The collet in the 1.5 kW spindle is an ER-11 and cannot reach the 1/2" size. I would consider the 2.2 kW spindle instead.

Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
WHAT SIZE COLLET IS IN YOUR 1.5 KILOWATT SPINDLE?

You will need to look for the parameter that controls the run frequency. The frequency can be controlled bu the panel, external terminals, or the RS485 TX/RX terminals (UART protocol). You will want to change that parameter so it uses the panel. If you are referring to the maximum panel dial frequency is only allowing 200-300 rpm, then look for the parameters to control the frequency.

For 200 RPM:
Hz = 200/60 = 3.33 Hz

For 300 RPM:
Hz = 300/60 = 5 Hz

Conversion to RPM:
If you ever find yourself yearning to reverse-engineer the process, the formula is as follows:

RPM = Hz × 60

Look for values that match somewhere between 3 and 5 in your frequency parameters and replace them with 400 to give you 24,000 RPM max.

Click the link to add information to this solution:
I HAVE A 2.2KW WATER COOLED SPINDLE WITH YL620-H VFD. THE VFD USES P#-## PROGRAM FORMAT. BELIEVE ALL CORRECT SETTINGS SETUP BUT WHEN TURN UNIT ON, IT SPINS AT ABOUT 200-300 RPM REGARDLESS OF WHAT FREQUENCY CHOOSE. DO YOU PARAMETERS IN THIS FORMAT FOR UNIT? THANK YOUR HELP. HUIBERT MEES

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?

The leadscrew length for the greenBull long Z-axis is 47 inches.

Additional Information:

Click the link to add information to this solution:
BUILDING ONE OF YOUR GREENBULL 6X LONG AND 2.2 KILOWATT SPINDLE DOES NOT FIT. SEEMS LEAD SCREW YOU SENT WITH KIT IS SHORT 42" LOOKS LIKE IT NEEDS TO BE 5 OR 6 INCH LONGER. THIS CORRECT? WHAT THE NEEDED LENGTH FOR UNIT?

The greenlean requires 56 feet of 1/4 Inside Diameter and 3/8 Outside Diameter silicon tube for the spindle.

Additional Information:
20

Additional Information:
20

Click the link to add information to this solution:
HOW MUCH SILICONE TUBE DO I NEED FOR A GREEN LEAN TO CONNECT THE SPINDLE

Yes, all of the spindles come with collets. The collets have a 1/4" (6.35mm) bore for end mills that have a 1/4" shank. The ER specification is different for the 1.5kW (ER-11) and the 2.2kW (ER-20).

Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
I’M LOOKING TO PURCHASE SPINDLE AND VFD WAS CURIOS IF THE SPINDLES COME WITH COLLETS SO WHICH ONES?

The type of wire that should be used between the spindle and the VFD (Variable Frequency Driver also called the inverter) should be of stranded type and we use between 18 and 16 AWG.

The total current is divided among the three coil wires, therefor a wire gauge of 16 should be sufficient.

Currently we use 20AWG 4 conductor.

Additional Information:


Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
WHAT ELECTRICAL CABLE DO I USE TO CONNECT VFD INVERTER SPINDLE?

U - Pin1
V - Pin2
W - Pin3
Pin4 Dead

Additional Information:
My home made cnc is a big problem with my NC connection. When in start my spindle it will be gone wrong. It will be limith switch problem anytime. Need help thanks.

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
WHAT ARE THE OUTPUT INVERTER (VFD) CONNECTIONS TO SPINDLE?

Our spindles have a runout of less than .0001 in, which includes that collets that we sell. If you use a collet from another manufacturer, we cannot guarantee this TIR (Total Indicated Runout) dimension.

Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
Hi, I'm interested in the 1.5 kW (kilowatt) Water Cooled Spindle with Inverter (VFD), I would like to know about the run out of this spindle?

Spindles are generally covered up to 1 year after date of purchase. We do not repair them in house, but we do work with our manufacturer to replace defective units. Generally if you have a defective unit covered under warranty, we will issue a replacement.

Click the link to add information to this solution:
2.2 kW (kilowatt) Water Cooled Spindle with Inverter (VFD) Geven Me My contuy Bangladesh

U - Pin1
V - Pin2
W - Pin3
Pin4 Dead

Additional Information:
My home made cnc is a big problem with my NC connection. When in start my spindle it will be gone wrong. It will be limith switch problem anytime. Need help thanks.

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
HOW DO YOU HOOK UP THE SPINDLE TO INVERTER?

You can go to our instructions on for the breakout board here: http://www.buildyourcnc.com/item/electronicsAndMotors-parallel-breakout-relay to get the information on turning the spindle on and off from the computer and mach3. Alternatively, you can connect the computer using RS485 serial to the inverter and send control commands that way.

Additional Information:
HOW TO CONTROL MY 2.2 KW SPINDLE VIA MACH3 usb

Additional Information:


Additional Information:


Additional Information:
How should I wire the Mach3 card (red, 4 axis) and the vfd (Yl620-a)?

Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
HOW TO CONTROL MY 2.2 KW SPINDLE VIA MACH3

Input to VFD:
240V Active - R
240V Neutral - S
Ground - E

Additional Information:

Click the link to add information to this solution:
WHAT ARE THE SPINDLE INVERTERS (VFD) INPUT AC CONNECTIONS FROM WALL OUTLET?

It is not necessary to connect the spindle VFD (Variable Frequency Drive also called an Inverter) to the computer or CNC motion electronics. The VFD can be controlled independently using the control panel on the VFD. The control panel has the ability to control all aspects of the spindle including Speed, Torque, limits, etc. However, you can connect the VFD to the computer so the CNC control program can control the spindle during the CNC Machine operation. You will need to connect the VFD to the computer via a serial conection (in this case, it is the RS-485 protocol).

The following are instructions on how to connect the VFD to Mach3 via this RS-485 serial connection.

The first thing you will need is the dynamic link library to pair with mach3 called the Huanyang VFD Mach3 PlugIn. You can find this file at the mach3 support forum here: http://www.machsupport.com/forum/index.php/topic,14182.0.html

You will also need to download the Microsoft .net 3.5 framework and install it: https://www.microsoft.com/en-us/download/details.aspx?id=21

Follow the pdf that comes with the library file, but here is a synopsis of what you need to do (I also added a lot more information that may be useful during this process as the manual does not cover the main connections that need to be done):

You will need to program your VFD so that it knows how to communicate with mach3 and the computer (go into the programming mode of the VFD and change these parameters):
- PD001 - value 2 - Enables with communication aspect of the VFD
- PD002 - value 2 - Enables frequency control from the communcations port
- PD163 - value 1 - VFD address
- PD164 - value 1 - Baud rate of 9600 (speed of the communication)
- PD165 - value 3 - 8N1 RTU - 8 bits (that's the size of the word that gets communicated), N (No parity or no error checking) and 1 (1 stop bit)

Copy the dll file to the PlugIns folder of mach3.

Connect the RX and TX lines to your computer. There are a couple ways you can do this, but the recommended way would be to use an FTDI USB device which converts a USB to a serial com port. The device will have Rx and Tx connectors to connect to the VFD terminals with the same labels. This method is recommended since serial ports are not as common in computers these days.

Next, you will need to configure mach3 to use the plugin library. Start mach3 and click on Menu -> config ->Config Plugins. Enable the new plugin by clicking on the red cross on the left column next to the plug in. Restart mach3 after doing this.

No you need to configure mach3 to use the HuanyangVFD plugin. Go to the ports & pins configuration and select the spindle setup tab. Make sure that the Disable Spindle Relays checkbox is unchecked. We don't want mach3 to output a signal for a relay since the spindle will start up and turn off within the VFD and not from an external relay.

Next, go to the HuanyangVFD settings by clicking on Menu -> plugin control -> HuanyangVFD. Set the parameters to the same settings you put into the VFD programming. The com port will be shown as new hardward when you plug in the USB FTDI device. A little bubble will be displayed at the bottom right where it will notify you that a new device is being installed (be patient while windows assigns a com port). Alternatively, you can use the windows device manager to see which port was set for the new USB FTDI device). You may need to restart mach3 several times until you get the correct information displayed in the PD001 and PD002 fields. When the com port is correct and the other parameters, like baud and VFD address is the same as you entered in the programming, then the PD001 and PD002 will show the number 2, otherwise, a 99 will appear which means that communication was not successful.

You can now control the on/off and RPM of the spindle using the RS485 communication between mach3 and the VFD.

Additional Information:
The question was how to connect the spindle to the redfy. I did not receive a VFD.
I have the redFly system and a 2.2kW Spindle - 110V how do i connect the spindle?

Additional Information:
If you received a spindle without a VFD, please contact us asap. Our spindle will not work without a VFD.

Additional Information:
Hi, how is this setup in mach4?

Click the link to add information to this solution:
I HAVE THE REDFLY SYSTEM AND A 2.2KW SPINDLE - 110V HOW DO CONNECT SPINDAL?

U - Pin1
V - Pin2
W - Pin3
Pin4 Dead

Additional Information:
My home made cnc is a big problem with my NC connection. When in start my spindle it will be gone wrong. It will be limith switch problem anytime. Need help thanks.

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
HOW DO YOU HOOK UP THE VFD TO SPINDLE?

U - Pin1
V - Pin2
W - Pin3
Pin4 Dead

Additional Information:
My home made cnc is a big problem with my NC connection. When in start my spindle it will be gone wrong. It will be limith switch problem anytime. Need help thanks.

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
HOW TO CONNECT THE SPINDLE INVERTER?

blueChick:

X-axis
“CW230 (3.0A) Driver”
Set to 1/16 Microstep, 2.7A
Dipswitches: 11001100
Mach3 Motor Tuning: 1422.22 steps/in

Y-axis
“CW230 (3.0A) Driver”
Set to 1/16 Microstep, 2.7A
Dipswitches: 11001100
Mach3 Motor Tuning: 1422.22 steps/in

Z-axis
“CW230 (3.0A) Driver”
Set to 1/4 Microstep, 2.7A
Dipswitches: 10101100
Mach3 Motor Tuning: 1600 steps/in

blackToe:

X-axis
“CW230 (3.0A) Driver”
Set to 1/16 Microstep, 2.7A
Dipswitches: 11001100
Mach3 Motor Tuning: 1422.22 steps/in

Y-axis
“CW230 (3.0A) Driver”
Set to 1/16 Microstep, 2.7A
Dipswitches: 11001100
Mach3 Motor Tuning: 1422.22 steps/in

Z-axis
“CW230 (3.0A) Driver”
Set to 1/4 Microstep, 2.7A
Dipswitches: 10101100
Mach3 Motor Tuning: 1600 steps/in

blackFoot:

X-axis
“CW8060 (6.0A) Driver”
Set to 1/16 Microstep, 2.7A
Dipswitches: 11001100 (“0”=down, “1”=up)
Mach3 Motor Tuning: 914.29 steps/in

Y-axis
“CW230 (3.0A) Driver”
Set to 1/16 Microstep, 2.7A
Dipswitches: 11001100
Mach3 Motor Tuning: 1422.22 steps/in

Z-axis
“CW230 (3.0A) Driver”
Set to 1/4 Microstep, 2.7A
Dipswitches: 10101100
Mach3 Motor Tuning: 1600 steps/in

greenBull:

X-axis
“CW8060 (6.0A) Driver”
Set to 5.43A, 1/16 Microstep
Dipswitches: 01100110 (“0”=down, “1”=up)
Mach3 Motor Tuning: 914.29 steps/in

Y-axis
“CW8060 (6.0A) Driver”
Set to 5.43A, 1/16 Microstep
Dipswitches: 01100110
Mach3 Motor Tuning: 914.29 steps/in

Z-axis
“CW8060 (6.0A) Driver”
Set to 5.43A, 1/4 Microstep
Dipswitches: 01100100
Mach3 Motor Tuning: 1600 steps/in


Scratch-Build / Book-Build Kit:

X-axis
“CW230 (3.0A) Driver”
Set to 1/4 Microstep, 2.7A
Dipswitches: 10101100 (“0”=down, “1”=up)
Mach3 Motor Tuning: 1600 steps/in

Y-axis
“CW230 (3.0A) Driver”
Set to 1/4 Microstep, 2.7A
Dipswitches: 10101100
Mach3 Motor Tuning: 1600 steps/in

Z-axis
“CW230 (3.0A) Driver”
Set to 1/4 Microstep, 2.7A
Dipswitches: 10101100
Mach3 Motor Tuning: 1600 steps/in

Additional Information:


Additional Information:
Scratch built/book CNC with NEMA 34 motors and CW8060 microstep driver

Additional Information:


Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
L8NiICEm

Additional Information:
-1 OR 2+427-427-1=0+0+0+1 --

Additional Information:
-1 OR 2+145-145-1=0+0+0+1

Additional Information:
-1' OR 2+101-101-1=0+0+0+1 --

Additional Information:
-1' OR 2+739-739-1=0+0+0+1 or 'kXOzulhF'='

Additional Information:
-1" OR 2+194-194-1=0+0+0+1 --

Additional Information:
if(now()=sysdate(),sleep(15),0)

Additional Information:
0'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z

Additional Information:



Additional Information:
0"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z

Additional Information:



Additional Information:
(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/

Additional Information:



Additional Information:
-1; waitfor delay '0:0:15' --

Additional Information:
TO93cbNY

Additional Information:
-1 OR 2+824-824-1=0+0+0+1 --

Additional Information:
-1 OR 2+681-681-1=0+0+0+1

Additional Information:
-1' OR 2+805-805-1=0+0+0+1 --

Additional Information:
-1' OR 2+93-93-1=0+0+0+1 or 'MpFdFb3O'='

Additional Information:
-1" OR 2+275-275-1=0+0+0+1 --

Additional Information:
-1); waitfor delay '0:0:15' --

Additional Information:
if(now()=sysdate(),sleep(15),0)

Additional Information:
-1); waitfor delay '0:0:7' --

Additional Information:
0'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z

Additional Information:
-1); waitfor delay '0:0:15' --

Additional Information:
0'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z

Additional Information:
-1)); waitfor delay '0:0:15' --

Additional Information:
0"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z

Additional Information:
1 waitfor delay '0:0:15' --

Additional Information:
0"XOR(if(now()=sysdate(),sleep(9),0))XOR"Z

Additional Information:
2k2XS4cL'; waitfor delay '0:0:15' --

Additional Information:
(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/

Additional Information:
g7NWXuig'); waitfor delay '0:0:15' --

Additional Information:
-1; waitfor delay '0:0:15' --

Additional Information:
XoN629J2')); waitfor delay '0:0:15' --

Additional Information:
-1); waitfor delay '0:0:15' --

Additional Information:
-5 OR 247=(SELECT 247 FROM PG_SLEEP(15))--

Additional Information:
-1)); waitfor delay '0:0:15' --

Additional Information:
-5) OR 122=(SELECT 122 FROM PG_SLEEP(15))--

Additional Information:
1 waitfor delay '0:0:15' --

Additional Information:
-1)) OR 455=(SELECT 455 FROM PG_SLEEP(15))--

Additional Information:
o1WPxXu4'; waitfor delay '0:0:15' --

Additional Information:
X3pq07N4' OR 218=(SELECT 218 FROM PG_SLEEP(15))--

Additional Information:
i2jhQp7d'); waitfor delay '0:0:15' --

Additional Information:
xMv7x4te') OR 71=(SELECT 71 FROM PG_SLEEP(15))--

Additional Information:
IbKvmZZx')); waitfor delay '0:0:15' --

Additional Information:
YkhmkP9W')) OR 826=(SELECT 826 FROM PG_SLEEP(15))--

Additional Information:
-5 OR 539=(SELECT 539 FROM PG_SLEEP(15))--

Additional Information:

*DBMS_PIPE.RECEIVE_MESSAGE(CHR(99)||CHR(99)||CHR(99),15)

Additional Information:
-5) OR 160=(SELECT 160 FROM PG_SLEEP(15))--

Additional Information:

'||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'

Additional Information:
1'"

Additional Information:
1����%2527%2522

Additional Information:
@@EQr47

Additional Information:
-1)) OR 220=(SELECT 220 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:
-1)) OR 266=(SELECT 266 FROM PG_SLEEP(9))--

Additional Information:



Additional Information:
-1)) OR 107=(SELECT 107 FROM PG_SLEEP(0))--

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
vL4vUHTG' OR 262=(SELECT 262 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
gGLXRSqE' OR 938=(SELECT 938 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:
WT10Ii3x' OR 598=(SELECT 598 FROM PG_SLEEP(9))--

Additional Information:



Additional Information:
QUuBKFso') OR 152=(SELECT 152 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
nI56G5Pp')) OR 493=(SELECT 493 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:

*DBMS_PIPE.RECEIVE_MESSAGE(CHR(99)||CHR(99)||CHR(99),15)

Additional Information:



Additional Information:

'||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'

Additional Information:
1'"

Additional Information:
1����%2527%2522

Additional Information:
@@nxzWO

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
vJlQYk5k

Additional Information:
-1 OR 2+406-406-1=0+0+0+1 --

Additional Information:
-1 OR 2+236-236-1=0+0+0+1

Additional Information:
-1' OR 2+914-914-1=0+0+0+1 --

Additional Information:
-1' OR 2+282-282-1=0+0+0+1 or '9J7jHjSj'='

Additional Information:
-1" OR 2+210-210-1=0+0+0+1 --

Additional Information:



Additional Information:



Additional Information:
if(now()=sysdate(),sleep(15),0)

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
0'XOR(if(now()=sysdate(),sleep(15),0))XOR'Z

Additional Information:



Additional Information:



Additional Information:
0"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z

Additional Information:



Additional Information:



Additional Information:
0"XOR(if(now()=sysdate(),sleep(14),0))XOR"Z

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
0"XOR(if(now()=sysdate(),sleep(15),0))XOR"Z

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
0"XOR(if(now()=sysdate(),sleep(0),0))XOR"Z

Additional Information:



Additional Information:



Additional Information:
(select(0)from(select(sleep(15)))v)/*'+(select(0)from(select(sleep(15)))v)+'"+(select(0)from(select(sleep(15)))v)+"*/

Additional Information:



Additional Information:



Additional Information:
-1; waitfor delay '0:0:15' --

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
-1); waitfor delay '0:0:15' --

Additional Information:



Additional Information:
-1)); waitfor delay '0:0:15' --

Additional Information:



Additional Information:
1 waitfor delay '0:0:15' --

Additional Information:



Additional Information:
RO4xZyuD'; waitfor delay '0:0:15' --

Additional Information:



Additional Information:
n2HpQRHN'); waitfor delay '0:0:15' --

Additional Information:



Additional Information:
hd4dcDEY')); waitfor delay '0:0:15' --

Additional Information:



Additional Information:
-5 OR 237=(SELECT 237 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
-5) OR 65=(SELECT 65 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:
-1)) OR 486=(SELECT 486 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:
-1)) OR 399=(SELECT 399 FROM PG_SLEEP(14))--

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:
x4ZvP74B' OR 337=(SELECT 337 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:
0VRZpjOv') OR 601=(SELECT 601 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:
DrCdekI1')) OR 16=(SELECT 16 FROM PG_SLEEP(15))--

Additional Information:



Additional Information:
MQqu0z64')) OR 87=(SELECT 87 FROM PG_SLEEP(7))--

Additional Information:



Additional Information:

*DBMS_PIPE.RECEIVE_MESSAGE(CHR(99)||CHR(99)||CHR(99),15)

Additional Information:



Additional Information:

'||DBMS_PIPE.RECEIVE_MESSAGE(CHR(98)||CHR(98)||CHR(98),15)||'

Additional Information:
1'"

Additional Information:
1����%2527%2522

Additional Information:
@@HJ5oY

Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
WHAT SETTINGS DO I USE IN MACH3 MOTOR TUNING?

Please refer to the Spindle wiring diagram found on the product page for the 2.2KW spindle. The wiring diagram will be the same for the 1.5kW Spindle. The only difference will depend on if you are using 110v or 220v power, as setting PD008 asks you to specify the max voltage.

Additional Information:



Additional Information:



Additional Information:

Click the link to add information to this solution:
please send wiring diagram for the 1500kw spindle and inverter combo. i need to see what additional things need be purchased. thanks.

If the pins from the terminal block on the side of the board are outputs, or at least 2 of them are outputs, then you can connect our modular driver to the board (example: cw230). If they are all inputs, then you would not be able to connect an external driver.

Click the link to add information to this solution:
I AM USING A XYLOTEX 3 AXIS BOARD AND WANT TO ADD ANOTHER MOTOR SLAVED THE X-AXIS. WILL DRIVE CW230 WORK?