 1000 1000 P10.1 2561
P10.01 2562 Counter current value 0 0 P10.2 2562
P10.02 2563 Timer reload,value 1000 1000 P10.3 2563
P10.03 2816 Timer current value 0 0 P11.0 2816
P11.00 2817 Output Status 1 1 P11.1 2817
P11.01 2818 Output Voltage (V) 0 0 P11.2 2818
P11.02 2819 Output Current (A) 5 5 P11.3 2819
P11.03 2820 Output Frequency (Hz) 50 50 P11.4 2820
P11.04 3072 Current Heatsink Temperature 25 25 P12.0 3072
P12.00 3073 Rated Motor Current 5 5 P12.1 3073
P12.01 3074 Rated Motor Voltage 220 220 P12.2 3074
P12.02 3075 Motor Pole number 2-100 2 2 P12.3 3075
P12.03 3076 Motor no-load current 10 10 P12.4 3076
P12.04 3077 Motor no-load current detection time(S) 10 10 P12.5 3077
P12.05 3078 Converter rated current(A) 5 5 P12.6 3078
P12.06 3079 Converter rated Voltage(V) 220 220 P12.7 3079
P12.07 3080 DC bus output voltage% 140 130 P12.8 3080
P12.08 3081 Heat sink over temperature protection point 70 75 P12.9 3081
P12.09 3082 Radiating fin temperature sensor configuration 1 1 P12.10 3082
P12.10 3083 Abnormal reset implement wait time 120 120 P12.11 3083
P12.11 3084 Fan Function Pattern 0:Motor running tine, start fan; 1 1 P12.12 3084
1:When the fan operating temperature (P12.12) is exceeded,Instant start fan; When the temperature is lower than the fan temperature point,Delay about 1 minutes to close the fan;
2:Unconditional forced start fan;
3:Fan Inoperation;
P12.12 3085 Cooling fan operating temperature 55 45 50 P12.13 3085
P12.13 3086 Fan Testing 0 0 P12.14 3086
P12.14 3087 Bypass relay closed detection 0 0 P12.15 3087
P12.15 3088 Bypass Relay delay time 1.5 1 P12.16 3088
P12.16 3089 Power on delay timer initial value(S) 50 50 P12.17 3089
P12.17 3090 Electric current sensor To configure 1 1 P12.18 3090
P12.18 3091 Automatic stable pressure function Choice 1 1 P12.19 3091
P12.19 3092 PWM Frequency 2.0-15.0KHZ (110V13.0KHZ 220V11.0KHZ 380V6.0KHZ) 8.0KHZ 13.0KHz 13 P12.20 3092
P12.20 3328 SVPWM Pattern 0:Three-phase asynchronous motor, 0 0 P13.0 3328
1:Two-phase asynchronous motor (Single-phase motor, 90 degree phase difference,Starting capacitor)
P13.00 3329 103 P13.1 3329
P13.01 3330 600 P13.2 3330
P13.02 3331 1 P13.3 3331
P13.03 3332 16.24 P13.4 3332
P13.04 3333 1 P13.5 3333
P13.05 3584 0 P14.0 3584
P14.00 3585 35 P14.1 3585
P14.01 3586 0.2 P14.2 3586
P14.02 3587 1 P14.3 3587
P14.03 3588 0 P14.4 3588
P14.04 3589 0 P14.5 3589
P14.05 3590 100 P14.6 3590
P14.06 3591 1900 P14.7 3591
P14.07 3592 2000 P14.8 3592
P14.08 3593 59999 P14.9 3593
P14.09 3594 5 P14.10 3594
P14.10 3595 20 P14.11 3595
P14.11 3596 0 P14.12 3596
P14.12 3597 0 P14.13 3597
P14.13 3598 0 P14.14 3598
P14.14 3599 0 P14.15 3599


Additional Information:
Sorry, that is a paste from a spread sheet, you may have to do some formatting or paste it into a spread sheet to see it better...

Additional Information:
I will definitely do that. Thank you so much for providing the information!!

Additional Information:
I also have this problem with a yl620. Is there a solution?

Additional Information:
Is there a wiring diagram for the 110v units. My came with a 220 volt booklet.

Additional Information:
my unit also came with instructions for a 220 unit. I need a 110 wiring diagram.

Additional Information:
These instructions are lame at best, a friend of mine ordered one of these to install on a knife grinder that I built for him, and I proceeded to setup the unit, upon connecting it to the motor, it runs the motor, but hunt's at the lower speeds, and the setting I am looking for just isn't in the list, there's some settings in the 14's that don't say what there for, can anyone help?

Respond:

Other Possible Solutions to this Question

  • I HAVE A 2000 WK 11–3 Z LIMIT SWITCHES GOING TO C10R10 BREAKOUT BOARD . CAN ALSO USE THEM AS MY HOME POSITION WELL. NEED THE WIRING CONFIGURATION

    No, you should not have received two parallel breakout boards in your CNC kit. You can return the extra item using standard shipping with COD. Our apologies for the confusion and the inconvenience.

    I will answer the other question as another FAQ. Please check the Customer Service page to see the answer to that question.

    If you have difficulty finding the answer, here is a link:
    https://www.buildyourcnc.com/FAQ/13636

    Click the link to add information to this solution:
    I HAVE A 2000 WK 11–3 Z LIMIT SWITCHES GOING TO C10R10 BREAKOUT BOARD . CAN ALSO USE THEM AS MY HOME POSITION WELL. NEED THE WIRING CONFIGURATION

  • I have a 2000 WK 11–3 Z limit switches going to A c10r10 breakout board . Can I also use them as my home position as well. I need The wiring configuration

    No, you should not have received two parallel breakout boards in your CNC kit. You can return the extra item using standard shipping with COD. Our apologies for the confusion and the inconvenience.

    I will answer the other question as another FAQ. Please check the Customer Service page to see the answer to that question.

    If you have difficulty finding the answer, here is a link:
    https://www.buildyourcnc.com/FAQ/13636

    Click the link to add information to this solution:
    I have a 2000 WK 11–3 Z limit switches going to A c10r10 breakout board . Can I also use them as my home position as well. I need The wiring configuration

  • How should I configure the 110v vfd with 2.2kw spindle? When I use the configuration on the spindle page, I get an over-current error (e.oc.a).

    Please use these settings for our 110V VFD's:

    Change PD001 to '0' or '1' (source of run commands/one will be computer controlled)
    Change PD003 to 300 (main frequency - Hz)
    Change PD004 to 300 (base frequency - Hz)
    Change PD005 to 400 (max operating frequency - Hz)
    Change PD006 to 2.5 (intermediate frequency - Hz)
    Change PD008 to 110 (max voltage - V)
    Change PD009 to 15 (intermediate voltage - V)
    Change PD010 to 8 (minimum voltage - V)
    Change PD011 to 100 (frequency lower limit - Hz)
    Change PD142 to 7 (rated motor current - Amps)
    Change PD143 to 2 (motor pole number)
    Change PD144 to 3000 (rated motor revolution)
    For further info please refer to (https://www.buildyourcnc.com/item/spindle-inverter-2!2kw-spindle-novfd#prettyPhoto/9/) for wiring and other specifications.
    Please check you wiring to be correct as the illustrated photo on the diagram.

    Additional Information:
    PD003 should be set to the base operating freq. stamped on your motor/spindle typically 400hz

    Click the link to add information to this solution:
    How should I configure the 110v vfd with 2.2kw spindle? When I use the configuration on the spindle page, I get an over-current error (e.oc.a).

  • I am assebling the Blacktooth CNC laser 20x24" with what appears to be an updated power supply. After refrencing the wiring diagram on line and the totorial, may I ask for an updated diagram or totorial, the current version do not appear to match match the configuration provided. I do not feel confidant in the educational guess, that I have. thanks

    Wiring diagrams for the Laser Power Supply will be mostly the same with the updated power supply. The main difference is the newer power supply contains a secondary green terminal block on the front of the power supply next where the hard leads are connected. This differs from the older power supply which had contact points on the back of the power supply. Please refer to the tutorials section for updated information and if you have specific questions please email techsupport@buildyourcnc.com

    Click the link to add information to this solution:
    I am assebling the Blacktooth CNC laser 20x24" with what appears to be an updated power supply. After refrencing the wiring diagram on line and the totorial, may I ask for an updated diagram or totorial, the current version do not appear to match match the configuration provided. I do not feel confidant in the educational guess, that I have. thanks

  • I ordered two NEMA 23 steppers with 1/4" shafts, I received motors with 8mm shafts. I also ordered two 1/4" x 1/2" couplers, which I have not received. I have no problems with the motors, but I will need couplers to match the 8mm shaft to 1/2" lead screw.

    I will send two 8mm to 1/2" couplings to you ASAP. Please send an email to customerservice@buildyourcnc.com so I can determine to whom to send the couings. Thanks.

    Additional Information:
    Please notice, I followed up with several emails abut this situation. In one, I corrected the motor shaft sizes to 10mm. I understand that, as a result of my emails, the original 1/4" x 1/2" couplers were sent and apparently received by someone at the wrong address. As of this time, I have received no couplers of any size and have gotten no reponses to my emails. Can you enlighten me?

    Additional Information:
    I looked all throughout my email and I cannot find an email from you. Please send an email to phooddaniel@gmail.com so I can determine who this is and to whom I need to send the new couplings. Thanks

    Click the link to add information to this solution:
    I ordered two NEMA 23 steppers with 1/4" shafts, I received motors with 8mm shafts. I also ordered two 1/4" x 1/2" couplers, which I have not received. I have no problems with the motors, but I will need couplers to match the 8mm shaft to 1/2" lead screw.

  • I am having difficulty with the wiring on the White Ant. The latest electronics that I received don't seem to be anything like the book or even the tutorials. For instance, the three stepper drivers need 6 pin connectors and ribbon cable. How are they wired? There was no thermocouple wire included. Thanks,

    The whiteAnt is no longer sold; the information on the website is to support legacy customers. We have spoken with you and are sending the materials that you need.

    Click the link to add information to this solution:
    I am having difficulty with the wiring on the White Ant. The latest electronics that I received don't seem to be anything like the book or even the tutorials. For instance, the three stepper drivers need 6 pin connectors and ribbon cable. How are they wired? There was no thermocouple wire included. Thanks,

  • What are the configuration settings for VFD for Spindle 1.5kW 110V. The search settings have a link for a 2.2kw spindle so I'm afraid they are the wrong ones and I don't want to fry the spindle. My VFD is an Huanyang HY01D511B.

    Did you get a manual for your VFD? Where did you purchase the VFD and spindle?

    Additional Information:
    I bought the VFD through Amazon with a similar spindle that you sell. The VFD came with a manual but unfortunately the spindle had all the model number and specs scratched off of it. In an attempt to set it up, I fried the spindle. I have complained to the vendor and to Amazon but have received no solution. If your spindle arrives with proper documentation I probably can set it up myself.

    Click the link to add information to this solution:
    What are the configuration settings for VFD for Spindle 1.5kW 110V. The search settings have a link for a 2.2kw spindle so I'm afraid they are the wrong ones and I don't want to fry the spindle. My VFD is an Huanyang HY01D511B.

  • Can you provide configuration setting for the 110v Huangyang VFD and 1.5 kw spindle?

    The configuration settings for our VFD's are these: VFD Setup:
    Change PD001 to '0' (source of run commands)
    Change PD003 to 300 (main frequency - Hz)
    Change PD004 to 300 (base frequency - Hz)
    Change PD005 to 400 (max operating frequency - Hz)
    Change PD006 to 2.5 (intermediate frequency - Hz)
    Change PD008 to 220 (max voltage - V)
    Change PD009 to 15 (intermediate voltage - V)
    Change PD010 to 8 (minimum voltage - V)
    Change PD011 to 100 (frequency lower limit - Hz)
    Change PD142 to 7 (rated motor current - Amps)
    Change PD143 to 2 (motor pole number)
    Change PD144 to 3000 (rated motor revolution)
    For further info please refer to (https://www.buildyourcnc.com/item/spindle-inverter-2!2kw-spindle-novfd#prettyPhoto) for wiring and other specifications.

    Click the link to add information to this solution:
    Can you provide configuration setting for the 110v Huangyang VFD and 1.5 kw spindle?

  • Placed an order for the cable set for the Pokeys57cnc interface on 10/20 but it is not showing up in My Account as being ordered. It was charged to my credit card and I have not had any info that it was received by you.

    Sure, let me check.

    Additional Information:
    Your order was shipped out on Tuesday (10/20/2020). I noticed that your email was not stored in the customer record when the order was made. I will send you the tracking number via email now.

    Click the link to add information to this solution:
    Placed an order for the cable set for the Pokeys57cnc interface on 10/20 but it is not showing up in My Account as being ordered. It was charged to my credit card and I have not had any info that it was received by you.

  • I purchased the blackTooth Laser Engraver with integrated Laser Control Unit and have been following your instructions. I noticed that the laser tube power supply is different that what is shown in your instructions. Do you have any better wiring guides that I can follow for the version that I received?

    There is some variation in the outward appearance of laser power supplies due to sourcing through different vendors. However, the basic wiring requirements are the same in each case. For the unit with integrated laser controller, follow the diagram found here: https://buildyourcnc.com/blackToothLaserCutterAndEngraver.aspx#prettyPhoto/0/. The terminals on the signal side will have a 6 connection terminal block -- these are the ones labeled 5V, IN, G, P (or WP), L (or TTL-L), and H (or TTL-H). The High Power side will have 3 inputs for AC power, one high voltage lead, and one return line. Connect these as shown in the diagram as well: the return line goes on the "front" (beam exit end) terminal of the laser tube, the high voltage lead goes to the "back" terminal of the tube, the FG terminal (or G) receives the earth ground wire of the AC power cable, and the two AC terminals receive the line and neutral wires of the AC power cable (it doesn't matter in this case which wire goes to which terminal).

    Click the link to add information to this solution:
    I purchased the blackTooth Laser Engraver with integrated Laser Control Unit and have been following your instructions. I noticed that the laser tube power supply is different that what is shown in your instructions. Do you have any better wiring guides that I can follow for the version that I received?

  • I HAVE NOT SEEN ANY REFERENCES TO ENCODER FEED-BACK CAPABILITY IN OF THE HARDWARE YOU SELL. THIS A SUPPORTED FEATURE WITH HARDWARE/SOFTWARE SELL?

    I haven't delved into using encoders with stepping motors too much. From my research, you need to have a controller that can provide the closed loop control, rather than software handling that process. I have also found from my research that using encoders on stepping motors is generally used to stop the machine in the case that the motor failed to achieve the commanded position for some reason and gives the user the chance to correct and continue with the job.

    If you want proper closed loop control, it may be best to go with servos and servo controller that provide the closed loop control within the real of those two components.

    Click the link to add information to this solution:
    I HAVE NOT SEEN ANY REFERENCES TO ENCODER FEED-BACK CAPABILITY IN OF THE HARDWARE YOU SELL. THIS A SUPPORTED FEATURE WITH HARDWARE/SOFTWARE SELL?

  • I purchased the 4.0kw spindle and VFD a while back, and have just installed a PMDX-107 controller... do you have any examples of the wiring connections for the SL-240EE to PMDX-107?

    If you want speed control, it is recommended to use the RS-485 connection on the VFD and use the control program such as Mach3 to communication serially with the VFD using this RS-485 connection.

    If you would rather use a controller such as the PMDX-107 to simulate the effect of a potentiometer using the Aref, Aout and Agnd and the Rev/Dir and Fwd/Run terminals to control operation and direction, you can connect those to the VFD.

    PMDX-107 Aout connects to the VI (analog voltage in). This is like the wiper on a potentiometer.
    PMDX-107 Agnd connects to the ACM terminal on the VFD for Analog common.
    PMDX-107 COM connects to DCM terminal on the VFD for Digital common.
    PMDX-107 Fwd/Run connects to the FOR terminal on the VFD for Forward.
    PMDX-107 Rev/Dir connects to the REV terminal on the VFD for Reverse.

    Refer to your PMDX-107 manual to correctly configure your dip switch settings and make sure to calibrate (tweak) the speed control using the trimmer next to the terminals on the PMDX-107.

    Click the link to add information to this solution:
    I purchased the 4.0kw spindle and VFD a while back, and have just installed a PMDX-107 controller... do you have any examples of the wiring connections for the SL-240EE to PMDX-107?

  • I ordered the Mach 3 usb controller board on the 1st and I have not received an order conformation or shipping confirmation. My account was charged however.

    The most likely issue here is that your email did not save in our system. Please email us to determine your shipping status and tracking number at customerservice@buildyourcnc.com

    Click the link to add information to this solution:
    I ordered the Mach 3 usb controller board on the 1st and I have not received an order conformation or shipping confirmation. My account was charged however.

  • I HAVE NOT SEEN ANY REFERENCES TO STEPPING MOTOR ENCODER FEED-BACK FOR CLOSED LOOP CAPABILITY IN OF THE HARDWARE YOU SELL. THIS A SUPPORTED FEATURE WITH HARDWARE/SOFTWARE SELL?

    I haven't delved into using encoders with stepping motors too much. From my research, you need to have a controller that can provide the closed loop control, rather than software handling that process. I have also found from my research that using encoders on stepping motors is generally used to stop the machine in the case that the motor failed to achieve the commanded position for some reason and gives the user the chance to correct and continue with the job.

    If you want proper closed loop control, it may be best to go with servos and servo controller that provide the closed loop control within the real of those two components.

    Click the link to add information to this solution:
    I HAVE NOT SEEN ANY REFERENCES TO STEPPING MOTOR ENCODER FEED-BACK FOR CLOSED LOOP CAPABILITY IN OF THE HARDWARE YOU SELL. THIS A SUPPORTED FEATURE WITH HARDWARE/SOFTWARE SELL?

  • I have wired up my 110v VFD and my 2.2Kw spindle and I get an E.Lu.5 code. My wiring is correct and the parameters are set to those for the VFD according to your website I found in a previously answered question from someone here. Any help would be greatly appreciated, thank you!!

    The E.Lu.5 Error code on your VFD is related to Low Voltage.

    The recommended action is:
    - 1. Check whether the input voltage is normal. (the voltage from the wall/breaker to the VFD)
    - 2. Check whether there is a sudden change in load.
    - 3. Check whether there is any phase missing.

    Unfortunately, these three recommended actions will probable require an electrician to test the line going into the VFD.

    Click the link to add information to this solution:
    I have wired up my 110v VFD and my 2.2Kw spindle and I get an E.Lu.5 code. My wiring is correct and the parameters are set to those for the VFD according to your website I found in a previously answered question from someone here. Any help would be greatly appreciated, thank you!!

  • The pin configuration on my spindle’s connector. It is not clear what number references which pin.

    1, 2, and 3 will be used. They connect to the U, V and W connections on the VFD. I would actually use a shielded cable as this cable is used with motor coils and will definitely send off EMF. Connect the shield to the earth ground terminal in the VFD.

    If the spindle spins in the wrong direction than expected, just swap two of the U, V, W wires on the VFD. It doesn't matter which two of the three wires.

    Click the link to add information to this solution:
    The pin configuration on my spindle’s connector. It is not clear what number references which pin.

  • How do I know how to hook up the red fly? What color wires do I solder on which pin of the connectors? Was there suppose to be any instructions that came with it, or the entire greenbull for that matter?

    The greenBull instructions are found on our website. Each machine has a page, which you can locate by clicking on "CNC Machines" from the left hand menu and choosing the particular machine you have. Scroll to the bottom of that machine page and you will find complete instructions. The page for the greenBull 5X, for example, is : https://buildyourcnc.com/Item/cnc-machine-greenBull-v4-5X

    The redFly is typically sold with motors already wired to conductor cable with 4-pin connectors; these need simply to be plugged into the control box. There is no soldering required. If you have a different configuration, please contact us directly at techsupport@buildyourcnc.com with information about your specific application (and a photo, if possible) and we will be happy to provide you with further guidance.

    Click the link to add information to this solution:
    How do I know how to hook up the red fly? What color wires do I solder on which pin of the connectors? Was there suppose to be any instructions that came with it, or the entire greenbull for that matter?

  • I'VE BUFFERED A PWM SIGNAL TO 0-10V ANALOG AND I WOULD LIKE USE THAT RUN YOUR 110V 2.2KW SPINDLE VFD. COULD YOU PLEASE DETAIL THE CORRECT WIRING VFD SETTINGS GET WORKING?

    This will depend on the VFD you have to identify the correct terminal. The terminal on the VFD will be labeled AI1 typically (Analog Input #1). You will also need to make sure to complete the PWM circuit using the GND terminal on the VFD.

    Additional Information:
    I have wired my 0-10V signal to the AI1 and GND terminals as suggested. I have also set the PD-01 and PD-02 settings to 1. Still nothing. Is there something else that I am missing?

    Additional Information:
    Thanks for the information. Can you let me know the model of the VFD that you have?

    Additional Information:
    VFD Model # YL600-2S-2K20

    Additional Information:
    Thanks. I will check our resources and documentation to see if there is another programming setting that needs to be changed.

    Additional Information:
    Does your VFD have a VI terminal?

    Additional Information:
    No, it does not. The terminals for this VFD are as follows (seperated by dashes "-").

    10V-AI1-AO2-PLC-DI5-DI3-DI1-COM
    AI2-GND-AO1-DI6-DI4-DI2-FM-24V

    Additional Information:
    Do you have a PD070 parameter?

    PD070 is the main Analog Input parameter.

    The options for that parameter is:
    0: 0-10V
    1: 0-5V
    2: 0-20mA
    3: 4-20mA
    4: 0-10V (4-20mA Stacked)
    5: XIA
    6: (VI+XIA)/2
    7: (3VA+XIA)/4
    8: (XIA_XIB)/2
    9: Max (XIA, XIB)
    10: Min (XIA, XIB)


    Additional Information:
    There is a PD-00 thru PD-09. PD-07 is currently set to 0.

    Additional Information:
    It appears that the manual I’m using “Titled YL600” is not the same as your unit. I will check our manuals and find the one that has only PD-00 to PD-09.

    Additional Information:
    For that VFD, the parameters are P0. The 0 may look like a D on the display.

    The parameters that need to be changed for the AI1 to work (Brackets [] around the correct selection):

    P0-01: First Motor Control Mode
    - 0: Sensorless Vector Control
    - 1: Flux Vector Control (FVC)
    - [2]: V/F Control

    P0-02: Options of Command Source
    - 0: Operation Panel Command Channel (LED will be off)
    - [1]: Terminal Command Channel (LED will be on)
    - 2: Communication Command Channel (LED will flicker)

    P0-03: Options of Principle Frequency Source X
    - 0: Digital Setting (Preset Frequency P0-08, UP/DOWN modifiable, no power-down memory)
    - 1: Digital Setting (Preset Frequency P0-08, UP/DOWN modifiable, with power-down memory)
    - [2]: AI1
    - 3: AI2
    - 4: AI3
    - 5: Pulse Setting (DI5)
    - 6: Multi Speed Instruction
    - 7: Simple PLC
    - 8: PID (Proportional Integral Derivative Control)
    - 9: Communication Given

    P0-11: Upper Limit Frequency Source
    - 0: P0-12 (Make sure the P0-12 parameter has the correct max frequency if used)
    - [1]: AI1
    - 2: AI2
    - 3: AI3
    - 4: Pulse Setting
    - 5: Communication Given

    P0-27: Command Source Bundle with Frequency Sources
    Single Digit: Options of Operation Panel Command Bundle with Frequency Sources
    - 0: No Bundling
    - 1: Digital Setting Frequency
    - [2]: AI1
    - 3: AI2
    - 4: AI3
    - 5: Pulse Setting (DI5)
    - 6: Multi Speed Instruction
    - 7: Simple PLC
    - 8: PID
    - 9: Communication Given
    Double Digit: Options of Terminal Command Bundle with Frequency Sources
    Hundred Place: Options of Communication Command Bundle with Frequency Sources
    Kilobit: Options of Automatic Operation Bundle with Frequency Sources

    P2-09: Upper Limit Source of Lower Torque Under Speed Control Mode
    - 0: Function Code P2-10 Setting
    - [1]: AI1
    - 2: AI2
    - 3: AI3
    - 4: Pulse Setting
    - 5: Communication Given
    - 6: MIN (Al1, Al2)
    - 7: MAX (Al1, Al2)
    - Maximum range for options 1-7, accords with P2-10

    If you elect to use a different AI#, then configure the parameters (P0-03, P0-11, P0-27 and P2-09) accordingly.

    Click the link to add information to this solution:
    I'VE BUFFERED A PWM SIGNAL TO 0-10V ANALOG AND I WOULD LIKE USE THAT RUN YOUR 110V 2.2KW SPINDLE VFD. COULD YOU PLEASE DETAIL THE CORRECT WIRING VFD SETTINGS GET WORKING?

  • I ordered a 1.5KW 110 volt spindle. I just received the box and the spindle clearly says on the foam packaging and the side of the spindle that it is 220V. I think you shipped me the wrong spindle

    Did this spindle come with a 110V 1.5kW VFD?

    Additional Information:
    The reason I ask is because the 220V 1.5kW spindle may work well with the 110V 1.5kW VFD. I believe we did the test prior to shipment.

    Additional Information:
    I have a 110V HY01D511B VFD already. I did not know they would work together. I will give this a try.

    Additional Information:
    If you did't get the VFD paired with the spindle from us, then I would not connect the 220V spindle with your VFD. Let me ask my technician and get back with you.

    Additional Information:
    My technician said that it should work since the 220V 1.5kW spindle worked with our 1.5kW 110V VFDs.

    Remember to seek the advice and guidance of a professional electrician when connecting these types of high powered devices.

    Additional Information:
    Do you have any info on the settings? I would rather buy a pre-configured VFD from you if you don't have the settings for my HT since I have already fried one spindle because of lack of documentation from the manufacturer. If you can setup a VFD that works with the spindle you sent at 110v input voltage I would be fine with the extra expense.

    Click the link to add information to this solution:
    I ordered a 1.5KW 110 volt spindle. I just received the box and the spindle clearly says on the foam packaging and the side of the spindle that it is 220V. I think you shipped me the wrong spindle

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