Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive manuel d'utilisation
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Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.
Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.
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Tout d'abord, le manuel d’utilisation Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive devrait contenir:
- informations sur les caractéristiques techniques du dispositif Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive
- nom du fabricant et année de fabrication Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive
- instructions d'utilisation, de réglage et d’entretien de l'équipement Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes
Pourquoi nous ne lisons pas les manuels d’utilisation?
Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Intelligent Motion Systems en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive, comme c’est le cas pour la version papier.
Pourquoi lire le manuel d’utilisation?
Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.
Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Intelligent Motion Systems MForce PowerDrive Plus MForce Series Microstepping PowerDrive. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.
Table des matières du manuel d’utilisation
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Page 1
Operating Instructions TM Excellence in Motion TM FORCE POWER DRIVE MICROSTEPPING[...]
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The information in this book has been carefully checked and is believed to be accurate; however , no responsibility is assumed for inaccuracies. Intelligent Motion Systems, Inc., reserves the right to make changes without further notice to any products herein to improve reliability , function or design. Intelligent Motion Systems, Inc., does not as[...]
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i T able Of Contents Getting S tarted: Microstepping MF orce P owerDrive ................................................................. 1-1 Before Y ou Begin ....................................................................................................................... 1-1 T ools and Equipment Requir ed ..................................[...]
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ii Enable Input .....................................................................................................................19 Clock Inputs .....................................................................................................................20 Optocoupler Refer ence ..........................................................[...]
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iii List of Figures F igure GS.1: Minimum Logic and P ower Connections ............................................................. 1-1 Part 1: Hardware Refer ence F igure 1.1.1: Micr ostepping MF orce P owerDrive ...................................................................... 1-5 F igure 1.2.1: MF orce P owerDriv e Mechanical S pecificatio[...]
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iv List of T ables Part 1: Hardware Refer ence T able 1.2.1: Electrical S pecifications .......................................................................................... 1-7 T able 1.2.2: Thermal S pecifications ........................................................................................... 1-7 T able 1.2.3: I/O Specifications [...]
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1-1 P art 1: Hardwar e Specifications Note: A characteristic of all motors is back EMF . Back EMF is a source of current that can push the output of a power supply beyond the maximum operating voltage of the driver . As a result, damage to the stepper driver could occur over a period of time. Care should be taken so that the back EMF does not exce[...]
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1-2 Microstepping MF orce P owerD rive Manual R evision R040507 Connect Opto Reference and Logic Inputs U sing 22 A WG wire, connect the Opto R eference to the desired refer ence point. The refer ence will determine whether or not the logic input is sinking or sourcing. If Sinking I nputs are desired, connect the O pto reference to a +5 to +24 VDC [...]
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1-3 P art 1: Hardwar e Specifications Section 1.1: Introduction to the Micr ostepping MFor ce PowerDrive Section 1.2: Microstepping MFor ce PowerDrive Detailed Specifications Part 1: Hardware Reference TM FORCE POWE R DR IVE MICROSTEPPING[...]
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1-4 Microstepping MF orce P owerD rive Manual R evision R040507 P age Intentionally Left Blank[...]
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1-5 P art 1: Hardwar e Specifications SECTION 1.1 Introduction to the Microstepping MFor ce PowerDrive The Microstepping MF orce P ow- erDrive is a high performance, low cost microstepping driver that delivers unsurpassed smoothness and perfor- mance achieved through IMS’ s advanced 2nd generation current control. B y applying innovativ e techni[...]
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1-6 Microstepping MF orce P owerD rive Manual R evision R040507 Features and Benefits High P erformance Microstepping Driver Advanced 2nd Generation C urrent Control for E xceptional P erformance and Smoothness Single S upply: +12 to +75 VDC Low Cost Extremely Compact High Output C urrent: U p to 5 Amps RMS, 7 Amps P eak (Per P hase) 20 Microstep R[...]
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1-7 P art 1: Hardwar e Specifications SECTION 1.2 Microstepping MForce PowerDrive Detailed Specifications General Specifications Electrical Specifications Input V oltage (+V) Range* +12 to +75 VDC Max Power Supply Current (Per MForce PowerDrive)* 4 Amps Output Current RMS 5 Amps Output Current Peak (Per Phase) 7 Amps * Actual Power Supply Current [...]
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1-8 Microstepping MF orce P owerD rive Manual R evision R040507 Mechanical Specifications - Dimensions in Inches (mm) Figur e 1.2.1: MFor ce P owerDriv e Mechanical Specifications Microstepping MForce PowerDrive Setup Parameters Name Function Range Units Default MHC Motor Hold Current 0 to 100 percent 5 MRC Motor Run Current 1 to 100 percent 25 MSE[...]
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1-9 P art 1: Hardwar e Specifications Pin Assignment and Description P1 12-Pin Locking W ire Crimp Connector Option - Power , I/O and SPI Communications Pin Assignment - P1 Power , I/O and SPI Connections Pin # Function Description Pin 1 N/C No Connect Pin 2 N/C No Connect Pin 3 Opto Reference The Signal applied to the Optocoupler Reference will d[...]
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1-10 Microstepping MF orce P owerD rive Manual R evision R040507 P3 Connector - DC Power , 2-Pin Locking W ire Crimp Pin Assignment - P3 Power 2-Pin Locking Wire Crimp Function Description Pin 1 +V +12 to +75 VDC, 4 Amps Maximum per MDrive34Plus. Pin 2 GND Power Supply Return. T able 1.2.8: P3 Connector P3 12 10 8 6 4 2 1 1 9 7 5 3 1 1 2 Figur e 1.[...]
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1-1 1 P art 1: Hardwar e Specifications Options and Accessories Parameter Setup Cable and Adapters The optional 12.0' (3.6m) parameter setup cable part number MD-CC300-000 facilitates communications wiring and is recommended with first order . I t connects from the 10-Pin IDC Connector located at P2 to a PC's USB port. If the12-pin plugg[...]
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1-12 Microstepping MF orce P owerD rive Manual R evision R040507 P age Intentionally Left Blank[...]
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1 P art 2: Interfacing and Configuring Section 2.1: Mounting and Connection Recommendations Section 2.2: Logic Interface and Connection Section 2.3: Connecting SPI Communications Section 2.4: Using the IMS SPI Motor Interface Section 2.5: Using User -Defined SPI Part 2: Interfacing and Configuring TM FORCE MICRO DRIVE MICROSTEPPING[...]
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2 Microstepping MF orce P owerD rive Manual R evision R040507 P age Intentionally Left Blank[...]
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3 P art 2: Interfacing and Configuring SECTION 2.1 Mounting and Connection Guidelines Mounting Recommendations The Microstepping MF orce P owerD rive may be mounted two ways: end mounted or flat mounted End mount- ing will use #8 hardware, flat mounting will use standar d #6 hardwar e. Do not exceed the r ecommended mount- ing torque specification[...]
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4 Microstepping MF orce P owerD rive Manual R evision R040507 Figur e 2.1.2: End M ounting the MF orce P owerDrive Securing Power Leads and Logic Leads Some applications may requir e that the MF orce and/or the connected motor to mov e with the axis motion. If this is a requirement of your application, the motor leads must be pr operly anchored. Th[...]
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5 P art 2: Interfacing and Configuring Rules of W iring • P ower Supply and M otor wiring should be shielded twisted pairs, and run separately from signal- carrying wires. • A minimum of one twist per inch is recommended. • Motor wiring should be shielded twisted pairs using 20 gauge, or for distances of mor e than 5 feet, 18 gauge or better[...]
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6 Microstepping MF orce P owerD rive Manual R evision R040507 P age Intentionally Left Blank[...]
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7 P art 2: Interfacing and Configuring SECTION 2.2 Interfacing DC Power Choosing a Power Supply for Y our MForce PowerDrive When choosing a power supply for your MF orce P owerDrive ther e are performance and sizing issues that must be addressed. An undersized power supply can lead to poor performance and even possible damage to the device, which [...]
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8 Microstepping MF orce P owerD rive Manual R evision R040507 DC Power Supply Recommendations The power r equirements for the Microstepping MF orce P owerD rive are: Output V oltage ...................................................................+12 to +75 VDC (I ncludes Back EMF) Curr ent (max. per unit) ........................................[...]
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9 P art 2: Interfacing and Configuring P3 Unregulated Linear or Switching Power Supply Power Ground +VDC Shield to Earth Ground + – ! W ARNING! Do not connect or disconnect cabling while power is applied! Optional Prototype Development Cable: PD02-3400-FL3 Pin 1 Pin 2 Basic DC Power Connection Figur e 2.2.2: MF orce P ow erDrive DC P ower Connec[...]
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10 Microstepping MF orce P owerD rive Manual R evision R040507 W ARNING! DO NOT connect or disconnect power leads when power is applied! Disconnect the AC power side to power down the DC power supply . Example C – Cabling 50 Feet or Greater , AC Power to Power Supply Figure 2.2.4: AC To Full W a ve Bridge Rectifier, Cabling over 50 F eet Figure 2[...]
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1 1 P art 2: Interfacing and Configuring SECTION 2.3 Motor Selection and Interface Selecting a Motor When selecting a stepper motor for your application, there are sev eral factors that need to be taken into consider- ation: How will the motor be coupled to the load? How much torque is required to move the load? How fast do[...]
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12 Microstepping MF orce P owerD rive Manual R evision R040507 The per ph ase win din g in duc tan ce s pec ifi ed m ay be d iff ere nt t han th e pe r p hase in duc tanc e s een by you r MF orce P owerDrive d riv er d epe ndin g o n t he w iri ng conf igu rati on use d. Y our ca lcul ati ons mus t a llow fo r t he a ctu al i ndu c- tan ce t hat th[...]
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13 P art 2: Interfacing and Configuring 23 Frame Enhanced (2.4A - Not Available with Double Shaft) Single Shaft Double Shaft M-2218-2.4S ............................................................................................................................N/A M-2222-2.4S ........................................................................[...]
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14 Microstepping MF orce P owerD rive Manual R evision R040507 The IOS motor is available in the following frames: Frame Siz e IMS PN 23 F rame ................................................................................................................... M3-2220-IOS 34 F rame ....................................................................[...]
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15 P art 2: Interfacing and Configuring 6 Lead Motors Like 8 lead stepping motors, 6 lead motors have two configurations available for high speed or high torque operation. The higher speed configuration, or half coil, is so described because it uses one half of the motor’s inductor windings. The higher torque configuration, or full coil, uses[...]
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16 Microstepping MF orce P owerD rive Manual R evision R040507 Figur e 2.3.6: 4 Lead Motor Connections 1 3 4 2 P4 PHASE A PHASE A B PHASE PHASE B 4 Le a d Mo t or s 4 le a d mo t or s a re t he le as t fl ex i bl e b ut e as i es t t o wi r e. Sp e ed a n d to r qu e w il l de p en d o n wi n di ng in du c ta nc e . In se tt i ng t he dr iv e r ou[...]
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17 P art 2: Interfacing and Configuring Shield to Earth Ground on Supply End Only Ferrite Beads *L z 0.5 MH * 0.5 MH is a typical starting point for the Common Mode Line F ilters. B y increasing or decreasing the value of L you can set the drain current to a minimum to meet your application ’ s requirements. Common Mode Line Filters (2x) From Mi[...]
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18 Microstepping MF orce P owerD rive Manual R evision R040507[...]
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19 P art 2: Interfacing and Configuring SECTION 2.4 Logic Interface and Connection Optically Isolated Logic Inputs The Microstepping MF orce P owerD rive has three optically isolated logic inputs which are located on connector P1. These inputs are isolated to minimize or eliminate electrical noise coupled onto the driv e control signals. Each inpu[...]
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20 Microstepping MF orce P owerD rive Manual R evision R040507 and sourcing 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 ar e being received by the Microstepping MF orce P owerD rive. Clock Inputs The Mi[...]
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21 P art 2: Interfacing and Configuring T DSU T DH T SH T SL Direction Step T DC T CHL T CHL Channel A Channel B Direction Change T SH T SL T DC T SH T SL T DC Step Up Step Down STEP/DIRECTION TIMING QUADRA TURE TIMING UP/DOWN TIMING Figur e 2.4.3: Clock Input T iming Char acteristics Clock Input Timing Symbol Parameter T ype and V alue Step/Direc[...]
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22 Microstepping MF orce P owerD rive Manual R evision R040507 Optocoupler Reference The Microstepping MF orce P owerD rive Logic Inputs are optically isolated to pr event electrical noise being coupled into the inputs and causing erratic operation. There are two ways that the Optocoupler R eference will be connected depending whether the Inputs ar[...]
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23 P art 2: Interfacing and Configuring + Microstepping MForce PowerDrive +5 to +24VDC Optocoupler Reference Input Controller Output Controller Ground + +5 to +24VDC Optocoupler Reference Input Controller Output Controller Ground NPN Open Collector Interface (Sinking) PNP Open Collector Interface (Sourcing) Microstepping MForce PowerDrive Input Co[...]
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24 Microstepping MF orce P owerD rive Manual R evision R040507 Switch Interface Example Switch Interface (Sinking) Switch Interface (Sourcing) + +5 to +24VDC Optocoupler Reference Enable Input SPST Switch GND + Enable Input +5 to +24VDC Optocoupler Reference GND SPST Switch Enable Input Microstepping MForce PowerDrive Microstepping MForce PowerDriv[...]
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25 P art 2: Interfacing and Configuring Minimum Required Connections The connections shown are the minimum r equired to operate the Microstepping MF orce P ow erDrive. These are illustrated in both Sinking and Sour cing Configurations. Please reference the P in Configuration diagram and Specification T ables for the Microstepping MF orce P owerDri[...]
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26 Microstepping MF orce P owerD rive Manual R evision R040507 SECTION 2.5 Connecting SPI Communications Connecting the SPI Interface The SPI (Serial P eripheral Interface) is the com- munications and configuration interface. F or prototyping we recommend the pur chase of the parameter setup cable MD-CC300-000. If using the Microstepping MF orce P [...]
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27 P art 2: Interfacing and Configuring SPI Pins and Connections +5 VDC OUT 19 15 2 3 4 PC Parallel/SPI Port P1 10 12 7 9 1 1 MASTER OUT/SLA VE IN MASTER IN/SLA VE OUT SPI CLOCK 8 CHIP SELECT COMM GND 12-Pin Locking Wire Crimp For Use ONL Y with IMS Parameter Setup Cable Figur e 2.5.2: SPI Pins and Connections, 12-Pin Wir e Crimp Logic Level Shift[...]
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28 Microstepping MF orce P owerD rive Manual R evision R040507 Figur e 2.5.4: SPI Master with a S ingle Microstepping MF orce P owerDrive S P I M a s t e r w i t h M u l t i p l e M i c r o s t e p p i n g M F o r c e P o w e r D r i v e I t i s p o s s i bl e t o l i n k mu l t i p l e M i cr o s t e p p i n g M F o r c e P o w e r D r i v e u ni [...]
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29 P art 2: Interfacing and Configuring SECTION 2.6 Using the IMS SPI Motor Interface Installation The IMS SPI M otor Interface is a utility that easily allows you to set up the parameters of y our Microstepping MF orce P owerDrive. I t is available both on the CD that came with your pr oduct and on the IMS web site at http://www .imshome.com/soft[...]
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30 Microstepping MF orce P owerD rive Manual R evision R040507 IMS SPI Motor Interface Menu Options File > Open: Opens a saved *.mot (M otor Settings) file. > Save: Sav es the current motor settings as a *.mot file for later re-use > Save As > Exit - Disconnects from the device and opens the I nitialization Dialog. View > M otion Set[...]
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31 P art 2: Interfacing and Configuring Recall! Retrieves the settings from the M icrostepping MF orce P owerDriv e. Upgrade! U pgrades the Microstepping MF orce P owerD rive firmware by placing the device in U pgrade M ode and launching the firmware upgrader utility . Help > IMS Internet T utorials: Link to an IMS W eb Site page containing Int[...]
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32 Microstepping MF orce P owerD rive Manual R evision R040507 1. MSEL: Microstep R esolution Select. 2. HCDT : Holding Current Delay T ime. 3. MR C: M otor Run C urrent 4. M otor Holding C urrent 5. U ser ID: 3-character ID 6. Dir ection Override: Allows the user to set the CW/CCW direction of the motor in r elation to the Direction I nput from th[...]
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33 P art 2: Interfacing and Configuring HC DT ( H ol d Cu r re nt De lay Ti me ) Th e H C D T M ot or H o ld C u r r en t D el a y set s ti m e i n mi l l is e co nds f or t he R u n C ur r en t to s wi t c h t o Ho l d C ur r en t wh e n mo tio n is c om p le te. Wh en mo tio n is c om p l et e , t h e Mi cr os te p p in g MF o rc e P ow er D ri [...]
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34 Microstepping MF orce P owerD rive Manual R evision R040507 Screen 2: I/O Settings Configuration Screen The I/O Settings screen may be accessed b y clicking View > IO Settings on the menu bar . This screen is used to configure the Input Clock type, the filtering and the A ctive High/Lo w State of the E nable Input. Input Clock T ype The Input[...]
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35 P art 2: Interfacing and Configuring IMS Part Number/Serial Number Screen The IMS P art N umber and Serial N umber screen is accessed by clicking "V iew > P art and Serial N umbers". This screen is read-only and will display the part and serial number , as well as the fault code if existing. IMS may require this information if call[...]
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36 Microstepping MF orce P owerD rive Manual R evision R040507 Upgrading the Firmware in the Microstepping MFor ce PowerDrive The IMS SPI Upgrader Screen N ew firmware releases are posted to the IMS web site at http://www .imshome.com. The IMS SPI M otor Interface is required to upgrade y our Microstepping MF orce P owerD rive product. T o launch t[...]
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37 P art 2: Interfacing and Configuring Initialization Screen This screen will be active under five conditions: When the program initially starts up and seeks for a compatible device. The U ser selects F ile > Exit when connected to the device. The U ser clicks the Exit button while connected to the device. The U pgrade Pr ocess completes. The [...]
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38 Microstepping MF orce P owerD rive Manual R evision R040507 SECTION 2.7 Using User -Defined SPI The MF orce can be configured and operated through the end-user's SP I interface without using the IMS SPI M o- tor Interface software and optional parameter setup cable. An example of when this might be used is in cases where the machine design[...]
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39 P art 2: Interfacing and Configuring SPI Commands and Parameters U se the following table and figure found on the follo wing page together as the Byte or der read and written from the MDrivePlus M icrostepping, as well as the checksum at the end of a WRITE is critical. SPI Commands and Parameters Command/ Parameter HEX (Default) Range Notes REA[...]
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40 Microstepping MF orce P owerD rive Manual R evision R040507 Figur e 2.7.2: Read/W rite Byte Or der for P arameter Settings (Default P arameters S hown) SPI Communications Sequence See Timing D iagram and Byte Or der figures. READ 1. Send READ ALL Command 0x40 down MOSI to M icrostepping MF orce P owerDriv e followed by FF (15 Bytes). 2. Receive [...]
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A-1 Appendices TM Appendices Appendix A: Optional Pr ototype Development Cables TM FORCE MICRO DRIVE MICROSTEPPING[...]
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A-2 Microstepping MF orce P owerD rive Manual R evision R040507 P age Intentionally Left Blank[...]
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A-3 Appendices WARN ING ! DO NOT connect or disconnect the MD-CC300-000 C o mm u n i ca t i o ns C o nv e r t er C a bl e f ro m M Fo r c e w h i l e p o w er i s applied! Appendix C Optional Prototype Development Cables MD-CC300-000: USB to SPI Parameter Setup Cable The MD-CC300-000 USB to SPI P arameter Setup Cable provides a communication connec[...]
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A-4 Microstepping MF orce P owerD rive Manual R evision R040507 Figur e A.3: T ypical Setup, Adapter and P rototype Development Cable 12 12 11 2 1 1 P1 P2 ADAPTER P/N MD-ADP-14C TM T o MForce T o Customer PC USB Port T o Customer Interface MD-ADP-1723C Adapter Cable MD-CC300-000 Parameter Setup Cable ADP-3512-FL Prototype Development Cable 12 12 11[...]
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A-5 Appendices 6) Select “Search for the best driver in these locations ”. (a) Check “Include this location in the search ”. (b) Browse to the CD [D rive Letter]: Cable_DriversMD-CC303-000_DRIVERS. (c) Click Next (F igure A.6). 7) The drivers will begin to copy . 8) On the Dialog for W indows Logo Compatibility T esting, click “Continue[...]
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A-6 Microstepping MF orce P owerD rive Manual R evision R040507 Determining the V irtual COM Port (VCP) The MD-CC300-000 uses a Virtual COM P ort to communicate through the USB port to the MForce. A V CP is a software driven serial port which emulates a hardwar e port in Windows. The drivers for the MD-CC300-000 will automatically assign a V CP to [...]
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A-7 Appendices PD12-1434-FL3 — Power , I/O and SPI The PD12-1434-FL3 is a 10’ (3.0 m) P rototype Development Cable used to connect to the 12-Pin Locking Wire Crimp Connector . The Connector end plugs into the P1 Connector of the MF orce P owerD rive. The F ly- ing Lead end connects to a Control Interface such as a PLC, an SP I Interface such as[...]
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A-8 Microstepping MF orce P owerD rive Manual R evision R040507 Prototype Development Cable PD02-2300-FL3 IMS recommends the P rototype Development Cable PD02-3400-FL3 for interfacing po wer to the MF orce P owerDrive. Motor Power (+12 to +75 VDC) Power Supply Return (Ground) Drain Wire (Connect to Earth at Power Supply) Pin 1 (Red Wire) 10 ft (3.0[...]
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W ARRANTY TWENTY -FOUR (24) MONTH LIMITED W ARRANTY Intelligent Motion Systems, Inc. (“IMS”), warrants only to the purchaser of the Product from IMS (the “Customer”) that the product purchased from IMS (the “Product”) will be free from defects in materials and workmanship under the normal use and service for which the Product was design[...]
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intelligent motion systems, I N C . Excellence in Motion www .imshome.com IMS EUROPE GmbH Niedereschacherstrasse.54 78083 Dauchingen Germany Phone: +49/7720/94138-0 Fax: +49/7720/94138-2 E-mail: info@imseuropehome.com European Sales Management 4 Quai Des Etroits 69005 L yon, France Phone: +33/4 7256 5113 Fax: +33/4 7838 1537 E-mail: bmartinez@imsho[...]