DPG10002-01, DPG10003-01, DPG10004-01
Microstep Driver Pack
User’s Guide
A N A H E I M A U T O M A T I O N
910 East Orangefair Lane, Anaheim, CA 92801
e-mail: [email protected]
(714) 992-6990 fax: (714) 992-0471
#L010167
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TB1: 8 Pin Terminal - All Connections INTERNALLY Wired to 25DB Port
Pin # Description
1
Step Clock Input Anode (+): A positive going edge on this isolated input advances the motor one
increment. The size of the increment is dependent on the Microstep Select Inputs of Switch 1.
2
3
Step Clock Input Cathode (-)
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
5
Direction Cathode (-)
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
7
ON/OFF Cathode (-) - Internally ALL Drivers ON/OFF are tied to PIN14 of the 25DB Port.
+5 VDC: This non-isolated output can be used to supply up to 50mA of current to the isolated inputs.
By doing this, isolation will be disabled.
8
0 VDC: +5 VDC return.
Table 2: Pin descriptions for terminal block TB1.
Power Supply Requirements
The DPA10002-01, DPG10003-01 and DPG10004-01 are all powered by an AC line voltage ranging from
90-265VAC. The following figure shows the various line voltages.
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Absolute Maximum Ratings
Input Voltage: 90-265 VAC
Output Current: 10.0 AMPS PEAK
Max Plate Temperature: 70° C
Storage Temperature: 0° to +50° C
Input Voltage (For isolated inputs): +5V to +24V at 2.5mA
Electrical Specifications
Item
Min Typ Max
Units
VAC
Input Voltage
90
1.0
1.5
0
265
7.1
Phase Output Current
Phase Output Current
Clock Frequency
Chopping Frequency
+5VDC
A (RMS)
10.0 A (PEAK)
400
33
kHz
kHz
V
20
4.8
0
27
5
5.2
50
+5VDC
mA
C
Operation Temperature
0
70
Hook Up Drawings
Hook Up for Current Sinking Inputs
Optional: Non-Isolated +5VDC Output can power the MBC10641 Inputs (but isolation is eliminated).
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DB25 PIN Port Connection Description
1.
2.
3.
4.
5.
6.
7.
8
No Connection
No Connection
No Connection
No Connection
No Connection
No Connection
No Connection
No Conneciton
14.
15.
16.
17.
18.
19.
20.
21.
22.
23.
24.
25.
Enable All Windings
No Connection
No Connection
No Connection
No Connection
A Direction Input
Z Direction Input
Y Direction Input
9.
X Direction
+5VDC Input Required to Power Driver OPTO
+5VDC Input Required to Power Driver OPTO
No Connection
10.
11.
12.
13.
A Step ( Clock Input)
Z Step ( Clock Input)
Y Step ( Clock Input)
X Step ( Clock Input)
No Connection
Optically Isolated Inputs
The following inputs to the MBC10641 are Optically Isolated.
Item
Clock
Pin #
1 & 2
3 & 4
5 & 6
Direction
On/Off
To enable an input, apply a DC voltage source of +5VDC to +24VDC across the inputs. The Anodes (+)
are pins 1,3,and 5 and the Cathodes (-) are pins 2, 4, and 6.
Motor Selection
The MBC10641 is 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 the MBC10641 is a constant current source, it is not necessary to use a motor that is rated at the
same voltage as the supply voltage. What is important is that the MBC08161 is set to the appropriate
current level based on the motor being used. Higher voltages will cause the current to flow faster through
the motor coils. This in turn means higher step rates can be achieved. Care should be taken not to exceed
the maximum voltage of the driver.
Anaheim Automation offers a comprehensive line of step motors in 17, 23, 34 and 42 frame
sizes. Contact the factory to verify motor/ drive compatibility.
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Microstep Selection (SW1 Settings)
Switches 2, 3 and 4, of the DIP switch select the number of microsteps per step. Table 7 shows the
standard resolution values along with the associated positions for the select switches. The standard wave-
forms are sinusoidal.
Resolution Steps/Rev Select 1 Select 2 Select 3 Select 4 Auto Reduce Current
1
2
200
400
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
ON
ON
ON
ON
ON
ON
OFF
ON
Disabled
Disabled
Disabled
Disabled
Disabled
Disabled
Disabled
Disabled
Enabled
Enabled
Enabled
Enabled
Enabled
Enabled
Enabled
Enabled
5
1000
1600
2000
3200
6400
12800
200
ON
OFF
OFF
ON
8
ON
OFF
ON
10
16
32
64
1
OFF
OFF
OFF
OFF
ON
ON
OFF
ON
OFF
OFF
ON
OFF
ON
2
400
ON
ON
ON
OFF
ON
5
1000
1600
2000
3200
6400
12800
ON
ON
OFF
OFF
ON
8
ON
ON
OFF
ON
10
16
32
64
ON
OFF
OFF
OFF
OFF
ON
ON
OFF
ON
ON
OFF
OFF
ON
OFF
Table 6: Microstep Selection on Switch 1.
Setting the Output Current
The output current on the MBC10641 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
1.5A
Potentiometer Setting
Peak Current
Potentiometer Setting
0%
7.0A
7.9A
8.7A
9.6A
10A
--
60%
70%
80%
90%
100%
--
2.3A
10%
20%
30%
40%
50%
3.1A
4.0A
5.0A
6.0A
Table 7: Potentiometer values with respect to the output current
Refer to Table 5 for specific motor current settings.
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Step Motor Selection Guide
Series
Current
Setting
Parallel
Current
Setting
Motor Current
Number Code
Unipolar
Rating
Series Peak Parallel Peak
Motor Example
Rating
Rating
23D102S
23L303D-LW8
34N104S-LW8
23L4005D-LW8
34A106B
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
19
22
25
1.0A
1.5A
2.0A
2.5A
3.0A
3.5A
4.0A
4.5A
5.0A
5.5A
6.0A
6.5A
7.0A
7.5A
8.0A
9.5A
11.0A
12.5A
1.0A
1.5A
2.0A
2.5A
3.0A
3.5A
4.0A
4.5A
5.0A
5.5A
6.0A
6.5A
7.0A
7.5A
8.0A
9.5A
11.0A
12.5A
2.0A
3.0A
----
0%
5%
20%
30%
40%
50%
60%
70%
85%
100%
100%
100%
100%
100%
----
4.0A
5%
5.0A
10%
20%
25%
30%
35%
40%
45%
50%
55%
60%
65%
70%
90%
100%
100%
6.0A
34N207S-LW8
34K108S-LW8
42N209S-CB
23L310S-LW8
34D311D
7.0A
8.0A
9.0A
10.0A
11.0A
12.0A
13.0A
14.0A
15.0A
16.0A
19.0A
22.0A
25.0A
42K112S-CB
34D213S
34N314S-LW8
42N115D-CB
34K416S-LW8
42D119D
----
----
42N322S-CB
42D225S
----
----
TABLE 5 - Table Selection for Anaheim Automation Motor Current Settings.
Anaheim Automation offers motor cable, making hook-ups quick and easy!
Contact the factory or visit our website for more motor and cable offerings.
Reducing Output Current
Reducing the output current is accomplished by setting switch 1 of the DIP switch to the ON position and
occurs 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 70% of the set current. When the current
reduction circuit is activated, the current reduction resistor is paralleled with the current adjustment poten-
tiometer. This lowers the total resistance value, and thus lowers the per Phase output current.
Determining Output Current
The output current for the motor used when microstepping is determined differently from that of a full/half
step unipolar driver. In the MBC08161, a sine/cosine output function is used in rotating the motor. The
output current for a given motor is determined by the motors current rating and the wiring configuration of
the motor. There is a current adjustment potentiometer used to set the output current of the MBC10641.
This sets the peak output current of the sine/cosine waves. The specified motor current (which is the
unipolar value) is multiplied by a factor of 1.0, 1.4, or 2.0 depending on the motor configuration (series,
half-coil, or parallel).
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Step Motor Configurations
Step motors can be configured as 4, 6, or 8 leads. Each configuration requires different currents. Refer to
the lead configurations and the procedures to determine their output current.
WARNING! Step motors will run hot even when configured correctly. Damage may occur to the motor if a
higher than specified current is used. Most specified motor currents are maximum values. Care should be
taken to not exceed these ratings.
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 current
setting potentiometer value. This configuration will provide more torque at higher speeds when compared
to the series configuration.
When configuring the motor in a series configuration (connected from end to end with the
center tap floating) use the specified per Phase (or unipolar) current rating to determine the
current setting potentiometer value.
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.
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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 3 to
choose the proper setting for the current setting potentiometer.
Connecting the Step Motor
Phase 1 and 3 of the Step Motor is connected between pins 1 and 2 on the motor connector (TB2). Phase
2 and 4 of the Step Motor is connected between pins 3 and 4 on the motor connector (TB2). The motors
case can be grounded to pin 5 on the motor connector (TB2). Refer to the figures for the hook-up drawings
for TYPICAL APPLICATION HOOK-UPS.
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, switch the
wires on Phase 1 and Phase 3.
WARNING: Do not connect or disconnect motor wires while power is applied!
Short-Circuit, Mis-Wire, and Over-Current Conditions
If it is found that there is a condition that causes on over current in the driver phase transistors, the Red
LED will turn on solid and power will be shut off to the motor. To reset the drive turn power off, check
0wiring, and turn power back on.
Over-Temperature and Over-Voltage Conditions
If it is found that there is an over temperature on the internal heat sink, or an over voltage on the motor bus
voltage, the Red LED will blink and power will be shut off to the motor. To reset the drive turn power off,
check wiring, and turn power back on.
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Dimension Drawings
DPG10002-01, DPG10003-01 and DPG10004-01 Micostep Driver Pack
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COPYRIGHT
Copyright 2001 by Anaheim Automation. All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or
translated into any language, in any form or by any means, electronic, mechanical, magnetic, optical, chemical, manual, or otherwise, without the prior written
permission of Anaheim Automation, 910 E. Orangefair Lane, Anaheim, CA 92801.
DISCLAIMER
Though every effort has been made to supply complete and accurate information in this manual, the contents are subject to change without notice or obligation to inform
the buyer. In no event will Anaheim Automation be liable for direct, indirect, special, incidental, or consequential damages arising out of the use or inability
to use the product or documentation.
Anaheim Automation’s general policy does not recommend the use of its’ products in life support applications wherein a failure or malfunction of the product may directly
threaten life or injury. Per Anaheim Automation’s Terms and Conditions, the user of Anaheim Automation products in life support applications assumes all risks of such
use and indemnifies Anaheim Automation against all damages.
LIMITED WARRANTY
All Anaheim Automation products are warranted against defects in workmanship, materials and construction, when used under Normal Operating Conditions and when
used in accordance with specifications. This warranty shall be in effect for a period of twelve months from the date of purchase or eighteen months from the date of
manufacture, whichever comes first. Warranty provisions may be voided if products are subjected to physical modifications, damage, abuse, or misuse.
Anaheim Automation will repair or replace at its’ option, any product which has been found to be defective and is within the warranty period, provided that the item is
shipped freight prepaid, with previous authorization (RMA#) to Anaheim Automation’s plant in Anaheim, California.
TECHNICAL SUPPORT
If you should require technical support or if you have problems using any of the equipment covered by this manual, please read the manual completely to see if it will
answer the questions you have. Be sure to refer to the TROUBLESHOOTING section of this manual. If you need assistance beyond what this manual can provide,
contact your Local Distributor where you purchased the unit, or contact the factory direct.
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Torque Speed Curves
A N A H E I M A U T O M A T I O N
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