Galil DMC-1700 Manual De Usuario
DMC-1700/1800
Chapter 2 Getting Started • 25
Step 7. Make Connections to Amplifier and Encoder.
Once you have established communications between the software and the DMC-1700/1800, you are ready to
connect the rest of the motion control system. The motion control system typically consists of an ICM-1900
Interface Module, an amplifier for each axis of motion, and a motor to transform the current from the amplifier into
torque for motion. Galil also offers the AMP-19X0 series Interface Modules which are ICM-1900’s equipped with
servo amplifiers for brush type DC motors.
connect the rest of the motion control system. The motion control system typically consists of an ICM-1900
Interface Module, an amplifier for each axis of motion, and a motor to transform the current from the amplifier into
torque for motion. Galil also offers the AMP-19X0 series Interface Modules which are ICM-1900’s equipped with
servo amplifiers for brush type DC motors.
If you are using an ICM-1900, connect the 100-pin ribbon cable to the DMC-1700/1800 and to the connector located
on the AMP-19x0 or ICM-1900 board. The ICM-1900 provides screw terminals for access to the connections
described in the following discussion.
on the AMP-19x0 or ICM-1900 board. The ICM-1900 provides screw terminals for access to the connections
described in the following discussion.
1X80
Motion Controllers with more than 4 axes require a second ICM-1900 or AMP-19x0 and second 100-
pin cable.
pin cable.
System connection procedures will depend on system components and motor types. Any combination of motor
types can be used with the DMC-1700/1800. If sinusoidal commutation is to be used, special attention must be paid
to the reconfiguration of axes.
types can be used with the DMC-1700/1800. If sinusoidal commutation is to be used, special attention must be paid
to the reconfiguration of axes.
Here are the first steps for connecting a motion control system:
Step A. Connect the motor to the amplifier with no connection to the controller. Consult the
amplifier documentation for instructions regarding proper connections. Connect and
turn-on the amplifier power supply. If the amplifiers are operating properly, the motor
should stand still even when the amplifiers are powered up.
turn-on the amplifier power supply. If the amplifiers are operating properly, the motor
should stand still even when the amplifiers are powered up.
Step B. Connect the amplifier enable signal.
Before making any connections from the amplifier to the controller, you need to verify that
the ground level of the amplifier is either floating or at the same potential as earth.
WARNING: When the amplifier ground is not isolated from the power line or when it has a different potential
than that of the computer ground, serious damage may result to the computer controller and amplifier.
than that of the computer ground, serious damage may result to the computer controller and amplifier.
If you are not sure about the potential of the ground levels, connect the two ground signals
(amplifier ground and earth) by a 10 K
Ω resistor and measure the voltage across the
resistor. Only if the voltage is zero, connect the two ground signals directly.
The amplifier enable signal is used by the controller to disable the motor. This signal is
labeled AMPENX for the X axis on the ICM-1900 and should be connected to the enable
signal on the amplifier. Note that many amplifiers designate this signal as the INHIBIT
signal. Use the command, MO, to disable the motor amplifiers - check to insure that the
motor amplifiers have been disabled (often this is indicated by an LED on the amplifier).
signal on the amplifier. Note that many amplifiers designate this signal as the INHIBIT
signal. Use the command, MO, to disable the motor amplifiers - check to insure that the
motor amplifiers have been disabled (often this is indicated by an LED on the amplifier).
This signal changes under the following conditions: the watchdog timer activates, the motor-
off command, MO, is given, or the OE1 command (Enable Off-On-Error) is given and
the position error exceeds the error limit. AEN can be used to disable the amplifier for
these conditions.
the position error exceeds the error limit. AEN can be used to disable the amplifier for
these conditions.
The standard configuration of the AEN signal is TTL active high. In other words, the
AEN signal will be high when the controller expects the amplifier to be enabled. The
polarity and the amplitude can be changed if you are using the ICM-1900 interface board.
To change the polarity from active high (5 volts = enable, zero volts = disable) to active
low (zero volts = enable, 5 volts = disable), replace the 7407 IC with a 7406. Note that
many amplifiers designate the enable input as ‘inhibit’.
AEN signal will be high when the controller expects the amplifier to be enabled. The
polarity and the amplitude can be changed if you are using the ICM-1900 interface board.
To change the polarity from active high (5 volts = enable, zero volts = disable) to active
low (zero volts = enable, 5 volts = disable), replace the 7407 IC with a 7406. Note that
many amplifiers designate the enable input as ‘inhibit’.
To change the voltage level of the AEN signal, note the state of the resistor pack on the
ICM-1900. When Pin 1 is on the 5V mark, the output voltage is 0-5V. To change to 12
volts, pull the resistor pack and rotate it so that Pin 1 is on the 12 volt side. If you
remove the resistor pack, the output signal is an open collector, allowing the user to
connect an external supply with voltages up to 24V.
ICM-1900. When Pin 1 is on the 5V mark, the output voltage is 0-5V. To change to 12
volts, pull the resistor pack and rotate it so that Pin 1 is on the 12 volt side. If you
remove the resistor pack, the output signal is an open collector, allowing the user to
connect an external supply with voltages up to 24V.
Step C. Connect the encoders