Intelligent Motion Systems Motion Detector Mounting and Connection Guidelines

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SECTION 2.1

Mounting and Connection Guidelines

Mounting Recommendations

The Microstepping MForce PowerDrive may be mounted two ways: end mounted or flat mounted End mount- ing will use #8 hardware, flat mounting will use standard #6 hardware. Do not exceed the recommended mount- ing torque specification. The diagrams in Figures 2.1.1 and 2.1.2 illustrate the mounting methods.

Recommended Tightening Torque: 7 - 8 lb-in (78.4 - 89.6 N-cm)

Mounting Hardware

4 x #6-32 Screw

4 x #6 Split Lockwasher

4 x #6 Flat Washer

MForce PowerDrive

Mounting Hardware (Metric)

4 x M3.5 - 0.60 Screw

4 x M3.5 Split Lockwasher

4 x M3.5 Flat Washer

NOTE: Mounting Hardware is not supplied.

Mounting Surface

Mounting Hole Pattern

(Not to Scale)

2.950

(74.93

Use #36 Drill Size (2.9 mm)

Tap to #6-32 (M3.5 - 0.60) 4 PL

2.931 TYP

(74.45 TYP)

Figure 2.1.1: Base Mounting the MForce PowerDrive

Part 2: Interfacing and Configuring

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Contents Forcetm Microstepping MForce PowerDrive Product Manual Important information This page intentionally left blank Table Of Contents Appendices List of Figures List of Tables Stepping Motor Microstepping MForce PowerDriveMForce PowerDrive Front Connect Opto Reference and Logic Inputs Connecting the MotorForcetm Intentionally Left Blank Configuring Introduction to the Microstepping MForce PowerDriveFeatures and Benefits General Specifications Microstepping MForce PowerDrive Detailed SpecificationsMechanical Specifications Dimensions in Inches mm Setup ParametersPin # Function Description Pin Assignment and DescriptionP4 Connector Motor P3 Connector DC Power, 2-Pin Locking Wire CrimpPrototype Development Cable Options and AccessoriesParameter Setup Cable and Adapters Intentionally Left Blank Forcetm Microstepping MForce PowerDrive Manual Revision R032008 Mounting Recommendations Mounting and Connection GuidelinesLayout and Interface Guidelines Securing Power Leads and Logic LeadsMounting Hole Pattern Motor P4 Power P3Logic and SPI Communications P1 Intentionally Left Blank Choosing a Power Supply for Your MForce PowerDrive Interfacing DC PowerIP804 Unregulated Linear Supply DC Power Supply RecommendationsISP300-7 Unregulated Switching Supply Recommended IMS Power SuppliesExample a DC Power Cabling Under 50 Feet Basic DC Power ConnectionRecommended Power and Cable Configurations Transformer 10 to 28 VAC RMS for 48 VDC Systems Types and Construction of Stepping Motors Motor Selection and InterfaceSelecting a Motor Winding InductanceRecommended IMS Motors Lead Stepping Motor Parallel ConfigurationFrame Enhanced 6.3A Frame Enhanced 2.4A Not Available with Double ShaftFrame Enhanced 3.0A Frame Enhanced 6.0ALead Motors Phase Connector PinPhase a Example a Motor Cabling Less Than 50 Feet MForce PowerDrive Phase OutputsRecommended Motor Cabling Motor ConnectionsRecommended Motor Cable AWG Sizes Example B Motor Cabling Greater Than 50 FeetMicrostepping MForce PowerDrive Manual Revision R032008 Logic Interface and Connection Isolated Logic Input Pins and ConnectionsIsolated Logic Input Characteristics Enable InputUp/Down Step ClockDirection QuadratureSTEP/DIRECTION Timing Optocoupler Reference Optocoupler ReferenceInput Connection Examples NPN Open Collector Interface SinkingSwitch Interface Example Switch Interface Sinking+V +12 to +48 Minimum Required ConnectionsConnecting SPI Communications Logic Level Shifting and Conditioning Circuit SPI Pins and Connections4 SPI Master with a Single Microstepping MForce PowerDrive SPI Master with Multiple Microstepping MForce PowerDriveColor Coded Parameter Values Using the IMS SPI Motor Interface InstallationConfiguration Parameters and Ranges View IMS SPI Motor Interface Menu OptionsFile Help UpgradeRecall Msel Microstep Resolution Selection Msel Microstep Resolution SelectExit 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 IndicationUpgrade Instructions IMS SPI Upgrader ScreenPort Menu Initialization ScreenPWM Mask Motor Settings Screen PWM Current ControlPWM Frequency Range Parameter Maximum PWM Duty Cycle % ParameterPWM Control Bits Example PWM Settings By Motor SpecificationsCheck Sum Calculation for SPI Using User-Defined SPISPI Timing Notes MSB SPI Commands and ParametersSPI Communications Sequence WriteIntentionally Left Blank Appendices Intentionally Left Blank Adapter Cables MD-CC300-000 USB to SPI Parameter Setup CableOptional Prototype Development Cables Installing the Cable/VCP Drivers Installation Procedure for the MD-CC300-000Figure A.5 Hardware Update Wizard Screen Determining the Virtual COM Port VCP Wire Color Code PD12-1434-FL3 Power, I/O and SPIPrototype Development Cable PD04-MF34-FL3 Prototype Development Cable PD02-2300-FL3Warranty Excellence in Motion

Motion Detector specifications

Intelligent Motion Systems (IMS) Motion Detector is a cutting-edge device designed for advanced motion detection and automation applications. This state-of-the-art technology plays a crucial role in enhancing security systems, managing smart homes, and facilitating industrial automation. With a focus on reliability, efficiency, and real-time responsiveness, the IMS Motion Detector brings numerous advantages to users.

One of the main features of the IMS Motion Detector is its high sensitivity and precision in capturing motion. Utilizing advanced infrared (IR) and microwave sensing technologies, the device can detect movement with remarkable accuracy, even in challenging environmental conditions. This dual-sensing approach allows for greater versatility, minimizing false alarms while ensuring reliable detection of genuine movement.

The IMS Motion Detector is designed with energy efficiency in mind. Employing low-power consumption technologies, it is ideal for long-term installations, reducing the need for frequent battery replacements or energy costs. Furthermore, the device offers customizable settings, enabling users to adjust sensitivity levels, detection range, and operational modes according to specific needs. This adaptability makes the IMS Motion Detector suitable for a variety of applications, from residential to commercial settings.

Another notable characteristic of the IMS Motion Detector is its seamless integration capabilities. It can be easily incorporated into existing security systems or smart home networks, allowing users to monitor and control their environments through user-friendly applications. Compatibility with popular home automation platforms further enhances its utility, enabling users to create automated scenarios, such as turning on lights or sending alerts to mobile devices upon detecting motion.

The device is built to withstand various environmental factors, featuring weather-resistant housing for outdoor use. Its robust construction ensures durability while maintaining optimal performance over an extended period.

In summary, the Intelligent Motion Systems Motion Detector is a sophisticated device that stands out for its advanced detection technologies, energy efficiency, customizable settings, and seamless integration capabilities. Whether used for enhancing security or automating daily routines, the IMS Motion Detector represents a significant innovation in the realm of motion detection and management. Perfect for both residential and commercial applications, it ensures users can monitor their environments with confidence and ease.