Introduction:
The Phoenix Contact Optima MD/100 module provides a convenient field termination for motion control signals that are interfaced to a Galil motion control card, such as the DMC 1700 and DMC 1800 series. Galil controller signals are broken out to individual screw terminals, with connections for stepper motors or servo motors and encoders. Terminals are also provided for limit switches, discrete (digital) I/O and analog inputs to the Galil card.
Each module accommodates up to 4 motion axes. A second module and a cable adapter kit are required for systems with 5 to 8 axes of motion.
When to use the Optima MD/100
Use the... | When... |
Optima MD/100 |
- an enclosure is available. (e.g. controls cabinet or other housing).
- compact footprint is required. Optima requires 8.5 in X 4 in (22 cm X 11 cm)
- DIN Rail mounting is required. (MD/100 also includes hardware for mounting to a panel)
- you require field configurable amp-enable logic
|
ICM 1900 |
- a stand-alone, enclosed module is required.
- a large mounting area is available. ICM 1900 requires 13.5 in X 7 in (35 cm X 18 cm)
|
ICM 2900 |
- you need a compact through-hole panel mounted module,
- you require piggy-back mounting to a stand-alone drive
- you need to plug and unplug motors from the interconnect module.
- A small footprint is required. ICM 2900 requires 12.25 in. X 2.5 in (32 cm X 7 cm)
|
Installation:
The Optima MD/100 has tabs for snap-on mounting to standard 35 mm DIN-Rail. It can also be screwed down to a panel by removing the DIN rail clips and installing mounting ears. (The alternative mounting hardware is included.)
The module may be mounted either vertically or horizontally.
Appropriate mechanical support and strain relief must be provided both for the Galil interconnect cable, and for the field wiring.
The terminal names on the Optima differ slightly from those on the Galil ICM1900 and ICM2900. See the table below for a functional description of each of the Optima MD/100 terminal names.
Amp Enable Configuration:
The Optima MD/100 module has field configurable options for the amplifier enable control logic. All of the necessary hardware ships with the unit.
Amp Enable requires... | Use... |
Active High | IC 7407 in socket U2 (standard configuration) |
Active Low | IC 7406 in socket U2 (use alternate chip - provided) |
5 Volt pull-up | resistor pack RP1 with pin 1 at the 5V mark |
12 Volt pull-up | resistor pack RP1 with pin 1 at the 12V mark |
No Pull-up | remove resistor pack from the RP1 socket
(Amp Enable output signal is an open collector) |
other voltages | remove resistor pack from the RP1 socket
The open collector Amp Enable output signal may be pulled up externally to a maximum rail voltage of +24 V. |
Note:
IC Chips are static sensitive devices! Be certain to use appropriate grounding and ESD prevention procedures when handling these chips.
Standard configuration for ICM 1900/2900 is Active High. Galil does not provide the optional 7406 (Active Low) chip with the unit.
Additional Information:
See the
Galil website for additional information and related support documentation.
See the Phoenix Contact website for product information:
Wiring Table:
Lower Tier: Stepper Signals, X Encoders | Middle Tier: Y,Z,W Encoders, Analog Inputs | Upper Tier: Limit Switches, I/O |
Terminal | Description | Terminal | Description | Terminal | Description |
GND | Signal Ground | 5 V | +5 Volts DC | NC | |
GND | Signal Ground | GND | Signal Ground | GND | Signal Ground |
5 V | +5 Volts DC | A+ Y | Y Axis main encoder A+ | +12 | +12 Volts DC |
ERR | Error output | A- Y | Y Axis main encoder A- | 5 V | +5 Volts DC |
RST | Reset Input | B+ Y | Y Axis main encoder B+ | LSC | Limit Switch Common |
CMP | Circular Compare output | B- Y | Y Axis main encoder B- | HMW | Home limit switch Axis W |
GND | Signal Ground | I+ Y | Y Axis main encoder Index+ | RLW | Reverse limit switch Axis W |
GND | Signal Ground | I- Y | Y Axis main encoder Index- | FLW | Forward limit switch Axis W |
MCW | Motor Command Axis W | 5 V | +5 Volts DC | HMZ | Home limit switch Axis Z |
MCZ | Motor Command Axis Z | GND | Signal Ground | RLZ | Reverse limit switch Axis Z |
MCY | Motor Command Axis Y | A+ Z | Z Axis main encoder A+ | FLZ | Forward limit switch Axis Z |
MCX | Motor Command Axis X | A- Z | Z Axis main encoder A- | HMY | Home limit switch Axis Y |
SGW | Sign output Axis W | B+ Z | Z Axis main encoder B+ | RLY | Reverse limit switch Axis Y |
PMW | Pulse output Axis W | B- Z | Z Axis main encoder B- | FLY | Forward limit switch Axis Y |
SGZ | Sign output Axis Z | I+ Z | Z Axis main encoder Index+ | HMX | Home limit switch Axis X |
PMZ | Pulse output Axis Z | I- Z | Z Axis main encoder Index- | RLX | Reverse limit switch Axis X |
SGY | Sign output Axis Y | 5 V | +5 Volts DC | FLX | Forward limit switch Axis X |
PMY | Pulse output Axis Y | GND | Signal Ground | GND | Signal Ground |
SGX | Sign output Axis X | A+ W | W Axis main encoder A+ | +12 | +12 Volts DC |
PMX | Pulse output Axis X | A- W | W Axis main encoder A- | 5 V | +5 Volts DC |
AEW | Amp Enable Axis W | B+ W | W Axis main encoder B+ | INC | Input Common |
AEZ | Amp Enable Axis Z | B- W | W Axis main encoder B- | IN1 | Input 1 |
AEY | Amp Enable Axis Y | I+ W | W Axis main encoder Index+ | IN2 | Input 2 |
AEX | Amp Enable Axis X | I- W | W Axis main encoder Index- | IN3 | Input 3 |
5 V | +5 Volts DC | 5 V | +5 Volts DC | IN4 | Input 4 |
GND | Signal Ground | GND | Signal Ground | IN5 | Input 5 |
A+ X | X Axis main encoder A+ | GND | Signal Ground | IN6 | Input 6 |
A- X | X Axis main encoder A- | GND | Signal Ground | IN7 | Input 7 |
B+ X | X Axis main encoder B+ | ANG | Analog Inputs Ground Common | IN8 | Input 8 |
B- X | X Axis main encoder B- | AN1 | Analog Input #1 | ABT | Abort Input |
I+ X | X Axis main encoder Index+ | AN2 | Analog Input #2 | OP1 | General output 1 |
I- X | X Axis main encoder Index- | AN3 | Analog Input #3 | OP2 | General output 2 |
+12 | +12 Volts DC | AN4 | Analog Input #4 | OP3 | General output 3 |
+12 | +12 Volts DC | AN5 | Analog Input #5 | OP4 | General output 4 |
-12 | -12 Volts DC | AN6 | Analog Input #6 | OP5 | General output 5 |
-12 | -12 Volts DC | AN7 | Analog Input #7 | OP6 | General output 6 |
GND | Signal Ground | AN8 | Analog Input #8 | OP7 | General output 7 |
GND | Signal Ground | GND | Signal Ground | OP8 | General output 8 |