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RoboteQ AX2550 Motor - Encoder Polarity Matching, Voltage Levels, Thresholds and Limit Switches

Models: AX2550 AX1500

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Motor - Encoder Polarity Matching

Installing, Connecting and Using the Encoder Mod-

Important Warning

Excessive cable length will cause electrical noise to be captured by the controller and cause erratic functioning that may lead to failure. In such situation, stop operation immediately.

Motor - Encoder Polarity Matching

When using the Encoder module for closed loop speed control, it is imperative that when the motor is turning in the forward direction, the counter increments its value and a posi- tive speed value is measured.

Using the PC utility, it is possible to exercise the motors and view the encoder readings.

See “Encoder Testing and Setting Using the PC Utility” on page 79.

If the Encoder counts backwards when the motor moves forward, correct this by either:

1- Swapping Channel A and Channel B on the encoder connector. This will cause the encoder module to reverse the count direction, or

2- Swapping the leads on the motor. This will cause the motor to rotate in the opposite direction.

Voltage Levels, Thresholds and Limit Switches

The encoder module’s input uses a comparator to reshape the encoder’s output signal. If the signal is below a programmable threshold level, then it is considered to be 0. If above, it is considered to be 1. The output of this comparator feeds the quadrature detector and counters.

On the Encoder module, the threshold voltage may be changed under software control to any value between 0 and 5V in order to meet unusual encoder specifications. By default, the threshold level is 2.5V.

Another set of comparators on the same input signals detects pulses that are above and below a fixed 0.5V threshold. Using a special circuitry for creating multi-level signaling (see next section below), the output of these comparators serves to detect the status of optional limit switches.

Figure 43 and Figure 42 show the conditioned signals as seen by the encoder.

In Figure 43, the encoders are connected directly to the Channel A and B inputs. In this case, it will cause a Switch Detection condition because the encoder’s 0 level is below 0.5V, which should be ignored.

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AX1500 Motor Controller User’s Manual

Version 1.9b. June 1, 2007

Image 72

RoboteQ AX2550, AX1500 Motor - Encoder Polarity Matching, Voltage Levels, Thresholds and Limit Switches, Important Warning

Contents

Dual Channel Digital Motor Controller AX1500User’s Manual AX1500 Motor Controller User’s Manual Version 1.9b. June 1Revision History Revision HistoryDate VersionAX1500 Motor Controller User’s Manual Version 1.9b. June 1Revision History General Operation Recommended Encoder Types SECTION Connector I/O Pin Assignment RS232 Mode Controller Identification Register Logging Data to Disk AX1500 Motor Controller User’s Manual Version 1.9b. June 1Important Safety Avoid Shorts when Mounting Board against ChassisDo not Connect to a RC Radio with a Battery Attached WarningsImportant Safety Warnings AX1500 Motor Controller User’s ManualVersion 1.9b. June 1 Locating the Connectors AX1500Quick Start What you will needAX1500 Quick Start AX1500 Motor Controller User’s ManualConnecting to the Batteries and Motors Connecting to the Batteries and MotorsAX1500 Motor Controller User’s Manual Connecting to the 15-pin Connector Important WarningSignal RC ModeConnecting the R/C Radio Connecting the R/C RadioImportant Warning AX1500 Motor Controller User’s ManualPowering On the Controller Default Controller ConfigurationDefault Values AX1500 Quick StartConnecting the controller to your PC using Roborun Connecting the controller to your PC using RoborunAX1500 Motor Controller User’s Manual Obtaining the Controller’s Software Revision Number Exploring furtherAX1500 Quick Start AX1500 Motor Controller User’s ManualSECTION 3AX1500 Motor Controller Overview Product DescriptionAX1500 Motor Controller User’s Manual Technical features Multiple Command ModesAutomatic Joystick Command Corrections AX1500 Motor Controller OverviewTechnical features Low Power ConsumptionHigh Efficiency Motor Power Outputs Optical Encoder Inputs optionalAdvanced Safety Features AX1500 Motor Controller OverviewData Logging Capabilities Compact Open Frame PCB DesignConnecting Power and Motors to the Controller Power ConnectionsPower Connections Important WarningController Power Connecting Power and Motors to the ControllerAX1500 Motor Controller User’s Manual Controller Power Power Control input isAnd Main Battery mended Off ConfigurationController Powering Schemes Powering the Controller from a single BatteryConnecting Power and Motors to the Controller Power Control input isPowering the Controller Using a Main and Backup Battery Controller Powering SchemesImportant Warning AX1500 Motor Controller User’s ManualConnecting the Motors Connecting Power and Motors to the ControllerImportant Warning Important WarningSingle Channel Operation Converting the AX1500 to Single ChannelSingle Channel Operation AX1500 Motor Controller User’s ManualPower Fuses Wire Length LimitsConnecting Power and Motors to the Controller Important WarningPower Regeneration Considerations Electrical Noise Reduction TechniquesImportant Warning Electrical Noise Reduction TechniquesUsing the Controller with a Power Supply Overvoltage ProtectionUndervoltage Protection Connecting Power and Motors to the ControllerUsing the Controller with a Power Supply AX1500 Motor Controller User’s ManualConnecting Power and Motors to the Controller AX1500 Motor Controller User’s ManualVersion 1.9b. June 1 Input Command Modes General OperationBasic Operation Basic OperationSelecting the Motor Control Modes Open Loop, Separate Speed ControlOpen Loop, Mixed Speed Control General OperationClosed Loop Speed Control Close Loop Position ControlSelecting the Motor Control Modes AX1500 Motor Controller User’s ManualUser Selected Current Limit Settings Temperature-Based Current LimitationTemperature Position Feedback Position Sensor Gear boxBattery Current vs. Motor Current Battery Current vs. Motor CurrentMotor Current = Battery Current / PWM ratio AX1500 Motor Controller User’s ManualRegeneration Current Limiting Motor Current = Battery Current / PWM RatioImportant Warning General OperationProgrammable Acceleration Setting UsingSetting Using SwitchesCommand Control Curves Setting UsingSetting Using SwitchesLeft / Right Tuning Adjustment Left / Right Tuning AdjustmentExponentiation Parameter Value Selected CurveSpeed Adjustment Speed AdjustmentGeneral Operation Parameter ValueEmergency Stop using External Switch Activating Brake Release or Separate Motor ExcitationInverted Operation Speed AdjustmentSpecial Use of Accessory Digital Inputs Using the Inputs to Activate the Buffered OutputUsing the Inputs to turn Off/On the Power MOSFET transistors General OperationConnecting Sensors and Actuators to Input/Outputs AX1500 ConnectionsAX1500 Connections AX1500 Motor Controller User’s ManualAX1500’s Inputs and Outputs Connecting Sensors and Actuators to Input/OutputsAX1500 Motor Controller User’s Manual Signal AX1500’s Inputs and OutputsI/O type ActivatedPin1 I/O List and Pin AssignmentConnecting Sensors and Actuators to Input/Outputs Signal dependingConnecting devices to Output C Connecting devices to Output CSignal depending on ModeConnecting Switches or Devices to Input E Connecting Switches or Devices to Input FImportant warning Connecting Sensors and Actuators to Input/OutputsConnecting Switches or Devices to EStop/Invert Input Connecting Switches or Devices to EStop/Invert InputAX1500 Motor Controller User’s Manual Connecting Position Potentiometers to Analog Inputs Analog InputsConnecting Sensors and Actuators to Input/Outputs AX1500 Motor Controller User’s ManualConnecting Tachometer to Analog Inputs Connecting Tachometer to Analog InputsOperating Mode Important WarningConnecting Sensors and Actuators to Input/Outputs Operating ModeImportant Warning Ana 1 p11Connecting External Thermistor to Analog Inputs Connecting External Thermistor to Analog InputsTemp oC Resistance kOhmUsing the Analog Inputs to Monitor External Voltages Connecting Sensors and Actuators to Input/OutputsAX1500 Motor Controller User’s Manual Connecting User Devices to Analog Inputs Internal Heatsink Temperature SensorsInternal Voltage Monitoring Sensors Connecting User Devices to Analog InputsTemperature Conversion C Source Code Connecting Sensors and Actuators to Input/OutputsAX1500 Motor Controller User’s Manual ValueInternal Heatsink Temperature Sensors AX1500 Motor Controller User’s Manualelse LoTemp = i * 5Connecting Sensors and Actuators to Input/Outputs AX1500 Motor Controller User’s ManualVersion 1.9b. June 1 Installing Connecting and Using the Encoder Module Optical Incremental Encoders OverviewOptical Incremental Encoders Overview AX1500 Motor Controller User’s ManualRecommended Encoder Types Installing, Connecting and Using the Encoder ModAX1500 Motor Controller User’s Manual Installing the Encoder Module Installing the Encoder ModulePulse Frequency in Hz = RPM / 60 * PPR AX1500 Motor Controller User’s ManualConnecting the Encoder Installing, Connecting and Using the Encoder ModAX1500 Motor Controller User’s Manual Cable Length and Noise Considerations Cable Length and Noise ConsiderationsName Cable ColorVoltage Levels, Thresholds and Limit Switches Motor - Encoder Polarity MatchingInstalling, Connecting and Using the Encoder Mod Important WarningWiring Optional Limit Switches Wiring Optional Limit SwitchesImportant Warning AX1500 Motor Controller User’s ManualInstalling, Connecting and Using the Encoder Mod When the switch is activated, the module’s input is pulled toAX1500 Motor Controller User’s Manual Wiring Limit Switches Without Encoders Effect of Limit SwitchesWiring Limit Switches Without Encoders Motor 1 FwdUsing the Encoder Module to Measure Distance Using the Encoder to Measure SpeedInstalling, Connecting and Using the Encoder Mod Motor 2 FwdUsing the Encoder to Track Position Important NoticeUsing the Encoder to Track Position AX1500 Motor Controller User’s ManualRS232 Communication with the Encoder Module Installing, Connecting and Using the Encoder ModImportant Notice Distance = Destination - Counter value / DividerEncoder Testing and Setting Using the PC Utility Encoder Testing and Setting Using the PC UtilityAX1500 Motor Controller User’s Manual Installing, Connecting and Using the Encoder Mod AX1500 Motor Controller User’s ManualVersion 1.9b. June 1 Closed Loop Position Mode Mode DescriptionSelecting the Position Mode Mode DescriptionPosition Sensor Selection Sensor MountingClosed Loop Position Mode Position Feedback Position Sensor Gear boxFeedback Potentiometer wiring Feedback Potentiometer wiring in RC or RS232 ModeFeedback Potentiometer wiring Important NoticeFeedback Potentiometer wiring in Analog Mode Closed Loop Position ModeImportant Notice AX1500 Motor Controller User’s ManualFeedback Wiring in RC or RS232 Mode on Single Channel Controllers Feedback Wiring in Analog Mode on Single Channel ControllersAnalog Feedback on Single Channel Controllers Important NoticeUsing Optical Encoders in Position Mode Sensor and Motor PolarityClosed Loop Position Mode Important WarningImportant Safety Warning Encoder Error Detection and ProtectionAdding Safety Limit Switches Encoder Error Detection and ProtectionClosed Loop Position Mode FIGURE 53. Safety limit switches interrupting power to motorsAX1500 Motor Controller User’s Manual Using Current Limiting as Protection Control Loop DescriptionUsing Current Limiting as Protection Important WarningPID tuning in Position Mode Closed Loop Position ModeAX1500 Motor Controller User’s Manual PID tuning in Position Mode Applied Power = Command Value - Actual Position * Proportional GainAX1500 Motor Controller User’s Manual Closed Loop Position Mode AX1500 Motor Controller User’s ManualVersion 1.9b. June 1 Closed Loop Speed Mode Selecting the Speed ModeUsing Optical Encoder for Speed FeedbackDigital Optical Encod Mode DescriptionTachometer wiring Tachometer or Encoder MountingClosed Loop Speed Mode AX1500 Motor Controller User’s ManualSpeed Sensor and Motor Polarity Important WarningSpeed Sensor and Motor Polarity AX1500 Motor Controller User’s ManualAdjust Offset and Max Speed Closed Loop Speed ModeImportant Warning Control Loop DescriptionPID tuning in Speed Mode PID tuning in Speed ModeAX1500 Motor Controller User’s Manual Closed Loop Speed Mode In Speed Mode, the Integral component of the PID is the most important and must be set first. The Proportional and Differential component will help improve the response time and loop stabilityAX1500 Motor Controller User’s Manual Normal and Fault Condition LED Messages Power On LEDDiagnostic LED Normal Operation Flashing PatternOutput Off / Fault Condition Normal and Fault Condition LED MessagesAX1500 Motor Controller User’s Manual SECTION 11 R/C Operation Mode DescriptionMode Description AX1500 Motor Controller User’s ManualSelecting the R/C Input Mode Connector I/O Pin Assignment R/C ModeSignal Pin1R/C Input Circuit Description Supplied Cable DescriptionSignal R/C Input Circuit DescriptionPowering the Radio from the controller FIGURE 64. RC Cable wiring diagramR/C Operation FIGURE 65. RC connection cablePowering the Radio from the controller 3 Channel 1 Command Pulses 4 Channel 2 Command Pulses6 Radio battery - Ground 7 Radio battery + 8 Channel 3 Command Pulses Wire loop bringing power from controller to RC radioConnecting to a Separately Powered Radio Operating the Controller in R/C modeR/C Operation AX1500 Motor Controller User’s ManualReception Watchdog Reception WatchdogAX1500 Motor Controller User’s Manual Important Notice about PCM Radios R/C Transmitter/Receiver Quality ConsiderationsJoystick Deadband Programming R/C OperationCommand Control Curves Command Control CurvesDeadband Parameter Value Deadband as Percent of full Joystick TravelLeft/Right Tuning Adjustment Activating the Accessory OutputsJoystick Calibration R/C OperationData Logging in R/C Mode Data Logging in R/C ModeAX1500 Motor Controller User’s Manual R/C Operation AX1500 Motor Controller User’s ManualDB15 Male To ControllerAnalog Control and Operation Mode DescriptionMode Description Important NoticeConnector I/O Pin Assignment Analog Mode SignalPin1 Analog Control and OperationConnecting to a Voltage Source Connecting a PotentiometerConnecting to a Voltage Source AX1500 Motor Controller User’s ManualSelecting the Potentiometer Value Important NoticeAnalog Deadband Adjustment Power-On Safety Under Voltage SafetyData Logging in Analog Mode Motor Power at 0%Data Logging in Analog Mode AX1500 Motor Controller User’s ManualAnalog Control and Operation AX1500 Motor Controller User’s ManualVersion 1.9b. June 1 Serial RS-232 Controls and Operation Use and benefits of RS232Use and benefits of RS232 AX1500 Motor Controller User’s ManualConnector I/O Pin Assignment RS232 Mode SignalPin1 Serial RS-232 Controls and OperationCable configuration Extending the RS232 CableCable configuration AX1500 Motor Controller User’s ManualCommunication Settings 9600 bits/s, 7-bit data, 1 Start bit, 1 Stop bit, Even ParityEstablishing Manual Communication with a PC Serial RS-232 Controls and OperationRS232 Communication with the Encoder Module Establishing Manual Communication with a PCRoboteq v1.9b 06/01/07 s AX1500 Motor Controller User’s ManualEntering RS232 from R/C or Analog mode Data Logging String in R/C or Analog modeSerial RS-232 Controls and Operation AX1500 Motor Controller User’s ManualCommands Acknowledge and Error Messages RS232 Mode if defaultCommand Acknowledgement Command ErrorController Commands and Queries RS-232 WatchdogCommand Serial RS-232 Controls and OperationSet Motor Command Value Set Accessory OutputController Commands and Queries CommandQuery Power Applied to Motors Query Amps from Battery to each Motor ChannelImportant Notice Important NoticeQuery Heatsink Temperatures Query Battery VoltagesQuery Analog Inputs Controller Commands and QueriesReset Controller Query Digital InputsSerial RS-232 Controls and Operation SyntaxAccessing & Changing Configuration Parameter in Flash Apply Parameter ChangesAccessing & Changing Configuration Parameter in Flash Read parameterFlash Configuration Parameters List Serial RS-232 Controls and OperationLocation DescriptionInput Control Mode Motor Control ModeAccessing & Changing Configuration Parameter in Flash AccessAmps Limit AccessAfter Reset or FF Serial RS-232 Controls and OperationInput Switches Function AccelerationAccessing & Changing Configuration Parameter in Flash AccessRC Joystick or Analog Deadband Exponentiation on Channel 1 and ChannelAccess After Reset or FFLeft/Right Adjust Default Encoder Time Base 1 andAccessing & Changing Configuration Parameter in Flash AccessDefault Encoder Distance Divider Default PID GainsJoystick Min, Max and Center Values AccessReading & Changing Operating Parameters at Runtime Reading & Changing Operating Parameters at Runtime1C - Joystick Max 2 MS 1D - Joystick Max 2 LS Effective Instantly DefinitionOperating Modes Registers Read/Change PID ValuesAccess Important NoticePWM Frequency Register Controller Status Register87 - D2 Access Read/Write Effective Instantly Address Access Read/Write Effective InstantlyController Identification Register Current Amps Limit RegistersFault Condition AccessRS232 Encoder Command Set Set/Reset Encoder Counters and Destination RegistersRead Encoder Counter RS232 Encoder Command SetRead Speed q or !Q nSyntax AX1500 Motor Controller User’s ManualRead Encoder Limit Switch Status Read DistanceRead Speed/Distance RS232 Encoder Command SetImportant Note Read / Modify Encoder Module Registers and ParametersSwitch SwitchRS232 Encoder Command Set AccessModify parameter AddressSwitch Status Register DescriptionEncoder Hardware ID code Speed or Distance 1 orCounter Read/Write Mailbox Counter 1 andDestination Register 1 and Register DescriptionDistance 1 and Speed 1 andTime Base 1 and Encoder ThresholdCounter Read Data Format Encoder Testing and Setting Using the PC UtilityCounter Read Data Format DecimalAX1500 Motor Controller User’s Manual Version 1.9b. June 1Automatic Switching from RS232 to RC Mode Automatic Switching from RS232 to RC ModeAX1500 Motor Controller User’s Manual 00 11 22 33 44 55 66 77 88 99 AA BB CC Analog and R/C Modes Data Logging String FormatData Logging Cables AX1500 Motor Controller User’s ManualDecimal to Hexadecimal Conversion Table Decimal to Hexadecimal Conversion TableAX1500 Motor Controller User’s Manual AX1500 Motor Controller User’s Manual Decimal to Hexadecimal Conversion Table AX1500 Motor Controller User’s ManualAX1500 Motor Controller User’s Manual Version 1.9b. June 1SECTION 14 Using the Roborun Configuration Utility Downloading and Installing the UtilitySystem Requirements AX1500 Motor Controller User’s ManualConnecting the Controller to the PC Using the Roborun Configuration UtilityAX1500 Motor Controller User’s Manual Roborun Frame, Tab and Menu Descriptions 3- Parameter Selection and Setting and Special FunctionsRoborun Frame, Tab and Menu Descriptions 1- Program Revision NumberGetting On-Screen Help Loading, Changing Controller ParametersUsing the Roborun Configuration Utility 4- File and Program Management CommandsControl Settings 2- Motor Control Mode3- Input Command Adjustment Loading, Changing Controller ParametersPower Settings Using the Roborun Configuration Utility4- Emergency Stop or Invert Switch Select 2- Left/Right AdjustAnalog or R/C Specific Settings Loading, Changing Controller Parameters1- Deadband 2- Joystick TimingEncoder Setting and Testing Closed Loop ParametersUsing the Roborun Configuration Utility AX1500 Motor Controller User’s ManualEncoder Module Parameters Setting Encoder Setting and TestingAX1500 Motor Controller User’s Manual Running the Motors Exercising the MotorsViewing Encoder Data Using the Roborun Configuration Utility2- Motor Power setting Running the Motors1- Run/Stop Button 3- MeasurementUsing the Roborun Configuration Utility 4- Real-Time Strip Chart Recorder6- Input Status and Output Setting 5- Transmit and Receive DataLogging Data to Disk Running the Motors 7- Data Logging and Timer8- Joystick Enable 4- Reset Timer buttonUsing the Console Connecting a JoystickUsing the Roborun Configuration Utility Parameter HeaderUsing the Console 2- Command Entry1- Terminal Screen 3- Keep Watchdog AliveOperating the AX1500 over a Wired or Wireless LAN Viewing and Logging Data in Analog and R/C ModesLoading and Saving Profiles to Disk Using the Roborun Configuration Utility 4- Send Reset StringOperating the AX1500 over a Wired or Wireless LAN AX1500 Motor Controller User’s ManualUpdating the Controller’s Software Updating the Encoder SoftwareUsing the Roborun Configuration Utility Important WarningCreating Customized Object Files Creating Customized Object FilesAX1500 Motor Controller User’s Manual Using the Roborun Configuration Utility AX1500 Motor Controller User’s ManualVersion 1.9b. June 1 Mechanical Specifications Mechanical DimensionsMechanical Dimensions AX1500 Motor Controller User’s ManualMounting Considerations Thermal ConsiderationsMechanical Specifications AX1500 Motor Controller User’s ManualAttaching the Controller Directly to a Chassis Attaching the Controller Directly to a ChassisAX1500 Motor Controller User’s Manual Precautions to observe Mechanical SpecificationsAX1500 Motor Controller User’s Manual Wire Dimensions WeightWire Dimensions AX1500 Motor Controller User’s ManualMechanical Specifications AX1500 Motor Controller User’s ManualVersion 1.9b. June 1