Anaheim Discounted Package PKG343MLACBL User Manual

							910 East Orangefair Ln.  Anaheim, CA 92801     Tel. (714) 992-6990     Fax. (714) 992-0471     www.anaheimautomation.com
PKG-343-MLA-CBL
System Diagram and Specifications
L010886
Included Components:
34Y314S-LW8-MS Stepper Motor
MLA10641 Stepper Driver
CBL-18AWG-04C-010-MS Motor Cable
PWR-10EMC1 Power Filter
LIN-AA4254 Power Cord
Sheet1
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0  5  10  15  20  25  30  35  40  45  50 
POWER (Watts) TORQUE (oz -in) 
SPEED (RPS)  
34Y314 With MLA10641, 120VAC, Parallel, Div by  16  
TORQUE 
POWER  
						

							FEATURES
SPECIFICATIONS/DIMENSIONS
910 East Orangefair Ln.  Anaheim, CA 92801     Tel. (714) 992-6990      Fax. (714) 992-0471     www.anaheimautomation.com
The 34Y314S-LW8-MS High Torque Stepper Motor offers a great value without sacrificing quality.  This motor was 
designed to offer the highest possible torque while minimizing vibration and audible noise. It is wired in series with 
a Molex 4 pin Mini-Fit Jr. receptacle. 
A 10 ft. 4 conductor, 18 AWG cable with mating 4 pin Mini-Fit Jr plug is included in the PKG-343-MLA-CBL 
stepper/motor package.
34Y314S-LW8-MS - High Torque Stepper Motor34Y314S-LW8-MS - High Torque Stepper Motor
• NEMA 34 Frame Size
• Holding Torque - 1,700 oz-in
• 1.8° Step Angle
• High Step Accuracy and Resolution
• Low Vibration and Noise
• CE Certified RoHS Compliant
Model #NEMA 
Size Holding
Torque(oz-in) Bipolar
Current (A) Bipolar 
Resistance (ohms) Bipolar
Voltage  (v) Bipolar 
Inductance (mH) Rotor 
Inertia
(oz-in-sec2) Shaft 
Diameter (in) Weight
(lbs) Length
(in)
34Y314S-LW8-MS 341700 5.01.12 5.614.2 0.0566 0.62511.96.14
Step Angle Accuracy: ± 5% (Full Step, No Load) Insulation Resistance:100M Ohm Min, 500VDC
Resistance Accuracy: ± 10% Dielectric Strength:500VDC for 1 minute
Inductance Accuracy: ± 20% Shaft Radial Play:0.02” Max (1.0 lbs)
Temperature Rise: 80°C Max (2 Phases On) End Play:0.08” Max (1.0 lbs)
Ambient Temperature: -20° to +50° C Max Radial Force:49.5 lbs (0.79” from flange)
Insulation Type: Class B Max Axial Force:13.5 lbs-Force
Pin #Lead Wire Connection Lead Wire Color
1
2
3
4 Phase 1 (A)
Phase 3 (A\) Phase 2 (B)
Phase 4 (B\)
Soldered Together
Soldered Together Black
Orange Red
Yellow 
White/Black & White/Orange White/Red & White/Yellow 
						

							FEATURES
DESCRIPTION
910 East Orangefair Ln.  Anaheim, CA 92801     Tel. (714) 992-6990      Fax. (714) 992-0471     www.anaheimautomation.com
The MLA10641 high-performance microstepping driver has an output current capability from 2.0 Amps minimum to 
10.0 Amps maximum (peak rating).  The MLA10641 driver operates with an AC voltage of 90-132 Volts.  The inputs 
are optically isolated with a minimum sourcing of 7.0 mA per input (+5VDC minimum to +24VDC maximum).  The 
clock  input  is  set  to  receive  either  positive  or  negative  edge  clocks  with  a  maximum  frequency  of  400KHz.    The 
MLA10641  driver  offers  direction  control  and  motor  current  ON/OFF  capabilities.  The  Reduce  Current  Enabled 
function automatically reduces motor current to 50% of set value after the last step is made. The driver has built-in 
features to indicate power on (Green LED), clocks being received (Y ellow LED) and fault conditions (Red LED). 
With the MLA10641, various step resolutions can be implemented by the onboard DIP switch.  These divisions range 
from 200 steps per revolution to 12,800 steps per revolution.  Protection devices have been added to this driver for 
phase-to-phase short-circuit, motor miswire, over-temperature and over-voltage conditions.
MLA10641 - Microstep Driver MLA10641 - Microstep Driver
• Size: 5.50”L x 2.96”W x 5.54”H
• High Torque Output
• 200 to 12,800 Steps per Revolution
• 1, 2, 5, 8, 10, 16, 32, & 64 Selectable Step Operations
• Output Current 10.0 Amps Peak
• Short-Circuit Protection
• Over-Temperature & Over-Voltage Shutdown
• No Minimum Inductance
• Optical Isolation 
• Motor ON/OFF Input
• RoHS Compliant
Input Voltage (Power):
90-132VAC
Motor Bus Voltage 127-185VDC
Phase Output Current: 1.414-7.07A (RMS)
Phase Output Current: 2.0-10.0A (Peak)
Input Voltage (Inputs): 3.5-24VDC
Clock Frequency: 0-400 kHz
Fault Output Signal: Open Collector Maximum 30V/50mA
Chopping Frequency: 28-32 kHz
Operation Temperature: 0-70° C
Storage Temperature: 0-50° C
SPECIFICATIONS
TYPICAL APPLICATION  HOOK-UP 
						

							Pin #Description
1 Step Clock Input Anode (+): 
A positive going edge on this isolated input advances the motor by one increment.  The size of 
the increment is dependent on the Microstep Select Inputs of the DIP  switch.
2 Step Clock Input Cathode (-)
3 Direction Anode (+): This isolated input is used to change the direction of the motor.  Physical direction also depends on the 
connection of the motor windings.
4 Direction Cathode (-)
5 ON/OFF Anode (+): This isolated input is used to enable and disable the output section of the driver.  When HIGH (open), the 
outputs are enabled.  However, this input does not inhibit the step clock.
6 ON/OFF Cathode (-)
7 Fault Out (C): This is the collector of the optically isolated fault output.  When NO fault occurs, this output will conduct current 
into the emitter.  Care must be taken to not pass more than 50mA of current through this transistor.
8 Fault Out (E):  This is the emitter of optically isolated fault output.
TB1: 8 Pin Terminal Block Description Pin Descriptions
The Inputs on the MLA10641 are optically isolated with the anode (+) and cathode (-) both brought out to the user.  With no 
current going through the opto-diode, the input is considered high.  To enable the input a minimum of 7.0 mA needs to be 
sourced or sinked through the opto-diode.  This is done by simply placing a voltage ranging from +5 to +24VDC across the 
two inputs of the opto-diode.  If sinking current, then all three anodes (+) should be tied together to the +voltage.  If sourcing 
current  into  the  inputs,  all  three  cathodes  (-)  should  be  tied  together  and  grounded  as  shown  in  TYPICAL APPLICATION 
HOOK-UP.  The MLA10641 also has an optically isolated Fault Output Signal.  This output has an open collector maximum 
voltage of 30V and can sink up to 50mA.
The Anodes (+) are pins 1, 3 and 5 and the Cathodes (-) are pins 2, 4 and 6.
ItemPin#
Clock 1 & 2
Direction 3 & 4
On/Off 5 & 6
Fault Out 7 & 8
Pin #Description
1 Motor Ground
2 Step Motor Phase 1 (A)
3 Step Motor Phase 3 (A\)
4 Step Motor Phase 2 (B)
5 Step Motor Phase 4 (B\)
TB3: 5 Pin Terminal Block Description
Pin Descriptions for input terminal block connector (TB1)
Pin Descriptions for input terminal block connector 
Pin # Description
1 AC IN: Hot
2 AC IN: Neutral
3 EARTH GROUND (Must be Connected)
TB2: 3 Pin AC IN Terminal Block Description
Pin Descriptions for input terminal block connector 
910 East Orangefair Ln.  Anaheim, CA 92801     Tel. (714) 992-6990      Fax. (714) 992-0471     www.anaheimautomation.com 
						

							910 East Orangefair Ln.  Anaheim, CA 92801     Tel. (714) 992-6990     Fax. (714) 992-0471     www.anaheimautomation.com
Reducing Output Current
Reducing  the  output  current  is  accomplished  by  setting  switch  1  of  the  DIP  switch  to  the  ON  position.  This  should  occur 
approximately 1 second after the last positive going edge of the step clock input.  The amount of current per phase in the 
reduction mode is approximately 50% of the set current.The output current on the MLA10641 is set by an onboard potentiometer. This potentiometer determines the per phase peak 
output current of the driver. The relationship between the output current and the potentiometer value is as follows:
Peak Current
Potentiometer Setting Peak CurrentPotentiometer Setting
2.00A 0%6.80A 60%
2.30A 10%7.0A63%
3.00A 20%7.50A 70%
4.00A 30%8.40A** 80%
4.80A 40%9.50A** 90%
5.75A 50%10.00A** 100%
Setting the Output Current:
The specified motor current of 5.0A for the 34Y314S-LW8-MS (which is the bipolar value) is multiplied by a factor of 
1.4 to determine the current adjustment potentiometer value of 7.0Amps o\
r 63%. 
WARNING: Do not set the current setting above the step motor’s rated current. When using a  higher current setting 
into a motor, the motor will overheat and burn up. Should this occur, the driver will also be damaged.
**Although the MLA10641 has an internal fan, current settings above 8.4Amps (80%) may require additional cooling.
Phases 1 and 3 of the step motor are connected between pins 2 and 3 on the motor connector (TB3).  Phases 2 and 4 of 
the step motor are connected between pins 4 and 5 on the motor connector (TB3).   The motors case should be grounded 
to pin 1 on the motor connector (TB3) for protection.  Refer to  TYPICAL APPLICATION HOOK-UP.
NOTE: The physical direction of the motor with respect to the direction input will depend on the connection of the motor 
windings.  To reverse the direction of the motor with respect to the direction input, swap the wires on Phase 1 and Phase 3.  
WARNING: Do not connect or disconnect motor wires while power is applied!
Connecting the Stepper Motor: Power Supply Requirements
The MLA10641 has an input line voltage ranging from 90-132VAC.  TB2 pin 1 is used as the hot terminal and is 
internally fused, TB2 pin 2 is used as the neutral terminal and TB2 pin 3 is the EGND terminal. The EGND terminal 
must be connected. 
						

							910 East Orangefair Ln.  Anaheim, CA 92801     Tel. (714) 992-6990     Fax. (714) 992-0471     www.anaheimautomation.com
ResolutionSteps/Rev Position 1Position  2 Position  3Position  4Auto Reduce Current
1 200 OFF ONONON Disabled
2 400 OFF ONONOFF Disabled
5 1000 OFF ONOFF ON Disabled
8 1600 OFF ONOFF OFF Disabled
10 2000 OFFOFF ONON Disabled
16 3200 OFFOFF ONOFF Disabled
32 6400 OFFOFFOFF ON Disabled
64 12800 OFFOFFOFFOFF Disabled
1 200 ONONONON Enabled
2 400 ONONONOFF Enabled
5 1000 ONONOFF ON Enabled
8 1600 ONONOFF OFF Enabled
10 2000 ONOFF ONON Enabled
16 3200 ONOFF ONOFF Enabled
32 6400 ONOFF OFF ON Enabled
64 12800 ONOFF OFFOFF Enabled
Microstepping Selection (DIP Settings)
Switches 2, 3, and 4 of the DIP switch select the microstep resolution of the driver. The table below shows thes standard 
resolution values along with the associated positions for the select switches.   The standard waveforms are sinusoidal. The 
steps/rev are based on a 200 step/rev motor.