Stepper Motors & Controller

Couplers, Cables, Stepper Mounting, 4th Axis, Stepper Controller, Dual Control

Taig Mill CNC   A Computer for CNC   Lead-screw Conversion   Breakout Board   Safety Charge Pump
Pendant   Spindle Tachometer   Relay Box   E-Stop   Limit Switches   CNC Rotary Table   Tooling Plate

Couplers

A Taig NEMA 23 stepper-motor mount screwed onto the lead screw boss.
The ring clamps the split housing to grip the fine threads.

Each coupler was modified to include an 8-32 set screw (with a green nylon locking insert) that engages the shaft flat.
The tips were diamond ground flat. The set screw will spread the slit so I tighten the clamping cap-head bolt first.
PacTec    Triad    Stepper Motor Basics

Stepper motors shown with a Taig NEMA 23 mount & couplers.
305oz-in unipolar rating, 4.2v, 3A, 200 steps/revolution, 3.2mH.
Dual ¼" diameter shafts (with flats) are ⅞" & ⅝" long.

Cables

Eight-wire stepper motor leads with 6-pin (crimped & soldered) Molex connected cables.
Black protective sheath removed from one of the stepper motors. Pieces of heat shrink hold the wire bundles.
The stepper-motor connectors can be plugged directly into the controller box without the cables.

Stepper Mounting

Mounted X-axis stepper motor.

Mounted Y-axis stepper motor.

Mounted Z-axis stepper motor.

Connector & strain-relief clamp for the Z-axis stepper motor cable.

My Mach3 stepper setup for X, Y, & Z-axes: 200 steps/motor rev x 4 (¼ stepping) x 20 TPI lead-screw pitch = 16,000 steps/inch.
These 305oz-in steppers are quite powerful given the scale of the Taig machine. They allow good split-nut clamping pressures &
 fast transition speeds especially when considering the relatively short distances involved & working in metal.

Note the small gap in-between the couplers. Attached a knob to the motor's shaft to assist in aligning the coupler pins.
Screw the mount in & out to adjust the coupler gap. Do not over tighten the motor clamping plate & ring.
The ring set screw is 90º off the collar's slit.

4th Axis

CNC rotary table with 305oz-in stepper motor. I see no difference in the amount of backlash between this & their regular table.
Note the addition of a guide plate on the back (or front) edge of the mounting plate. Also see other small & large rotary tables.
My stepper setup for Mach3's fourth, A-axis: 200 steps/motor rev x 4 (¼ stepping) / 5º/table rev = 160 steps/º

Sherline's super rigid/precise stepper-motor mount.

Tram the rotary table face by performing adjustments both horizontally & vertically.

Stepper Controller
 Original Controller & Redesigned Panel

Milling the panel on the RF-25 mill. The open-slot area exceeds
the original, 10-hole design area. Original panel layout drawing.

The pin out terminal strips pass through & can be directly connected to the PCB inside the case.
Adding the breakout board opto-isolated these connections.

Note (4) metal tubes were used to increase fan mount rigidity. A green LED was incorporated into the 2KΩ bleeder-resistor circuit.
Molex receptacles are snapped into the enclosure's back panel. An extra 120VAC cord strain relief clamp was also added.
Note the terminal block connections passing through the rear panel. I leave all J4 jumpers ON so the motors do not idle down.


When powered down, the green LED dims as the current bleeds off. It extinguishes in a few minutes.

The PCB pin-outs (10, 11, 12, 13, 15, have pull-up resistors & 1, 14, 16, 17 do not, plus GND) are connected to the back-panel terminal blocks.
The pull-up resistors interfered with the C1 breakout board control logic so I removed them from the stepper-motor circuit.
These I/O can be used as extension/access to an enclosed breakout board. These I/O are not used as they are not opto-isolated
though they do provide quick access for the oscilloscope probes. Note the strain relief clamp (lower right) where the power cord enters.


These pin out labels were added so they could be seen when the unit is underneath the bench.

Dual Control
Redesigned & rewired stepper motor control panel to provide dual, switchable X & Z Axes outputs.

New panel design with switched X & Z stepper outputs to control either the Taig Micro Lathe or Micro Mill.
Drilled & tapped the milled wood base for multiple 10-32, 100°, flathead screws, to hold the plastic panel.
The top of the panel aligns against the Parlec vise's solid jaw. See lathe CNC.

For each axis (X & Z) two, 3PDT, 6A switches select the six stepper motor wires between output sockets.
 The center, common switch contacts are connected to the stepper board outputs. The two (left & right)
banks of switched contacts are connected to the Molex socket pins. Switching schematic.

Left & right side switch wires loop over to right & left sockets to keep the front panel toggle positions correct.

Four, switch-lever positions are thrown either left towards the Lathe (ZL & XL) or right towards the Mill (ZM & XM).
Not coincidentally, the lathe is on the left side of the bench & the mill is on the right side of the bench, too.

WARNING: DO NOT SWITCH MOTORS WHEN THE POWER IS ON.
TURN SYSTEM OFF THEN WAIT A MINIMUM OF 3 MINUTES BEFORE SWITCHING MOTORS.

The lathe uses 3A motors, same as the mill, so all stepper board amperage settings are set at 0.42 VDC.
The new panel design has much tighter tolerances for the snap-in Molex sockets than the first design.

The larger stepper motor is for the carriage & the medium-sized motor is for the cross slide; both are 3A.
The eight motor wires are wired into six-pin, Molex sockets. The cables are 18 gage.

The Molex pins are both crimped & soldered. The wires were looped to ease installation. See lathe CNC.

Taig Mill CNC   A Computer for CNC   Lead-screw Conversion   Breakout Board   Safety Charge Pump
Pendant   Spindle Tachometer   Relay Box   E-Stop   Limit Switches   CNC Rotary Table   Tooling Plate

Couplers, Cables, Stepper Mounting, 4th Axis, Stepper Controller, Dual Control