User`s Manual

User`s Manual
RG60U
RG61U
RG60U-PCM
RG61U-PCM
Dual Voltage, Adjustable Speed,
SCR Regenerative Drive for
Permanent Magnet DC Brush Motors
User’s Manual
RG60U Series
Copyright © 2003 by
Minarik Corporation
All rights reserved. No part of this manual may be reproduced or transmitted in any
form without written permission from Minarik Corporation. The information and
technical data in this manual are subject to change without notice. Minarik
Corporation and its Divisions make no warranty of any kind with respect to this
material, including, but not limited to, the implied warranties of its merchantability
and fitness for a given purpose. Minarik Corporation and its Divisions assume no
responsibility for any errors that may appear in this manual and make no
commitment to update or to keep current the information in this manual. MVD011303
Printed in the United States of America.
i
Safety Warnings
• This symbol denotes an important safety tip or warning.
SHOCK
HAZARD
AVOID
HEAT
KEE
DR
OID
ATION
Please read these instructions carefully before performing
any of the procedures contained in this manual.
•
DO NOT INSTALL, REMOVE, OR REWIRE THIS EQUIPMENT
WITH POWER APPLIED. Have a qualified electrical technician
install, adjust and service this equipment. Follow the National
Electrical Code and all other applicable electrical and safety
codes, including the provisions of the Occupational Safety and
Health Act (OSHA), when installing equipment.
•
Reduce the chance of an electrical fire, shock, or explosion by
proper grounding, over-current protection, thermal protection,
and enclosure. Follow sound maintenance procedures.
It is possible for a drive to run at full speed as a result
of a component failure. Minarik strongly recommends the
installation of a master switch in the main power input to
stop the drive in an emergency.
Circuit potentials are at 115 VAC or 230 VAC above earth
ground. Avoid direct contact with the printed circuit board or
with circuit elements to prevent the risk of serious injury or
fatality. Use a non-metallic screwdriver for adjusting the
calibration trimpots. Use approved personal protective
equipment and insulated tools if working on this drive with
power applied.
ii
Contents
Regenerative Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .v
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
Shielding guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6
Heat sinking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
Line fusing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
Speed adjust potentiometer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
Power, fuse and motor connections . . . . . . . . . . . . . . . . . . . . . . .11
Voltage follower (isolated signal) . . . . . . . . . . . . . . . . . . . . . . . . . . .16
Line voltage switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
Armature voltage switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
Feedback selector switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .18
Voltage or Current Follower (non-isolated signal, -PCM models) . .19
Polarity reversal switch (-PCM models) . . . . . . . . . . . . . . . . . . . . . .19
Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21
Before applying power: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21
Startup and shutdown . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
To start the drive: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
Starting and Stopping Methods . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23
Automatic restart upon power restoration . . . . . . . . . . . . . . . . . .23
Decelerate to a stop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
Coast to a stop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25
Regenerative brake . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25
Invert Inhibit and Invert Enable . . . . . . . . . . . . . . . . . . . . . . . . . . .26
iii
Calibration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30
MINIMUM SPEED (MIN SPD) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32
MAXIMUM SPEED (MAX SPD) . . . . . . . . . . . . . . . . . . . . . . . . . . . .32
FORWARD TORQUE (FWD TQ) . . . . . . . . . . . . . . . . . . . . . . . . . . . .33
REVERSE TORQUE (REV TQ) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .34
IR COMPENSATION (IR COMP) . . . . . . . . . . . . . . . . . . . . . . . . . . .35
FORWARD ACCELERATION (FWD ACC) . . . . . . . . . . . . . . . . . . . .36
REVERSE ACCELERATION (REV ACC) . . . . . . . . . . . . . . . . . . . . .36
DEADBAND (DB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37
TACH GENERATOR (TACH) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .38
MAX (RG60U-PCM isolation card) . . . . . . . . . . . . . . . . . . . . . . . . . .40
OFFSET (RG60U-PCM isolation card) . . . . . . . . . . . . . . . . . . . . . . .41
Application Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42
Connections to Minarik DLC600 . . . . . . . . . . . . . . . . . . . . . . . . . . . .42
FWD-REV switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .43
FWD-STOP-REV switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .44
Independent Adjustable Speeds . . . . . . . . . . . . . . . . . . . . . . . . . . .45
Independent forward and reverse speeds . . . . . . . . . . . . . . . . . . . .46
Independent forward and reverse speeds with FWD-STOP-REV
switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48
Before applying power . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .48
Replacement Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52
Unconditional Warranty . . . . . . . . . . . . . . . . . . . . . .inside back cover
Tables
Table 1. Recommended Line Fuse Sizes . . . . . . . . . . . . . . . . . . . . . . .8
Table 2. Replacement Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52
iv
Illustrations
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
1. Four Quadrant Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . .vi
2. RG60U/RG61U Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . .2
3. RG60U-PCM/RG61U-PCM Dimensions . . . . . . . . . . . . . . . . .3
4. Speed Adjust Potentiometer . . . . . . . . . . . . . . . . . . . . . . . . . .9
5. Screw Terminal Block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
6. Cage-Clamp Terminal Block . . . . . . . . . . . . . . . . . . . . . . . . .10
7. Power and Motor Connections (Bottom Board) . . . . . . . . . .13
8. Speed Adjust Potentiometer Connections . . . . . . . . . . . . . .15
9. Voltage Follower Connection . . . . . . . . . . . . . . . . . . . . . . . . .16
10. Line Voltage Switches (bottom board) . . . . . . . . . . . . . . . .17
11. Armature Voltage and Feedback
Selector Switch Locations (top board) . . . . . . . . . . . . . . . . .18
12. RG-60U-PCM connections and jumper settings . . . . . . . . .20
13. RUN/STOP Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
14. INHIBIT / ENABLE Terminal TB503
and JP502 Locations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27
15. INHIBIT Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28
16. ENABLE Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29
17. RG60U Calibration Trimpot Locations . . . . . . . . . . . . . . . . .31
18. Deadband Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37
19. Typical FWD TQ, REV TQ, and
IR COMP Trimpot Settings . . . . . . . . . . . . . . . . . . . . . . . . .39
20. PCM Calibration Trimpot Locations . . . . . . . . . . . . . . . . . . .40
21. RG60U Connections to DLC600 . . . . . . . . . . . . . . . . . . . . .42
22. Forward-Reverse Switch . . . . . . . . . . . . . . . . . . . . . . . . . . .43
23. Forward-Stop-Reverse Switch . . . . . . . . . . . . . . . . . . . . . . .44
24. Independent Adjustable Speeds (Forward Direction) . . . . .45
25. Independent Forward and Reverse Speeds . . . . . . . . . . .46
26. Independent Forward and Reverse Speeds with
a Forward-Stop-Reverse Switch . . . . . . . . . . . . . . . . . . . . .47
v
Regenerative Drives
Most non-regenerative, variable speed, DC drives control current
flow to a motor in one direction. The direction of current flow is the
same direction as the motor rotation. Non-regenerative drives
operate in Quadrant 1, and also in Quadrant 3 if the drive is
reversible (see Figure 1, page VI). Motors must stop before
reversing direction. Unless dynamic braking is used, nonregenerative drives cannot decelerate a load faster than coasting to
a lower speed.
Regenerative drives operate in two additional quadrants: Quadrant
2 and Quadrant 4. In these quadrants, motor torque is in the
opposite direction of motor rotation.
This allows regenerative drives to reverse a motor without
contactors or switches, to control an overhauling load, and to
decelerate a load faster than it would take to coast to a lower
speed.
vi
Regenerative Drives
Quadrant II
Quadrant I
Quadrant III
Quadrant IV
MOTOR
ROTATION
MOTOR
TORQUE
NOTE: ARROWS IN SAME DIRECTION = MOTOR ACTION
ARROWS IN OPPOSITE DIRECTION = REGENERATIVE ACTION
Figure 1. Four Quadrant Operation
1
Specifications
Model
Armature
Current Range
(ADC)
Armature
Horsepower
RG60U, RG60U-PCM
RG61U, RG61U-PCM
Voltage
Range
(VDC)
5.0*
1/4 - 1/2*
0 - 90
5.0**
1/4 – 1**
0 – 180
1.5
1/20 - 1/8
0 - 90
1.5
1/10 - 1/4
0 - 180
* Max. Armature Current = 10 ADC and
Max. Horsepower = 1 hp when mounted to heat sink kit part number 223-0159.
** Max. Armature Current = 10 ADC and
Max. Horsepower = 2 hp when mounted to heat sink kit part number 223-0159.
AC Line Voltage
115 VAC / 230 VAC, ±10%, 50/60 Hz, single phase
Form Factor
1.37 at base speed
Acceleration Time Range
0.5 – 6 seconds
Deceleration Time Range
0.5 – 6 seconds
Analog Input Voltage Range
(without -PCM option, signal must be isolated; S0 to S2)
Input Impedance (S0 to S2)
0 to +/- 10 VDC
30 kohms
Load Regulation
with Armature Feedback
with Tachogenerator Feedback
Vibration
1% base speed
0.1% base speed
0.5G max. (20–50 Hz)
0.1G max. (> 50 Hz)
Ambient Temperature Range
Weight
10°C – 55°C
1.1 lb
2
Dimensions
SW503
C502
MAX
SPD
2.55 [65]
IL501 IL502
IC502
IC503
TB503
A2
0.19 [5]
INHIBIT
LIMIT
FWD REV
FWD
TQ
A1
C501
ENABLE
GND
REV
TQ
Y501
L1
INVERT
ENABLE
TB502
3.70 [94]
C503
IC501
INVERT
INHIBIT
IR
COMP
IC504
JP502
C504
REV
ACC
L2
FEEDBACK
ARM-TACH
SW504
ARMATURE
90-180
FWD
ACC
DB
MIN
SPD
IL503
S0
S1
S2
S3
+15V
-15V
RB2
T1
T2
0.71 [18]
TB501
0.80 [20]
RB1
POWER
TACH
T501
HEATSINK DIMENSIONS (optional)
6.9 x 4.4 x 1.0
1.96 [50]
0.19 [5]
1.66 [42]
3.80 [97]
4.30 [109]
ALL DIMENSIONS IN INCHES [MILLIMETERS]
Figure 2. RG60U/RG61U Dimensions
Dimensions
MAX
OFFSET
TB502
L2
A1
J502
3.70 [94]
L1
IC504
GND
IC505
IC503
C503
C504
T503
J501
C501
C502
-IN
+IN
S1
S2
S3
COM
+5V
DIR
EN
INH
IC502
2.55 [65]
0.19 [5]
A2
0.80 [20]
IC501 IC506
0.71 [18]
TB501
HEATSINK DIMENSIONS (optional)
6.9 x 4.4 x 1.0
3.03 [77]
0.19 [5]
1.96 [50]
1.66 [42]
3.80 [97]
4.30 [109]
ALL DIMENSIONS IN INCHES [MILLIMETERS]
Figure 3. RG60U-PCM/RG61U-PCM Dimensions
3
4
Installation
Mounting
Warning
Do not install, rewire, or remove this control with input power
applied. Doing so may cause fire or serious injury. Make sure
you have read and understood the Safety Warnings on page i
before attempting installation.
• Drive components are sensitive to electrostatic fields. Avoid
direct contact with the circuit board. Hold drive by the chassis
only.
• Protect the drive from dirt, moisture, and accidental contact.
• Provide sufficient room for access to the terminal block and
calibration trimpots.
• Mount the drive away from heat sources. Operate the drive
within the specified ambient operating temperature range.
• Prevent loose connections by avoiding excessive vibration of the
drive.
• Mount drive with its board in either a horizontal or vertical plane.
Six 0.19 in. (5 mm) wide slots in the chassis accept #8 pan head
screws. Fasten either the large base or the narrow flange of the
chassis to the subplate.
• The chassis should be earth grounded. Use a star washer
beneath the head of at least one of the mounting screws to
penetrate the anodized chassis surface and to reach bare metal.
Installation
5
Wiring
Warning
Do not install, rewire, or remove this control with input
power applied. Failure to heed this warning may result in fire,
explosion, or serious injury.
Circuit potentials are at 115 or 230 VAC above ground. To
prevent the risk of injury or fatality, avoid direct contact with the
printed circuit board or with circuit elements.
Do not disconnect any of the motor leads from the drive unless
power is removed or the drive is disabled. Opening any one
motor lead while the drive is running may destroy the drive.
• Use 18 AWG wire for speed adjust potentiometer wiring. Use 14
AWG wire for AC line (L1, L2) and motor (A1, A2) wiring.
6
Installation
Shielding guidelines
Warning
Under no circumstances should power and logic leads be
bundled together. Induced voltage can cause unpredictable
behavior in any electronic device, including motor controls.
As a general rule, Minarik recommends shielding of all conductors.
If it is not practical to shield power conductors, Minarik
recommends shielding all logic-level leads. If shielding of all logiclevel leads is not practical, the user should twist all logic leads with
themselves to minimize induced noise.
It may be necessary to earth ground the shielded cable. If noise is
produced by devices other than the drive, ground the shield at the
drive end. If noise is generated by a device on the drive, ground
the shield at the end away from the drive. Do not ground both ends
of the shield.
If the drive continues to pick up noise after grounding the shield, it
may be necessary to add AC line filtering devices, or to mount the
drive in a less noisy environment.
Logic wires from other input devices, such as motion controllers
and PLL velocity controllers, must be separated from power lines in
the same manner as the logic I/O on this drive.
Installation
7
Heat sinking
The RG60U drive requires an additional heat sink when the
continuous armature current is above 5 ADC. Use Minarik heat sink
kit part number 223-0159. Use a thermally conductive heat sink
compound (such as Dow Corning® 340 Heat Sink compound)
between the drive chassis and the heat sink surface for optimum
heat transfer.
Line fusing
Minarik drives should be used with fuses for protection. Use fast
acting fuses rated for 250 VAC or higher. Fuse L1 only when the
line voltage is 115 VAC. Fuse both L1 and L2 when the line voltage
is 230 VAC.
Table 1 on page 8 lists the recommended line fuse sizes.
8
Installation
Table 1. Recommended Line Fuse Sizes
90 VDC Motor
Horsepower
180 VDC Motor
Horsepower
Max. DC Armature
Current (amps)
AC Line Fuse
Size (amps)
1/20
1/10
0.5
3
1/15
1/8
0.8
3
1/8
1/4
1.5
5
1/6
1/3
1.75
5
1/4
1/2
2.5
8
1/3
3/4
3.5
8
1/2
1
5.0
10
3/4
1 1/2
7.5
15
1
2
10
20
Minarik Corporation offers two fuse kits: part number 050–0069
(3–8A Fuse Kit) and 050–0073 (5–20A Fuse Kit).
Installation
Speed adjust potentiometer
Warning
Be sure that the potentiometer tabs do not make contact with
the potentiometer enclosure. Grounding the input will cause
damage to the drive.
Mount the speed adjust potentiometer through a 0.38 in. (10 mm)
hole with the hardware provided (Figure 4). Install the circular
insulating disk between the panel and the 10K ohm speed adjust
potentiometer.
Twist the speed adjust potentiometer wire to avoid picking up
unwanted electrical noise. If speed adjust potentiometer wires are
longer than 18 in. (46 cm), use shielded cable. Keep speed adjust
potentiometer wires separate from power leads (L1, L2, A1, A2).
MOUNT THROUGH A 0.38 IN. (10 MM) HOLE
CW
WIPER
W
NUT
STAR
WASHER
SPEED ADJUST
POTENTIOMETER
INSULATING DISK
PANEL
Figure 4. Speed Adjust Potentiometer
9
10
Installation
Connections
Screw terminal block
Most connections to the
RG60U drive are made to a
screw terminal block (part
number 164-0370). Using a
screwdriver, turn the terminal
block screw counterclockwise
to open the wire clamp.
Insert 18 AWG stripped wire
into the wire clamp. Turn the
terminal block screw
clockwise to clamp the wire.
Wire Clamp
Screw
Figure 5. Screw Terminal Block
Cage-clamp terminal block
Inhibit and enable
connections are made to a
cage-clamp terminal block. To
insert a wire into the terminal
block, press down on the
lever arm using a small
screwdriver. Insert 20 AWG
stripped wire into the wire
clamp in front of the terminal
block. Release the lever arm
to clamp the wire.
Lever Arm
Wire Clamp
Figure 6. Cage-Clamp
Terminal Block
Installation
11
Warning
Do not connect this equipment with power applied. Failure
to heed this directive may result in fire or serious injury.
Minarik strongly recommends the installation of a master
power switch in the voltage input line, as shown in Figure
7, page 13. The switch contacts should be rated at a minimum
of 200% of motor nameplate current and 250 volts.
Power, fuse and motor connections
Connect the power input leads, an external line fuse and a DC
motor to the drive’s printed circuit board (PCB) as shown in Figure
7, page 13.
Motor
Minarik drives supply motor voltage from A1 and A2 terminals. It is
assumed throughout this manual that, when A1 is positive with
respect to A2 , the motor will rotate clockwise (CW) while looking at
the output shaft protruding from the front of the motor. If this is
opposite of the desired rotation, simply reverse the wiring of A1 and
A2 with each other (A1 - and A2 +).
Connect a DC motor to PCB terminals A1 and A2 as shown in
Figure 7, page 13. Ensure that the motor voltage rating is
consistent with the drive’s output voltage.
12
Installation
Power input
Connect the AC line power leads to terminals L1 and L2, or to a
double-throw, single-pole master power switch (recommended).
Line fuse
Wire an external line fuse between the stop switch (if installed) and
the terminal board (Figure 7, page 13). An additional line fuse
should be installed on L2 if the input voltage is 230 VAC. Refer to
the line fuse table (Table 1 on page 8) for fuse ratings.
FUSE*
EARTH
GROUND
GND
L2
SCR503
115-230
C502
C503
T504
SCR507
230-115
SW502
C506
SCR506
AC LINE
INPUT
115 or 230 VAC
C501
MOV501
T502
SCR508
TB501
SCR504
C510
C509
T501
T505
SCR505
C507
T503
SCR501
R18
SCR502
A2
A1
Figure 7. Power and Motor Connections (Bottom Board)
FUSE
* NOTE
ADD FUSE TO L2
WITH 230 VAC
INPUT ONLY
RG60U BOTTOM BOARD
MOTOR
Installation
13
14
Installation
Speed adjust potentiometer connections
The motor can operate in one direction (unidirectional) or two
directions (bidirectional) depending on how the speed adjust
potentiometer is connected to the drive.
Connect the speed adjust potentiometer as shown in Figure 8(a),
page 15 for bidirectional operation. The motor does not operate
when the wiper is in the center position. Turning the wiper
clockwise (CW) from the center position causes the motor to rotate
in one direction, while turning the wiper counterclockwise (CCW)
causes rotation in the opposite direction.
Connect the speed adjust potentiometer as shown in Figure 8(b),
page 15 for unidirectional operation in the forward direction.
Connect the speed adjust potentiometer as shown in Figure 8(c),
page 15 for unidirectional operation in the reverse direction.
Refer to the Application Notes section for additional speed adjust
potentiometer connections.
Installation
15
T2
T1
RB1
RB2
REV
-15V
10K OHM
SPEED POT
+15V
S3
S2
S1
FWD
CW
S0
TB501
(a) Bidirectional Operation
T2
T2
T1
T1
RB1
RB1
RB2
-15V
10K OHM
SPEED POT
FWD
+15V
CW
REV
10K OHM
SPEED POT
RB2
CW
+15V
-15V
S3
S3
S2
S2
S1
S1
S0
S0
TB501
(b) Unidirectional Operation,
Forward Direction
TB501
(c) Unidirectional Operation,
Reverse Direction
Figure 8. Speed Adjust Potentiometer Connections
16
Installation
Voltage follower (isolated signal)
The drive may be wired to follow a floating (isolated)
0 to ±10VDC signal that is isolated from earth ground instead
of using a speed adjust potentiometer. Connect the signal input
to S2, and the signal common to S0 (see Figure 9).
T2
T1
RB1
RB2
-15V
+15V
S3
S2
±10 VDC SIGNAL
S1
S0
SIGNAL COMMON
TB501
Figure 9. Voltage Follower Connection
NOTE: For configuration of a non-isolated voltage or current
signal, please refer to the -PCM option (page 19).
Installation
Line voltage switches
SW501 and SW502 on the bottom board are the line voltage
switches (see Figure 10). Set the switches to 115 VAC if the line
voltage is 115 VAC, or to 230 VAC if the line voltage is
230 VAC.
SCR504
SCR508
SCR507
SCR506
SCR505
SCR501
SCR502
L2
C510
R18
SCR503
C507
C506
T502
T505
T504
A1
T503
L1
A2
C509
GND
MOV501
C502
SW501
SW502
C501
115-230
230-115
T501
Line Voltage Switches
SW501 & SW502
(115 VAC or 230 VAC)
Figure 10. Line Voltage Switches (bottom board)
17
18
Installation
Armature voltage switch
SW504 on the top board is the armature voltage selector switch.
Set SW504 to 90 if using a 90 VDC motor, or to 180 if using a 180
VDC motor. See Figure 11 for SW504 location.
Feedback selector switch
SW503 on the top board is the feedback selector switch. Set
SW503 to TACH if using a tachogenerator; otherwise, set it to ARM
for armature feedback. See Figure 11 for SW503 location.
Armature
Voltage Switch
Feedback
Selector Switch
(90 VDC or 180 VDC)
(ARM or TACH)
INVERT
C503
IC501
IC504
JP502
C504
C502
MAX
SPD
L2
SW503
FWD
ACC
REV
ACC
FEEDBACK
ARM - TACH
SW504
ARMATURE
90 - 180
Figure 11. Armature Voltage and Feedback
Selector Switch Locations (top board)
Installation
19
Voltage or Current Follower (non-isolated
signal, -PCM models)
PCM series drives can be configured to follow a grounded (nonisolated) voltage or current signal. To configure the drive to follow
a voltage or current signal, connect the signal leads to the +IN and
-IN terminals on TB501, observing proper polarity. Ensure that the
following jumper terminals are properly set:
J501 Settings
Open pins 1 & 2 for -10 to +10 VDC signal or pot input.
Jumper pins 1 & 2 for 4 to 20 mA signal input.
J502 Settings
Jumper pins 2 & 3 for -10 to +10 VDC signal or pot input.
Jumper pins 1 & 2 for 4 to 20 mA signal input.
See Figure 12, page 20 for jumper and terminal locations.
Polarity reversal switch (-PCM models)
To reverse the output voltage polarity without changing the input
polarity, connect the DIR terminal to the +5V terminal on TB501 of
the PCM board. A single-pole, single-throw switch can be used as
a polarity reversal switch. Close the switch to reverse the output
voltage polarity. Open the switch to return the output voltage back
to its original polarity. See Figure 12, page 20 for polarity reversal
switch connections.
EN
INH
IC505
S3
COM
INHIBIT
ENABLE
DIRECTION
S2
+5V
IC504
IC503
IC502
1
+IN
S1
J502
TB501
• Open pins 1 & 2
for -10 to +10 VDC
signal or pot input
S3
S2
FWD
S1
S1
S2
- IN
10K OHM
SPEED ADJUST
POTENTIOMETER
cw
TB501
UNI-DIRECTIONAL
OPERATION
10K OHM
SPEED ADJUST
POTENTIOMETER
REV
cw
TB501
BI-DIRECTIONAL
OPERATION
SPEED POTENTIOMETER
CONNECTIONS
Figure 12. RG-60U-PCM connections and jumper settings
Note: Invert inhibit terminals must not be shorted on middle board when using RG60U-PCM
Close direction switch to change directions.
Close the enable to coast the motor to a stop.
J501
• Jumper pins 1 & 2
for 4 to 20 mA
signal input
• Jumper pins 2 & 3
for -10 to +10 VDC
signal or pot input
J502
JUMPER
SETTINGS
• Jumper pins 1 & 2
for 4 to 20 mA
signal input
-10 to +10 VDC or
4 to 20 mA
SPEED ADJUST
SIGNAL INPUT
IC501 IC506
C502
T503
OFFSET
C503
C501
J501
C504
MAX
Close the inhibit to brake the motor to a stop.
SWITCH SETTINGS
DIR
TB502
-IN
20
Installation
21
Operation
Warning
Dangerous voltages exist on the drive when it is powered. BE
ALERT. High voltages can cause serious or fatal injury. For
your safety, use personal protective equipment (PPE) when
operating this drive.
Before applying power:
1. Verify that no conductive material is present on the printed
circuit board.
2. Ensure that all switches and jumpers are properly set.
22
Operation
Startup and shutdown
To start the drive:
1. Set the speed adjust potentiometer or reference voltage to zero
speed.
2. Apply AC line voltage.
3. Slowly turn the speed adjust potentiometer clockwise or
counterclockwise to rotate the motor in the forward or reverse
direction. If in a voltage follower mode, slowly increase the
voltage in either the positive or negative direction to rotate the
motor in the forward or reverse direction. Continue until the
desired speed is reached.
4. To decelerate the motor from set speed to a stop, reset the
speed adjust potentiometer to zero speed, or reference voltage
to zero. To coast the motor from set speed to a stop, remove
AC line voltage from the drive .
If the motor or drive does not perform as described, disconnect the
AC line voltage immediately. Refer to the Troubleshooting section
for further assistance.
23
Starting and Stopping Methods
Warning
Decelerating to minimum speed, regenerative braking, or
coasting to a stop is recommended for frequent starts and
stops. Do not use any of these methods for emergency
stopping. They may not stop a drive that is malfunctioning.
Removing AC line power (both L1 and L2) is the only
acceptable method for emergency stopping.
For this reason, Minarik strongly recommends installing an
emergency stop switch on both the L1 and L2 inputs (see
Figure 7, page 13).
Frequent decelerating to minimum speed or regenerative
braking produces high torque. This may cause damage to
motors, especially gearmotors that are not properly sized for
the application
Automatic restart upon power restoration
All drives automatically run to set speed when power is applied and
enabled.
24
Operation
Decelerate to a stop
The RUN/STOP switch in Figure 13 may be used to decelerate a
motor to a stop. Closing the switch between RB1 and RB2
decelerates the motor from set speed to a stop. The FWD ACC and
REV ACC trimpot settings determine the rate at which the will drive
decelerate to a stop and accelerate back to set speed. Set the switch
to the RUN position to accelerate the motor to set speed.
TB501
L2
L1
GND
T2
T1
FWD
ACC
REV
ACC
INVERT
INHIBIT
ARMATURE
90-180
INVERT
ENABLE
C503
IC501
ENABLE
TB503
FEEDBACK
ARM-TACH
S0
SW504
JP502
S1
S1
MAX
SPD
IR
COMP
LIMIT
FWD REV
IL501 IL502
Y501
POWER
S2
S2
IC504
SW503
C501
T501
S0
IL503
+15V
S3
C504
TB502
-15V
S3
REV
TQ
RB2
+15V
FWD
TQ
RB1
-15V
DB
T1
RB2
RUN
MIN
SPD
T2
TACH
TB501
RB1
STOP
INHIBIT
C502
IC502
IC503
A1
A2
Figure 13. RUN/STOP Switch
Operation
25
Regenerative brake
To regeneratively brake the motor, short the INHIBIT terminals on
TB503. Reopening the INHIBIT terminals causes the motor to
accelerate to set speed (see Figure 14, page 27 for INHIBIT
terminal locations and Figure 15, page 28 for INHIBIT settings).
Twist inhibit wires and separate them from other power-carrying
wires or sources of electrical noise. Use shielded cable if the inhibit
wires are longer than 18 in. (46 cm). If shielded cable is used,
ground only one end of the shield to earth ground. Do not ground
both ends of the shield.
Coast to a stop
To coast the motor to a stop without removing power to the drive,
short the ENABLE terminals on TB503 (see Figure 14, page 27 for
ENABLE terminal locations and Figure 16, page 29 for ENABLE
settings).
Momentarily shorting the ENABLE terminals will coast the motor to
zero speed, then accelerate back to set speed.
Completely shorting the ENABLE terminals will coast the motor to a
complete stop. Reopening the ENABLE terminals causes the
motor to accelerate to set speed.
26
Operation
Invert Inhibit and Invert Enable
INVERT modes reverse the function of the INHIBIT and ENABLE
terminals. Each drive is assembled with the INVERT INHIBIT and
INVERT ENABLE jumper settings open (jumpers on location 1 and
4 of JP502). See Figure 14, page 27 for JP502 location.
To activate the INVERT INHIBIT mode, jumper locations 1 and 2 of
JP502 (see Figure 15, page 28). In INVERT INHIBIT mode, the
motor will regeneratively brake when inhibit terminals are open. To
accelerate the motor to set speed, close the inhibit terminals.
To activate the INVERT ENABLE mode, jumper locations 3 and 4,
(see Figure 16, page 29). In INVERT ENABLE mode, the motor
will coast to a stop when the enable terminals are open. To
accelerate the motor to set speed, close the enable terminals.
Operation
27
INVERT INHIBIT & INVERT ENABLE
Jumper Settings (JP502)
SW503
C502
MAX
SPD
L2
A1
C501
IC502
IC503
TB503
Y501
IL501 IL502
A2
INHIBIT
LIMIT
FWD REV
FWD
TQ
ENABLE
GND
REV
TQ
INVERT
ENABLE
TB502
L1
C503
IC501
INVERT
INHIBIT
IR
COMP
IC504
JP502
C504
REV
ACC
FEEDBACK
ARM-TACH
SW504
ARMATURE
90-180
FWD
ACC
DB
MIN
SPD
IL503
S0
S1
S2
S3
+15V
-15V
RB2
T1
T2
TB501
RB1
POWER
TACH
T501
INHIBIT TERMINALS
ENABLE TERMINALS
Figure 14. INHIBIT / ENABLE Terminal TB503 and JP502 Locations
JP502
JP502
CLOSED
OPEN
TB503
TB503
OPEN
CLOSED
MOTOR REGENERATIVELY BRAKES
WHEN INHIBIT TERMINALS
ARE OPENED
INVERT INHIBIT MODE
MOTOR REGENERATIVELY BRAKES
WHEN INHIBIT
TERMINALS ARE CLOSED
INHIBIT MODE
DRIVE RESPONSE
Figure 15. INHIBIT Settings
NOTE: The RG60U will operate in normal running mode when all jumpers on JP502 and all terminals on TB503
are simultaneously opened. Likewise, it will operate in normal running mode when all jumpers and terminals are
simultaneously closed.
INVERT
INHIBIT
INVERT
INHIBIT
CONFIGURATION
INHIBIT SETTINGS
INHIBIT
INHIBIT
28
Operation
JP502
CLOSED
OPEN
OPEN
TB503
CLOSED
TB503
MOTOR COASTS
TO STOP WHEN
ENABLE TERMINALS
ARE MAINTAINED
OPEN
MAINTAINED CLOSED
INVERT ENABLE MODE
MOTOR COASTS
TO STOP WHEN
ENABLE TERMINALS
ARE MAINTAINED
CLOSED
MAINTAINED CLOSED
ENABLE MODE
DRIVE RESPONSE
Figure 16. ENABLE Settings
NOTE: The RG60U will operate in normal running mode when all jumpers on JP502 and all terminals on TB503
are simultaneously opened. Likewise, it will operate in normal running mode when all jumpers and terminals are
simultaneously closed.
INVERT
ENABLE
INVERT
ENABLE
ENABLE
JP502
ENABLE
CONFIGURATION
E N A B L E S E TITN G S
Operation
29
30
Calibration
Warning
Dangerous voltages exist on the drive when it is powered.
When possible, disconnect the voltage input from the drive
before adjusting the trimpots. If the trimpots must be adjusted
with power applied, use insulated tools and the appropriate
personal protection equipment. BE ALERT. High voltages can
cause serious or fatal injury.
The RG60U has nine user adjustable trimpots: FWD ACC, REV
ACC, MAX SPD, IR COMP, REV TQ, FWD TQ, DB, MIN SPD, and
TACH. Each drive is factory calibrated to its maximum current
rating. Readjust the calibration trimpot settings to accommodate
lower current rated motors.
All adjustments increase with clockwise rotation, (CW) and
decrease with counterclockwise (CCW) rotation. Use a non-metallic
screwdriver for calibration. Each trimpot is identified on the printed
circuit board. See Figure 17, page 31 for RG60U calibration
trimpot locations.
Calibration
31
FWD ACC
SW503
MAX
SPD
L2
REV TQ
GND
INVERT
ENABLE
LIMIT
FWD REV
FWD
TQ
IL501 IL502
FWD TQ
C5
TB503
REV
TQ
Y501
L1
C503
IC501
INVERT
INHIBIT
IR
COMP
TB502
IR COMP
IC504
JP502
REV
ACC
MAX SPD
C504
FWD
ACC
ENABLE
REV ACC
FEEDBACK
ARM-TACH
SW504
ARMATURE
90-180
DB
MIN
SPD
IL503
MIN SPD
TACH
Figure 17. RG60U Calibration Trimpot Locations
S0
S1
S2
S3
+15V
-15V
RB2
T1
TB501
T2
TACH
RB1
POWER
DB
T501
32
Calibration
MINIMUM SPEED (MIN SPD)
The MIN SPD trimpot setting determines the minimum speed when
the speed adjust potentiometer is turned full CCW. It is factory set
to zero speed. The minimum speed feature applies only when the
drive is operating in unidirectional mode.
To calibrate MIN SPD:
1. Set the speed adjust potentiometer to full CCW.
2. Adjust the MIN SPD trimpot until the desired minimum motor
speed is reached.
MAXIMUM SPEED (MAX SPD)
The MAX SPD trimpot setting determines the maximum
forward and reverse speed. It is factory set for maximum rated
motor speed.
To calibrate MAX SPD:
1. Set the MAX SPD trimpot full CCW.
2. Turn the speed adjust potentiometer CW so that the motor is
running at full speed.
3. Adjust the MAX SPD trimpot until the desired maximum motor
speed is reached.
Caution! Do not attempt to run motor above 90 VDC on 115 VAC
or above 180 VDC on 230 VAC.
Calibration
33
FORWARD TORQUE (FWD TQ)
Warning
Although FWD TQ can be set to 120% of motor nameplate
current rating, continuous operation beyond this rating may
damage the motor. If you intend to operate beyond this rating,
contact your Minarik representative for assistance.
The FWD TQ setting determines the maximum current limit for
accelerating and driving the motor in the forward direction. It is
factory set at 120% of maximum rated drive current.
See Figure 19 (page 39) for typical FWD TQ calibration settings or
use the following procedure to recalibrate FWD TQ:
1. With the power disconnected from the drive, connect a DC
ammeter in series with the armature.
2. Set the FWD TQ trimpot to minimum (full CCW).
3. Set the speed adjust potentiometer to maximum (full CW).
4. Carefully lock the motor armature. Be sure that the motor is
firmly mounted.
5. Apply line power. The motor should be stopped.
6. Slowly adjust the FWD TQ trimpot CW slowly until the armature
current is 120% of motor rated armature current.
7. Set the speed adjust potentiometer to minimum.
8. Remove the power from the drive.
9. Unlock the motor shaft.
10. Remove the ammeter in series with the motor armature if it is
no longer needed and re-apply power to the drive.
34
Calibration
REVERSE TORQUE (REV TQ)
Warning
Although REV TQ can be set to 120% of motor nameplate
curren rating, continuous operation beyond this rating may
damage the motor. If you intend to operate beyond this rating,
contact your Minarik representative for assistance.
The REV TQ setting determines the maximum current limit for
accelerating and driving the motor in the reverse direction. It is
factory set at 120% of maximum rated drive current.
See Figure 19 (page 39) for typical REV TQ calibration settings or
use the following procedure to recalibrate REV TQ:
1. With the power disconnected from the drive, connect a DC
ammeter in series with the armature.
2. Set the REV TQ trimpot to minimum (full CCW).
3. Set the speed adjust potentiometer to maximum (full CW).
4. Carefully lock the motor armature. Be sure that the motor is
firmly mounted.
5. Apply line power. The motor should be stopped.
6. Slowly adjust the REV TQ trimpot CW slowly until the armature
current is 120% of motor rated armature current.
7. Set the speed adjust potentiometer to minimum.
8. Remove the power from the drive.
9. Unlock the motor shaft.
10. Remove the ammeter in series with the motor armature if it is
no longer needed and re-apply power to the drive.
Calibration
35
IR COMPENSATION (IR COMP)
The IR COMP trimpot setting determines the degree to which
motor speed is held constant as the motor load changes. It is
factory set for optimum motor regulation.
See Figure 19 (page 39) for typical IR COMP calibration settings or
use the following procedure to recalibrate the IR COMP setting:
1. Set the IR COMP trimpot to minimum (full CCW).
2. Rotate the speed adjust potentiometer until the motor runs at
mid-speed without load (for example, 900 RPM for an 1800
RPM motor). A hand held tachometer may be used to measure
motor speed.
3. Load the motor armature to its full load armature current rating.
The motor should slow down.
4. While keeping the load on the motor, rotate the IR COMP
trimpot until the motor runs at the speed measured in step 2. If
the motor oscillates (overcompensation), the IR COMP trimpot
may be set too high (CW). Turn the IR COMP trimpot CCW to
stabilize the motor.
5. Unload the motor.
36
Calibration
FORWARD ACCELERATION (FWD ACC)
The FWD ACC setting determines the time the motor takes to ramp
to either a higher speed in the forward direction or a lower speed in
the reverse direction, within the limits of available torque. The
FWD ACC setting is factory set for its fastest forward acceleration
time.
Turn the FWD ACC trimpot CW to increase the forward
acceleration time, and CCW to decrease the forward acceleration
time.
REVERSE ACCELERATION (REV ACC)
The REV ACC setting determines the time the motor takes to ramp
to either a higher speed in the reverse direction or a lower speed in
the forward direction, within the limits of available torque. The REV
ACC setting is factory set for its fastest reverse acceleration time.
Turn the REV ACC trimpot CW to increase the reverse acceleration
time, and CCW to decrease the reverse acceleration time.
Calibration
37
DEADBAND (DB)
The deadband trimmer potentiometer determines the time that will
elapse between the application of current in one direction before
current is applied in the opposite direction.
The deadband trimmer potentiometer affects the resistance that a
motor has to changes in shaft position at zero speed. It does this
by applying AC voltage to the motor armature.
Deadband is factory calibrated with the notch at approximately the
3 o’clock position for 60 Hz AC line operation. Recalibrate the
deadband with the notch at the 9 o’clock position for 50 Hz AC line
operation. If you hear motor noise (humming), the deadband might
be set too high. Turn the deadband trimpot CCW until the motor
noise ceases.
60 Hz
Applications
50 Hz
Applications
DB
Notch
Figure 18. Deadband Settings
DB
38
Calibration
TACH GENERATOR (TACH)
Calibrate the TACH setting only when a tachogenerator is used.
The TACH setting, like the IR COMP setting, determines the
degree to which motor speed is held constant as the motor load
changes.
To calibrate the TACH trimpot:
1. Connect the tachogenerator to T1 and T2. The polarity is
positive (+) for T1 and negative (-) for T2 with the motor running
in forward direction.
2. Set SW503 to ARM for armature feedback.
3. Set the speed adjust potentiometer full CW. Measure the
armature voltage across A1 and A2 using a voltmeter.
4. Set the speed adjust potentiometer to 0 (zero speed).
5. Set SW503 to TACH for tachogenerator feedback.
6. Set the IR COMP trimpot to full CCW.
7. Set the TACH trimpot to full CW.
8. Apply line power.
9. Set the speed adjust potentiometer to full CW.
10. Adjust the TACH trimpot until the armature voltage is the same
value as the voltage measured in step 3.
Check that the tachogenerator is properly calibrated. The motor
should run at the same speed when SW503 is set to either
armature or tachogenerator feedback.
Calibration
1 HP
90 VDC
10 ADC
FWD TQ
REV TQ
IR COMP
2 HP
180 VDC
9.2 ADC
FWD TQ
REV TQ
IR COMP
3/4 HP
90 VDC
7.6 ADC
FWD TQ
REV TQ
IR COMP
1 HP
180 VDC
5 ADC
FWD TQ
REV TQ
IR COMP
1/2 HP
90 VDC
5 ADC
FWD TQ
REV TQ
IR COMP
3/4 HP
180 VDC
3.8 ADC
FWD TQ
REV TQ
IR COMP
1/4 HP
90 VDC
2.7 ADC
FWD TQ
REV TQ
IR COMP
39
1/2 HP
180 VDC
2.5 ADC
FWD TQ
REV TQ
IR COMP
Figure 19. Typical FWD TQ, REV TQ, and IR COMP Trimpot Settings
40
Calibration
MAX (-PCM isolation card)
Determines the motor speed when the speed adjust potentiometer
is turned to full CW, or voltage signal is set to maximum. It is
factory set for maximum rated speed.
To calibrate, set the MAX trimpot to full CCW, or voltage signal to
maximum. Turn the main speed adjust potentiometer to full CW.
Adjust the MAX trimpot until the desired maximum motor speed is
reached. See Figure 20 for MAX trimpot location.
MAX & OFFSET
TRIMPOTS ON
PCM BOARD
MAX
OFFSET
TB502
J502
IC504
1
IC505
IC503
C503
C504
IC502
T503
-IN
+IN
S1
S2
S3
COM
+5V
DIR
EN
INH
J501
C501
C502
IC501 IC506
TB501
Figure 20. PCM Calibration Trimpot Locations
Calibration
41
OFFSET (-PCM isolation card)
Warning
This trimpot is set at the factory and should not need
adjustment. Do not adjust this trimpot unless you are
experiencing drift problems.
Contact your Minarik
representative before attempting adjustment.
The RG60U-PCM has a factory-set offset to guarantee stability in a
stopped motor. To calibrate the OFFSET trimpot:
1. Ensure that the input power is turned OFF.
2. Set the input signal to zero.
3. Set the OFFSET trimpot to the approximate midrange or 50%.
Note: This is a 10-turn potentiometer. After setting the trimpot
to zero full CCW, make 5 full rotations to reach midrange, or 50%.
4. Apply power and observe the motor.
5. If the motor shaft drifts, or slowly rotates with no signal applied,
adjust the OFFSET trimpot until the motor shaft stops. The
direction and amount of trimpot adjustment depends on the
direction of the shaft rotation and connection of the motor leads.
See Figure 20 on page 40 for OFFSET trimpot location.
42
Application Notes
Connections to Minarik DLC600
MODEL DLC600
INPUT 115/230 VAC, 50/60 HZ, 50 mA
MINARIK CORPORATION - GLENDALE, CA 91201
www.minarikcorp.com
G L1
L2
S1 S2 FIN
+
IN
INH
C
INHIBIT SWITCH
OPEN to RUN
CLOSE to INHIBIT
SIGNAL
AC VOLTAGE
COMMON
EARTH
GROUND
+5 VDC OR +12 VDC
115 VAC
or
230 VAC
MAGNETIC PICKUP
(NON-POLARIZED)
OPTICAL
ENCODER
TB501 ON RG60U
T2
T1
RB1 RB2 -15V +15V S3
S2
S1
S0
NOTE: ONLY ONE FEEDBACK DEVICE
(MAGNETIC PICKUP OR OPTICAL ENCODER)
MAY BE USED AT A TIME.
Figure 21. RG60U Connections to DLC600
Application Notes
43
FWD-REV switch
Use a single-pole, two-position switch with a single speed adjust
potentiometer to plug reverse the motor (Figure 22).
POWER
S2
IL503
+15V
S3
LIMIT
FWD REV
TB502
-15V
CW
REV
TQ
IL501 IL502
RB2
FWD
TQ
RB1
L1
GND
T1
REV
DB
MIN
SPD
T2
TACH
TB501
Y501
S1
S0
T501
10K OHM
SPEED ADJUST
POTENTIOMETER
ENABLE TB503
INHIBIT
IC5
Figure 22. Forward-Reverse Switch
44
Application Notes
FWD-STOP-REV switch
Use a single-pole, three-position switch with a single speed adjust
potentiometer to stop a motor between reversal (Figure 23). Set the
switch to the center position to decelerate the motor to a stop.
S2
POWER
S3
LIMIT
FWD REV
+15V
IL503
CW
TB502
-15V
FWD
REV
TQ
IL501 IL502
RB2
STOP
TQ
RB1
L1
GND
T1
REV
DB
MIN
SPD
T2
TACH
TB501
Y501
S1
S0
T501
10K OHM
SPEED ADJUST
POTENTIOMETER
ENABLE TB5
INHIBIT
IC5
Figure 23. Forward-Stop-Reverse Switch
Application Notes
45
Independent Adjustable Speeds
Connect two speed adjust potentiometers with a single-pole, two
position switch to select between two independent speeds shown
in the forward direction (Figure 24). The speed adjust
potentiometers can be mounted at two separate operating stations.
Total parallel resistance must equal 10 kohms.
T1
RB1
RB2
-15V
+15V
CW
S2
POWER
S3
SPEED 2
IL503
CW
S1
SPEED 1
S0
P2
20K OHM
P1
20K OHM
T50
Figure 24. Independent Adjustable Speeds (Forward Direction)
DB
MIN
SPD
T2
TACH
TB501
46
Application Notes
Independent forward and reverse speeds
Connect two speed adjust potentiometers as shown in Figure 25 to
select between independent forward and reverse speeds.
T1
RB1
RB2
-15V
+15V
CW
S2
POWER
S3
FWD
S1
REV
S0
FWD
10K OHM
REV
10K OHM
T50
Figure 25. Independent Forward and Reverse Speeds
IL503
CW
DB
MIN
SPD
T2
TACH
TB501
Application Notes
47
Independent forward and reverse speeds
with FWD-STOP-REV switch
Use a single-pole, three-position switch to stop the motor when the
switch is in the center position (Figure 26).
MIN
SPD
T2
TACH
TB501
T1
RB1
RB2
-15V
+15V
CW
S2
STOP
POWER
S3
FWD
S1
REV
S0
FWD
10K OHM
REV
10K OHM
T501
Figure 26. Independent Forward and Reverse Speeds with a
Forward-Stop-Reverse Switch
IL503
CW
48
Troubleshooting
Warning
Dangerous voltages exist on the drive when it is powered.
When possible, disconnect the drive while troubleshooting.
High voltages can cause serious or fatal injury.
Before applying power
Check the following steps before proceeding:
1. The AC line voltage must be connected to the proper terminals.
2. Check that the voltage switches and jumpers are set correctly.
3. The motor must be rated for the drive’s rated armature voltage
and current.
4. Check that all terminal block connections are correct.
For additional assistance, contact your local Minarik distributor, or
the factory direct:
1-800-MINARIK (646-2745) or Fax: 1-800-394-6334
Troubleshooting
49
Problem
Possible
Causes
Suggested
Solutions
Line fuse blows.
1. Line fuse is the
wrong size.
1. Check that the line
fuse is correct for the
motor size.
2. Motor cable or
armature is shorted
to ground.
2. Check motor cable
and armature for
shorts.
3. Nuisance tripping
caused by a
combination of
ambient conditions
and high-current
spikes (i.e.
reversing).
3. Add a blower to cool
the drive
components;
decrease FWD TQ
and REV TQ
settings, or resize
motor and drive for
actual load demand,
or check for
incorrectly aligned
mechanical
components or
“jams”.
50
Troubleshooting
Problem
Possible
Causes
Suggested
Solutions
Line fuse does not blow,
but the motor does not
run.
1. Speed adjust
potentiometer or
speed reference
voltage is set to zero
speed.
1. Increase the speed
adjust potentiometer
setting or speed
reference voltage.
2. Speed adjust
potentiometer or
speed reference
voltage is not
connected to drive
input properly;
connections are
open.
2. Check connections to
input. Verify that
connections are not
open.
3. INHIBIT terminals are
shorted.
3. Remove the short
from the INHIBIT
terminals.
4. S2 is shorted to S0.
4. Remove short.
5. Drive is in current
limit.
5. Verify that motor is
not jammed.
Increase FWD TQ or
REV TQ setting if
they are set too low.
6. Drive is not receiving
AC line voltage.
6. Apply AC line voltage
to L1 and L2.
7. Motor is not
connected.
7. Connect motor to A1
and A2.
Troubleshooting
51
Problem
Possible
Causes
Suggested
Solutions
Motor runs too fast.
MAX SPD not
calibrated.
Calibrate MAX SPD.
Motor will not reach the
desired speed.
1. MAX SPD setting is
too low.
1. Increase MAX SPD
setting.
2. IR COMP setting is
too low.
2. Increase IR COMP
setting.
3. Motor is overloaded.
3. Check motor load.
Resize the motor if
necessary.
4. Drive is in current
limit.
4. Verify torque
settings.
1. IR COMP is set too
high.
1. Adjust the IR COMP
setting slightly CCW
until the motor speed
stabilizes.
2. Motor bouncing in
and out of current
limit.
2. Make sure motor is
not undersized for
load; adjust FWD TQ
and REV TQ trimpot
CW.
Motor pulsates or
surges under load.
52
Troubleshooting
Replacement Parts
Replacement parts are available form Minarik Corporation and
its distributors for this drive series.
Table 2. Replacement Parts
Model No.
RG60U, RG61U
Fuse Kits
Symbol
SCR501–508
T501
Description
Minarik P/N
800 V, 25 A SCR
DST-336 Transformer
10K Ohm Potentiometer Kit
2-Pin Jumper
072–0067
230-0104
202–0104
164-0292
3–8A Fuse Kit
5–20A Fuse Kit
050–0069
050–0073
53
NOTES
54
NOTES
Unconditional Warranty
A. Warranty
Minarik Corporation (referred to as "the Corporation") warrants that its products will be
free from defects in workmanship and material for twelve (12) months or 3,000 hours,
whichever comes first, from date of manufacture thereof. Within this warranty period,
the Corporation will repair or replace, at its sole discretion, such products that are
returned to Minarik Corporation, 901 East Thompson Avenue, Glendale, CA 912012011 USA.
This warranty applies only to standard catalog products, and does not apply to
specials. Any returns for special controls will be evaluated on a case-by-case basis.
The Corporation is not responsible for removal, installation, or any other incidental
expenses incurred in shipping the product to and from the repair point.
B. Disclaimer
The provisions of Paragraph A are the Corporation's sole obligation and exclude all
other warranties of merchantability for use, express or implied. The Corporation further
disclaims any responsibility whatsoever to the customer or to any other person for
injury to the person or damage or loss of property of value caused by any product that
has been subject to misuse, negligence, or accident, or misapplied or modified by
unauthorized persons or improperly installed.
C. Limitations of Liability
In the event of any claim for breach of any of the Corporation's obligations, whether
express or implied, and particularly of any other claim or breech of warranty contained
in Paragraph A, or of any other warranties, express or implied, or claim of liability that
might, despite Paragraph B, be decided against the Corporation by lawful authority, the
Corporation shall under no circumstances be liable for any consequential damages,
losses, or expense arising in connection with the use of, or inability to use, the
Corporation's product for any purpose whatsoever.
An adjustment made under warranty does not void the warranty, nor does it imply an
extension of the original 12-month warranty period. Products serviced and/or parts
replaced on a no-charge basis during the warranty period carry the unexpired portion
of the original warranty only.
If for any reason any of the foregoing provisions shall be ineffective, the Corporation's
liability for damages arising out of its manufacture or sale of equipment, or use thereof,
whether such liability is based on warranty, contract, negligence, strict liability in tort, or
otherwise, shall not in any event exceed the full purchase price of such equipment.
Any action against the Corporation based upon any liability or obligation arising
hereunder or under any law applicable to the sale of equipment or the use thereof,
must be commenced within one year after the cause of such action arises.
14300 De La Tour Drive, South Beloit, IL 61080
Phone: 1-800-MINARIK (646-2745)
Fax: (815) 624-6960
www.minarikdrives.com
Document Number 250-0324, Rev. 4
Printed in the U.S.A – 08/05
Was this manual useful for you? yes no
Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Download PDF

advertisement