Bipolar Driver for 2-Phase Stepper Motors
Driver for 5-Phase Stepper Motors

CVD Series S Type

Bipolar Driver for 2-Phase Stepper Motors Driver for 5-Phase Stepper Motors CVD Series S Type
  • DC Input
  • Board Type
  • SPI Communication Control and Pulse Input Control

Features | Bipolar Driver for 2-Phase Stepper Motor/Driver for 5-Phase Stepper Motor CVD Series S Type

Thin and Compact Board Type Driver

This is a very compact board type driver that can be flexibly adapted to various equipment designs.

SPI Communication Compatible
(Horizontal placing only)
Pulse Input Type
Horizontal placing Vertical Placing
Size
SPI Communication Compatible Size
Horizontal Placing Size
Vertical Placing Size
Thickness
SPI Communication Connector Dimensions
Horizontal Placing Connector Dimensions
Vertical Placing Connector Dimensions

Components Required to Drive a Stepper Motor are Integrated

The microcontroller, FET, current sensing resistor, fuse, etc. required to drive a motor are pre-installed in the product.
Simply by connecting aluminum electrolytic capacitors, a drive circuit similar to an existing product is completed.

If the number of required components can be reduced, management of maintenance parts after the start of operation will also be simplified.

CVD-S + Electrolytic Capacitor

Driver Temperature Monitoring Function Equipped

SPI communication compatible driver and pulse input type SPI setting driver can monitor temperature via SPI communication.
It can contribute to the reduction of temperature sensors in the equipment as well as drive components.

Maximizes the Performance of the High Torque and Low Vibration PKP Series

The CVD Series maximizes the motor characteristics of the PKP Series.
Increasing the output current allows for higher torque, while full-time microstep control contributes to lower vibration and lower noise operation.

Higher Torque
2-Phase Increased Torque
5-Phase Increased Torque
Low Vibration
2-Phase Low Vibration
5-Phase Low Vibration

The characteristics of the CVD Series S type are the same as those of other types in the CVD Series.

Click here for details on the stepper motor PKP Series/CVD Series pulse input type driver

Positioning Control via SPI Communication Without the Need for Pulse Oscillation ICs

SPI communication compatibility allows direct control of position and speed settings, motor start/stop, etc. via SPI communication. There is no need to use a CPU to generate pulse signals instead of a pulse oscillation IC.
It reduces the cost of pulse oscillation ICs while also reducing the burden of generating pulse signals.

When Using CVD Series S Type SPI Communication Compatibility When Using Pulse Oscillation ICs
When Using SPI Communication Compatibility
When Using Pulse Input Type

Minimize Replacement and Maintenance Labor and Inventory Risk

Multiple Motor Currents per Driver Product Name

When multiple axes of motors with different rated current are used, drivers with the same product name can be used for each axis if the number of phases is the same.
Fewer driver types in the equipment will reduce the number of drivers for maintenance.

Number of Phases Rated Current of Compatible Motors
(A/phase)
2-Phase 0.5, 0.6, 0.85, 1.4, 1.5, 2.3, 2.8
5-Phase 0.35, 0.75, 1.2, 1.4, 1.8, 2.4

Build a System With a Small Number of Components

A drive circuit can be constructed using only the CVD Series S type main unit and aluminum electrolytic capacitors.
The fewer the number of parts, the less risk there is for maintenance issues such as parts shortages and overstocking.

Pin Sockets Allow You to Freely Connect and Disconnect Only the Driver You Want to Replace

Pin sockets can be utilized to facilitate the installation and replacement process.
Soldering the driver to the motherboard may result in replacing the entire motherboard when replacing the driver.
The socket allows the driver to be manually inserted and removed, so only the driver you want to replace can be replaced.

Horizontal Placing Installation Image Vertical Placing Installation Image
Horizontal placing Installation Image
Vertical Placing Installation Image

Product Line

SPI Communication Compatible

Number of Phases Positioning Control Method Function Setting Method Installation direction Power Supply Voltage
Horizontal placing Vertical Placing Main Power Supply Control Power Supply
CVD-S SPI Communication Compatible
2-Phase SPI communication SPI communication - Rated Voltage:
24 VDC±10 %

Allowable Operating Voltage Range:
20 VDC~32 VDC
Rated Voltage:
3.3 VDC-5 %~5.0 VDC+5 %
5-phase -

Please contact Oriental Motor for details on specifications.

Pulse Input Type

Number of Phases Positioning Control Method Function Setting Method Installation direction Power Supply Voltage
Horizontal placing Vertical Placing Main Power Supply Control Power Supply
SPI Communication Compatible
2-Phase Pulse input SPI communication Rated Voltage:
24 VDC±10 %
Rated Voltage:
5 VDC±5 %
5-phase
2-Phase Pulse input I/O
5-phase

Please contact Oriental Motor for details on specifications.

Technical Reference

Product Literature

Product literature for basic specifications, dimensions, and how to connect.

CVD Series S Type Pulse Input Type I/O Setting

CVD Series S Type Pulse Input Type SPI Communication Setting

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Technical Report RENGA

Development of CVD Series S Type Driver

Test Boards

Test boards are available to immediately evaluate driver performance.
If you would like more details, please request through the website's Inquiry Form.

Test Board Manual

CVD Series S Type Pulse Input Type

CVD Series S Type SPI Communication Compatible

Front of test boards

Lineup and Related Information