The document describes the ERC3 series of controller-integrated actuators from ROBO Cylinder. The ERC3 has a built-in controller that saves space and wiring compared to conventional external controller systems. It can be operated using the optional Quick Teach device without needing a PLC or power supply. The Quick Teach allows setting the actuator speed, acceleration, and positions near the actuator. A variety of ERC3 models are available for different applications and industries.
The document describes the ROBO Cylinder ERC3 series, which comprises a built-in controller and actuator. Key features of the ERC3 include being space-saving due to not requiring a separate controller, allowing for teaching close to the actuator, and having an increased maximum payload, speed, and stroke compared to conventional models. The ERC3 comes in various types and models for different applications. It can be operated using a built-in controller, teaching pendant, software, or Quick Teach accessory without needing a PLC or power supply in some cases.
Mitsubishi inverter 1412789969 fr-e700_catalog_dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
Mitsubishi inverter fr-e700 catalog-dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
Mitsubishi inverter freqrol-a700 series dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
The FRENIC-Mini inverter provides compact and flexible control for a variety of machines and equipment through its wide range of functions, compact size, simple operation, and global compatibility. It offers high starting torque, energy savings functions, PID control, and protective functions to suit applications such as conveyors, fans, pumps, and food processing machines. The inverter is simple to operate and install, with optional parts allowing remote control, communications, and compliance with various global standards.
Mitsubishi inverter freqrol-a701 series dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
Catalog Biến tần Frenic 5000g11 Fuji Electric
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer, Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
www.beeteco.com @ Công ty TNHH TM KT ASTER
Số 7 Đại Lộ Độc Lập, KCN Sóng Thần 1, P. Dĩ An, Tx. Dĩ An, Bình Dương
www.facebook.com/beeteco
Tel: 0650 3617 012
DĐ: 0904 676 925
Công ty TNHH Hạo Phương là đối tác phân phối các thiết bị điện công nghiệp của hãng Fuji Electric (Nhật Bản): MCCB, MCB, Contactor, Servo Motor, biến tần, màn hình cảm ứng, PLC...
The document describes the ROBO Cylinder ERC3 series, which comprises a built-in controller and actuator. Key features of the ERC3 include being space-saving due to not requiring a separate controller, allowing for teaching close to the actuator, and having an increased maximum payload, speed, and stroke compared to conventional models. The ERC3 comes in various types and models for different applications. It can be operated using a built-in controller, teaching pendant, software, or Quick Teach accessory without needing a PLC or power supply in some cases.
Mitsubishi inverter 1412789969 fr-e700_catalog_dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
Mitsubishi inverter fr-e700 catalog-dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
Mitsubishi inverter freqrol-a700 series dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
The FRENIC-Mini inverter provides compact and flexible control for a variety of machines and equipment through its wide range of functions, compact size, simple operation, and global compatibility. It offers high starting torque, energy savings functions, PID control, and protective functions to suit applications such as conveyors, fans, pumps, and food processing machines. The inverter is simple to operate and install, with optional parts allowing remote control, communications, and compliance with various global standards.
Mitsubishi inverter freqrol-a701 series dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
Catalog Biến tần Frenic 5000g11 Fuji Electric
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer, Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
www.beeteco.com @ Công ty TNHH TM KT ASTER
Số 7 Đại Lộ Độc Lập, KCN Sóng Thần 1, P. Dĩ An, Tx. Dĩ An, Bình Dương
www.facebook.com/beeteco
Tel: 0650 3617 012
DĐ: 0904 676 925
Công ty TNHH Hạo Phương là đối tác phân phối các thiết bị điện công nghiệp của hãng Fuji Electric (Nhật Bản): MCCB, MCB, Contactor, Servo Motor, biến tần, màn hình cảm ứng, PLC...
Cataloge ge 3.control and_automation_dienhathe.com-4_14_vat300_e_c5-8_rev_bDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
This document provides information on Fuji Electric's new FRENIC-Mini compact inverter. Key details include:
- The FRENIC-Mini offers high performance control of motors and equipment in a compact package with simple operation and global compatibility.
- It has rich functionality, compact design, easy operation/maintenance, and compatibility with existing Fuji products and networks.
- Specifications include voltage and frequency ranges, overload capabilities, enclosure type, cooling method, and applicable motor ratings from 0.1 to 3.7 kW.
Công ty TNHH Hạo Phương là đối tác phân phối các thiết bị điện công nghiệp của hãng Fuji Electric (Nhật Bản): MCCB, MCB, Contactor, Servo Motor, biến tần, màn hình cảm ứng, PLC...
1. The document provides specifications for DKM speed control motors and controllers, including the FX1000A digital type system, DSK socket type system, and technical specifications.
2. It describes speed control methods, features of the FX1000A and DSK systems like easy connection and operation, and general technical specifications for controllers.
3. Tables provide motor line-up details, output capacities, frame sizes, power voltages, and connection diagrams for understanding specifications.
Mitsubishi inverter freqrol-f700 series dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
The document summarizes Mitsubishi Electric's new FX1S and FX1N series of programmable logic controllers (PLCs). The new PLCs have improved basic performance with faster processing speeds, more memory, and higher counter frequencies. They also have enhanced positioning functions with faster pulse outputs and new commands. A variety of display modules are available, including add-on and panel-mounted types with multiple languages and setup functions. The PLCs also have improved communication functions allowing larger networks of up to 16 units. They maintain compatibility with previous Mitsubishi PLC models for easy upgrades.
Công ty TNHH Hạo Phương là đối tác phân phối các thiết bị điện công nghiệp của hãng Fuji Electric (Nhật Bản): MCCB, MCB, Contactor, Servo Motor, biến tần, màn hình cảm ứng, PLC...
The document provides specifications for Mitsubishi's new FX3GE programmable logic controller (PLC) series. The FX3GE series features built-in analog input/output and Ethernet connectivity in addition to the standard functionality of the FX3G series. It can be used for a variety of automation applications, such as flow control in the food industry. The FX3GE series offers expandability through expansion boards, communication adapters, and analog adapters. It provides flexible and cost-effective control with built-in analog and network functions for applications such as production monitoring over Ethernet.
Công ty TNHH Hạo Phương là đối tác phân phối các thiết bị điện công nghiệp của hãng Fuji Electric (Nhật Bản): MCCB, MCB, Contactor, Servo Motor, biến tần, màn hình cảm ứng, PLC...
Fuji tu dong hoa catalog frenic-micro-fujielectric-dienhathe.orgDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
The document describes a PSEL controller for operating RCP3/RCP2 series actuators. The controller combines various control functions into a single unit. It can handle operation and communication with one controller for up to two axes. It supports up to 1500 positioning points and functions like path operations and teaching operation.
This document provides information on the ACON position controller models C/CG/CY/PL/PO/SE. It lists the 5 controller types and their functions. The C/CG types are positioner controllers that can control up to 512 positioning points. The CY type controls solenoid valves. The PL/PO types use pulse train control. The SE type uses serial communication. Peripheral devices, cables, and the I/O specifications are also described.
The document provides information about SCON controllers, including:
- There are standard and network specifications, with incremental and absolute options. Only incremental is available for pulse train input.
- It lists motor, encoder, I/O cable length, power/voltage options. Network connection specifications are also optional.
- Control can be performed via PIO, pulse train, or connecting to a field network depending on the specification. Positioning of up to 512 points is possible in positioner or solenoid valve modes.
The document summarizes ROBONET, a new type of control unit that operates robot cylinders via a field network with less wiring than past controllers. Key points:
- ROBONET controllers connect to field networks like DeviceNet, CC-Link, ProfiBus to greatly reduce wiring. They mount on DIN rails for easy installation.
- Controllers operate robot movements by specifying position, velocity, acceleration values directly or via pre-taught positions. Up to 16 axes can be controlled.
- Units are compact at 34mm wide and integrate connectors, allowing many to install with minimal space. Extension units further reduce space needs.
The document discusses different types of controllers for ROBO cylinder actuators. It describes:
1) Positioner type controllers that store positions and can be operated with signals like a solenoid valve for 2-3 positions;
2) Program type controllers that execute programs to operate actuators and communicate with external equipment, allowing control without a PLC;
3) Network type controllers that are compatible with common field networks and allow control via networks or serial communication from devices like a PLC or touch panel.
A variety of controller models are available for different usages and automation needs.
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
This document provides information about various position controller models that can be used with RCP3/RCP2 series actuators. It describes the six main controller types (C, CG, CF, CY, PL, PO, SE), their specifications and compatible actuators. The C/CG type is the basic positioner controller, the CY type is for solenoid valve control, the PL/PO type allows pulse train control, and the SE type enables serial communication. It also outlines the different control functions and I/O signal capabilities of each controller type.
The document describes a 3-position controller called the MEC Controller that is used to operate ROBO cylinders. The MEC Controller comes complete with a controller, power supply, PC connection cable, and features like acceleration and speed change functions at an affordable price comparable to air cylinders. It allows easy setup and operation of ROBO cylinders by adjusting the speed and acceleration settings. The MEC Controller supports various ROBO cylinder models and provides versatile control of cylinder positioning.
Mitsubishi inverter 1412789969 fr-e700_catalogDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Mitsubishi inverter 1412789969 fr-e700_catalogDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Catalog Biến tần Frenic ACE Mini (Fuji Electric) - Beeteco.comBeeteco
Catalog Biến tần Frenic ACE Mini
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer, Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
www.beeteco.com @ Công ty TNHH TM KT ASTER
Số 7 Đại Lộ Độc Lập, KCN Sóng Thần 1, P. Dĩ An, Tx. Dĩ An, Bình Dương
www.facebook.com/beeteco
Tel: 0650 3617 012
DĐ: 0904 676 925
The document describes a 3-position controller for pneumatic cylinders that can be replaced with a ROBO cylinder. The controller has inputs to control positioning to up to 3 positions - home, intermediate, and end. It connects to a PC to configure settings like acceleration, speed, and intermediate positions using free software. Replacing pneumatic cylinders with ROBO cylinders allows maintaining the same PLC programming while gaining features like adjustable speed and intermediate stopping.
Cataloge ge 3.control and_automation_dienhathe.com-4_14_vat300_e_c5-8_rev_bDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
This document provides information on Fuji Electric's new FRENIC-Mini compact inverter. Key details include:
- The FRENIC-Mini offers high performance control of motors and equipment in a compact package with simple operation and global compatibility.
- It has rich functionality, compact design, easy operation/maintenance, and compatibility with existing Fuji products and networks.
- Specifications include voltage and frequency ranges, overload capabilities, enclosure type, cooling method, and applicable motor ratings from 0.1 to 3.7 kW.
Công ty TNHH Hạo Phương là đối tác phân phối các thiết bị điện công nghiệp của hãng Fuji Electric (Nhật Bản): MCCB, MCB, Contactor, Servo Motor, biến tần, màn hình cảm ứng, PLC...
1. The document provides specifications for DKM speed control motors and controllers, including the FX1000A digital type system, DSK socket type system, and technical specifications.
2. It describes speed control methods, features of the FX1000A and DSK systems like easy connection and operation, and general technical specifications for controllers.
3. Tables provide motor line-up details, output capacities, frame sizes, power voltages, and connection diagrams for understanding specifications.
Mitsubishi inverter freqrol-f700 series dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
The document summarizes Mitsubishi Electric's new FX1S and FX1N series of programmable logic controllers (PLCs). The new PLCs have improved basic performance with faster processing speeds, more memory, and higher counter frequencies. They also have enhanced positioning functions with faster pulse outputs and new commands. A variety of display modules are available, including add-on and panel-mounted types with multiple languages and setup functions. The PLCs also have improved communication functions allowing larger networks of up to 16 units. They maintain compatibility with previous Mitsubishi PLC models for easy upgrades.
Công ty TNHH Hạo Phương là đối tác phân phối các thiết bị điện công nghiệp của hãng Fuji Electric (Nhật Bản): MCCB, MCB, Contactor, Servo Motor, biến tần, màn hình cảm ứng, PLC...
The document provides specifications for Mitsubishi's new FX3GE programmable logic controller (PLC) series. The FX3GE series features built-in analog input/output and Ethernet connectivity in addition to the standard functionality of the FX3G series. It can be used for a variety of automation applications, such as flow control in the food industry. The FX3GE series offers expandability through expansion boards, communication adapters, and analog adapters. It provides flexible and cost-effective control with built-in analog and network functions for applications such as production monitoring over Ethernet.
Công ty TNHH Hạo Phương là đối tác phân phối các thiết bị điện công nghiệp của hãng Fuji Electric (Nhật Bản): MCCB, MCB, Contactor, Servo Motor, biến tần, màn hình cảm ứng, PLC...
Fuji tu dong hoa catalog frenic-micro-fujielectric-dienhathe.orgDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
The document describes a PSEL controller for operating RCP3/RCP2 series actuators. The controller combines various control functions into a single unit. It can handle operation and communication with one controller for up to two axes. It supports up to 1500 positioning points and functions like path operations and teaching operation.
This document provides information on the ACON position controller models C/CG/CY/PL/PO/SE. It lists the 5 controller types and their functions. The C/CG types are positioner controllers that can control up to 512 positioning points. The CY type controls solenoid valves. The PL/PO types use pulse train control. The SE type uses serial communication. Peripheral devices, cables, and the I/O specifications are also described.
The document provides information about SCON controllers, including:
- There are standard and network specifications, with incremental and absolute options. Only incremental is available for pulse train input.
- It lists motor, encoder, I/O cable length, power/voltage options. Network connection specifications are also optional.
- Control can be performed via PIO, pulse train, or connecting to a field network depending on the specification. Positioning of up to 512 points is possible in positioner or solenoid valve modes.
The document summarizes ROBONET, a new type of control unit that operates robot cylinders via a field network with less wiring than past controllers. Key points:
- ROBONET controllers connect to field networks like DeviceNet, CC-Link, ProfiBus to greatly reduce wiring. They mount on DIN rails for easy installation.
- Controllers operate robot movements by specifying position, velocity, acceleration values directly or via pre-taught positions. Up to 16 axes can be controlled.
- Units are compact at 34mm wide and integrate connectors, allowing many to install with minimal space. Extension units further reduce space needs.
The document discusses different types of controllers for ROBO cylinder actuators. It describes:
1) Positioner type controllers that store positions and can be operated with signals like a solenoid valve for 2-3 positions;
2) Program type controllers that execute programs to operate actuators and communicate with external equipment, allowing control without a PLC;
3) Network type controllers that are compatible with common field networks and allow control via networks or serial communication from devices like a PLC or touch panel.
A variety of controller models are available for different usages and automation needs.
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
This document provides information about various position controller models that can be used with RCP3/RCP2 series actuators. It describes the six main controller types (C, CG, CF, CY, PL, PO, SE), their specifications and compatible actuators. The C/CG type is the basic positioner controller, the CY type is for solenoid valve control, the PL/PO type allows pulse train control, and the SE type enables serial communication. It also outlines the different control functions and I/O signal capabilities of each controller type.
The document describes a 3-position controller called the MEC Controller that is used to operate ROBO cylinders. The MEC Controller comes complete with a controller, power supply, PC connection cable, and features like acceleration and speed change functions at an affordable price comparable to air cylinders. It allows easy setup and operation of ROBO cylinders by adjusting the speed and acceleration settings. The MEC Controller supports various ROBO cylinder models and provides versatile control of cylinder positioning.
Mitsubishi inverter 1412789969 fr-e700_catalogDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Mitsubishi inverter 1412789969 fr-e700_catalogDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Catalog Biến tần Frenic ACE Mini (Fuji Electric) - Beeteco.comBeeteco
Catalog Biến tần Frenic ACE Mini
Beeteco.com là trang mua sắm trực tuyến thiết bị điện - Tự động hóa uy tín tại Việt Nam.
Chuyên cung cấp các thiết bị: Đèn báo nút nhấn, Relay, Timer, Contactor, MCCB ELCB, Biến tần, Van, Thiết bị cảm biến, phụ kiện tủ điện, .... Từ các thương hiệu hàng đầu trên thế giới.
www.beeteco.com @ Công ty TNHH TM KT ASTER
Số 7 Đại Lộ Độc Lập, KCN Sóng Thần 1, P. Dĩ An, Tx. Dĩ An, Bình Dương
www.facebook.com/beeteco
Tel: 0650 3617 012
DĐ: 0904 676 925
The document describes a 3-position controller for pneumatic cylinders that can be replaced with a ROBO cylinder. The controller has inputs to control positioning to up to 3 positions - home, intermediate, and end. It connects to a PC to configure settings like acceleration, speed, and intermediate positions using free software. Replacing pneumatic cylinders with ROBO cylinders allows maintaining the same PLC programming while gaining features like adjustable speed and intermediate stopping.
The document describes a program controller for operating RCA2/RCA series actuators. The controller can handle various controls for a single or dual axis system. It supports up to 1500 positioning points and can perform functions like linear/arc interpolation, path operations, and teaching operations through a programmed control mode or PLC input signals in a positioner mode. Key specifications of the controller include support for up to two motor axes, 1500 positioning points, and integrated operation and communication capabilities.
Bien tan ls gioi thieu bien tan i e5 series (new)-1Dien Ha The
Catalog LS, Catalog,
Catalog Thiết Bị Điện LS, Catalog Thiết Bị Điện,
Catalog Biến Tần LS, Catalog Biến Tần,
Catalog Inverter LS, Catalog Inveter,
http://dienhathe.com,
Chi tiết các sản phẩm khác của LS tại https://dienhathe.com
Xem thêm các Catalog khác của LS tại https://dienhathe.info
Để nhận báo giá sản phẩm LS vui lòng gọi: 0907.764.966
Bien tan ls gioi thieu bien tan i e5 series (new)-1-dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.org
Bien tan ls gioi thieu bien tan i e5 series (new)-1-dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.org
Mitsubishi inverter freqrol-f700 seriesDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Mitsubishi inverter freqrol-f700 seriesDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
1. PCON/ACON controllers can now communicate via EtherNet/IP, allowing high-speed communication up to 100Mbps with peripheral devices over an Ethernet network.
2. EtherNet/IP uses less wiring than alternative solutions and prevents miswiring, while also allowing easy connection to numerous peripheral devices from different manufacturers.
3. PCON/ACON controllers can be operated in either remote I/O mode using pre-defined position movements, or direct control mode where the host specifies values directly to the controller.
Mitsubishi inverter freqrol-d700 series dienhathe.vnDien Ha The
Khoa Học - Kỹ Thuật & Giải Trí: http://phongvan.org
Tài Liệu Khoa Học Kỹ Thuật: http://tailieukythuat.info
Thiết bị Điện Công Nghiệp - Điện Hạ Thế: http://dienhathe.vn
Mitsubishi inverter freqrol-d700 seriesDien Ha The
Mitsubishi ,
Catalog Thiết Bị Điện Mitsubishi , Catalog Thiết Bị Điện
Catalog Phụ Kiện Mitsubishi , Catalog Phụ Kiện,
Catalog Mitsubishi , Catalog,
https://www.dienhathe.com,
Chi tiết các sản phẩm khác của Mitsubishi tại https://dienhathe.com
Xem thêm các Catalog khác của Mitsubishi tại https://dienhathe.info
Để nhận báo giá sản phẩm Mitsubishi vui lòng gọi: 0907.764.966
Automated screw thread quality checking using SMAC LAR55 actuator new produc...Electromate
The document discusses an automated screw thread quality checking solution using SMAC LAR55 actuators. It allows 100% inspection of screw threads to check for issues like oversizing, cross-threading, depth, and pitch. This can help automakers meet higher quality standards by eliminating defective parts and providing immediate feedback. The LAR55's precision Z-theta motion makes it suitable for automatically checking screw threads.
An overview of the various kinematic models in both parallel and serial robot...Electromate
This document provides an overview of kinematic models for parallel and serial robotic mechanisms and their suitability for precision applications. It introduces Ilian Bonev, a professor at École de technologie supérieure who is an expert in parallel robots and precision robotics. It then describes some parallel robots that have been developed at the Control and Robotics Laboratory including ones for medical, manufacturing, and research applications. The document concludes with sections on robot calibration methods and the differences between serial and parallel mechanisms.
Galil motion control robotic symposium presentation-linear motion from non-li...Electromate
The document discusses non-linear robotic motion control solutions. It describes how Galil Motion Control provides controllers for various types of non-linear robots like SCARA and delta robots. It covers topics like selecting the robot topology, designing each joint, motor selection, forward and inverse kinematics equations, vibration reduction techniques, and examples of implementing motion control for SCARA robots.
Advanced motion controls robotics symposium presentation-open standard tools ...Electromate
This document discusses the development of control software for a linear delta robot used in 3D printing. It describes using PLCopen function blocks and XML files to create reusable software components for robot kinematics and handling G-code from slicing programs. Function block diagrams are created to process G-code, set coordinate systems, and represent the overall project logic. The solution involves creating user-defined function blocks to handle the robot's inverse kinematics and translate G-code commands into motions.
Maxon motor ag robotic symposium presentation-impedance control overview and ...Electromate
The document discusses impedance control, an approach to robot control that models mechanical systems as electrical circuits using impedance. It defines electrical and mechanical impedance analogously and describes how components like resistors, inductors, and capacitors correspond to dampers, masses, and springs physically. The document outlines applications of impedance control and emphasizes the importance of selecting low-inertia motors, high-efficiency gears, and fast, accurate sensors and controllers. Overall, the document argues that impedance control requires creative engineering of mechanical designs and electrical components.
Kollmorgen robotic symposium presentation-motor design impacts on the optimiz...Electromate
The document discusses how motor design impacts the optimization of robotic systems. It explains that frameless motors can enable smaller, lighter and faster robots through their direct drive capabilities and high torque density. The document also covers various motor topologies and important concepts like torque constant, motor size constant, and how they relate to continuous torque capacity, efficiency and losses. Application examples discussed include collaborative robots, surgical robots, and mobile robots.
Harmonic drive llc robotics symposium presentation-designing from the inside ...Electromate
The document discusses defining robot performance requirements and how customized solutions from Harmonic Drive can help meet those requirements. It provides an overview of Harmonic Drive's product line and gear technologies, then discusses how mechanical modifications and performance customizations can be made to their gear components and systems to optimize robots for specific design requirements and applications. Customizations like increased accuracy, stiffness, torque properties and materials can be made, with varying levels of difficulty and cost implications discussed.
Thomson Linear Dual Shaft Rail 2DA Modular SpecsElectromate
This document provides specifications and dimensional drawings for Thomson Industries' Dual Shaft Rail linear guides with modular carriages. It includes part numbers, dimensions, load ratings and descriptions of the components. Linear guides use dual linear race shaft rails and modular carriages with open type Super Smart Ball Bushings. They are used in continuously supported applications requiring rigidity and are adaptable to any drive system.
Thomson Linear 2DA QuickSlide System with BrakeElectromate
This document provides specifications for Thomson Industries' 2DA QuickSlide system with brake, including:
- It offers manual locking with infinite positioning, no carriage surface deflection when locked, and immediate availability in common sizes.
- The locking mechanism does not increase load on the bearing and allows zero axial movement during locking.
- It provides a fully supported dual shaft assembly for maximum rigidity and unlimited travel.
Thomson Linear RoundRail 2CA Web Universal Carriage SpecsElectromate
This document contains specifications for Thomson Industries' Twin Shaft Web Linear Guide system. It includes dimensions, part numbers, load ratings and descriptions of the components. The linear guides use a double shaft and welded web design for improved torque strength and deflection characteristics. They are designed to move medium loads with low friction and are commonly used when bridging gaps.
Thomson Linear RoundRail 1VC Double End Supported SpecsElectromate
The document provides specifications for various FluoroNyliner linear guide components including:
- Pillow blocks, twin pillow blocks, shaft end support blocks, and mounting table tops for different size linear guides ranging from 0.375 to 1.5 inches in diameter.
- It lists the part numbers, dimensions, materials, weights, and other specifications for each component.
- It also includes an illustration of a double end supported linear guide system with pillow blocks, shafts, end supports, and a size B mounting table top.
Thomson Linear RoundRail 2CA Web Flanged Carriage SpecsElectromate
This document provides specifications for Thomson Industries' Twin Shaft Web Linear Guide system. It includes dimensions, load capacity information, and part numbers for various components of the 2CA linear guide, which features a flanged carriage design and double linear race shaft for improved torque and deflection characteristics. Configuration and installation details are also listed.
Thomson Linear RoundRail Twin Shaft Web 2CAElectromate
The document provides specifications for Thomson RoundRail linear guides and components. It includes dimensions, features, and part numbering for twin shaft web linear guides in both vertical and horizontal configurations ranging from 0.5 to 1 inch in diameter. Load capacity charts are provided for different guide sizes and configurations that can support loads between 165 to 3000 pounds depending on the model. Maximum guide lengths are listed as 72 inches and engineering calculations for shaft deflection are also noted.
Thomson Linear RoundRail 1VC Double Unsupported SpecsElectromate
The document contains specifications for various FluoroNyliner linear guide parts, including dimensions, part numbers, materials, load ratings, and performance notes. It lists 14 different linear guide parts with nominal diameters ranging from 0.375 to 1.5 inches. For each part, it provides dimensions for components like bearing blocks, carriages, and table tops. It also includes general information on specifying linear guides and product notes on materials and lubrication.
The Thomson WhisperTrak electric linear actuator offers a compact, quiet, and durable solution for applications requiring linear motion. It is particularly well-suited for personal mobility, medical, and rehabilitation equipment due to its small size and silent operation. The actuator provides reliable, maintenance-free movement and has an IP67 rating, making it protected against water and dust. Its flexibility and high performance in a small package make it suitable for a wide range of industries.
The document provides information on the T-Series Ball Profile Rail from Thomson, including:
- It is lightweight, highly flexible, and forgiving, making it suitable for applications with poor misalignment.
- It has a low cost of installation as it can be mounted directly to non-machined bases without special tools.
- It offers industry standard dimensions and dimensions interchangeable with other rail brands, allowing for easy replacement.
Thomson Linear RoundRail Accessories Collapsable Bellows SpecsElectromate
This document provides specifications for various bellows that can be used to protect slides and shafts. It lists different part numbers for bellows with a range of nominal shaft diameters from 1/4 to 1 1/2 inches. The bellows are made of polyester cover and PVC stiffeners. Dimensions such as length, width, and height are provided for each part number. Some bellows are single shaft while others are dual shaft or for horizontal vs vertical systems. Each bellows comes with attachment pieces like Velcro or mounting brackets.
Thomson Linear Roundrail Dual Shaft Rail 2DA SpecsElectromate
The document provides specifications for Danaher Motion's dual shaft rail linear guides with integrated carriages. It includes dimensions, load ratings, dynamic capacities, and part numbering for the 2DA series linear guides available in nominal diameters of 0.5, 0.75, and 1.0 inches. Both full and short length carriage options are detailed along with components, material specifications, and the supplier contact information.
Thomson Linear RoundRail Continuous Support 1PC SpecsElectromate
This document provides specifications for various linear guide assemblies with table tops from Thomson Industries. It includes dimensions, part numbers, load ratings and limit data for single rail linear guides with sizes ranging from M12 to M40 diameter in configurations with 4 pillow blocks, 2 twin pillow blocks or no pillow blocks and size E or F table tops. Mounting details and specifications are provided for the various components including rails, pillow blocks and table tops.
Thomson Linear RoundRail Continuous Support 1PB SpecsElectromate
The document contains specifications for various continuously supported linear guide assemblies and their components. It lists part numbers, dimensions, load ratings, and other technical specifications for linear guides, support rails, pillow blocks, and bearings. Materials include aluminum alloys and bearings include ball bushings. Linear guides are specified by part number plus length and provide continuous support for applications requiring rigidity.
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
- Reduction in onboarding time from 5 weeks to 1 day
- Improved developer experience and productivity through actionable findings and reduction of false positives
- Maintenance of superior security standards and inherent policy enforcement with Authorization to Operate (ATO)
Development teams can ship efficiently and ensure applications are cyber ready for Navy Authorizing Officials (AOs). In this webinar, Sigma Defense and Anchore will give attendees a look behind the scenes and demo secure pipeline automation and security artifacts that speed up application ATO and time to production.
We will cover:
- How to remove silos in DevSecOps
- How to build efficient development pipeline roles and component templates
- How to deliver security artifacts that matter for ATO’s (SBOMs, vulnerability reports, and policy evidence)
- How to streamline operations with automated policy checks on container images
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
Goodbye Windows 11: Make Way for Nitrux Linux 3.5.0!SOFTTECHHUB
As the digital landscape continually evolves, operating systems play a critical role in shaping user experiences and productivity. The launch of Nitrux Linux 3.5.0 marks a significant milestone, offering a robust alternative to traditional systems such as Windows 11. This article delves into the essence of Nitrux Linux 3.5.0, exploring its unique features, advantages, and how it stands as a compelling choice for both casual users and tech enthusiasts.
“An Outlook of the Ongoing and Future Relationship between Blockchain Technologies and Process-aware Information Systems.” Invited talk at the joint workshop on Blockchain for Information Systems (BC4IS) and Blockchain for Trusted Data Sharing (B4TDS), co-located with with the 36th International Conference on Advanced Information Systems Engineering (CAiSE), 3 June 2024, Limassol, Cyprus.
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
Full-RAG: A modern architecture for hyper-personalizationZilliz
Mike Del Balso, CEO & Co-Founder at Tecton, presents "Full RAG," a novel approach to AI recommendation systems, aiming to push beyond the limitations of traditional models through a deep integration of contextual insights and real-time data, leveraging the Retrieval-Augmented Generation architecture. This talk will outline Full RAG's potential to significantly enhance personalization, address engineering challenges such as data management and model training, and introduce data enrichment with reranking as a key solution. Attendees will gain crucial insights into the importance of hyperpersonalization in AI, the capabilities of Full RAG for advanced personalization, and strategies for managing complex data integrations for deploying cutting-edge AI solutions.
Essentials of Automations: The Art of Triggers and Actions in FMESafe Software
In this second installment of our Essentials of Automations webinar series, we’ll explore the landscape of triggers and actions, guiding you through the nuances of authoring and adapting workspaces for seamless automations. Gain an understanding of the full spectrum of triggers and actions available in FME, empowering you to enhance your workspaces for efficient automation.
We’ll kick things off by showcasing the most commonly used event-based triggers, introducing you to various automation workflows like manual triggers, schedules, directory watchers, and more. Plus, see how these elements play out in real scenarios.
Whether you’re tweaking your current setup or building from the ground up, this session will arm you with the tools and insights needed to transform your FME usage into a powerhouse of productivity. Join us to discover effective strategies that simplify complex processes, enhancing your productivity and transforming your data management practices with FME. Let’s turn complexity into clarity and make your workspaces work wonders!
Introducing Milvus Lite: Easy-to-Install, Easy-to-Use vector database for you...Zilliz
Join us to introduce Milvus Lite, a vector database that can run on notebooks and laptops, share the same API with Milvus, and integrate with every popular GenAI framework. This webinar is perfect for developers seeking easy-to-use, well-integrated vector databases for their GenAI apps.
Dr. Sean Tan, Head of Data Science, Changi Airport Group
Discover how Changi Airport Group (CAG) leverages graph technologies and generative AI to revolutionize their search capabilities. This session delves into the unique search needs of CAG’s diverse passengers and customers, showcasing how graph data structures enhance the accuracy and relevance of AI-generated search results, mitigating the risk of “hallucinations” and improving the overall customer journey.
Maruthi Prithivirajan, Head of ASEAN & IN Solution Architecture, Neo4j
Get an inside look at the latest Neo4j innovations that enable relationship-driven intelligence at scale. Learn more about the newest cloud integrations and product enhancements that make Neo4j an essential choice for developers building apps with interconnected data and generative AI.
Cosa hanno in comune un mattoncino Lego e la backdoor XZ?Speck&Tech
ABSTRACT: A prima vista, un mattoncino Lego e la backdoor XZ potrebbero avere in comune il fatto di essere entrambi blocchi di costruzione, o dipendenze di progetti creativi e software. La realtà è che un mattoncino Lego e il caso della backdoor XZ hanno molto di più di tutto ciò in comune.
Partecipate alla presentazione per immergervi in una storia di interoperabilità, standard e formati aperti, per poi discutere del ruolo importante che i contributori hanno in una comunità open source sostenibile.
BIO: Sostenitrice del software libero e dei formati standard e aperti. È stata un membro attivo dei progetti Fedora e openSUSE e ha co-fondato l'Associazione LibreItalia dove è stata coinvolta in diversi eventi, migrazioni e formazione relativi a LibreOffice. In precedenza ha lavorato a migrazioni e corsi di formazione su LibreOffice per diverse amministrazioni pubbliche e privati. Da gennaio 2020 lavora in SUSE come Software Release Engineer per Uyuni e SUSE Manager e quando non segue la sua passione per i computer e per Geeko coltiva la sua curiosità per l'astronomia (da cui deriva il suo nickname deneb_alpha).
Encryption in Microsoft 365 - ExpertsLive Netherlands 2024Albert Hoitingh
In this session I delve into the encryption technology used in Microsoft 365 and Microsoft Purview. Including the concepts of Customer Key and Double Key Encryption.
Unlock the Future of Search with MongoDB Atlas_ Vector Search Unleashed.pdfMalak Abu Hammad
Discover how MongoDB Atlas and vector search technology can revolutionize your application's search capabilities. This comprehensive presentation covers:
* What is Vector Search?
* Importance and benefits of vector search
* Practical use cases across various industries
* Step-by-step implementation guide
* Live demos with code snippets
* Enhancing LLM capabilities with vector search
* Best practices and optimization strategies
Perfect for developers, AI enthusiasts, and tech leaders. Learn how to leverage MongoDB Atlas to deliver highly relevant, context-aware search results, transforming your data retrieval process. Stay ahead in tech innovation and maximize the potential of your applications.
#MongoDB #VectorSearch #AI #SemanticSearch #TechInnovation #DataScience #LLM #MachineLearning #SearchTechnology
Unlock the Future of Search with MongoDB Atlas_ Vector Search Unleashed.pdf
Iai erc3 cj0184 4-a-ust-2-0214
1. ROBO Cylinder® with Built-in Controller
ERC3 series
The stainless sheet
type and gateway
unit have been added
to the series!
www. i n t e l l i g e n t a c t u a t o r. c o m
2. 1
Controller-integrated Actuator
Features of ERC3
1. Space-saving and wire-saving, because no space is needed to
install a controller
The space-saving design lets you
effectively utilize your facility.
Controllers for actuators
Built-in controller
❚ Conventional system ❚ ERC3 series
All you need is the
actuator, because a
controller is built in.
No need for controller space
Empty!
PLC PLC
No space is needed to install controllers, so
the control panel can be made smaller.
2. Since a controller is built into the actuator, teaching can be
performed near the actuator.
Teaching
pendant
❚ Conventional system ❚ ERC3 series
The teaching
site is far from
the control panel,
so checking the
movement is
difficult.
Detailed
adjustment can
be made while
checking the
movement
close by.
4. The maximum standard
stroke has been extended. 3. The high-output driver boosts the
payload to approx. 1.5 times and
maximum speed also to 1.5 times
compared to a conventional model
Payload comparison of ERC3/ERC2 (Lead: 12mm)
0 100
10
8
6
4
2
0
200 300 400 500 600 700 800 900 1000
Speed [mm/sec]
ERC3-SA5C
ERC2-SA6C
Payload [kg]
Speed
Approx.
1.5 times
Payload
Approx.
1.5 times
800
mm
Conventional
model
ERC3
series
600
mm
30% longer
3. The ERC3 is a ROBO Cylinder comprising
a built-in controller and actuator.
Two types of controllers are available for
the ERC3: “CON” type and “MEC” type.
Specify an appropriate type in your order.
CON
type
Use this type if you use motorized cylinder
applications frequently.
• 16 positioning points under the standard
specification, extendable up to 512 points when
the PIO converter (optional) is used
• Connectable to major field networks using the
gateway unit (optional)
MEC
type
Use this type if the actuator only needs to move
through 2 or 3 points, just like an air cylinder.
• Operable only with the Quick Teach (optional)
without a power-supply unit or PLC
Refer to P. 5 for details.
Quick Teach
RCM-PST
Connect the Quick Teach, and you can
perform teaching or trial operation with
the ERC3 without supplying power.
PIO converter
RCB-CV
Connect the PIO converter to increase the
number of positioning points to 512 or
use the ERC3 as a simple absolute unit.
Gateway unit
RCM-EGW
This unit lets you connect the
ERC3 to a CC-Link, DeviceNet or
other field network.
Removable 24-VDC
power-supply unit
PIO converter Gateway unit
Quick Teach
Refer to P. 7 to 9, 51 and 52. Refer to P. 45 to 47. Refer to P. 48 to 50.
2
4. The product lineup of the controller-integrated actuator series ERC3 is shown below.
Type
Slider type
Cleanroom type
[ERC3CR]
Simple, dustproof type
(stainless sheet type) [ERC3D]
SA5C SA7C SA5C SA7C
210
490
980
1200
53.5 73
210
490
980
450
900
1120
225
450
900
1120
P.15 P.17 P.19 P.21
External view
Section view
(mm)
Stroke
(mm)
Ball screw lead
(mm)
Maximum
speed*1
(mm/s)
Maximum
payload*2
(kg)
Page
50~800 50~800
3 6 12 20 4 8 16 24 3 6 12 20 4 8 16 24
1200
225
20 18 9 6.5 45 40 35 17 20 18 9 6.5 45 40 35 17
12 6 2.5 1 22 14 6 3 12 6 2.5 1 22 14 6 3
Vertical Horizontal
50
53.5
17.2
73
71
25.5
50
71
3
Meeting Wide-ranging Applications
Actuator Product Lineup
(Notes) The above values are all based on operating each unit at an acceleration/deceleration of 0.3 G with the high-output setting enabled.
*1 The maximum speed may not be reached when the stroke is shorter. Also note that the longer the stroke, the lower the maximum speed becomes in order to avoid reaching a dangerous speed. For details, refer to the
specification page of each model.
*2 The maximum payload is based on operation at the rated acceleration. The higher the acceleration, the lower the maximum payload becomes. For details, refer to the table of payloads by acceleration on P.32.
5. Standard type [ERC3]
Type
Slider type Rod type
SA5C SA7C RA4C RA6C
490
980
1200
450
900
1120
225 210 225
450
700 800
210
420
700 800
P.23 P.25 P.27 P.29
External view
Section view
(mm)
Stroke
(mm)
Ball screw lead
(mm)
Maximum
speed*1
(mm/s)
Maximum
payload*2
(kg)
Page
50~800 50~300
3 6 12 20 4 8 16 24 3 6 12 20 4 8 16 24
20 18 9 6.5 45 40 35 17 40 40 25 6 70 55 40 13
12 6 2.5 1 22 14 6 3 18 12 4.5 1.5 25 17.5 8 3
Vertical Horizontal
64
74
50
50
45 52
72
64
4
(Notes) The above values are all based on operating each unit at an acceleration/deceleration of 0.3 G with the high-output setting enabled.
*1 The maximum speed may not be reached when the stroke is shorter. Also note that the longer the stroke, the lower the maximum speed becomes in order to avoid reaching a dangerous speed. For details, refer to the
specification page of each model.
*2 The maximum payload is based on operation at the rated acceleration. The higher the acceleration, the lower the maximum payload becomes. For details, refer to the table of payloads by acceleration on P.32.
6. How to Select Your Controller
The lineup of ERC3 built-in controllers is shown below.
Controller Types
CON type • Up to 16 positioning points
MEC type • 2 or 3 positioning points (Same controls possible with an air cylinder can be achieved.)
• Quick Teach supported
Operation Modes
Positioner mode Normal operation (Move the actuator by specifying position numbers through a PLC, etc.)
Pulse-train control mode Move the actuator using pulse signals from a host controller.
I/O Types
PIO type
NPN NPN specification (Standard)
PNP PNP specification
SIO type
• Can increase the number of positioning points to a maximum of 512 using the PIO
converter, or can use the ERC3 as a simple absolute unit
• Can access field networks using the gateway unit
Types of ERC3 and Supported Tools
Controller
type
Operation
mode I/O type
Model
number
(I/O type)
Teaching pendant PC software
PIO
converter
Gateway
unit Remarks
CON
-PTA
Quick Teach
RCM-PST
SEP
-PT
RCM-101
-MW
RCM-101
-USB
MEC PC
software
CON
type
Positioner
mode
PIO
NPN NP *1 — — — — Basic type
(Refer to the page on the right.)
PNP PN *1 — — — — Overseas specification
SIO SE — —
When the PIO converter or
gateway unit is used
(At least one is required.)
Pulse-train
control
mode
NPN PLN *1 — — — —
When pulse-train control
is used
PNP PLP *1 — — — —
MEC
type
Positioner
mode SIO SE — — — —
Basic type when the
Quick Teach is used
(Refer to the page on the right.)
: All functions are supported, : Limited functions are supported (Effective functions: Home return, Servo ON/OFF, JOG+, JOG-, Stop (Press and hold to reset the alarm))
*1 The SIO communication cable (for Quick Teach) (CB-PST-SIO050) must be purchased separately.
(Note) The PIO converter and gateway unit cannot be used at the same time.
5
7. PLC
100-VAC
power
supply
24-VDC
power supply
Teaching pendant
CON-PTA
PC software
The basic types of ERC3 built-in controllers are listed below.
Select one of the following types for any standard application.
➀ Basic type
System configuration
ERC3
Quick
Teach
100/200-VAC
power supply
System configuration
ERC3
ERC3
➁ Basic type when the Quick Teach is used
ERC3
Quick Teach (Refer to P. 7 and 51.)
Controller type CON type (Up to 16
positioning points)
Operation mode Positioner mode
I/O type PIO type
Controller type MEC type (2 or 3
positioning points)
Operation mode Positioner mode
I/O type SIO type
6
8. 7
Quick Teach P.51
Features
The ERC3 can be operated without a separate 24-V power
supply.
The Quick Teach lets you operate your actuator
with ease simply by operating the buttons and
dials on the operation panel without having to
supply a separate 24V power supply or send
signals from a PLC. With the Quick Teach, you can
change the number of stop positions (between
2 and 3), change the stop position, speed and
acceleration, or perform trial operation (forward/
reverse, continuous operation).
* The above functions are enabled when the ERC3 controller
is of the “MEC” type. Only JOG operation can be
performed when the controller is of the “CON” type.
The acceleration/speed can be changed.
1
2
Quick
Teach
100/200-VAC
power supply
3
JOG operation is supported and positions can be set
(the stop positions can be changed).
4 The actuator can be operated without a PLC, which means
that a simple s ystem can be made at low cost.
ERC3
PLC
DC24V
100-VAC power supply
Standard
teaching
pendant
Easy
connection
Conventional model
Quick
Teach
The system for agitating chemical
solutions and other liquids uses
an ERC3 and the Quick Teach.
The system can be operated and
a desired run-out or speed set
without using a PLC.
Liquid agitation system
9. HOME button
When the actuator is started, home return
is performed first to confirm the coordinate
position of 0mm.
STOP POS NUM button
Acceleration/Deceleration and
Speed Settings
Use buttons in this area to set how you want
the actuator to move.
FWD
POS
/ / POS
buttons
MIDDLE
POS
ACCEL SPEED
SERVO ON/OFF button
Use this button to turn on/off the motor
power.
JOG- JOG+
SAVE button
Explanation of Terms
FWD POS
BACK
Names of movements
(End position)
BACK POS
middle middle
FWD Back
Actual movement
MANUAL button AUTO button
Press this button (and hold it for at least 1
second) to set the acceleration/speed or
perform a test run.
(Home position)
(middle position)
I recommend using
the Quick Teach
if you want to
operate your ERC3
right away.
8
Explanation of the Operation Panel
Press this button (and hold it for at least 1
second) to switch the number of positions
between 2 and 3.
TEACH MODE button
Use this button to switch between modes 1
and 2 below:
1. Acceleration/speed
2. Acceleration/speed/position
Test run
Use buttons in this area to actually move the
actuator and check the saved operation.
FWD button
In a 2-position travel, the actuator moves
from the BACK position to the FWD
position.
In a 3-position travel, the actuator moves
from the BACK position to the middle
position, then to the FWD position.
BACK button
The actuator returns to the home position.
RUN button
In a 2-position travel, the actuator moves
back and forth between the FWD and
BACK positions.
In a 3-position travel, the actuator repeats
its movement from the BACK position,
middle position, FWD position, then BACK
position.
STOP button
Stops the above operation.
Switch to a desired movement (among
the following types):
FWD POS: The actuator moves toward
the end position.
BACK POS: The actuator moves toward
the home position.
MIDDLE POS: The actuator moves toward
the middle position.
/ knobs
You can turn these knobs to change
the actuator speed and acceleration
within a range of 1% to 100% of the
maximum speed and rated acceleration/
deceleration, respectively.
* The minimum speed may not be 1% of the
maximum speed. For the minimum speed, refer
to the operation manual.
/ buttons
Use these buttons to jog the actuator in
the negative and positive directions.
Pressing this button saves the speed,
acceleration and position adjusted above.
Pressing this button disables the operation and
all inputs from the operation panel buttons. It
also enables PIO commands to the ERC3.
10. 9
Quick Teach P.51
Operation Method
Changing the acceleration/speed
➊ Press and hold the MANUAL button.
➋ Press the HOME button.
➌ Confirm that the Accel & Speed LED is lit.
➍ Press the button corresponding to the stop position (FWD POS/MIDDLE
POS/BACK POS) where you want to change the acceleration/speed.
* The MIDDLE POS button is available when the actuator is stopping at three positions.
➎ Turn the Accel/Speed knobs.
* You can use the knobs to change the acceleration and speed within a range of 1% to 100% of the rated
acceleration/deceleration and maximum speed, respectively. The minimum speed may not be 1% of the
maximum speed, depending on the actuator. Refer to the operation manual for the minimum speed.
➏ Press the SAVE button.
Changing the position
➊ Press and hold the MANUAL button.
➋ Press the HOME button.
➌ Press the STOP POS NUM button and determine the number of stop
positions.
➍ Press the TEACH MODE. (Both the Accel & Speed LED and Position LED
should illuminate.)
➎ Press the button corresponding to the stop position (FWD POS/MIDDLE
POS/BACK POS) where you want to change the position.
* The MIDDLE POS button is available when the actuator is stopping at three positions.
➏ Move the actuator to a desired position.
* You can jog the actuator or turn off the servo and move the actuator by hand.
➐ Press the SAVE button.
➋ ➊
➊➋
➌
➍
➎
➏
➋ ➊
➌
➍
➎
➏
* Exercise caution because the conditions of the Accel/Speed knobs will also be saved together with the position.
Performing test run (continuous operation)
➊ Press and hold the MANUAL button.
➋ Press the HOME button.
➌ Press the RUN button.
* The actuator will move back and forth between the "forward position and back position" if it has been set to
stop at two positions.
The actuator will move repeatedly in the sequence of "forward position ➞ middle position ➞ back position
➞ forward position" if it has been set to stop at three positions.
➍ Press the STOP button to stop the operation.
➐
➍
➌
11. 10
Application Examples
Slider type
Inkjet printer system Component palletizing system
This system prints on components using an inkjet
printer. The ERC3 is used to move components. Since
the ERC3 can operate at a constant speed, stable
printing quality can be achieved.
Rod type
This ERC3-based system palletizes automobile
components. Two axes are arranged separately to pick
components and place them onto the pallet. The takt
time can be reduced by performing approach and
return at high speed and placement at low speed.
Product life testing system Work part alignment system
This ERC3-based system conducts life testing on
electronic equipment. The push speed and force can
be changed according to the product.
Cardboard boxes transported on the conveyor are
pushed to one side and aligned.
Printer head
Inkjet printer
12. 11
ROBO Cylinder®
Explanation of the Model Specification Items
The model number consists of the items specified below.
For the description of each item, refer to the applicable explanation provided below. Since the available selections (for
lead, stroke, etc.) vary depending on the type, check the details on the page where each type is explained.
➀ ➁ ➂ ➃ ➄ ➅ ➆ ➇ ➈ ➉
ERC3
Series Type Motor type Lead Stroke I/OType Cable length Controller type Option
20 20mm for SA5C/RA4C
12 12mm for SA5C/RA4C
6 6mm for SA5C/RA4C
3 3mm for SA5C/RA4C
24 24mm for SA7C/RA6C
16 16mm for SA7C/RA6C
8 8mm for SA7C/RA6C
4 4mm for SA7C/RA6C
I
Encoder type
Explanation of items
➀Series Name of each series.
➁Type
(Can be set in 50mm increments)
The ERC3 series consists of the following four types of actuators.
Type Actuator width
SA5C
50mm
SA7C
74mm
RA4C
45mm
RA6C
64mm
➂Encoder type Encoder equipped in the actuator.
I: Incremental type Since the slider’s position data is lost once the power is turned off,
home return must be performed every time the power is turned on.
➃Motor type Wattage of the motor installed in the actuator.
Since the ERC3 series is driven by a pulse motor, the motor size (42P = 42 frame size motor) is
indicated instead of the wattage.
➄Lead Lead of the ball screw (distance travelled by the slider as the ball screw makes one rotation).
➅Stroke Stroke (range of operation) of the actuator (unit: mm).
➆I/OType Type of connectable controllers. With the ERC3 series having a built-in controller, the I/O
(input/output signal) type is indicated.
➇Cable length Length of the cable that connects the ERC3 series with the host system and options.
Options installed on the actuator.
Refer to P. 12 for details.
*If multiple options are selected, enter them in an alphabetic order. (Example: ABU-B-NM)
➈Controller type
➉Option
Two types of controllers are available:
• CON type: At least eight positioning points (or at least 64 points when the PIO converter is
used) are supported.
• MEC type: The actuator can be operated with ease. As for positioning, the actuator stops
at two points or three positions.
(Note) Switching between the CON type and MEC type is not possible after the shipment.
ERC3 Standard type
ERC3CR Cleanroom type
ERC3D Simple, dustproof type
SA5C Actuator width 50 mm
SA7C Actuator width 74 mm
RA4C Actuator width 45 mm
RA6C Actuator width 64 mm 42P Pulse motor 42size
56P Pulse motor 56size
N None
P 1m
S 3m
M 5m
X Specified
length
B Brake
NM Non-motor end
specification
ABU Simple absolute
specification
FL Flange
FT Foot bracket
VR Vacuum joint on
opposite side
NP PIO (NPN) type
PN PIO (PNP) type
SE SIO type
PLN Pulse-train (NPN) type
I Incremental type PLP Pulse-train (PNP) type
* If the I/O type is PLN or PLP, "CN" is
selected automatically.
* The simple absolute specification
can be selected only when the I/O
type is "SIO communication."
* The flange and foot bracket option
can be selected only for rod types.
* The standard cable is a
robot cable.
Slider
type
50 50mm
800 800mm
Rod
type
50 50mm
300 300mm
CN CON type
MC MEC type
13. 12
Actuator Options
All models
This option is used to allow the actuator to operate without returning home first when the
power is turned on. It can be selected only when the I/O type is "SIO communication (SE)."
* The simple absolute battery is installed in the PIO converter (refer to P. 45), so the
separately sold PIO converter of simple absolute specification is required.
6.5
10
4-ø6.6, bored 4-ø6.6, bored
75
11
34±0.1
4-C1
34±0.1
44.5
60±0.2
Description
Description
Description
Description
ERC3-RA4C type
2-ø6.6, bored
4-ø4.5, bored
Depth 8, counterbored depth 4.5
17±0.1
71
4-C1
10±00.5 10
20
34±0.1
57±0.2
Description
ERC3-RA4C type
8.5
4-ø9, bored 4-ø9, bored
99
14
50±0.2
4-C1
12
50±0.2
63.5
82±0.2
ERC3-RA6C type
25
79
95
2-ø9 ,
bored through
2-ø6.5, bored through
Depth 11,
counterbored depth 7
4-C1
4-C1
12.5
25
12
ERC3-RA6C type
Applicable models
Applicable models
Applicable models
Applicable models
Applicable models
Applicable models
Description
All models
A mechanism to hold the slider in place when the actuator is used vertically, so that it
will not drop and damage the work part, etc., when the power or servo is turned off.
All models
Select this option if you want to change the home position of the actuator slider or rod
from the normal position (motor side) to the front side.
ERC3-RA4C/RA6C
A bracket used to secure a rod actuator from the actuator side. The flange can be
purchased separately later on.
ERC3-RA4C/RA6C
This bracket is used to affix the rod type with bolts from above the actuator. The
bracket can be purchased separately later on.
ERC3CR-SA5C/SA7C
Under the standard specification, the vacuum joint is installed on the left side of the
actuator as viewed from the motor. When this option is selected, the position of this
joint is moved to the right side (opposite side).
Brake
Model number: B
Non-motor end
specification
Model number: NM
Simple absolute
specification
Model number: ABU
Flange
Model number: FL
Foot bracket
Model number: FT
Vacuum joint on
opposite side
Model number: VR
ROBO Cylinder®
14. 13
ROBO Cylinder®
Explanations of/Cautionary Notes on Items Specified in Catalog
1. Speed
"Speed" refers to the set speed at which to move the actuator slider (or rod).
After accelerating from the stationary state and reaching the set speed, the slider continues to move at that
speed until immediately before the target position (specified position) and then decelerates to a stop.
2. Acceleration/Deceleration
"Acceleration" refers to the rate of change in speed until the stationary actuator reaches the set speed.
"Deceleration" refers to the rate of change in speed until the actuator traveling at the set speed comes to a stop.
Both are specified in "G" in programs (0.3 G = 2940 mm/sec2).
<Caution>
➊ The greater the value of acceleration (deceleration), the faster the actuator accelerates (decelerates) and consequently the
travel time becomes shorter.
Note, however, that an excessively higher acceleration (deceleration) is a cause of error and malfunction.
➋ The rated acceleration (deceleration) is 0.3 G.
Although the upper limit of acceleration (deceleration) is 1 G (or 0.5 G in a vertical application), increasing the value of
acceleration/deceleration reduces the payload.
3. Duty
With the ERC3 series, the duty is limited according to the ambient temperature to prevent the motor unit
from generating heat. Operate the actuator at a duty ratio not exceeding the allowable value shown in the
graph below.
<Caution>
The duty limits shown below assume that the high-output setting of the controller is enabled. If the high-output setting is disabled,
the payload and maximum speed become lower, but the actuator can be used at a duty of 100%. Refer to the operation manual for
information on how to change the high-output setting.
[Duty ratio]
"Duty ratio" refers to the utilization ratio indicated by
a percentage of the time during which the actuator
operates in one cycle.
D=
TM
×100(%)
TM+TR
D: Duty
TM: Operating time
(including push-motion operation)
Speed TR: Stationary time
Acceleration Constant speed
Operating time TM
Deceleration Stationary
Duration of 1 cycle
Stationary time TR
<Caution>
➊ The pulse motors used in the ERC3 series change their maximum speed depending on the transported mass. When selecting
your model, refer to "Correlation diagrams of speed vs. payload" (on the page featuring each model).
➋ Regardless of whether the stroke is short or long, the set speed may not be reached if the travel distance is short.
➌ The longer the stroke, the lower the maximum speed becomes in order to avoid reaching a dangerous speed.
For details, refer to the "Stroke vs. Maximum Speed" table on the page featuring each model.
➍ When calculating the travel time, consider not only the travel time at the set speed, but also the acceleration, deceleration and
settling times.
29
80
70
60
50
40
Standard type
Cleanroom type,
Simple, dustproof type
50%
40%
0 5 10 15 20 25 30 35 40
Duty
(%)
Ambient temperature (°C) (%)
The duration of one cycle shall be assumed as follows:
Model Duration of 1 cycle (TM + TR)
SA5C/RA4C 15 minutes or less
SA7C/RA6C 10 minutes or less
Notes:
Do not operate the actuator at a duty ratio exceeding the allowable value.
If the actuator is operated at a duty ratio exceeding the allowable value,
the life of the capacitor used in the controller will become shorter.
15. 14
ROBO Cylinder®
4. Installation
Refer to the table below for the installation orientation of each model.
Installation
orientation
: Can be installed
Horizontal, flat Vertical Note 1 Laid on side Ceiling mount
Type
SA5C, SA7C Note 2
RA4C, RA6C
Slider type,
standard
specification
(Screw cover
specification)
(SA5C, SA7C)
Slider type,
standard
specification
(Stainless sheet
specification)
(SA5C, SA7C)
Slider type,
cleanroom type
(SA5C, SA7C)
Rod type
(RA4C, RA6C)
Note 1 When installing the actuator vertically, bring the motor to the top whenever possible. If the actuator is mounted with the motor at the bottom, problems
won’t occur during normal operation, but if the actuator is stopped for a prolonged period of time, grease may separate depending on the ambient
environment (especially when the ambient temperature is high), in which case base oil may flow into the motor unit and could cause problems on rare
occasions.
Note 2 If the actuator is installed on its side, it becomes more vulnerable to entry of foreign matters into the actuator or scattering of grease on the guide and
ball screw from openings on the exposed side.
Note 3 The slider type of standard specification (stainless specification) or cleanroom type SA5C/SA7C can be installed sideways or hung from the ceiling, but
the actuator must be inspected daily. This is because when the actuator is laid on its side or mounted from the ceiling, the stainless sheet may become
loose or shift. If the actuator is used continuously in this condition, the stainless sheet may fracture or develop other problems. Inspect your actuator daily
and if the stainless sheet is found loose or shifted, adjust the installation of the stainless sheet.
16. 15
ROBO Cylinder®
ERC3CR-SA5C
53.5
50
Stroke
50~800 Unit: mm
68.7
299.9~1049.9
The values below are based on operation at 0.3 G. The values below are based on operation at 0.3 G.
14
Horizontal Vertical
12
10
8
6
4
600 800 1000 1200 1400 0 200 400 600 800 1000 1200 1400
Leads and Payloads (Note 1) Take caution that the maximum payload decreases as the speed increases.
Stroke and Maximum Speed/Suction Amount by Lead
ERC3CR-SA5C-I-42P-12- ➀ - ➁ - ➂ - ➃ 12 9 2.5
ERC3CR-SA5C-I-42P-6- ➀ - ➁ - ➂ - ➃ 6 18 6
ERC3CR-SA5C-I-42P-3- ➀ - ➁ - ➂ - ➃ 3 20 12
Legend ➀ Stroke ➁ I/O type ➂ Cable length ➃ Option (Unit: mm/s)
③Cable length
Type Cable symbol
*Refer to P. 44 for maintenance cables.
The values of lead 3 apply when acceleration is at 0.1G.
Standard price
PIO type SIO type
Standard type
(Robot cable)
P (1m) — —
S (3m) — —
M (5m) — —
Special length X06(6m)~X10(10m) — —
25
20
15
10
18
①Stroke
Stroke
(mm)
Standard
price
450 —
500 —
550 —
600 —
650 —
700 —
750 —
800 —
Stroke
(mm)
Standard
price
50 —
100 —
150 —
200 —
250 —
300 —
350 —
400 —
POINT
④Options
Name Option code See page Standard price
Brake B P12 —
Non-motor end
specification NM P12 —
Vacuum joint on
opposite side VR P12 —
Simple absolute
specification ABU P12 — (*)
0
0 200 400
Speed (mm/s)
5
0
Speed (mm/s)
2
Payload (kg)
Payload (kg)
Lead 3
Lead 6
Lead 12
Lead 20
Lead 6
Lead 12 Lead 20
5
7
9
6.5
Lead 3
2.5
0.5
0.5 0.5
5.5 1
High-output setting enabled (Factory default)
Model
Specification
Items
ERC3CR
Series
SA5C
Type
42P
Motor type Lead Stroke I/O type Cable length Option
I: Incremental 42Pulse motor
specification
NP: PIO (NPN) type
PN: PIO (PNP) type
SE: SIO type
PLN: Pulse-train (NPN) type
PLP: Pulse-train (PNP) type
CN: CON type
MC: MEC type
20 : 20mm
12 : 12mm
6 : 6mm
3 : 3mm
*Refer to P.11 for the description of items constituting the model number.
Cleanroom type Slider type
Actuator Width 50mm
50:50mm
800:800mm
(Can be set in 50mm
increments)
B : Brake
NM : Non-motor end
specification
ABU: Simple absolute
specification
VR: Vacuum joint on
opposite side
N: None P: 1m
S: 3 m M: 5m
X: Specified length
Controller type
I
Encoder type
Correlation diagrams of Speed and Payload
With the ERC3 series, due to the characteristics of the pulse motor, payload decreases as the speed increases.
Use the chart below to confirm that the desired speed and payload requirements are met.
Notes on
selection
If the high-output setting is enabled
(factory default), the duty must be limited.
(Refer to P.13.) If the high-output setting is
disabled, the payload and maximum speed
become lower, but the actuator can be used
at a duty of 100%. Refer to the operation
manual for information on how to change
the high-output setting. Refer to P.32 for the
payload at each speed/acceleration when
the high-output setting is enabled.
Refer to P.33 for the specifications that
apply when the high-output setting is
disabled.
For other cautionary items, refer to
“Explanations of/Cautionary Notes on Items
Specified in Catalog (P.13).”
Model number Lead
(mm)
Maximum payload (Note 1) Stroke
Horizontal (kg) Vertical (kg) (mm)
ERC3CR-SA5C-I-42P-20- ➀ - ➁ - ➂ - ➃ 20 6.5 1
50~800
(every 50mm)
Stroke
Lead
50~450
(every 50mm)
500
(mm)
550
(mm)
600
(mm)
650
(mm)
700
(mm)
750
(mm)
800
(mm)
Suction amount
(Nl/min)
20 1120 1045 900 785 690 610 80
12 900 795 665 570 490 425 375 330 50
6 450 395 335 285 245 215 185 165 30
3 225 195 165 140 120 105 90 80 15
Actuator Specifications (High-output Setting Enabled)
ERC3CR-SA5C
(*) If the simple absolute specification is selected, the separately sold PIO
converter of simple absolute specification (with battery) is required.
17. 16
ROBO Cylinder®
39
32
50
55.3
68.7
53.5
43.5
6 20 6
32.5
17.2
Opposite side
5
Detail Y
6.5 4.5
ø8
ø4.5
5
Detail view of
mounting hole
2-ø4,H7 depth 6 4-M4 depth 9
(ø4H7 pitch ±0.02)
3
ø40 (range of rotation)
15.5 9 15.5
30 43
Home
K
20
SE
19±0.02
26
32 43.2
26
L
B×100P
Y
Stroke
*4 Outer diameter of suction joint tube: ø6
90 34.2
3
2 -ø4H7 penetrating through one wall (Maximum
insertion depth 7 from the bottom of the base)
24
C×100P 50 20
A 62
105.7
ME
ME (*2)
7 G 126.9
Teaching port
Cable joint
connector (*1)
27.2 21
External view of the
brake specication
The overall length of the brake speci—cation is
42.5mm longer than the standard speci—cation
and its mass is 0.4 kg heavier.
148.2
42.5 105.7
O˜set reference
position for
moments (*3)
4+0.012
0
Standard
Suction joint (*4)
H - Oblong hole penetrating through one wall
(Maximum insertion depth 7 from the bottom of the base)
D-M4
depth 9
J (Pitch between ø4H7 and oblong hole)
F-ø4.5, through
ø8 counterbored, depth 5.5
(from the opposite side)
*1 Connect the power I/O cable.
Refer to P.44 for details on this cable
SE: Stroke End
ME: Mechanical End
*2 The slider moves to the ME during
home return, so pay attention to
possible contact with surrounding
structures.
*3 Reference position is used when
calculating the Ma and Mc moments
Dimensional Drawings
CAD drawings can be downloaded
from the website. www.intelligentactuator.com
2D
CAD
Actuator specificaton Dimensions and Mass by Stroke
Item Description
Drive system Ball screw ø10 mm, rolled C10
Positioning repeatability (*1) ± 0.02 mm [± 0.03 mm]
Lost motion 0.1 mm or less
Static allowable load moment Ma: 29.4 N•m, Mb: 42.0 N•m, Mc: 60.5 N•m
Dynamic allowable load moment (*2) Ma: 7.1 N•m, Mb: 10.2 N•m, Mc: 14.7 N•m
Overhang load lengths 150mm or less in Ma direction, 150 mm or less
in Mb and Mc directions
Ambient operation temperature,
humidity 0 to 40˚C, 85% RH or less (Non-condensing)
(*1) The specification in [ ] applies when the lead is 20 mm.
(*2) Based on 5,000 km of traveling life.
Allowable load moment directions
Overhang load lengths
Controllers (Built into the Actuator)
②I/O type
With the ERC3 series, one of the following five types of built-in controllers can be selected depending on the external input/output (I/O) type. Select the type that meets your purpose.
Name External view Model number Features
Maximum
number of
positioning points
Input
power
Power supply
capacity
Standard
price
Reference
page
PIO type (NPN
specification) ERC3CR-SA5C-I-42P---NP--
Simple control type
accommodating up to
16 positioning points
16
DC24V
High-output
setting
enabled: 3.5A
rated 4.2A
max.
High-output
setting
disabled: 2.2A
— P35
PIO type (PNP
specification) ERC3CR-SA5C-I-42P---PN--
I/O type supporting
inputs/outputs of the
PNP specification often
used overseas
16
SIO type ERC3CR-SA5C-I-42P---SE--
High-function type
accommodating up to
512 positioning points
(PIO converter is used)
512
Pulse-train
type (NPN
specification)
ERC3CR-SA5C-I-42P---PLN--
Pulse-train input type
supporting the NPN
specification
−
Pulse-train
type (PNP
specification)
ERC3CR-SA5C-I-42P---PLP--
Pulse-train input type
supporting the PNP
specification
−
L
L
Ma Mb Mc Ma Mc
Stroke 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800
L 299.9 349.9 399.9 449.9 499.9 549.9 599.9 649.9 699.9 749.9 799.9 849.9 899.9 949.9 999.9 1049.9
A 73 100 100 200 200 300 300 400 400 500 500 600 600 700 700 800
B 0 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7
C 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7
D 4 4 4 6 6 8 8 10 10 12 12 14 14 16 16 18
F 4 4 6 6 8 8 10 10 12 12 14 14 16 16 18 18
G 166 216 266 316 366 416 466 516 566 616 666 716 766 816 866 916
H 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
J 0 85 85 185 185 285 285 385 385 485 485 585 585 685 685 785
K 194.2 244.2 294.2 344.2 394.2 444.2 494.2 544.2 594.2 644.2 694.2 744.2 794.2 844.2 894.2 944.2
Mass (kg) 1.6 1.8 2.0 2.1 2.3 2.5 2.6 2.8 3.0 3.1 3.3 3.5 3.6 3.8 4.0 4.1
ERC3CR-SA5C
18. ROBO Cylinder®
ERC3CR-SA7C
Model
Specification
Items
50
45
40
35
30
25
20
15
10
0
The values below are based on operation at 0.3 G. The values below are based on operation at 0.3 G.
Lead 4 Horizontal Vertical
Actuator Specifications (High-output Setting Enabled)
Leads and Payloads (Note 1) Take caution that the maximum payload decreases as the speed increases. Stroke and Maximum Speed/Suction Amount by Lead
17 ERC3CR-SA7C
73
71
Stroke
50~800 85
Unit: mm
372.2~1122.2
Correlation diagrams of Speed and Payload
With the ERC3 series, due to the characteristics of the pulse motor, payload decreases as the speed increases.
Use the chart below to confirm that the desired speed and payload requirements are met.
25
20
15
10
0
0 200 400 600 800 1000 1200 1400
Speed (mm/s)
5
0 200 400 600 800 1000 1200 1400
Speed (mm/s)
5
Payload (kg)
Payload (kg)
Lead 8
Lead 16
Lead 24
Lead 4
Lead 8
Lead 16
Lead 24
1 1
22
14
6
3
4.5 3.5
18
4 2 4
17
Model number Lead
(mm)
Type Cable symbol
Standard price
PIO type SIO type
Standard type
(Robot cable)
P (1m) — —
S (3m) — —
M (5m) — —
Special length X06(6m)~X10(10m) — —
Notes on
selection
POINT
If the high-output setting is enabled
(factory default), the duty must be limited.
(Refer to P.13.) If the high-output setting is
disabled, the payload and maximum speed
become lower, but the actuator can be used
at a duty of 100%. Refer to the operation
manual for information on how to change
the high-output setting. Refer to P.32 for the
payload at each speed/acceleration when
the high-output setting is enabled.
Refer to P.33 for the specifications that
apply when the high-output setting is
disabled.
For other cautionary items, refer to
“Explanations of/Cautionary Notes on Items
Specified in Catalog (P.13).”
Name Option code See page Standard price
Brake B P12 —
Non-motor end
specification NM P12 —
Vacuum joint on
opposite side VR P12 —
Simple absolute
specification ABU P12 — (*)
(*) If the simple absolute specification is selected, the separately sold PIO
converter of simple absolute specification (with battery) is required.
High-output setting enabled (Factory default)
③Cable length
*Refer to P. 44 for maintenance cables.
①Stroke
ERC3CR
Series
SA7C
Type
56P
Motor type Lead Stroke I/O type Cable length Option
I: Incremental 56Pulse motor
specification
NP: PIO (NPN) type
PN: PIO (PNP) type
SE: SIO type
PLN: Pulse-train (NPN) type
PLP: Pulse-train (PNP) type
CN: CON type
MC: MEC type
24 : 24mm
16 : 16mm
8 : 8mm
4 : 4mm
Cleanroom type Slider type
Actuator Width 73mm
50:50mm
800:800mm
(Can be set in 50mm
increments)
B : Brake
NM : Non-motor end
specification
ABU: Simple absolute
specification
VR: Vacuum joint on
opposite side
N: None P: 1m
S: 3 m M: 5m
X: Specified length
Controller type
I
Encoder type
*Refer to P.11 for the description of items constituting the model number.
Legend ➀ Stroke ➁ I/O type ➂ Cable length ➃ Option
Maximum payload (Note 1) Stroke
Horizontal (kg) Vertical (kg) (mm)
ERC3CR-SA7C-I-56P-24- ➀ - ➁ - ➂ - ➃ 24 17 3
50~800
(every 50mm)
ERC3CR-SA7C-I-56P-16- ➀ - ➁ - ➂ - ➃ 16 35 6
ERC3CR-SA7C-I-56P-8- ➀ - ➁ - ➂ - ➃ 8 40 14
ERC3CR-SA7C-I-56P-4- ➀ - ➁ - ➂ - ➃ 4 45 22
(Unit: mm/s)
Stroke
Lead
50~550
(every 50mm)
600
(mm)
650
(mm)
700
(mm)
750
(mm)
800
(mm)
Suction amount
(Nl/min)
24 1200 1155 1010 890 790 90
16 980
840
865
840 750 655 580 515 70
8 490 430 375 325 290 255 40
4 210 185 160 145 125 30
④Options
Stroke
(mm)
Standard
price
50 —
100 —
150 —
200 —
250 —
300 —
350 —
400 —
Stroke
(mm)
Standard
price
450 —
500 —
550 —
600 —
650 —
700 —
750 —
800 —
The value inside indicates vertical usage.
The values of lead 8 and lead 4 apply when acceleration is at 0.1G.
19. ROBO Cylinder®
Dimensional Drawings
CAD drawings can be downloaded
from the website. www.intelligentactuator.com
2D
CAD
*1 Connect the power I/O cable.
Refer to P.44 for details on this cable
SE: Stroke End
ME: Mechanical End
*2 The slider moves to the ME during
home return, so pay attention to
possible contact with surrounding
structures.
*3 Reference position is used when
calculating the Ma and Mc moments
Teaching port
Cable joint
connector (*1)
18 ERC3CR-SA7C
20 20 20 4-M5 depth 10
44.9 21
The overall length of the brake specication is
51 mm longer than the standard specication
and its mass is 0.5 kg heavier.
185.5
51 134.5
L
K 134.5
128 39.2
Stroke
3 3
ME SE ME
B×100P
58.7
F-ø6, through ø9.5 counterbored,
depth 11 (from the opposite side)
C×100P 30
Y
J (Pitch between ø4H7 and oblong hole)
E - ø4H7 penetrating through one wall
(Maximum insertion depth 12
from the bottom of the base)
A 80 25.5
20.5
52.5
Suction joint (*4)
40
D-M5 depth 11
10 G 163.2
*4 Outer diameter of suction joint tube: ø8
43
71
73
85
71
57
48
8 32 8
25.5
32±0.02
50
39
49.5
5
ø9.5
ø6
12.5 5.5
6
Detail view of
mounting hole
Oset reference
position for
moments
Opposite side
4 +0.012
0
2-ø5, H7 depth 10
(ø5H7 pitch ±0.02)
ø46 (range of rotation)
Home
Standard
Detail Y
External view of the
brake specication
H - Oblong hole penetrating through one wall
(Maximum insertion depth 12 from the bottom of the base)
Actuator specificaton Dimensions and Mass by Stroke
Item Description
Drive system Ball screw ø12 mm, rolled C10
Positioning repeatability (*1) ± 0.02 mm [± 0.03 mm]
Lost motion 0.1 mm or less
Static allowable load moment Ma: 70.0 N•m, Mb: 100.0 N•m, Mc: 159.5 N•m
Dynamic allowable load moment (*2) Ma: 15.0 N•m, Mb: 21.4 N•m, Mc: 34.1 N•m
Overhang load lengths 150 mm or less in Ma direction, 150 mm or less
in Mb and Mc directions
Ambient operation temperature,
humidity 0 to 40˚C, 85% RH or less (Non-condensing)
(*1) The specification in [ ] applies when the lead is 24 mm.
(*2) Based on 5,000 km of traveling life.
Allowable load moment directions
Overhang load lengths
Controllers (Built into the Actuator)
②I/O type
With the ERC3 series, one of the following five types of built-in controllers can be selected depending on the external input/output (I/O) type. Select the type that meets your purpose.
Name External view Model number Features
Maximum
number of
positioning points
Input
power
Power supply
capacity
Standard
price
Reference
page
PIO type (NPN
specification) ERC3CR-SA7C-I-56P---NP--
Simple control type
accommodating up to
16 positioning points
16
DC24V
High-output
setting
enabled: 3.5A
rated 4.2A
max.
High-output
setting
disabled: 2.2A
— P35
PIO type (PNP
specification) ERC3CR-SA7C-I-56P---PN--
I/O type supporting
inputs/outputs of the
PNP specification often
used overseas
16
SIO type ERC3CR-SA7C-I-56P---SE--
High-function type
accommodating up to
512 positioning points
(PIO converter is used)
512
Pulse-train
type (NPN
specification)
ERC3CR-SA7C-I-56P---PLN--
Pulse-train input type
supporting the NPN
specification
−
Pulse-train
type (PNP
specification)
ERC3CR-SA7C-I-56P---PLP--
Pulse-train input type
supporting the PNP
specification
−
L
L
Ma Mb Mc Ma Mc
Stroke 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800
L 372.2 422.2 472.2 522.2 572.2 622.2 672.2 722.2 772.2 822.2 872.2 922.2 972.2 1022.2 1072.2 1122.2
A 0 100 100 200 200 300 300 400 400 500 500 600 600 700 700 800
B 0 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7
C 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8
D 4 6 6 8 8 10 10 12 12 14 14 16 16 18 18 20
E 2 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3
F 4 4 6 6 8 8 10 10 12 12 14 14 16 16 18 18
G 199 249 299 349 399 449 499 549 599 649 699 749 799 849 899 949
H 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
J 0 85 85 185 185 285 285 385 385 485 485 585 585 685 685 785
K 237.7 287.7 337.7 387.7 437.7 487.7 537.7 587.7 637.7 687.7 737.7 787.7 837.7 887.7 937.7 987.7
Mass (kg) 3.6 3.9 4.1 4.4 4.7 4.9 5.2 5.5 5.7 6.0 6.3 6.5 6.8 7.1 7.3 7.6
20. ROBO Cylinder®
ERC3D-SA5C
ERC3D
Series
SA5C
Type
42P
Motor type Lead Stroke I/O type Cable length Option
I: Incremental 42Pulse motor
specification
*Refer to P.11 for the description of items constituting the model number.
Correlation diagrams of Speed and Payload
With the ERC3 series, due to the characteristics of the pulse motor, payload decreases as the speed increases.
Use the chart below to confirm that the desired speed and payload requirements are met.
The values below are based on operation at 0.3 G. The values below are based on operation at 0.3 G.
14
Horizontal Vertical
12
10
8
6
4
600 800 1000 1200 1400 0 200 400 600 800 1000 1200 1400
25
20
15
10
18
Actuator Specifications (High-output Setting Enabled)
Leads and Payloads (Note 1) Take caution that the maximum payload decreases as the speed increases. Stroke and Maximum Speed by Lead
19 ERC3D-SA5C
53.5
50
Stroke
50~800 Unit: mm
68.7
299.9~1049.9
POINT
If the high-output setting is enabled
(factory default), the duty must be limited.
(Refer to P.13.) If the high-output setting is
disabled, the payload and maximum speed
become lower, but the actuator can be used
at a duty of 100%. Refer to the operation
manual for information on how to change
the high-output setting. Refer to P.32 for the
payload at each speed/acceleration when
the high-output setting is enabled.
Refer to P.33 for the specifications that
apply when the high-output setting is
disabled.
For other cautionary items, refer to
“Explanations of/Cautionary Notes on Items
Specified in Catalog (P.13).”
The values of lead 3 apply when acceleration is at 0.1G.
④Options
Notes on
selection
(Unit: mm/s)
Stroke
Lead
50~450
(every 50mm)
500
(mm)
550
(mm)
600
(mm)
650
(mm)
700
(mm)
750
(mm)
800
(mm)
20 1120 1045 900 785 690 610
12 900 795 665 570 490 425 375 330
6 450 395 335 285 245 215 185 165
3 225 195 165 140 120 105 90 80
③Cable length
Type Cable symbol
*Refer to P. 44 for maintenance cables.
Standard price
PIO type SIO type
Standard type
(Robot cable)
P (1m) — —
S (3m) — —
M (5m) — —
Special length X06(6m)~X10(10m) — —
①Stroke
Stroke
(mm)
Standard
price
450 —
500 —
550 —
600 —
650 —
700 —
750 —
800 —
Stroke
(mm)
Standard
price
50 —
100 —
150 —
200 —
250 —
300 —
350 —
400 —
Name Option code See page Standard price
Brake B P12 —
Non-motor end
specification NM P12 —
Simple absolute
specification ABU P12 — (*)
(*) If the simple absolute specification is selected, the separately sold PIO
converter of simple absolute specification (with battery) is required.
Model number Lead
(mm)
Maximum payload (Note 1) Stroke
Horizontal (kg) Vertical (kg) (mm)
ERC3D-SA5C-I-42P-20- ➀ - ➁ - ➂ - ➃ 20 6.5 1
50~800
(every 50mm)
ERC3D-SA5C-I-42P-12- ➀ - ➁ - ➂ - ➃ 12 9 2.5
ERC3D-SA5C-I-42P-6- ➀ - ➁ - ➂ - ➃ 6 18 6
ERC3D-SA5C-I-42P-3- ➀ - ➁ - ➂ - ➃ 3 20 12
Legend ➀ Stroke ➁ I/O type ➂ Cable length ➃ Option
NP: PIO (NPN) type
PN: PIO (PNP) type
SE: SIO type
PLN: Pulse-train (NPN) type
PLP: Pulse-train (PNP) type
CN: CON type
MC: MEC type
20 : 20mm
12 : 12mm
6 : 6mm
3 : 3mm
Simple, dustproof type
Slider type Actuator Width 50mm
50:50mm
800:800mm
(Can be set in 50mm
increments)
B : Brake
NM : Non-motor end
specification
ABU: Simple absolute
specification
N: None P: 1m
S: 3 m M: 5m
X: Specified length
Controller type
I
Encoder type
Model
Specification
Items
0
0 200 400
Speed (mm/s)
5
0
Speed (mm/s)
2
Payload (kg)
Payload (kg)
Lead 3
Lead 6
Lead 12
Lead 20
Lead 6
Lead 12 Lead 20
5
7
9
6.5
Lead 3
2.5
0.5
0.5 0.5
5.5 1
High-output setting enabled (Factory default)
21. ROBO Cylinder®
Dimensional Drawings
CAD drawings can be downloaded
from the website. www.intelligentactuator.com
2D
CAD
*1 Connect the power I/O cable.
Refer to P.44 for details on this cable
SE: Stroke End
ME: Mechanical End
*2 The slider moves to the ME during
home return, so pay attention to
possible contact with surrounding
structures.
*3 Reference position is used when
calculating the Ma and Mc moments
20 ERC3D-SA5C
39
32
50
55.3
68.7
53.5
43.5
6 20 6
5
Detail Y
18
H Oblong
hole penetrating through one wall
(Maximum insertion depth 7 from the bottom of the base)
6.5 4.5
ø4.5
5
K 105.7
B×100P
94 32.2
2 ø4H7
penetrating through one wall
(Maximum insertion depth 7
from the bottom of the base)
24
DM4
depth 9 Fø4.5,
C×100P 50 20
A 62
Y
J (Pitch between ø4H7 and oblong hole)
26
through ø8 counterbored,
depth 5.5 (from the opposite side)
7 G 126.9
27.2 21
Teaching port
Cable joint
connector (*1)
External view of the
brake specication
148.2
42.5 105.7
Stroke
3
3
L
ME SE
ME (*2)
15.5 9 15.5
26
(ø4H7 pitch ±0.02)
4M4
depth 9
30 43
2ø4,
H7 depth 6
19±0.02
Home
O˜set reference
position for
moments (*3)
4 +0.012
0
ø8
Detail view of
mounting hole
The overall length of the brake speci›cation is
42.5 mm longer than the standard speci›cation
and its mass is 0.4 kg heavier.
Actuator specificaton Dimensions and Mass by Stroke
Item Description
Drive system Ball screw ø10 mm, rolled C10
Positioning repeatability (*1) ± 0.02 mm [± 0.03 mm]
Lost motion 0.1 mm or less
Static allowable load moment Ma: 29.4 N•m, Mb: 42.0 N•m, Mc: 60.5 N•m
Dynamic allowable load moment (*2) Ma: 7.1 N•m, Mb: 10.2 N•m, Mc: 14.7 N•m
Overhang load lengths 150 mm or less in Ma direction, 150 mm or less
in Mb and Mc directions
Ambient operation temperature,
humidity 0 to 40˚C, 85% RH or less (Non-condensing)
(*1) The specification in [ ] applies when the lead is 20 mm.
(*2) Based on 5,000 km of traveling life.
Allowable load moment directions
Overhang load lengths
Controllers (Built into the Actuator)
②I/O type
With the ERC3 series, one of the following five types of built-in controllers can be selected depending on the external input/output (I/O) type. Select the type that meets your purpose.
Name External view Model number Features
Maximum
number of
positioning points
Input
power
Power supply
capacity
Standard
price
Reference
page
PIO type (NPN
specification) ERC3D-SA5C-I-42P---NP--
Simple control type
accommodating up to
16 positioning points
16
DC24V
High-output
setting
enabled: 3.5A
rated 4.2A
max.
High-output
setting
disabled: 2.2A
— P35
PIO type (PNP
specification) ERC3D-SA5C-I-42P---PN--
I/O type supporting
inputs/outputs of the
PNP specification often
used overseas
16
SIO type ERC3D-SA5C-I-42P---SE--
High-function type
accommodating up to
512 positioning points
(PIO converter is used)
512
Pulse-train
type (NPN
specification)
ERC3D-SA5C-I-42P---PLN--
Pulse-train input type
supporting the NPN
specification
−
Pulse-train
type (PNP
specification)
ERC3D-SA5C-I-42P---PLP--
Pulse-train input type
supporting the PNP
specification
−
L
L
Ma Mb Mc Ma Mc
Stroke 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800
L 299.9 349.9 399.9 449.9 499.9 549.9 599.9 649.9 699.9 749.9 799.9 849.9 899.9 949.9 999.9 1049.9
A 73 100 100 200 200 300 300 400 400 500 500 600 600 700 700 800
B 0 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7
C 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7
D 4 4 4 6 6 8 8 10 10 12 12 14 14 16 16 18
F 4 4 6 6 8 8 10 10 12 12 14 14 16 16 18 18
G 166 216 266 316 366 416 466 516 566 616 666 716 766 816 866 916
H 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
J 0 85 85 185 185 285 285 385 385 485 485 585 585 685 685 785
K 194.2 244.2 294.2 344.2 394.2 444.2 494.2 544.2 594.2 644.2 694.2 744.2 794.2 844.2 894.2 944.2
Mass (kg) 1.6 1.8 2.0 2.1 2.3 2.5 2.6 2.8 3.0 3.1 3.3 3.5 3.6 3.8 4.0 4.1
22. ROBO Cylinder®
Correlation diagrams of Speed and Payload
With the ERC3 series, due to the characteristics of the pulse motor, payload decreases as the speed increases.
Use the chart below to confirm that the desired speed and payload requirements are met.
50
45
40
35
30
25
20
15
10
0
Lead 4 Horizontal Vertical
Actuator Specifications (High-output Setting Enabled)
Leads and Payloads (Note 1) Take caution that the maximum payload decreases as the speed increases. Stroke and Maximum Speed by Lead
ERC3D-SA7C 21
73
71
Stroke
50~800 85
Unit: mm
372.2~1122.2
ERC3D-SA7C
25
20
15
10
0
③Cable length
Type Cable symbol
*Refer to P. 44 for maintenance cables.
Standard price
PIO type SIO type
Standard type
(Robot cable)
P (1m) — —
S (3m) — —
M (5m) — —
Special length X06(6m)~X10(10m) — —
①Stroke
Stroke
(mm)
Standard
price
450 —
500 —
550 —
600 —
650 —
700 —
750 —
800 —
Stroke
(mm)
Standard
price
50 —
100 —
150 —
200 —
250 —
300 —
350 —
400 —
④Options
POINT
Name Option code See page Standard price
Brake B P12 —
Non-motor end
specification NM P12 —
Simple absolute
specification ABU P12 — (*)
(*) If the simple absolute specification is selected, the separately sold PIO
converter of simple absolute specification (with battery) is required.
ERC3D-SA7C
ERC3D
Series
SA7C
Type
56P
Motor type Lead Stroke I/O type Cable length Option
I: Incremental 56Pulse motor
specification
NP: PIO (NPN) type
PN: PIO (PNP) type
SE: SIO type
PLN: Pulse-train (NPN) type
PLP: Pulse-train (PNP) type
CN: CON type
MC: MEC type
24 : 24mm
16 : 16mm
8 : 8mm
4 : 4hmm
Simple, dustproof type
Slider type Actuator Width 73mm
50:50mm
800:800mm
(Can be set in 50mm
increments)
B : Brake
NM : Non-motor end
specification
ABU: Simple absolute
specification
N: None P: 1m
S: 3 m M: 5m
X: Specified length
Controller type
I
Encoder type
Model
Specification
Items
*Refer to P.11 for the description of items constituting the model number.
0 200 400 600 800 1000 1200 1400
Speed (mm/s)
5
0 200 400 600 800 1000 1200 1400
Speed (mm/s)
5
Payload (kg)
Payload (kg)
Lead 8
Lead 16
Lead 24
Lead 4
Lead 8
Lead 16
Lead 24
1 1
22
14
6
3
4.5 3.5
18
4 2 4
17
The values below are based on operation at 0.3 G. The values below are based on operation at 0.3 G.
High-output setting enabled (Factory default)
Notes on
selection
If the high-output setting is enabled
(factory default), the duty must be limited.
(Refer to P.13.) If the high-output setting is
disabled, the payload and maximum speed
become lower, but the actuator can be used
at a duty of 100%. Refer to the operation
manual for information on how to change
the high-output setting. Refer to P.32 for the
payload at each speed/acceleration when
the high-output setting is enabled.
Refer to P.33 for the specifications that
apply when the high-output setting is
disabled.
For other cautionary items, refer to
“Explanations of/Cautionary Notes on Items
Specified in Catalog (P.13).”
Model number Lead
(mm)
Maximum payload (Note 1) Stroke
Horizontal (kg) Vertical (kg) (mm)
ERC3D-SA7C-I-56P-24- ➀ - ➁ - ➂ - ➃ 24 17 3
50~800
(every 50mm)
ERC3D-SA7C-I-56P-16- ➀ - ➁ - ➂ - ➃ 16 35 6
ERC3D-SA7C-I-56P-8- ➀ - ➁ - ➂ - ➃ 8 40 14
ERC3D-SA7C-I-56P-4- ➀ - ➁ - ➂ - ➃ 4 45 22
Legend ➀ Stroke ➁ I/O type ➂ Cable length ➃ Option
(Unit: mm/s)
Stroke
Lead
50~550
(every 50mm)
600
(mm)
650
(mm)
700
(mm)
750
(mm)
800
(mm)
24 1200 1155 1010 890 790
16 980
840
865
840 750 655 580 515
8 490 430 375 325 290 255
4 210 185 160 145 125
The value inside indicates vertical usage.
The values of lead 8 and lead 4 apply when acceleration is at 0.1G.
23. ROBO Cylinder®
Dimensional Drawings
CAD drawings can be downloaded
from the website. www.intelligentactuator.com
2D
CAD
*1 Connect the power I/O cable.
R efer to P.44 for details on this cable
S E: Stroke End
M E: Mechanical End
*2 The slider moves to the ME during
home return, so pay attention to
p ossible contact with surrounding
s tructures.
*3 Reference position is used when
c alculating the Ma and Mc moments
OExternal view of the
brake specication
51 134.5 22 ERC3D-SA7C
43
48
71
73
85
71
57
9 30 9
2-ø5, H7 depth 10 20 20 20 4-M5 depth 10
L
(ø5H7 pitch ±0.02)
50 49.5
K 134.5
39
21.5 126 40.2
3 3
ME SE SE ME
H - Oblong hole penetrating through one wall
(Maximum insertion depth 12 from the bottom of the base)
D-M5 depth 11
5
Detail Y ø9.5
12.5 5.5
6
B×100P
C×100P 30
Y
J (Pitch between ø4H7 and oblong hole)
F-ø6, through ø9.5 counterbored,
depth 11 (from the opposite side)
E - ø4H7 penetrating through one wall (Maximum
insertion depth 12 from the bottom of the base)
A 80 25.5
10 G 163.2
44.9 21
Teaching port
Cable joint
connector (*1)
185.5
¡set reference
position for
moments
4+0.012
0
ø6
Detail view of
mounting hole
32±0.02
Stroke
The overall length of the brake speci£cation is
51 mm longer than the standard speci£cation
and its mass is 0.5 kg heavier.
Actuator specificaton Dimensions and Mass by Stroke
Stroke 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800
L 372.2 422.2 472.2 522.2 572.2 622.2 672.2 722.2 772.2 822.2 872.2 922.2 972.2 1022.2 1072.2 1122.2
A 0 100 100 200 200 300 300 400 400 500 500 600 600 700 700 800
B 0 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7
C 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8
D 4 6 6 8 8 10 10 12 12 14 14 16 16 18 18 20
E 2 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3
F 4 4 6 6 8 8 10 10 12 12 14 14 16 16 18 18
G 199 249 299 349 399 449 499 549 599 649 699 749 799 849 899 949
H 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
J 0 85 85 185 185 285 285 385 385 485 485 585 585 685 685 785
K 237.7 287.7 337.7 387.7 437.7 487.7 537.7 587.7 637.7 687.7 737.7 787.7 837.7 887.7 937.7 987.7
Item Description
Drive system Ball screw ø12 mm, rolled C10
Positioning repeatability (*1) ± 0.02 mm [± 0.03 mm]
Lost motion 0.1 mm or less
Static allowable load moment Ma: 70.0 N•m, Mb: 100.0 N•m, Mc: 159.5 N•m
Dynamic allowable load moment (*2) Ma: 15.0 N•m, Mb: 21.4 N•m, Mc: 34.1 N•m
Overhang load lengths 150 mm or less in Ma direction, 150 mm or less
in Mb and Mc directions
Ambient operation temperature,
humidity 0 to 40˚C, 85% RH or less (Non-condensing)
Overhang load lengths
L Mass (kg) 3.6 3.9 4.1 4.4 4.7 4.9 5.2 5.5 5.7 6.0 6.3 6.5 6.8 7.1 7.3 7.6
L
(*1) The specification in [ ] applies when the lead is 24 mm.
(*2) Based on 5,000 km of traveling life.
Allowable load moment directions
Ma Mb Mc Ma Mc
Controllers (Built into the Actuator)
②I/O type
With the ERC3 series, one of the following five types of built-in controllers can be selected depending on the external input/output (I/O) type. Select the type that meets your purpose.
Name External view Model number Features
Maximum
number of
positioning points
Input
power
Power supply
capacity
Standard
price
Reference
page
PIO type (NPN
specification) ERC3D-SA7C-I-56P---NP--
Simple control type
accommodating up to
16 positioning points
16
DC24V
High-output
setting
enabled: 3.5A
rated 4.2A
max.
High-output
setting
disabled: 2.2A
— P35
PIO type (PNP
specification) ERC3D-SA7C-I-56P---PN--
I/O type supporting
inputs/outputs of the
PNP specification often
used overseas
16
SIO type ERC3D-SA7C-I-56P---SE--
High-function type
accommodating up to
512 positioning points
(PIO converter is used)
512
Pulse-train
type (NPN
specification)
ERC3D-SA7C-I-56P---PLN--
Pulse-train input type
supporting the NPN
specification
−
Pulse-train
type (PNP
specification)
ERC3D-SA7C-I-56P---PLP--
Pulse-train input type
supporting the PNP
specification
−
24. ROBO Cylinder®
50
50
Stroke
50~800 Unit: mm
Correlation diagrams of Speed and Payload
With the ERC3 series, due to the characteristics of the pulse motor, payload decreases as the speed increases.
Use the chart below to confirm that the desired speed and payload requirements are met.
25
20
15
10
18
The values below are based on operation at 0.3 G. The values below are based on operation at 0.3 G.
0
0 200 400
Actuator Specifications (High-output Setting Enabled)
Leads and Payloads (Note 1) Take caution that the maximum payload decreases as the speed increases. Stroke and Maximum Speed by Lead
ERC3-SA5C 23
14
Horizontal Vertical
12
10
8
6
4
600 800 1000 1200 1400 0 200 400 600 800 1000 1200 1400
③Cable length ④Options
Type Cable symbol
*Refer to P. 44 for maintenance cables.
Standard price
PIO type SIO type
Standard type
(Robot cable)
P (1m) — —
S (3m) — —
M (5m) — —
Special length X06(6m)~X10(10m) — —
①Stroke
Stroke
(mm)
Standard
price
450 —
500 —
550 —
600 —
650 —
700 —
750 —
800 —
Stroke
(mm)
Standard
price
50 —
100 —
150 —
200 —
250 —
300 —
350 —
400 —
Speed (mm/s)
5
0
Speed (mm/s)
2
Payload (kg)
Payload (kg)
Lead 3
Lead 6
Lead 12
Lead 20
Lead 6
Lead 12 Lead 20
5
7
9
6.5
Lead 3
2.5
0.5
0.5 0.5
5.5 1
High-output setting enabled (Factory default)
Notes on
selection
POINT
If the high-output setting is enabled
(factory default), the duty must be limited.
(Refer to P.13.) If the high-output setting is
disabled, the payload and maximum speed
become lower, but the actuator can be used
at a duty of 100%. Refer to the operation
manual for information on how to change
the high-output setting. Refer to P.32 for the
payload at each speed/acceleration when
the high-output setting is enabled.
Refer to P.33 for the specifications that
apply when the high-output setting is
disabled.
For other cautionary items, refer to
“Explanations of/Cautionary Notes on Items
Specified in Catalog (P.13).”
Model number Lead
(mm)
Maximum payload (Note 1) Stroke
Horizontal (kg) Vertical (kg) (mm)
ERC3-SA5C-I-42P-20- ➀ - ➁ - ➂ - ➃ 20 6.5 1
50~800
(every 50mm)
ERC3-SA5C-I-42P-12- ➀ - ➁ - ➂ - ➃ 12 9 2.5
ERC3-SA5C-I-42P-6- ➀ - ➁ - ➂ - ➃ 6 18 6
ERC3-SA5C-I-42P-3- ➀ - ➁ - ➂ - ➃ 3 20 12
Legend ➀ Stroke ➁ I/O type ➂ Cable length ➃ Option
68.7
284.5~1034.5
(Unit: mm/s)
Stroke
Lead
50~450
(every 50mm)
500
(mm)
550
(mm)
600
(mm)
650
(mm)
700
(mm)
750
(mm)
800
(mm)
20 1120 1115 935 795 680 585 510
12 900 805 665 560 475 405 350 300
6 450 400 330 280 235 200 175 150
3 225 200 165 140 115 100 85 75
Name Option code See page Standard price
Brake B P12 —
Non-motor end
specification NM P12 —
Simple absolute
specification ABU P12 — (*)
(*) If the simple absolute specification is selected, the separately sold PIO
converter of simple absolute specification (with battery) is required.
ERC3-SA5C
ERC3
Series
SA5C
Type
42P
Motor type Lead Stroke I/O type Cable length Option
I: Incremental 42Pulse motor
specification
NP: PIO (NPN) type
PN: PIO (PNP) type
SE: SIO type
PLN: Pulse-train (NPN) type
PLP: Pulse-train (PNP) type
CN: CON type
MC: MEC type
20 : 20mm
12 : 12mm
6 : 6mm
3 : 3mm
Standard type Slider type
Actuator Width 50mm
50:50mm
800:800mm
(Can be set in 50mm
increments)
B : Brake
NM : Non-motor end
specification
ABU: Simple absolute
specification
N: None P: 1m
S: 3 m M: 5m
X: Specified length
Controller type
I
Encoder type
Model
Specification
Items
*Refer to P.11 for the description of items constituting the model number.
The values of lead 3 apply when acceleration is at 0.1G.
25. ROBO Cylinder®
Dimensional Drawings
CAD drawings can be downloaded
from the website. www.intelligentactuator.com
2D
CAD
24 ERC3-SA5C
reference plane
ø4.5
ø8
47
50
55.3
68.7
57
X
5
Detail Y
3 4.5
5
Detail view of X
(Mounting hole and
the reference plane)
Oset reference position
for Ma/Mc moments *3
36.5
50
5 41 5
4-M4 depth 8
20.5 20.5
(Pitch of reamed
holes( ±0.02)
26 51 15
3
Stroke
3
142.5
L
F
ME SE HOME
G-M4 depth 7 D×100P
(from the bottom of the base)
C×100P 50 20
B (reamed hole and oblong hole pitch)
2-ø4, H7 depth 5.5
A 44 143
26
24
H-ø4.5, through ø8 counterbored,
depth 4.5 (from the opposite side)
J-Oblong hole, depth 5.5
(from the bottom of the base)
Y
2-ø4, H7 depth 6
50
ME(*2)
105.7
*1 Connect the power I/O cable.
R efer to P.44 for details on this cable
S E: Stroke End
M E: Mechanical End
*2 The slider moves to the ME during
home return, so pay attention to
p ossible contact with surrounding
s tructures.
*3 Reference position is used when
c alculating the Ma and Mc moments
Teaching port
Cable joint
connector *1
185
27.2
48.1
42.5 105.7
(300)
0.012
0
4+External view of the brake specication
The overall length of the brake speci¡cation is 42.5 mm longer
than the standard speci¡cation and its mass is 0.4 kg heavier.
Actuator specificaton Dimensions and Mass by Stroke
Item Description
Drive system Ball screw ø10 mm, rolled C10
Positioning repeatability (*1) ± 0.02 mm [± 0.03 mm]
Lost motion 0.1 mm or less
Static allowable load moment Ma: 29.4 N•m, Mb: 42.0 N•m, Mc: 60.5 N•m
Dynamic allowable load moment (*2) Ma: 7.1 N•m, Mb: 10.2 N•m, Mc: 14.7 N•m
Overhang load lengths 150 mm or less in Ma direction, 150 mm or less
in Mb and Mc directions
Ambient operation temperature,
humidity 0 to 40˚C, 85% RH or less (Non-condensing)
L
Overhang load lengths
L
(*1) The specification in [ ] applies when the lead is 20 mm.
(*2) Based on 5,000 km of traveling life.
Allowable load moment directions
Ma Mb Mc Ma Mc
Stroke 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800
L 284.5 334.5 384.5 434.5 484.5 534.5 584.5 634.5 684.5 734.5 784.5 834.5 884.5 934.5 984.5 1034.5
A 73 100 100 200 200 300 300 400 400 500 500 600 600 700 700 800
B 0 85 85 185 185 285 285 385 385 485 485 585 585 685 685 785
C 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7
D 0 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7
F 142 192 242 292 342 392 442 492 542 592 642 692 742 792 842 892
G 4 4 4 6 6 8 8 10 10 12 12 14 14 16 16 18
H 4 4 6 6 8 8 10 10 12 12 14 14 16 16 18 18
J 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Mass (kg) 1.4 1.5 1.6 1.7 1.9 2.0 2.1 2.2 2.3 2.4 2.5 2.7 2.8 2.9 3.0 3.1
Controllers (Built into the Actuator)
②I/O type
With the ERC3 series, one of the following five types of built-in controllers can be selected depending on the external input/output (I/O) type. Select the type that meets your purpose.
Name External view Model number Features
Maximum
number of
positioning points
Input
power
Power supply
capacity
Standard
price
Reference
page
PIO type (NPN
specification) ERC3-SA5C-I-42P---NP--
Simple control type
accommodating up to
16 positioning points
16
DC24V
High-output
setting
enabled: 3.5A
rated 4.2A
max.
High-output
setting
disabled: 2.2A
— P35
PIO type (PNP
specification) ERC3-SA5C-I-42P---PN--
I/O type supporting
inputs/outputs of the
PNP specification often
used overseas
16
SIO type ERC3-SA5C-I-42P---SE--
High-function type
accommodating up to
512 positioning points
(PIO converter is used)
512
Pulse-train
type (NPN
specification)
ERC3-SA5C-I-42P---PLN--
Pulse-train input type
supporting the NPN
specification
−
Pulse-train
type (PNP
specification)
ERC3-SA5C-I-42P---PLP--
Pulse-train input type
supporting the PNP
specification
−
26. ROBO Cylinder®
Correlation diagrams of Speed and Payload
With the ERC3 series, due to the characteristics of the pulse motor, payload decreases as the speed increases.
Use the chart below to confirm that the desired speed and payload requirements are met.
50
45
40
35
30
25
20
15
10
0
The values below are based on operation at 0.3 G. The values below are based on operation at 0.3 G.
Lead 4 Horizontal Vertical
Actuator Specifications (High-output Setting Enabled)
Leads and Payloads (Note 1) Take caution that the maximum payload decreases as the speed increases. Stroke and Maximum Speed by Lead
25 ERC3-SA7C
74
64
Stroke
50~800 85
Unit: mm
347.5~1097.5
25
20
15
10
0
0 200 400 600 800 1000 1200 1400
Speed (mm/s)
5
0 200 400 600 800 1000 1200 1400
Speed (mm/s)
5
Payload (kg)
Payload (kg)
Lead 8
Lead 16
Lead 24
Lead 4
Lead 8
Lead 16
Lead 24
1 1
22
14
6
3
4.5 3.5
18
4 2 4
17
Model number Lead
(mm)
③Cable length
Type Cable symbol
*Refer to P. 44 for maintenance cables.
Standard price
PIO type SIO type
Standard type
(Robot cable)
P (1m) — —
S (3m) — —
M (5m) — —
Special length X06(6m)~X10(10m) — —
①Stroke
Stroke
(mm)
Standard
price
450 —
500 —
550 —
600 —
650 —
700 —
750 —
800 —
Stroke
(mm)
Standard
price
50 —
100 —
150 —
200 —
250 —
300 —
350 —
400 —
High-output setting enabled (Factory default)
Notes on
selection
POINT
If the high-output setting is enabled
(factory default), the duty must be limited.
(Refer to P.13.) If the high-output setting is
disabled, the payload and maximum speed
become lower, but the actuator can be used
at a duty of 100%. Refer to the operation
manual for information on how to change
the high-output setting. Refer to P.32 for the
payload at each speed/acceleration when
the high-output setting is enabled.
Refer to P.33 for the specifications that
apply when the high-output setting is
disabled.
For other cautionary items, refer to
“Explanations of/Cautionary Notes on Items
Specified in Catalog (P.13).”
Legend ➀ Stroke ➁ I/O type ➂ Cable length ➃ Option
Maximum payload (Note 1) Stroke
Horizontal (kg) Vertical (kg) (mm)
ERC3-SA7C-I-56P-24- ➀ - ➁ - ➂ - ➃ 24 17 3
50~800
(every 50mm)
ERC3-SA7C-I-56P-16- ➀ - ➁ - ➂ - ➃ 16 35 6
ERC3-SA7C-I-56P-8- ➀ - ➁ - ➂ - ➃ 8 40 14
ERC3 -SA7C-I-56P-4- ➀ - ➁ - ➂ - ➃ 4 45 22
(Unit: mm/s)
Name Option code See page Standard price
Brake B P12 —
Non-motor end
specification NM P12 —
Simple absolute
specification ABU P12 — (*)
(*) If the simple absolute specification is selected, the separately sold PIO
converter of simple absolute specification (with battery) is required.
Stroke
Lead
50~550
(every 50mm)
600
(mm)
650
(mm)
700
(mm)
750
(mm)
800
(mm)
24 1200 1130 975 850 745
16 980
840
880
840 750 645 565 495
8 490 440 375 320 280 245
4 210 185 160 140 120
④Options
ERC3-SA7C
ERC3
Series
SA7C
Type
56P
Motor type Lead Stroke I/O type Cable length Option
I: Incremental 56Pulse motor
specification
NP: PIO (NPN) type
PN: PIO (PNP) type
SE: SIO type
PLN: Pulse-train (NPN) type
PLP: Pulse-train (PNP) type
CN: CON type
MC: MEC type
24 : 24mm
16 : 12mm
8 : 8mm
4 : 4mm
Standard type Slider type
Actuator Width 74mm
50:50mm
800:800mm
(Can be set in 50mm
increments)
B : Brake
NM : Non-motor end
specification
ABU: Simple absolute
specification
N: None P: 1m
S: 3 m M: 5m
X: Specified length
Controller type
I
Encoder type
Model
Specification
Items
*Refer to P.11 for the description of items constituting the model number.
The value inside indicates vertical usage.
The values of lead 8 and lead 4 apply when acceleration is at 0.1G.
27. ROBO Cylinder®
Dimensional Drawings
CAD drawings can be downloaded
from the website. www.intelligentactuator.com
2D
CAD
*1 Connect the power I/O cable.
R efer to P.44 for details on this cable
S E: Stroke End
M E: Mechanical End
*2 The slider moves to the ME during
home return, so pay attention to
p ossible contact with surrounding
s tructures.
*3 Reference position is used when
c alculating the Ma and Mc moments
External view of the brake specication
The overall length of the brake specižcation is 51 mm longer
than the standard specižcation and its mass is 0.5 kg heavier.
ERC3-SA7C 26
6 5.5
5
Reference plane
ø9.5
ø5.5
Detail view of X
(Mounting hole and
the reference plane)
Oset reference position
for Ma/Mc moments (*3)
85
64
82
71
74
X
46.5
5
Detail Y
+0.012
0
4
2-ø5, H7 depth 10 32 32 4-M5 depth 10
L
(Pitch of reamed
holes ±0.02)
F 173
28.5 76 20
G-M5 depth 9
J-Oblong hole, depth 6
(from the bottom of the base)
H-ø5.5, throug
ø9.5 counterbored,
depth 5.5 (from the opposite side)
8.5
30
D×100P
C×100P
A 80
40
Y
B (reamed hole and oblong hole pitch)
K-ø4, H7 depth 6
(from the bottom of the side)
173.5
3 3
SE ME
Stroke 134.5
Home
ME(*2)
72
6 64 6
Teaching port
Cable joint
connector (*1)
44.9
65.8
224
51 134.5
Actuator specificaton Dimensions and Mass by Stroke
Item Description
Drive system Ball screw ø12 mm, rolled C10
Positioning repeatability (*1) ± 0.02 mm [± 0.03 mm]
Lost motion 0.1 mm or less
Static allowable load moment Ma: 70.0 N•m, Mb: 100.0 N•m, Mc: 159.5 N•m
Dynamic allowable load moment (*2) Ma: 15.0 N•m, Mb: 21.4 N•m, Mc: 34.1 N•m
Overhang load lengths 150 mm or less in Ma direction, 150 mm or less
in Mb and Mc directions
Ambient operation temperature,
humidity 0 to 40˚C, 85% RH or less (Non-condensing)
(*1) The specification in [ ] applies when the lead is 24 mm.
(*2) Based on 5,000 km of traveling life.
L
Overhang load lengths
L
Allowable load moment directions
Ma Mb Mc Ma Mc
Stroke 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800
L 347.5 397.5 447.5 497.5 547.5 597.5 647.5 697.5 747.5 797.5 847.5 897.5 947.5 997.5 1047.5 1097.5
A 0 100 100 200 200 300 300 400 400 500 500 600 600 700 700 800
B 0 85 85 185 185 285 285 385 385 485 485 585 585 685 685 785
C 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8
D 0 0 0 1 1 2 2 3 3 4 4 5 5 6 6 7
F 174.5 224.5 274.5 324.5 374.5 424.5 474.5 524.5 574.5 624.5 674.5 724.5 774.5 824.5 874.5 924.5
G 4 6 6 8 8 10 10 12 12 14 14 16 16 18 18 20
H 4 4 6 6 8 8 10 10 12 12 14 14 16 16 18 18
J 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
K 2 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3
Mass (kg) 3.2 3.4 3.6 3.8 4.0 4.3 4.5 4.7 4.9 5.1 5.4 5.6 5.8 6.0 6.2 6.5
Controllers (Built into the Actuator)
②I/O type
With the ERC3 series, one of the following five types of built-in controllers can be selected depending on the external input/output (I/O) type. Select the type that meets your purpose.
Name External view Model number Features
Maximum
number of
positioning points
Input
power
Power supply
capacity
Standard
price
Reference
page
PIO type (NPN
specification) ERC3-SA7C-I-56P---NP--
Simple control type
accommodating up to
16 positioning points
16
DC24V
High-output
setting
enabled: 3.5A
rated 4.2A
max.
High-output
setting
disabled: 2.2A
— P35
PIO type (PNP
specification) ERC3-SA7C-I-56P---PN--
I/O type supporting
inputs/outputs of the
PNP specification often
used overseas
16
SIO type ERC3-SA7C-I-56P---SE--
High-function type
accommodating up to
512 positioning points
(PIO converter is used)
512
Pulse-train
type (NPN
specification)
ERC3-SA7C-I-56P---PLN--
Pulse-train input type
supporting the NPN
specification
−
Pulse-train
type (PNP
specification)
ERC3-SA7C-I-56P---PLP--
Pulse-train input type
supporting the PNP
specification
−
28. ROBO Cylinder®
Correlation diagrams of Speed and Payload
With the ERC3 series, due to the characteristics of the pulse motor, payload decreases as the speed increases.
Use the chart below to confirm that the desired speed and payload requirements are met.
45
40
35
30
25
20
15
10
5
Actuator Specifications (High-output Setting Enabled)
Leads and Payloads (Note 1) Take caution that the maximum payload decreases as the speed increases. Stroke and Maximum Speed (Unit: mm/s)
27 ERC3-RA4C
52
45
68.7
286~536
Stroke
50~300
Unit: mm
0
20
18
16
14
12
10
4.5
0 100 200 300 400 500 600 700 800 900
Speed (mm/s)
0 100 200 300 400 500 600 700 800 900
Speed (mm/s)
0 2 4 6 8
Payload (kg)
Payload (kg)
Lead 3
Lead 3
Lead 6
Lead 6
Lead 12
Lead 12
Lead 20 Lead 20
4
1.5 1
1
6 6
5.5
16
Horizontal Vertical
0.5
3.5
③Cable length
Type Cable symbol
*Refer to P. 44 for maintenance cables.
Standard price
PIO type SIO type
Standard type
(Robot cable)
P (1m) — —
S (3m) — —
M (5m) — —
Special length X06(6m)~X10(10m) — —
①Stroke
Stroke (mm) Standard price
50 —
100 —
150 —
200 —
250 —
300 —
POINT
Name Option code See page Standard price
Brake B P12 —
Non-motor end
specification NM P12 —
Simple absolute
specification ABU P12 — (*)
Flange FL P12 —
Foot bracket FT P12 —
(*) If the simple absolute specification is selected, the separately sold PIO
converter of simple absolute specification (with battery) is required.
The values below are based on operation at 0.3 G. The values below are based on operation at 0.3 G.
High-output setting enabled (Factory default)
Notes on
selection
If the high-output setting is enabled
(factory default), the duty must be limited.
(Refer to P.13.) If the high-output setting is
disabled, the payload and maximum speed
become lower, but the actuator can be used
at a duty of 100%. Refer to the operation
manual for information on how to change
the high-output setting. Refer to P.32 for the
payload at each speed/acceleration when
the high-output setting is enabled.
Refer to P.33 for the specifications that
apply when the high-output setting is
disabled.
For other cautionary items, refer to
“Explanations of/Cautionary Notes on Items
Specified in Catalog (P.13).”
Model number Lead
(mm)
Maximum payload (Note 1) Maximum push
force (N)
Stroke
Horizontal (kg) Vertical (kg) (mm)
ERC3-RA4C-I-42P-20- ➀ - ➁ - ➂ - ➃ 20 6 1.5 56
50~300
(every 50mm)
ERC3-RA4C-I-42P-12- ➀ - ➁ - ➂ - ➃ 12 25 4.5 93
ERC3-RA4C-I-42P-6- ➀ - ➁ - ➂ - ➃ 6 40 12 185
ERC3-RA4C-I-42P-3- ➀ - ➁ - ➂ - ➃ 3 40 18 370
Legend ➀ Stroke ➁ I/O type ➂ Cable length ➃ Option
Stroke
Lead
50~200
(every 50mm)
250
(mm)
300
(mm)
20 800
12 700 695 485
6 450 345 240
3 225 170 120
④Options
ERC3-RA4C
ERC3
Series
RA4C
Type
42P
Motor type Lead Stroke I/O type Cable length Option
I: Incremental 42Pulse motor
specification
NP: PIO (NPN) type
PN: PIO (PNP) type
SE: SIO type
PLN: Pulse-train (NPN) type
PLP: Pulse-train (PNP) type
CN: CON type
MC: MEC type
20 : 20mm
12 : 12mm
6 : 6mm
3 : 3mm
Standard type
Rod type Actuator Width 45mm
50:50mm
300:300mm
(Can be set in 50mm
increments)
B : Brake
NM : Non-motor end
specification
ABU: Simple absolute
specification
FL : Flange
FT : Foot bracket
N: None P: 1m
S: 3 m M: 5m
X: Specified length
Controller type
I
Encoder type
Model
Specification
Items
*Refer to P.11 for the description of items constituting the model number.
The values of lead 3 apply when acceleration is at 0.1G.
29. ROBO Cylinder®
Dimensional Drawings
CAD drawings can be downloaded
from the website. www.intelligentactuator.com
2D
CAD
28 ERC3-RA4C
ME SE HOME ME(*2)
105.7
6
4-M6 depth 12
17
34
45
55.3
52 16.7
ø32
22 (Width across
ats, 3 locations)
Item Description
Drive system Ball screw ø10 mm, rolled C10
Positioning repeatability (*1) ± 0.02 mm [± 0.03 mm]
Lost motion 0.1 mm or less [0.2 mm or less]
Rod diameter ø25 mm
Rod non-rotation precision ±1.5 degrees
Ambient operating temperature,
humidity 0 to 40˚C, 85% RH or less (Non-condensing)
Controllers (Built into the Actuator)
②I/O type
42.5 105.7
With the ERC3 series, one of the following five types of built-in controllers can be selected depending on the external input/output (I/O) type. Select the type that meets your purpose.
Name External view Model number Features
Maximum
number of
positioning points
Input
power
Power supply
capacity
Standard
price
Reference
page
PIO type (NPN
specification) ERC3-RA4C-I-42P---NP--
Simple control type
accommodating up to
16 positioning points
16
DC24V
High-output
setting
enabled: 3.5A
rated 4.2A
max.
High-output
setting
disabled: 2.2A
— P35
PIO type (PNP
specification) ERC3-RA4C-I-42P---PN--
I/O type supporting
inputs/outputs of the
PNP specification often
used overseas
16
SIO type ERC3-RA4C-I-42P---SE--
High-function type
accommodating up to
512 positioning points
(PIO converter is used)
512
Pulse-train
type (NPN
specification)
ERC3-RA4C-I-42P---PLN--
Pulse-train input type
supporting the NPN
specification
−
Pulse-train
type (PNP
specification)
ERC3-RA4C-I-42P---PLP--
Pulse-train input type
supporting the PNP
specification
−
Teaching port
Cable joint
connector *1
*1 Connect the power I/O cable.
Refer to P.44 for details on this cable
SE: Stroke End
ME: Mechanical End
*2 The rod moves to the ME during
home return, so pay attention to
possible contact with surrounding
structures.
*3 The orientation of the bolt will vary
depending on the product.
27.2
48.1
186.5
17
(19.6)
M10×1.25
Supplied rod end nut
6
6
M4
3
34
29.5
68.7
A
4.3
7.3
2.7 4.3
ø25
30 5 4
22
M10×1.25
3 3
39
144
L
External view of the brake specication
The overall length of the brake specication is 42.5 mm longer
than the standard specication and its mass is 0.4 kg heavier.
Stroke
F (Eective range of the T-slot)
Supplied square nut
for mounting via the T-slot
(4 pcs are supplied)
Detail A
8 (Width across ats) *3
Actuator specificaton Dimensions and Mass by Stroke
(*1) The specification in [ ] applies when the lead is 20 mm.
Stroke 50 100 150 200 250 300
L 286 336 386 436 486 536
F 142 192 242 292 342 392
Mass (kg) 1.4 1.7 2.0 2.3 2.6 2.9
30. ROBO Cylinder®
Correlation diagrams of Speed and Payload
With the ERC3 series, due to the characteristics of the pulse motor, payload decreases as the speed increases.
Use the chart below to confirm that the desired speed and payload requirements are met.
Payload (kg)
80
70
60
50
40
30
20
10
0
The values below are based on operation at 0.3 G. The values below are based on operation at 0.3 G.
Actuator Specifications (High-output Setting Enabled)
Leads and Payloads (Note 1) Take caution that the maximum payload decreases as the speed increases. (Unit: mm/s)
29 ERC3-RA6C
72
64
85
334.5~584.5
Stroke
50~300
Unit: mm
Lead 4 Lead 4
Horizontal Vertical
Payload (kg)
30
25
20
15
10
5
2
17.5
8
0 100 200 300 400 500 600 700
Model number Lead
(mm)
①Stroke ③Cable length
Speed (mm/s)
0 100 200 300 400 500 600 700 800 900
Speed (mm/s)
0
Lead 8
Lead 8
Lead 16
Lead 24 Lead 16 Lead 24
55
13 15
2 3 3
2
2.5
3
High-output setting enabled (Factory default)
Notes on
selection
POINT
If the high-output setting is enabled
(factory default), the duty must be limited.
(Refer to P.13.) If the high-output setting is
disabled, the payload and maximum speed
become lower, but the actuator can be used
at a duty of 100%. Refer to the operation
manual for information on how to change
the high-output setting. Refer to P.32 for the
payload at each speed/acceleration when
the high-output setting is enabled.
Refer to P.33 for the specifications that
apply when the high-output setting is
disabled.
For other cautionary items, refer to
“Explanations of/Cautionary Notes on Items
Specified in Catalog (P.13).”
Legend ➀ Stroke ➁ I/O type ➂ Cable length ➃ Option
Maximum payload (Note 1) Maximum push
force (N)
Stroke
Horizontal (kg) Vertical (kg) (mm)
ERC3-RA6C-I-56P-24- ➀ - ➁ - ➂ - ➃ 24 13 3 182
50~300
(every 50mm)
ERC3-RA6C-I-56P-16- ➀ - ➁ - ➂ - ➃ 16 40 8 273
ERC3-RA6C-I-56P-8- ➀ - ➁ - ➂ - ➃ 8 55 17.5 547
ERC3-RA6C-I-56P-4- ➀ - ➁ - ➂ - ➃ 4 70 25 1094
Stroke and Maximum Speed
Stroke
Lead
50~250
(every 50mm)
300
(mm)
24 800 600
16 700 560
8 420 400
4 210 175 210 175
Type Cable symbol
*Refer to P. 44 for maintenance cables.
Standard price
PIO type SIO type
Standard type
(Robot cable)
P (1m) — —
S (3m) — —
M (5m) — —
Special length X06(6m)~X10(10m) — —
Stroke (mm) Standard price
50 —
100 —
150 —
200 —
250 —
300 —
The value inside indicates vertical usage.
The values of lead 8 and lead 4 apply when acceleration is at 0.1G.
④Options
Name Option code See page Standard price
Brake B P12 —
Non-motor end
specification NM P12 —
Simple absolute
specification ABU P12 — (*)
Flange FL P12 —
Foot bracket FT P12 —
(*) If the simple absolute specification is selected, the separately sold PIO
converter of simple absolute specification (with battery) is required.
ERC3-RA6C
ERC3
Series
RA6C
Type
56P
Motor type Lead Stroke I/O type Cable length Option
I: Incremental 56Pulse motor
specification
NP: PIO (NPN) type
PN: PIO (PNP) type
SE: SIO type
PLN: Pulse-train (NPN) type
PLP: Pulse-train (PNP) type
CN: CON type
MC: MEC type
24 : 24mm
16 : 16mm
8 : 8mm
4 : 4mm
Standard type
Rod type Actuator Width 64mm
50:50mm
300:300mm
(Can be set in 50mm
increments)
B : Brake
NM : Non-motor end
specification
ABU: Simple absolute
specification
FL : Flange
FT : Foot bracket
N: None P: 1m
S: 3 m M: 5m
X: Specified length
Controller type
I
Encoder type
Model
Specification
Items
*Refer to P.11 for the description of items constituting the model number.
31. ROBO Cylinder®
30 ERC3-RA6C
Dimensional Drawings
CAD drawings can be downloaded
from the website. www.intelligentactuator.com
2D
CAD
25
50
64
69
40
72 13
50
85
A
6.5
10.5
3.6 8
10
10
M6
5
ME SE SE ME(*2)
Supplied square nut
for mounting via the T-slot
(4 pcs are supplied)
3 3 176.5
49.5 L
22
(25.4)
8
M14×1.5
Supplied rod end nut
51 134.5
227.5
134.5
40.5 5 4
30.5
M14×1.5
Teaching port
Cable joint
connector *1
*1 Connect the power I/O cable.
Refer to P.44 for details on this cable
SE: Stroke End
ME: Mechanical End
*2 The rod moves to the ME during
home return, so pay attention to
possible contact with surrounding
structures.
*3 The orientation of the bolt will vary
depending on the product.
65.8
44.9
Detail A
10 (Width across —ats) (*3)
ø43
ø30
4-M8 depth 16
27 (Width across —ats,
3 locations)
Stroke
F (Ešective range of the T-slot)
External view of the brake specication
The overall length of the brake speci›cation is 51 mm longer
than the standard speci›cation and its mass is 0.5 kg heavier.
Actuator specificaton Dimensions and Mass by Stroke
Item Description
Drive system Ball screw ø12 mm, rolled C10
Positioning repeatability (*1) ± 0.02 mm [± 0.03 mm]
Lost motion 0.1 mm or less [0.2 mm or less]
Rod diameter ø30 mm
Rod non-rotation precision ±1.0 degrees
Ambient operating temperature,
humidity 0 to 40˚C, 85% RH or less (Non-condensing)
Controllers (Built into the Actuator)
②I/O type
With the ERC3 series, one of the following five types of built-in controllers can be selected depending on the external input/output (I/O) type. Select the type that meets your purpose.
Name External view Model number Features
Maximum
number of
positioning points
Input
power
Power supply
capacity
Standard
price
Reference
page
PIO type (NPN
specification) ERC3-RA6C-I-56P---NP--
Simple control type
accommodating up to
16 positioning points
16
DC24V
High-output
setting
enabled: 3.5A
rated 4.2A
max.
High-output
setting
disabled: 2.2A
— P35
PIO type (PNP
specification) ERC3-RA6C-I-56P---PN--
I/O type supporting
inputs/outputs of the
PNP specification often
used overseas
16
SIO type ERC3-RA6C-I-56P---SE--
High-function type
accommodating up to
512 positioning points
(PIO converter is used)
512
Pulse-train
type (NPN
specification)
ERC3-RA6C-I-56P---PLN--
Pulse-train input type
supporting the NPN
specification
−
Pulse-train
type (PNP
specification)
ERC3-RA6C-I-56P---PLP--
Pulse-train input type
supporting the PNP
specification
−
(*1) The specification in [ ] applies when the lead is 24 mm.
Stroke 50 100 150 200 250 300
L 334.5 384.5 434.5 484.5 534.5 584.5
F 158 208 258 308 358 408
Mass (kg) 3.9 4.4 4.9 5.4 5.9 6.4
32. ROBO Cylinder®
31
Selection Guideline (Correlation Diagram of the Push Force and the Current-limiting Value)
In a push-motion operation, the push force can be used by changing the current-limiting value of the controller over a range of
20% to 70%. The maximum push-force varies depending on the model, so check the required push force from the table below and
select an appropriate type meeting the purpose of use.
When performing a push-motion operation using a slider actuator, limit the push
current so that the reactive force moment generated by the push force will not
exceed 80% of the rated moment (Ma, Mb) specified in the catalog.
To help with the moment calculations, the application position of the guide
moment is shown in the figure below. Calculate the necessary moment by
considering the offset of the push force application position.
Note that if an excessive force exceeding the rated moment is applied, the
guide may be damaged and the life may become shorter. Accordingly, include
a sufficient safety factor when deciding on the push force.
Calculation example)
If a push-motion operation is performed with an ERC3-SA7C by applying
100 N at the position shown to the right, the moment received by the
guide, or Ma, is calculated as (46.5 + 50) x 100
= 9650 (N•mm)
= 9.65 (N•m).
Since the rated moment Ma of the SA7C is 15 (N•m), 15 x 0.8 = 12 9.65,
suggesting that this selection is acceptable. If an Mb moment generates
due to the push-motion operation, calculate the moment from the
overhang length and confirm, in the same way, that the calculated
moment is within 80% of the rated moment.
ERC3
SA5C:h=36.5mm
SA7C:h=46.5mm
ERC3CR/ERC3D
SA5C:h=39mm
SA7C:h=43mm
50mm h
Correlation Diagrams of the Push Force and the Current-limiting Value The table below is only a reference, and the graphs may
vary slightly from the actual values.
SA5C/RA4C type
Lead 6
RA6C type
SA7C type
400
350
300
250
200
150
100
50
0
Current-limiting value (%)
Push force (N)
Lead 3
Lead 12
Lead 20
0 10 20 30 40 50 60 70 80
1200
1000
800
600
400
200
0
Lead 4
0 10 20 30 40 50 60 70 80
Current-limiting value (%)
Lead 16
Lead 8
Lead 24
Push force (N)
800
700
600
500
400
300
200
100
0
Lead 4
Lead 8
Lead 16
Current-limiting value (%)
Lead 24
0 10 20 30 40 50 60 70 80
Push force (N)
Notes on Use
The relationship of the push force and the current-limiting
value is only a reference, and the graphs may vary slightly
from the actual values.
If the current-limiting value is less than 20%, the push force
may vary. Make sure the current-limiting value remains
20% or more.
The graphs assume a traveling speed of 20 mm/s during
push-motion operation.
34. ROBO Cylinder®
33
High-output setting disabled Specification
Correlation diagrams of Speed and Payload
With the ERC3 series, due to the characteristics of the pulse motor, payload decreases as the speed increases.
Use the chart below to confirm that the desired speed and payload requirements are met.
ERC3-SA5C ERC3-SA7C
The values below are based on operation at 0.2 G
for lead 4 and 0.3 G for all other leads.
6
Lead 16
Lead 24
3.5 2 1 3.5 2
1
600 800 1000 1200 1400
25
20
15
10
0
Horizontal
0 200 400 600 800 1000 1200 1400
15
Vertical Vertical
10
0
2
Lead 16
Lead 24
ERC3-RA4C ERC3-RA6C
The values below are based on operation at 0.2 G
for lead 4 and 0.3 G for all other leads.
The values below are based on operation at 0.2 G
for lead 3 and 0.3 G for all other leads.
25
20
15
10
5
14
12
10
8
6
4
0
45
40
35
30
25
20
15
10
0
0 100 200 300 400 500 600 700 800 900
20
18
16
14
12
10
0
55
25
25
The values below are based on operation at 0.2 G. The values below are based on operation at 0.2 G.
0 100 200 300 400 500 600 700 800 900
Speed (mm/s)
2 4 6 8
Speed (mm/s)
5
80
70
60
50
40
30
20
0
0 100 200 300 400 500 600 700 800 900
30
25
20
15
10
0
0 100 200 300 400 500 600 700
Speed (mm/s)
5
Speed (mm/s)
10
3.5 2
17.5
The values below are based on operation at 0.2 G
for lead 3 and 0.3 G for all other leads.
0
0 200 400
Speed (mm/s)
0 200 400 600 800 1000 1200 1400
Speed (mm/s)
2
0 200 400 600 800 1000 1200 1400
Speed (mm/s)
5
Speed (mm/s)
5
The values below are based on operation at 0.2 G. The values below are based on operation at 0.2 G.
Payload (kg)
Payload (kg)
Payload (kg) Payload (kg)
Payload (kg)
Payload (kg) Payload (kg)
Payload (kg)
Horizontal
Horizontal Horizontal
3
0.5
0.5 3 2 1 0.5 0.5
0.5
1.5
0.5 0.5 0.5
2.5
2.5
2.5
4.5
2.5
1.5
1.5
12
6
Lead 4
Lead 4
Lead 4
Lead 4
Lead 20
Lead 20
Lead 20
Lead 20
Lead 12
Lead 12
Lead 12
Lead 12
Lead 6
Lead 6
Lead 6
Lead 6
Lead 3
Lead 3
Lead 3
Lead 3
Lead 8
Lead 8
Lead 8
Lead 8
Lead 16
Lead 16
Lead 24
Lead 24
1
1
12 12
6
Vertical Vertical
36. ROBO Cylinder®
ERC3controller specification
Model number NP/PN/SE/PLN/PLP
Controller part of actuator with built-in controller
List of Models
Controller
type CON type MEC type
Operation mode Positioner mode Pulse-train control mode Positioner mode
I/O type
(Note) The PIO converter and gateway unit cannot be used at the same time.
Model number
➆➈refers to the I/O type and controller type shown in the above table.
35 ERC3
PIO
SIO NPN PNP
PIO
SIO
NPN PNP NPN PNP
Type
(I/O type) NP PN SE PLN PLP NP PN SE
Position
512 points
points 16 points
(When the PIO converter
or gateway unit is used)
— — 3 points 2 points/
3 points
Description Basic type Basic type
The PIO converter or
gateway unit can be used.
(Note)
When pulse
trains are
used
When pulse
trains are
used
3-point
movement
3-point
movement
The Quick Teach
and PIO converter
or gateway unit
can be used. (Note)
External view
Standard price —
➀ ➁ ➂ ➃ ➄ ➅ ➆ ➇ ➈ ➉
Series Type Motor type Lead Stroke I/OType Cable length Controller type Option
20 for SA5C/RA4C 20 mm
12 for SA5C/RA4C 12 mm
6 for SA5C/RA4C 6 mm
3 for SA5C/RA4C 3 mm
24 for SA7C/RA6C 24 mm
16 for SA7C/RA6C 16 mm
8 for SA7C/RA6C 8 mm
4 for SA7C/RA6C 4 mm
I
Encoder type
N None
P 1m
S 3m
M 5m
X Specified
length
NP PIO (NPN) type
PN PIO (PNP) type
SE SIO type
PLN Pulse-train (NPN) type
PLP Pulse-train (PNP) type
CN CON type
MC MEC type
(Can be set in 50mm increments)
* If the I/O type is PLN or PLP, CN is
selected automatically.
* The simple absolute specification
can be selected only when the I/O
type is SIO communication.
* The flange and foot bracket
option can be selected only for
rod types.
* The standard cable is a
robot cable.
ERC3 Standard type
ERC3CR Cleanroom type
ERC3D Simple, dustproof type
42P Pulse motor 42size
56P Pulse motor 56size
I Incremental type
Slider
type
50 50 mm
800 800 mm
Rod
type
50 50 mm
300 300 mm B Brake
NM Non-motor end
specification
ABU Simple absolute
specification
FL Flange
FT Foot bracket
VR Vacuum joint on
opposite side
SA5C Actuator width 50 mm
SA7C Actuator width 74 mm
RA4C Actuator width 45 mm
RA6C Actuator width 64 mm