Intelligent Motion Systems Motion Detector Recommended Motor Cabling, Motor Connections

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4 Lead Motors

4 lead motors are the least flexible but easiest to wire. Speed and torque will depend on winding inductance. In setting the driver output current, multiply the specified phase current by 1.4 to deter- mine the peak output current.

1

2

3

4

P4

PHASE A

PHASE A

PHASE B

PHASE B

Figure 2.3.6: 4 Lead Motor Connections

Recommended Motor Cabling

As with the power supply wiring, motor wiring should be run separately from logic wiring to minimize noise coupled onto the logic signals. Motor cabling exceeding 1’ in length should be shielded twisted pairs to reduce the transmission of EMI (Electromagnetic Interference) which can lead to rough motor operation and poor system performance.

Cable length, wire gauge and power conditioning devices play a major role in the performance of your MForce PowerDrive and Stepper Motor.

NOTE: The length of the DC power supply cable between the MForce PowerDrive and the Motor should not exceed 50 feet.

Example A demonstrates the recommended cable configuration for the MForce PowerDrive to Motor cabling under 50 Feet long. If cabling of 50 feet or longer is required, the additional length can be gained with the cable configuration in Example B.

Correct AWG wire size is determined by the current requirement plus cable length. Please see Table 2.3.1 on the following page.

Example A: Motor Cabling Less Than 50 Feet

MForce

PowerDrive

Phase Outputs

A

A

B

B

Shield to Earth Ground on Supply End Only

Cable Length

less than 50 Feet

Shielded/Twisted Pair

Ferrite Beads

Figure 2.3.7: Motor Cabling Less than 50 Feet

Motor

Connections

A

A

B B

16

Microstepping MForce PowerDrive Manual Revision R032008

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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 Microstepping MForce PowerDrive MForce PowerDrive FrontStepping Motor Connecting the Motor Connect Opto Reference and Logic InputsForcetm Intentionally Left Blank Introduction to the Microstepping MForce PowerDrive ConfiguringFeatures and Benefits Microstepping MForce PowerDrive Detailed Specifications General SpecificationsSetup Parameters Mechanical Specifications Dimensions in Inches mmPin Assignment and Description Pin # Function DescriptionP3 Connector DC Power, 2-Pin Locking Wire Crimp P4 Connector MotorOptions and Accessories Parameter Setup Cable and AdaptersPrototype Development Cable Intentionally Left Blank Forcetm Microstepping MForce PowerDrive Manual Revision R032008 Mounting and Connection Guidelines Mounting RecommendationsSecuring Power Leads and Logic Leads Mounting Hole PatternLayout and Interface Guidelines Power P3 Logic and SPI Communications P1Motor P4 Intentionally Left Blank Interfacing DC Power Choosing a Power Supply for Your MForce PowerDriveDC Power Supply Recommendations ISP300-7 Unregulated Switching SupplyRecommended IMS Power Supplies IP804 Unregulated Linear SupplyBasic DC Power Connection Recommended Power and Cable ConfigurationsExample a DC Power Cabling Under 50 Feet Transformer 10 to 28 VAC RMS for 48 VDC Systems Motor Selection and Interface Selecting a MotorWinding Inductance Types and Construction of Stepping MotorsLead Stepping Motor Parallel Configuration Recommended IMS MotorsFrame Enhanced 2.4A Not Available with Double Shaft Frame Enhanced 3.0AFrame Enhanced 6.0A Frame Enhanced 6.3APhase Connector Pin Lead MotorsPhase a MForce PowerDrive Phase Outputs Recommended Motor CablingMotor Connections Example a Motor Cabling Less Than 50 FeetExample B Motor Cabling Greater Than 50 Feet Recommended Motor Cable AWG SizesMicrostepping MForce PowerDrive Manual Revision R032008 Isolated Logic Input Pins and Connections Isolated Logic Input CharacteristicsEnable Input Logic Interface and ConnectionStep Clock DirectionQuadrature Up/DownSTEP/DIRECTION Timing Optocoupler Reference Optocoupler ReferenceNPN Open Collector Interface Sinking Input Connection ExamplesSwitch Interface Sinking Switch Interface ExampleMinimum Required Connections +V +12 to +48Connecting SPI Communications SPI Pins and Connections Logic Level Shifting and Conditioning CircuitSPI Master with Multiple Microstepping MForce PowerDrive 4 SPI Master with a Single Microstepping MForce PowerDriveUsing the IMS SPI Motor Interface Installation Configuration Parameters and RangesColor Coded Parameter Values IMS SPI Motor Interface Menu Options FileView Upgrade RecallHelp Msel Microstep Resolution Select Msel Microstep Resolution SelectionConnected/Disconnected Indicator FactorySet ExitScreen 2 I/O Settings Configuration Screen Enable Active High/LowInput Clock Type Input Clock FilterFault Indication IMS Part Number/Serial Number ScreenIMS SPI Upgrader Screen Upgrade InstructionsInitialization Screen Port MenuMotor Settings Screen PWM Current Control PWM MaskMaximum PWM Duty Cycle % Parameter PWM Frequency Range ParameterExample PWM Settings By Motor Specifications PWM Control BitsUsing User-Defined SPI SPI Timing NotesCheck Sum Calculation for SPI SPI Commands and Parameters MSBWrite SPI Communications SequenceIntentionally Left Blank Appendices Intentionally Left Blank MD-CC300-000 USB to SPI Parameter Setup Cable Optional Prototype Development CablesAdapter Cables Installation Procedure for the MD-CC300-000 Installing the Cable/VCP DriversFigure A.5 Hardware Update Wizard Screen Determining the Virtual COM Port VCP PD12-1434-FL3 Power, I/O and SPI Wire Color CodePrototype Development Cable PD02-2300-FL3 Prototype Development Cable PD04-MF34-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.