RoHS-Compliant -Phase Stepping Motor and Package RBK Series Microstep Drive -phase stepping motor and DC input microstep driver in one package. Includes Oriental Motor's proprietary Smooth Drive Function, to easily achieve low-vibration operation.
Adopting a Compact and High Performance Microstep -Phase Stepping Motor and Package RBK Series -phase stepping motor and DC input microstep driver in one package. Includes Oriental Motor's proprietary Smooth Drive Function, to easily achieve low-vibration operation. Smooth Drive Function The Smooth Drive Function is a function that automatically controls the motor's microstep drive operation at the same travel and speed in the full-step mode, without the operator having to change the speed settings of the driver's pulse input. It enables the low-vibration operation available with the microstepping drive to be achieved with the flick of a switch. Vibration Component Voltage Vp-p[V] RBKT Power Input: VDC Load Inertia: JL= kg m.. 1. 1.. Smooth Drive Function: Deactivated Smooth Drive Function: Activated Microstep Function The microstepping driver electronically divides the basic step angle of the motor (1. /step) by up to 1 without the use of a reduction mechanism or other mechanical element. 1 different resolutions are available. The available range of setting is resolution (1. /step) to (.1 /step). The step angle can be easily set using the built-in switches to the driver. This function enables low-vibration and low-noise equipment. Vibration Component Voltage Vp-p[V] RBKT Power Input: VDC Load Inertia: JL= kg m.. 1. 1.. 1 3 1 3
Third Harmonic Waveform Correction Function This function corrects motor drive current waveforms. It provides improved angle accuracy and reduced vibrations. Vibration Component Voltage Vp-p[V] RBKT Power Input: VDC Load Inertia: JL= kg m.. 1. 1.. Third Harmonic Waveform Correction Function: % Third Harmonic Waveform Correction Function: -% 1 3 Vibration Suppression Function This function improves vibrations at medium speed range of the stepping motor. It enables reduced risk of missteps due to vibrations. Vibration Component Voltage Vp-p[V] RBKT Power Input: VDC Load Inertia: JL= kg m.. 1. 1.. PULLOUT Vibration Suppression Function: Deactivated Vibration Suppression Function: Activated Conforming to Major Safety Standards The RBK Series is UL-recognized and CSA-certified. It also bears the CE Mark as a proof of conformance to the Low Voltage Directives. RoHS-Compliant The RBK Series conforms to the RoHS Directive that prohibits the use of six chemical substances including lead and cadmium. RoHS (Restriction of Hazardous Substances) Directive: Directive on restriction of the use of certain hazardous substances in electrical and electronic equipment (/9/EC). The RoHS Directive prohibits the use of six chemical substances in electrical and electronic products sold in the EU member states. The six controlled substances are: lead, hexavalent chromium, cadmium, mercury and two specific brominated flame-retardants (PBB and PBDE). The motor conforms to the IP standard of ingress protection against dust and water. Terminal-Block Connection Design The motor can be wired directly from its terminal block. 1 1 3 Adoption of Wide Voltage Range The RBK Series adopts a constant current driver with a wide voltage range of to 7 VDC and. A/phase effective value (.3 A/phase peak value). This enables it to support a wide range of power sources. RBKT equips a constant current driver with a voltage range of to 7 VDC and. A/phase effective value (.9 A/ phase peak value). Comparison of Speed - Torque Characteristics Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm VDC Input 7 VDC Input Terminal Box No Motor/ Relay Since the motor cable can be connected directly with the driver terminals, there is no need for wire connection or soldering on a relay terminal block. Motor 3 1 1 1 Raising the power supply voltage enables increased torque at high-speed operation. Cable (The cable for connecting the motor and driver must be purchased separately.) 3
System Configuration An example of system configuration with the SG3JY controller. (Sold separately) ( Page 1) VDC Power Supply (Not supplied) Programmable RBK Series (Body) (Not supplied) 1 (The D-Sub (1-pin) connector for connecting to the driver's CN1 connector is not included. It must be purchased separately.) Motor (The cable for connecting the motor and driver must be purchased separately.) 7 VDC Power Supply (Not supplied. Available input voltage differs according to each product. See the Specifications for details.) Selectable Accessories and Peripheral Equipment (Sold separately) Mounting Brackets ( Page 1) Flexible Couplings ( Page 1) DIN Rail Mounting Plate ( Page 1) No. Product Name Overview Page Mounting Brackets This controller outputs pulse commands that determine the rotating amount and rotating speed. Dedicated mounting bracket for the motor. 1 1 Flexible Couplings DIN Rail Mounting Plate Coupling that connects the motor shaft to the mating shaft. Use this plate when installing the driver to a DIN rail. 1 1 Example of System Configuration (Body) (Sold separately) RBK Series RBKT SG3JY-U Mounting Bracket Flexible Coupling PALP- MCSF The system configuration shown above is an example. Other combinations are available.
Safety Standards and CE Marking Model Standards Certification Body Standards File No. CE Marking Motor UL 1, UL 111 CSA C. No.77 CSA C. No.1 EN 3-1 EN 3- EN 9 IEC -1 UL C CSA C. No.1 UL E199 EN 17 Low Voltage Directives EMC Directives UL E171 Low Voltage Directives EMC Directives Maximum Surrounding Air Temperature for UL: C (UL C) When the system is approved under various safety standards, the model names in the motor and driver names are the approved model names. The package is declared voluntary compliance with the EMC Directive. The EMC Directive value changes according to the wiring and layout. Therefore, the final EMC level must be checked with the motor/driver incorporated in the user s equipment. Product Number Code RBK T q w e r t Series RBK: RBK Series : -Phase Motor Frame Size :. mm 9: mm Motor Case Length Motor Classification Product Line Frame Size. mm mm Model (Single Shaft) RBKT RBKT RBKT RBK9T RBK99T RBK913T The following items are included in each product. Motor,, Operating Manual The cable for connecting the motor and driver, and the D-Sub (1-pin) connector for connecting to the driver's CN1 connector are not included. They must be purchased separately.
Motor Frame Size. mm Specifications Model Single Shaft RBKT RBKT RBKT Maximum Holding Torque 1 Nm. 1.17 1.7 Rotor Inertia J: kgm 11-7 31-7 1-7 Rated Current A/Phase. Basic Step Angle 1. Power Source 7 VDC.9 A Excitation Mode Microstep Degree of Protection Motor: IP : IP Mass Motor kg..9 1. kg.3 Dimension No. Motor 1 3 1 The holding torque (-phase: -phase excitation) is the maximum holding power (torque) the motor has when power is being supplied but the motor shaft is not rotating (rated current). The driver's automatic current cutback function at motor standstill reduces maximum holding torque by approximately %. Excluding the gap between the shaft and the flange. Speed Torque Characteristic : Maximum Starting Frequency VDC Input RBKT Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm....3..1 1 1 3 3 1 Resolution 1 () () () (1)(Resolution 1) RBKT Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 1. 1..... 1 1 3 () () () () () 1 Resolution 1 (1) (Resolution 1) RBKT Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm. 1. 1. 1. 1. 1..... 1 1 3 () () () () () 1 Resolution 1 (1)(Resolution 1) VDC Input RBKT Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm....3..1 1 3 7 () 1 () (1) Resolution 1 ()(Resolution 1) RBKT Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 1. 1..... 1 1 3 3 () () () 1 Resolution 1 (1) (Resolution 1) RBKT Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm. 1. 1. 1. 1. 1..... 1 1 3 3 () () () 1 Resolution 1 (1) (Resolution 1) 7 VDC Input RBKT Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm....3..1 1 3 7 () 1 () (1) Resolution 1 ()(Resolution 1) RBKT Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 1. 1..... 1 3 7 () 1 () (1) Resolution 1 ()(Resolution 1) RBKT Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm. 1. 1. 1. 1. 1..... 1 3 () () 1 (1) The pulse input circuit responds to khz with a pulse duty of %. Notes: Pay attention to heat dissipation from motor as there will be a considerable amount of heat under certain conditions. Be sure to keep the temperature of the motor case under 1 C. (Under 7 C is required to comply with UL or CSA Standards as the motor is recognized as insulation class A.) The driver's automatic current cutback function at motor standstill reduces maximum holding torque by approximately %. 1 (1) Resolution 1 ()(Resolution 1)
Motor Frame Size mm Specifications Model Single Shaft RBK9T RBK99T RBK913T Maximum Holding Torque 1 Nm... Rotor Inertia J: kgm 11-7 71-7 1-7 Rated Current A/Phase. Basic Step Angle 1. Power Source 7 VDC. A Excitation Mode Microstep Degree of Protection Motor: IP : IP Mass Motor kg.1 3..3 kg.3 Dimension No. Motor 3 1 The holding torque (-phase: -phase excitation) is the maximum holding power (torque) the motor has when power is being supplied but the motor shaft is not rotating (rated current). The driver's automatic current cutback function at motor standstill reduces maximum holding torque by approximately %. Excluding the gap between the shaft and the flange. Speed Torque Characteristic : Maximum Starting Frequency VDC Input RBK9T 1 Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 3... 1. 1.. 1 1 Resolution 1 () () () () (Resolution 1) RBK99T 1 Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 3 1 1 1 () () Resolution 1 () (Resolution 1) RBK913T 1 1 Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 7 3 1 1 1 3 Resolution 1 () (1) () (3) (Resolution 1) VDC Input RBK9T 1 Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 3... 1. 1.. 1 1 3 3 () () () 1 Resolution 1 (1) (Resolution 1) RBK99T 1 Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 3 1 1 1 3 () () Resolution 1 () (Resolution 1) RBK913T 1 1 Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 7 3 1 1 1 Resolution 1 () () () (Resolution 1) 7 VDC Input RBK9T 1 Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 3... 1. 1.. 1 3 1 1 Resolution 1 () () (1) (1) (Resolution 1) RBK99T 1 Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 3 1 1 1 3 3 () () () 1 Resolution 1 (1)(Resolution 1) RBK913T 1 1 Current:. A/Phase ( Phases ) Step Angle: 1. /step Load Inertia: JL= kgm 7 3 1 1 1 Resolution 1 () () () () (Resolution 1) The pulse input circuit responds to khz with a pulse duty of %. Notes: Pay attention to heat dissipation from motor as there will be a considerable amount of heat under certain conditions. Be sure to keep the temperature of the motor case under 1 C. (Under 7 C is required to comply with UL or CSA Standards as the motor is recognized as insulation class A.) The driver's automatic current cutback function at motor standstill reduces maximum holding torque by approximately %. 7
Specifications Input s Output s Functions Cooling Method Input Mode Pulse Rotation Direction All Windings Off Step Angle Select Output Mode Current Cutback Alarm Excitation Timing General Specifications Insulation Class Insulation Resistance Dielectric Strength Operating Environment (In Operation) Photocoupler Input PLS signal, DIR signal: Input resistance Input current ma Photocoupler "": 3. V Photocoupler "": 1 V (Line driver input:.1 V) (Voltage between terminals) PLS signal, DIR signal: Input resistance.7 k Input current ma Photocoupler "": 1.. V Photocoupler "": 1 V (Voltage between terminals) All windings off signal, Step angle select signal: Input resistance 3 k Input current ma or less Photocoupler "":.. V Photocoupler "": 1 V (Voltage between terminals) Operation command pulse signal Negative logic pulse input Pulse width: s minimum (Line driver input: 1 s minimum), Pulse rise/fall: 1 s maximum Pulse duty % and below The motor moves one step when the pulse input is switched from photocoupler to. Maximum input pulse frequency khz (Line driver input: khz) (When the pulse duty is %) Rotation direction signal, Photocoupler "": CW, Photocoupler "": CCW Negative logic pulse input When in the "photocoupler " state, the output current to the motor is cut off and the motor shaft can be rotated manually. When in the "photocoupler " state, the output current to the motor is turned on. When in the "photocoupler " state, the motor operates with the basic step angle, regardless of the setting of the step angle setting switch. When in the "photocoupler " state, the motor operates with the step angle set with the step angle setting switch. Photocoupler, Open-collector output External use condition: 3 VDC maximum, 1 ma maximum When the automatic current cutback function is activated, the output turns on. (Photocoupler "") When one of the driver's protective functions is activated, the output turns off. (Photocoupler "") The signal is output every time the excitation sequence returns to the initial stage "." (Photocoupler "") Example) 1. /step (1 resolution): output every pulses. /step ( resolutions): output every 1 pulses Third Harmonic Waveform Correction, Smooth Drive, Vibration Suppression, Automatic Current Cutback, Step Angle Select, All Windings Off, Excitation Timing Natural ventilation Specifications Motor Class B (13 C) [Recognized as class A (1 C) by UL/CSA Standard] 1 M or more when VDC megger is applied between the motor windings and the case under normal ambient temperature and humidity. Sufficient to withstand 1. kv at Hz or Hz applied between the motor windings and the case for 1 minute under normal ambient temperature and humidity. Ambient Temperature 1 C (non-freezing) C (non-freezing) Ambient Humidity % or less (non-condensing) Atmosphere Not exposed to corrosive gases No corrosive gases, dust, water or oil. Temperature rise of the windings is C or less measured by the change resistance method. (at rated current, at standstill, two phases energized) RBKT: when equipped with an aluminum heat sink of mm, 1 mm thick Temperature Rise To comply with UL or CSA Standards, make sure the temperature rise of the windings is C or less, by mounting the motor to a heat sink (material: aluminum) of the following size. RBKT: mm, 1 mm thick RBK9T: mm, 1 mm thick Stop Position Accuracy 1 3 arc minutes (. ) Shaft Runout. mm T.I.R. Radial Play. mm max. of N Axial Play 3.7 mm max. of 1 N Concentricity.7 mm T.I.R. Perpendicularity.7 mm T.I.R. 1 This value is for full step under no load. (The value changes with the size of the load.) Radial Play: Displacement in shaft position in the radial direction, when a N load is applied in the vertical direction to the tip of the motor's shaft. 3 Axial Play: Displacement in shaft position in the axial direction, when a 1 N load is applied to the motor's shaft in the axial direction. T.I.R. (Total Indicator Reading): The total dial gauge reading when the measurement section is rotated one revolution centered on the reference axis center. Note: Do not measure insulation resistance or perform the dielectric strength test while the motor and driver are connected..7. A A Permissible Overhung Load and Permissible Thrust Load RBKT RBKT RBKT RBK9T RBK99T RBK913T Model Permissible Overhung Load [N] Distance from Shaft End [mm] 1 1 7 9 13 9 3 39 The permissible thrust load is equal to the motor mass (unit: kg). Make sure the thrust load is no greater than the motor mass. Permissible Thrust Load..9 1..1 3..3.7 A
Dimensions (Unit = mm) Motor 1. mm Model Motor Model L Mass kg RBKT PKD1T 3. RBKT PKD1T 9.9 RBKT PKD1T 1 1. M3 3.7 L 1. 1 1...1.. Thru 7.1.3 1.3.7.3.1 3.1.3 7.1.3. max. M 1 Protective Earth Terminal M 1.3 7 max. Use cable (VCT) with a diameter of 713 mm. The cable must be purchased separately. mm Model Motor Model L Mass kg RBK9T PK9DT 11.1 RBK99T PK99DT 1 3. RBK913T PK913DT 17.3 M3 L. 1 371 13.1 1.1(h7) 9..3. Thru 9.3 1.3. 73..3 9..3 113 max. M 1 Protective Earth Terminal M 1.3 7 max. Use cable (VCT) with a diameter of 713 mm. The cable must be purchased separately. 3 Model: RBDA-V, RBDA-V 3 3M3 1 max. 3. 9 1 1 13 7. 1 max. M 1 1 9
Connection and Operation Names and Functions of Parts (Top) 3 Motor Run Current Switch Step Angle Select Switch 1 Monitor Displays Input/Output s Function Switch, Motor Stop Current Switch Motor Terminals Power Input Terminals (Front) Protective Earth Terminals 1 Monitor Display LED Indicators Indication Color Function POWER Green Power input display ALARM Red Alarm signal output display Alarm Blink Count Function Condition Overheat The driver temperature exceeded the specified value. 3 Overvoltage The primary voltage of the driver's inverter exceeded the permissible value. Overcurrent An excessive current has flowed to the driver's inverter. Function Switch, Motor Stop Current Switch Indication Switch Name Function SW1 SW-1 SW- Third Harmonic Waveform Correction Function Select Switch Smooth Drive Function Switch Vibration Suppression Function Select Switch A function that provides improved angle accuracy and reduced vibrations by optimizing the motor drive current waveforms. You can set the correction value using the select switch. Low vibration and low noise operation are available even in the low speed range without changing the step angle setting. The function can be set and deactivated with this switch. A function that provides reduced vibrations at medium speed operation. The function can be set or deactivated with this switch. SW-3 Not used. SW- Motor Stop Current Switch For adjusting the current at motor standstill Step Angle Setting Switch Indication Switch Name Function DATA Step Angle Setting Switch The switch can be set to the desired resolution from the 1 resolution levels. Step Angle Setting Switch Microstep/Step Resolution Step Angle 1 1. 1.9. 3 1.3 1. 9 1. 1.1 7 1 3.11 1 3.1 9.9 A 3. B 3 7. C. D 1.1 E 1. F 1.1 The step angle set with the step angle setting switch is enabled when the step angle select (CS) signal input turns off. Do not change the step angle select signal input or step angle setting switch while the motor is running. This may cause the motor to misstep and stop. Set the step angle setting switch when the step angle select signal input is turned off, and the excitation timing output is turned on. 3 Motor Run Current Switch Indication Switch Name Function RUN Motor Run Current Switch For adjusting the motor running current Input/Output Input/ Indication Content Function Output 1 PLS PLS Pulse Operation command pulse signal 9 PLS 3 DIR Input 1 DIR Rotation Direction Rotation direction signal Photocoupler "": CCW, Photocoupler "": CW 11 DIR AWO All Windings Off Cuts the output current to the motor and allows the motor shafts to be rotated by external force. CN1 1 CS Step Angle Select Operates with the basic step angle, regardless of the DATA setting. IN-COM Input Common Input common for the All Windings Off signal and Step Angle Select signal. 13 CD Current Cutback Outputs a signal when the automatic current cutback function activates. CD 1 ALM Output Alarm Turns the output off when one of the driver's protective functions is activated. 7 ALM 1 TIM Excitation Timing Outputs signals when the excitation sequence is at STEP "." TIM The cable for connecting the motor and driver, and the D-Sub (1-pin) connector for connecting to the driver's CN1 connector are not included. They must be purchased separately. Description of input/output signals Page 1 1
Connection Diagrams VDC Connection or Line Input V ( VDC) V V V ( VDC to VDC) CN1 Twisted-Pair Wire 1 Pulse 9 Rotation Direction 3 All Windings Off 11 Step Angle Select 1 Input Common Current-Cutback 13 1 Alarm 7 Excitation Timing VDC Connection V ( VDC) V V ( VDC to VDC) V CN1 Twisted-Pair Wire Pulse Excitation Timing 1 9 Rotation Direction 1 All Windings Off 11 Step Angle Select 1 Input Common Current-Cutback 13 1 Alarm 7 1 Input s Output s Input s Output s Motor Connections RBKT, RBKT, RBKT Internal Protective Earth Terminal (M) Protective Earth Conductor [AWG1 (.7 mm ) or thicker] Multi-Core Cable [Outer Diameter: 7 to 13 mm] A A B B VDC GND A A B B VDC GND Motor Lead Wires [AWG to 1 (.3 to 1. mm )] External Protective Earth Terminal Stepping Motor Refer to the table below for the connection between the driver motor terminals and the motor leads/motor terminal blocks. to 7 VDC or to VDC GND Stepping Motor Protective Earth Conductor [AWG1 (.7 mm ) or thicker] Refer to the table below for the connection between the driver motor terminals and the motor leads/motor terminal blocks. to 7 VDC or to VDC GND Pulse (PLS) and Rotation Direction (DIR) Input Connections You can select either VDC or VDC as the signal voltage for PLS input and DIR input. Line driver input is also available. The pin No. to connect differs according to the signal voltage. All Windings Off (AWO) and Step Angle Select (CS) Input Connections You can select either VDC or VDC as the signal voltage. The pin No. to connect is the same for VDC and VDC. Connecting Output Keep the output signal voltage and current below 3 VDC and 1 ma respectively. Power Supply Use a power supply that can supply sufficient input current. When power supply capacity is insufficient, a decrease in motor output can cause the following malfunctions: Motor does not operate properly at high-speed. Slow motor startup and stopping. Notes on Wiring Use twisted-pair wires of AWG (.1 mm ) or thicker and m or less in length for the signal lines. Note that as the length of the pulse signal line increases, the maximum transmission frequency decreases. Use wires of AWG1 (.7 mm ) or thicker for motor lines (when extended), power supply lines, and protective earthing line. To ground the driver, lead the ground conductor from the protective earth terminal (M) and connect the ground conductor to provide a common ground point. lines should be kept at least cm away from power lines (power supply lines and motor lines). Do not bind the signal lines and power lines together. If noise generated by the motor cable or power cable becomes a problem due to the wiring and layout, shield the cables or use ferrite cores. Incorrect connection of DC power input will lead to driver damage. Make sure that the polarity is correct before turning power on. The cable for connecting the motor and driver, and the D-Sub (1-pin) connector for connecting to the driver's CN1 connector are not included. They must be purchased separately. Motor Terminals and Motor Leads/Motor Terminal Blocks Name Content Terminal Block No. for RBK Terminal Block No. for RBK9 A A-Phase Output 1 A A-Phase Output 3 B B-Phase Output B B-Phase Output Connect motor lead wires to the terminals to. 1 3 Connect either the internal protective earth terminal or external protective earth terminal to the ground. RBK9T, RBK99T, RBK913T Terminal Block Internal Protective Earth Terminal (M) Protective Earth Conductor [AWG1 (.7 mm ) or thicker] Multi-Core Cable [Outer Diameter: 7 to 13 mm] Motor Lead Wires [AWG to 1 (.3 to 1. mm )] External Protective Earth Terminal Protective Earth Conductor [AWG1 (.7 mm ) or thicker] Terminals 1,,, and are used. Terminals, 3,, and 7 are not used. Do not connect anything to them. 1 3 7 Connect either the internal protective earth terminal or external protective earth terminal to the ground. 11
Description of Input/Output s Indication of Input/Output """" Input (Output) "" indicates that the current is sent into the photocoupler (transistor) inside the driver. Input (Output) "" indicates that the current is not sent into the photocoupler (transistor) inside the driver. The input/output remains "" if nothing is connected. Photocoupler Pulse Waveform VDC or VDC Connection 1 9% Pulse Input 1% s s min. min. 1 s 1 s min. min. Pulse (PLS), Rotation Direction (DIR) Input You can select either VDC or VDC as the signal voltage for PLS input and DIR input. Line driver input is also available. Input Circuit and Sample Connection VDC Connection Open-Collector Output V 1, 3 Ω V VDC Connection Open-Collector Output V V Line Input Line Output 9, 11, 1 9, 11 1, 3 9, 11 ma.7 kω ma ma Rotation Direction Input 1 s max. 1 s max. Line Input Pulse Input Rotation Direction Input 9% 1% CCW Pulse duty: % and below 1 1 s min. 1 s min. 1 s max. 1 s max. CCW 1 s 1 s min. min. Pulse duty: % and below 1 The shaded area indicates when the photocoupler diode is. The motor moves when the photocoupler state changes from to. The minimum interval time when changing rotation direction 1 s is shown as a response time of circuit. This value varies greatly depending on the motor type and load inertia. Pulse Characteristics Keep the pulse signal at the "photocoupler " state when no pulses are being input. Leave the pulse signal at rest ("photocoupler ") when changing rotation directions. All Windings Off (AWO), Step Angle Select (CS) Input Input Circuit and Sample Connection Open-Collector Output V 3 kω CW CW V, 1 ma All Windings Off (AWO) Input Inputting this signal puts the motor in a non-excitation (free) state. This signal is used when turning the motor by external force or manual home position is desired. The photocoupler must be "" when operating the motor. All Windings Off Motor Current Motor Holding Torque Release Switching the "All Windings Off" signal from "photocoupler " to "photocoupler " does not alter the excitation sequence. When the motor shaft is manually adjusted with the "AWO" signal input, the shaft will shift up to 3. from the position set after the "AWO" signal is released. 1
Step Angle Select (CS) Input When the signal is at "photocoupler," the motor operates with the basic step angle, regardless of the setting of the step angle setting switch. When the signal is at "photocoupler," the motor operates with the step angle set with the step angle setting switch. When changing the step angle, make sure the "Excitation Timing" signal output is turned on and the motor is at standstill. Current Cutback (CD), Alarm (ALM), Timing (TIM) Output Output Circuit and Sample Connection V V 13, 1, 1, 7, 1 ma max. Current Cutback (CD) Output When the automatic current cutback function is activated, the CD output turns on. Alarm (ALM) Output 1 3 1 3 Interval Timing (TIM) Output The "Excitation Timing" signal is output to indicate when the motor excitation (current flowing through the winding) is in the initial stage (step "" at power up). The "Excitation Timing" signal is output simultaneously with a pulse input each time the excitation sequence returns to step "." The excitation sequence will complete one cycle for every 7. rotation of the motor output shaft. Resolution 1: is output once every pulses. Resolution : is output once every 1 pulses. 1 3 7 9 1 11 1 131 Pulse Input Rotation Direction Input Timing Output CW CCW (Step) 1 3 1 3 1 3 1 Notes: When power is turned, the excitation sequence is reset to step "" and the "Excitation Timing" signal is output. When using the "Excitation Timing" signal output, operate the motor so that its output shaft stops at an integral multiple of 7...3 s.3 s 1. s When the motor is running, if the driver overheat, overvoltage, or overcurrent protective function is detected, the ALM output turns off, and the ALARM LED of the driver flashes. The current to the motor is also cut off to stop the motor. You can count the number of times the ALARM LED flashes to confirm which protective function is activated. This signal normally stays on, but turns off when a protective function is activated. Timing Chart CW Motor CCW Power Input Pulse Input Rotation Direction Input All Windings Input Step Angle Switch Input Current-Cutback Output Alarm Output Excitation Timing Output. s min. s min. 1 µs min. 1 1 3 3 µs min. 3 µs min. DATA Basic Step Angle. s max.. s max.. s max.. s max.. s max. 1 The switching time to change direction 1 s is shown as the response time of the circuit. The motor may need more time. Depends on load inertia, load torque, and starting frequency. 3 Never input a step pulse signal immediately after switching the "All Windings Off" signal input to the "" state. The motor may not start. To cycle the power, turn off the power and then wait for at least five seconds after the POWER LED has turned off. "Excitation Timing" signal is output once every 7. rotation of the motor output shaft. The minimum interval time needed for switching the direction of rotation will vary, depending on the operating speed and size of the load. Do not shorten the interval time any more than is necessary. The section indicates that the photocoupler diode is emitting light. 13
List of Motor and Combinations Model names for motor and driver combinations are shown below. Model Motor Model Model RBKT PKD1T RBDA-V RBKT PKD1T RBDA-V RBKT PKD1T RBDA-V RBK9T PK9DT RBDA-V RBK99T PK99DT RBDA-V RBK913T PK913DT RBDA-V Flexible Couplings (Sold separately) A flexible coupling ideal for your motor is available. Once you have decided on a motor and gear, you can select the recommended coupling easily. All motor shaft diameters are available. Features of MCS Couplings This three-piece coupling adopts an aluminum alloy hub and a resin spider. The simple construction ensures that the high torque generated by a geared motor can be transmitted reliably. The proper elasticity of the spider suppresses motor vibration. A spider (material: polyurethane) controls the vibration generated by the motor. No backlash Product Number Code MCS 3 F q w e r MCS Couplings Outer Diameter of Coupling Inner Diameter d1 (Smaller Side) (F represents.3 mm) Inner Diameter d (Larger Side) (F represents.3 mm) Coupling Selection Table Applicable Motor Model RBKT RBKT RBKT RBK9T RBK99T RBK913T Motor Shaft Diameter (mm).3.3 1 1 Coupling Model MCSF MCSF MCSFF MCSF MCSF1 MCS3F MCS3FF MCS3F MCS3F1 MCS311 MCS311 MCS311 MCS311 MCS11 MCS11 MCS11 MCS11 Connected Device Shaft Diameter (mm).3 1.3 1 1 1 1 1 1 1 1 1 1
Mounting Brackets (Sold separately) Mounting brackets are convenient for installation and securing a stepping motor. Product Line Material: Aluminum alloy Model Applicable Product PALP- RBKT, RBKT, RBKT PALP- RBK9T, RBK99T, RBK913T The mounting bracket base is built with holes large enough to allow for alignment adjustments in the horizontal direction. These mounting brackets can be perfectly fitted to the pilot of the stepping motors. DIN Rail Mounting Plate (Sold separately) (Available when the input voltage to the driver is VDC or less) This mounting plate is convenient for installing the driver of RBK Series on DIN rails with ease. Note: If the driver's input power-supply voltage exceeds VDC, do not install the driver onto a DIN rail. Sufficient heat dissipation cannot be achieved and the driver's overheat protective function may be activated as a result. In such a case, install the driver onto a metal plate directly. Model: PADP1 (Sold separately) for Stepping Motor SG3JY All operations including data setting can easily be performed using the four touch pads on the top panel. In addition, the number of signal lines is reduced to a minimum for easy connection. Jerk limiting control function suppresses motor drive vibrations Sequential-step positioning operation/external signal operation possible Maximum oscillating frequency of khz 1-pulse output/-pulse output mode select possible Product Line Type DIN Rail Mounting Model Recessed Mounting Model DIN Rail Mounting Model Model SG3JY-D SG3JY-U Step No. 1 Step No. Step No. 3 Recessed Mounting Model Step No. Sequential-Step Positioning 1
This product is manufactured at a plant certified with the international standards ISO 91 (for quality assurance) and ISO 11 (for systems of environmental management). Specifications are subject to change without notice. This catalogue was published in May, 7. ORIENTAL MOTOR (EUROPA) GmbH ORIENTAL MOTOR (UK) LTD. ORIENTAL MOTOR ITALIA s.r.l. www.orientalmotor.de European Headquarters and Düsseldorf Office Schiessstraße 7 9 Düsseldorf, Germany Tel: 11-7 Fax: 11-799 Munich Office Liebigstraße 1 77 Karlsfeld, Germany Tel: 131-9 Fax: 131-9 Hamburg Office Meckelfelder Weg 179 Hamburg, Germany Tel: -7913 Fax: -791 Jena Office Wildenbruchstr 1 77 Jena, Germany Tel: 31-7 Fax: 31-7 Stuttgart Office Tel: 733-93 Fax: 733-9 www.oriental-motor.co.uk Unit, Faraday Office Park, Rankine Road, Basingstoke, Hampshire RG AH U.K. Tel: 1-379 Fax: 1-3799 ORIENTAL MOTOR (FRANCE) SARL France Headquarters www.orientalmotor.fr 3, Avenue de I'ile Saint Martin 9737 Nanterre Cedex, France Tel: 1 7 97 Fax: 1 7 1 Lyon Office 1, Allée des Sorbiers 973 Bron Cedex, France Tel: 7 1 1 Fax: 7 1 1 9 Italy Headquarters ORIENTAL MOTOR CO., LTD. www.orientalmotor.it Via A. De Gasperi, 17 Mazzo di Rho (Ml), Italy Tel: -9393 Fax: -9393 Bologna Office Via mori, Prunaro di Budrio (BO), Italy Tel: 1-9319 Fax: 1-99 www.orientalmotor.co.jp Headquarters 1-17, Ueno -chome Taito-ku, Tokyo 11-3, Japan Tel: (3)33- Fax: (3)33-19 Customer Center (Support in German & English) * CA LL OM CC tech@orientalmotor.de Mon-Thu: :-17:3 CET Friday: :-1: CET * Free Call Europe For more information please contact: 7R