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Anaheim Stepper DPC40001 Users Guide

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    Page 1

    Page 1 April 2001 DPC40001 Bipolar Microstep Driver Pack User’s Guide 910 East Orangefair Lane, Anaheim, CA 92801 e-mail: info@anaheimautomation.com(714) 992-6990 fax: (714) 992-0471 website: www.anaheimautomation.com ANAHEIM AUTOMATION 
    April 2001
DPC40001
Bipolar Microstep Driver Pack
User’s Guide
910 East Orangefair Lane, Anaheim, CA 92801
e-mail: [email protected](714) 992-6990  fax: (714) 992-0471
website: www.anaheimautomation.com
ANAHEIM AUTOMATION

    Page 2

    Page 2 #L010146 DPC40001 Microstep Driver Features • Size (7.00L x 5.05W x 3.22H) • Output Current 4.0 Amps Peak • 200 to 3200 steps/rev (1,2,5,10 and 16 selectable step operations) • Short Circuit Protection • Motor Cable Miss-Wire Detection • No Minimum Inductance • Optical Isolation • Motor ON/OFF input Introduction The DPC40001’s microstep driver has an output current capability of 1.0 Amps minimum to 4.0 Amps maximum (Peak Rating). The driver pack includes a universal input, 65W power supply. The... 
    #L010146
DPC40001 Microstep Driver Features
•  Size (7.00L x 5.05W x 3.22H)
•  Output Current 4.0 Amps Peak
•  200 to 3200 steps/rev (1,2,5,10 and 16 selectable step operations)
•  Short Circuit Protection
•  Motor Cable Miss-Wire Detection
•  No Minimum Inductance
•  Optical Isolation
•  Motor ON/OFF input
Introduction
The DPC40001’s microstep driver has an output current capability of 1.0 Amps minimum to 4.0 Amps
maximum (Peak Rating). The driver pack includes a universal input, 65W power supply. The...

    Page 3

    Page 3 April 2001 TB2: 5 Pin Terminal Description TB1: 8 Pin Terminal Description # n i Pno i t p i r c s e D 1: A e s a h Pr o t o m p e t s e h t f o 1 e s a h P 2: A e s a h Pr o t o m p e t s e h t f o 3 e s a h P 3: B e s a h Pr o t o m p e t s e h t f o 2 e s a h P 4: B e s a h Pr o t o m p e t s e h t f o 4 e s a h P 5d n u o r G r o t o M Table 3: TB2 Terminal Decriptions # n i Pno i t p i r c s e D 1:) + ( e d o n A t u p n I k c o l C p e t Sr o t o m e h t s e c n a v d a t u p n i d e t a l o s i s... 
    April 2001
TB2: 5 Pin Terminal Description TB1: 8 Pin Terminal Description
# n i Pno i t p i r c s e D
1: A e s a h Pr o t o m p e t s e h t f o 1 e s a h P
2: A e s a h Pr o t o m p e t s e h t f o 3 e s a h P
3: B e s a h Pr o t o m p e t s e h t f o 2 e s a h P
4: B e s a h Pr o t o m p e t s e h t f o 4 e s a h P
5d n u o r G r o t o M
Table 3: TB2 Terminal Decriptions
# n i Pno i t p i r c s e D
1:) + ( e d o n A t u p n I k c o l C p e t Sr o t o m e h t s e c n a v d a t u p n i d e t a l o s i s...

    Page 4

    Page 4 #L010146 Hook Up DrawingsElectrical Specifications Absolute Maximum Ratings Input Voltage: 130VAC, 50/60Hz Output Current: 4.0 AMPS PEAK Max Plate Temperature: 70° C Storage Temperature: 0° to +50° C Input Voltage (For isolated inputs): +5V to +24V Sinking: Sourcing: m e t Ini Mpy Txa Mst i n U e g a t l o V t u p n I50 151 103 1CA V t n e r r u C t u p t u O e s a h P7. 08. 2)S M R ( A t n e r r u C t u p t u O e s a h P0. 10. 4)K A E P ( A y c n e u q e r F k c o l C000 1zH k y c n e u q e r F g n i p... 
    #L010146
Hook Up DrawingsElectrical Specifications Absolute Maximum Ratings
Input Voltage: 130VAC, 50/60Hz
Output Current: 4.0 AMPS PEAK
Max Plate Temperature: 70° C
Storage Temperature: 0° to +50° C
Input Voltage (For isolated inputs): +5V to +24V
Sinking:
Sourcing:
m e t Ini Mpy Txa Mst i n U
e g a t l o V t u p n I50 151 103 1CA V
t n e r r u C t u p t u O e s a h P7. 08. 2)S M R ( A
t n e r r u C t u p t u O e s a h P0. 10. 4)K A E P ( A
y c n e u q e r F k c o l C000 1zH k
y c n e u q e r F g n i p...

    Page 5

    Page 5 April 2001 Motor Selection The DPC40001 contains a Bipolar Microstep Driver that is compatible with both Bipolar and Unipolar Motor Configurations, (i.e. 8 and 4 lead motors, and 6 lead center tapped motors). Step motors with low current ratings and high inductance will perform better at low speeds, providing higher low-end torque. Motors with high current ratings and low inductance will perform better at higher speeds, providing more high-end torque. Since theDPC40001’s driver is a constant current... 
    April 2001
Motor Selection
The DPC40001 contains a Bipolar Microstep Driver that is compatible with both Bipolar and Unipolar
Motor Configurations, (i.e. 8 and 4 lead motors, and 6 lead center tapped motors).
Step motors with low current ratings and high inductance will perform better at low speeds, providing
higher low-end torque. Motors with high current ratings and low inductance will perform better at higher
speeds, providing more high-end torque.
Since theDPC40001’s driver is a constant current...

    Page 6

    Page 6 #L010146 Step Motor Selection Guide Anaheim Automation offers motor cable, making hook-ups quick and easy! Contact the factory or visit our website for more motor and cable offerings. Microstep Selection (SW1 Settings) Switches 2, 3 and 4, of the DIP switch select the number of microsteps per step. The table below shows the standard resolution values along with the associated positions for the select switches. The standard waveforms are sinusoidal. t r a P r e b m u Nr a l o p i n U g n i t a Rs e i r e... 
    #L010146
Step Motor Selection Guide
Anaheim Automation offers motor cable, making hook-ups quick and easy!
Contact the factory or visit our website for more motor and cable offerings.
Microstep Selection (SW1 Settings)
Switches 2, 3 and 4, of the DIP switch select the number of microsteps per step. The table below shows
the standard resolution values along with the associated positions for the select switches. The standard
waveforms are sinusoidal.
t r a P
r e b m u Nr a l o p i n U
g n i t a Rs e i r e...

    Page 7

    Page 7 April 2001 Setting the Output Current The output current on the DPC40001 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: Reducing Output Current Reducing the output current is accomplished by setting switch 1 of the DIP switch to the ON position and occurs approximately 20mSec after the last positive going edge of the step clock input. The amount of... 
    April 2001
Setting the Output Current
The output current on the DPC40001 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:
Reducing Output Current
Reducing the output current is accomplished by setting switch 1 of the DIP switch to the ON position and
occurs approximately 20mSec after the last positive going edge of the step clock input. The amount of...

    Page 8

    Page 8 #L010146 4 Lead Motors Multiply the specified series motor current by 1.4 to determine the current adjustment potentiometer value. Four Lead Motors are usually rated with their appropriate series current, as opposed to the Phase Current , which is the rating for 6 and 8 lead motors. 6 Lead Motors When configuring a 6 lead motor in a half-coil configuration (connected from one end of the coil to the center tap), multiply the specified per Phase (or unipolar) current rating by 1.4 to determine the... 
    #L010146
4 Lead Motors
Multiply the specified series motor current by 1.4 to determine the current adjustment potentiometer
value. Four Lead Motors are usually rated with their appropriate series current, as opposed to the 
Phase
Current
, which is the rating for 6 and 8 lead motors.
6 Lead Motors
When configuring a 6 lead motor in a half-coil configuration (connected from one end of the coil to the
center tap), multiply the specified per Phase (or unipolar) current rating by 1.4 to determine the...

    Page 9

    Page 9 April 2001 8 Lead Motors Series Connection: When configuring the motor windings in series, use the per Phase (or unipolar) current rating to determine the current setting potentiometer value. Parallel Connection: When configuring the motor windings in parallel, multiply the per Phase (or unipo- lar) current rating by 2.0 to determine the current setting potentiometer value. NOTE: After the current has been determined, according to the motor connections above, use Table 7 to choose the proper setting for... 
    April 2001
8 Lead Motors
Series Connection: When configuring the motor windings in series, use the per Phase (or unipolar)
current rating to determine the current setting potentiometer value.
Parallel Connection: When configuring the motor windings in parallel, multiply the per Phase (or unipo-
lar) current rating by 2.0 to determine the current setting potentiometer value.
NOTE: After the current has been determined, according to the motor connections above, use Table 7 to
choose the proper setting for...

    Page 10

    Page 10 #L010146 Torque Speed Curves 
    #L010146
Torque Speed Curves
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