Intelligent Motion Systems MDriveAC Step Clock, Direction, Quadrature, Up/Down, Input Timing

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Step/Direction Function
Step Clock
Direction
Quadrature Function
Channel A
Channel B
Up/Down Function
CW
CCW
Figure 2.1.2: Input Clock Functions

Isolated Logic Input Characteristics

Enable Input

This input can be used to enable or disable the driver output circuitry. Leaving the enable switch open (Logic HIGH, Disconnected) for sinking or sourcing configuration, the driver outputs will be enabled and the step clock pulses will cause the motor to advance. When this input switch is closed (Logic LOW) in both sinking and sourc- ing configurations, the driver output circuitry will be disabled. Please note that the internal sine/cosine position generator will continue to increment or decrement as long as step clock pluses are being received by the MDriveAC Plus Microstepping.

Clock Inputs

The MDriveAC Plus Microstepping features the ability to configure the clock inputs based upon how the user will desire to control the drive. By default the unit is configured for the Step/Direction function.

Step Clock

The step clock input is where the motion clock from your control circuitry will be connected. The motor will advance one microstep in the plus or minus direction (based upon the state of the direction input) on the rising edge of each clock pulse. The size of this increment or decrement will depend on the microstep resolution setting.

Direction

The direction input controls the CW/CCW direction of the motor. The input may be configured as sinking or sourcing based upon the state of the Optocoupler Refer- ence. The CW/CCW rotation, based upon the state of the input may be set using the IMS Motor Interface software included with the MDriveAC Plus Microstepping.

Quadrature

The Quadrature clock function would typically be used for following applications where the MDriveAC Plus Microstepping would be slaved to an MDriveAC Plus MicroDrive Motion Control (or other controller) in an electronic gearing application.

Up/Down

The Up/Down clock would typically be used in a dual- clock direction control application.

Input Timing

The direction input and the microstep resolution inputs are internally synchronized to the positive going edge of the step clock input. When a step clock pulse goes HIGH, the state of the direction input and microstep resolution settings are latched. Any changes made to the direction and/or microstep resolution will occur on the rising edge of the step clock pulse following this change. Run and Hold

Current changes are updated immediately. The following figure and table list the timing specifications.

Input Filtering

The clock inputs may also be filtered using the Clock IOF pull down of the IMS SPI Motor Interface. The filter range is from 50 nS (10 MHz) to 12.9 µSec. (38.8 kHz).

The configuration parameters for the input filtering is covered in detail in Section 2.4: Configuring the MDriveAC Plus Microstepping.

2-4

MDriveAC Plus Microstepping Hardware - Revision R121707

 

Relevant to Firmware Version 3.0.02

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Contents 34 TM UL Application Details and Conditions of Acceptance Low Voltage Installation InformationTable Of Contents Appendices List Of Figures List of Tables Before You Begin Connecting AC PowerConnect Opto Power and Logic Inputs MDriveAC Plus MicrosteppingInstall the IMS SPI Motor Interface Connecting Parameter Setup CablePart Hardware Specifications Intentionally Left Blank Features and Benefits ConfiguringIntroduction to the MDrive34AC Plus Microstepping Page General Specifications MDrive34AC Plus Microstepping Detailed SpecificationsSingle Length Setup ParametersDimensions in Inches mm Mechanical SpecificationsPin Assignment and Description P1 19-Pin M23 Connector I/O and SPI CommunicationsPin Assignment P1 I/O, SPI and Encoder Connections P3 Connector AC Power Options and AccessoriesPin Introduction to the MDrive42AC Plus Microstepping Page MDrive42AC Plus Microstepping Detailed Specifications Setup Parameters 76.2 Pin Assignment and Description Pin Assignment P1 I/O, SPI and Encoder Connections Outside Pins 1 Options and Accessories Part Interfacing Configuring Intentionally Left Blank Logic Interface and Connection Isolated Logic Input Pins and ConnectionsOptically Isolated Logic Inputs Up/Down Step ClockDirection QuadratureChannel B DirectionStep Channel aOptocoupler Reference Optocoupler ReferenceOpen Collector Interface Example Input Connection ExamplesSwitch Interface Example Fault Temperature Warning OutputSwitch Minimum Required Connections 7 Fault Output interfaced to an LEDConnecting SPI Communications SPI Master with Multiple MDriveAC Plus Microstepping SPI Pins and ConnectionsSPI Clock Configuration Parameters and Ranges Using the IMS SPI Motor Interface InstallationColor Coded Parameter Values View Motion Settings Screen Read-Only Part Serial Number ScreenIMS SPI Motor Interface Menu Options FileRecall UpgradeHelp Msel Microstep Resolution Selection Screen 1 The Motion Settings Configuration ScreenExit Connected/Disconnected IndicatorFactory SetInput Clock Filter Screen 2 I/O Settings Configuration ScreenEnable Active High/Low Input Clock TypeIMS Part Number/Serial Number Screen Fault IndicationIMS IMS Serial Number Upgrade Instructions IMS SPI Upgrader ScreenUpgrading the Firmware in the MDriveAC Plus Microstepping Port Menu Initialization ScreenSPI Timing Notes Using User-Defined SPICheck Sum Calculation for SPI MSB SPI Commands and ParametersSPI Communications Sequence WriteIntentionally Left Blank Appendices MDriveAC Plus Microstepping Hardware Revision R121707 Single Length MDriveAC Plus Microstepping Motor PerformanceMDrive34AC 120VAC MDrive34AC 240VACMDrive42AC 120VAC Double LengthTriple Length MDrive42AC Plus MicrosteppingOz-in/810 N-cm Selecting a Planetary Gearbox MDrive with Planetary GearboxSection Overview Product OverviewFactors Calculating the Shock Load Output Torque TABReduction Ratio Speed in Full Steps per Second Nominal Output Torque=1.6 =1.7 =1.9 Shock Load Output TorqueType of System System InertiaLead Screw Rack and Pinion Conveyor BeltBelt Drive Rotary TableFigure B.6 Chain Drive System Inertia Considerations Chain DriveMDrive34AC Plus2 Planetary Gearbox Parameters Planetary Gearbox for MDrive34AC Plus2PM81 Gearbox Ratios and Part Numbers MDrive42AC Plus2 Planetary Gearbox Parameters PM105 Planetary Gearbox for MDrive42AC Plus2PM105 Gearbox Ratios and Part Numbers PM120 Gearbox Ratios and Part Numbers MDrive42AC Plus2 Planetary Gearbox Parameters PM120Optional Cables and Cordsets MD-CC300-000 USB to SPI Parameter Setup CableInstallation Procedure for the MX-CC300-000 Installing the Cable/VCP DriversFigure C.4 Hardware Update Wizard Screen Determining the Virtual COM Port VCP Figure C.7 Hardware Update Wizard Finish InstallationTo Controller Interface AdapterMD-CS10x-000 Cordset Pin Assignment and Wire ColorsMD-CS201-000 MD-CS20x-000 CordsetInterfacing the Internal Differential Optical Encoder Pin ConfigurationFactory Mounted Encoder Differential Encoder Encoder SignalsSpeed-Force Limitations† FeaturesLinear Slide Option MDrive34Plus Linear SlideMechanical Specifications SpecificationsWarranty Excellence in Motion
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