Baldor iMN1800 manual AY1775A00 Leadwire Connection for LinDrive 15 pin

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AY1775A00 Leadwire Connection for LinDrive 15 pin

Color

Pin#

Description

Green

1

A+

Blue

2

B+

Pink

3

C+

White

4

Hall1

 

5

N/C

Yellow

6

A–

Red

7

B–

Gray

8

C–

Black

9

Hall3

Red

10

Hall2

Brown

11

+5VDC

 

12

N/C

White

13

Encoder GND

 

 

(Halls Brown)

 

14

 

 

15

 

11

1

 

12

2

13

3

14

4

15

5

Male (D Sub)

Outer shield to shell. Inner shield to pin 13.

AY1779A00 LSE with Renishaw Encoder (RGH24) Flying Leads

10 ft cable for use with Renishaw RGH24.

Flying leads are color coded as shown in this diagram.

Cable 1

Cable 2

Cable 4

Cable 3

(Hall Cable)

(Motor Cable)

(RGH24

Limit Cable

 

 

Encoder Cable)

 

* Limit & Home power is +4 to +24VDC.

Cable

Conductor

Signal Name

Color

 

 

 

 

1

A

Hall 3 (C)

Black

1

B

Hall 2 (B)

Red

1

C

N/C

N/C

1

D

Hall Ground

Blue, Green or Yellow

1

E

Hall 1 (A)

White

1

F

Voltage IN (+5VDC)

Brown or Violet

1

G

Shield

 

2

A

Motor Phase A (U)

Red

2

B

Motor Phase B (V)

White

2

C

Motor Phase C (W)

Black

2

D

Motor Ground

Green

2

E

Thermal Switch +

Orange

2

F

Thermal Switch -

Blue

2

G

Shield

 

3

A

Limit/Home Ground

Blue, Green or Yellow

3

B

Home Output

Black

3

C

Limit + Output

White

3

D

Shield

 

3

E

Limit & Home PWR *

Brown

3

F

Limit - Output

Red

 

 

 

 

4

A

Signal A+

Green

4

B

Signal A-

Yellow

4

C

Signal B+

Blue

4

D

Signal B-

Red

4

E

Signal C+

Pink

4

F

Signal C-

Gray

4

G

+5VDC

Brown

4

H

0VDC

White

4

I

Outer Shield

 

4

J

Inner Shield

 

LD9127A00 Leadwire Connection Limit/Home Switch Interface (6 pin to flying leads)

Color

Pin#

Description

Black

1

Home Output

White

2

Limit+ Output

Red

3

Limit– Output

Green

4

Ground

Brown

5

Limit & Home PWR *

Orange

6

Series / Parallel (Jumper 6 to 3=Series,

 

 

Jumper 6 to 5=Parallel)

* Limit & Home power is +4 to +24VDC.

 

6

3

Jumper pin 3 to pin 6 for Series operation.

 

 

 

 

5

2

Jumper pin 5 to pin 6 for Parallel operation.

 

 

 

 

4

1

(Series jumper option is for Omron 670/671P limits only).

 

 

 

(Connector viewed from cable side)

2-22 Installation & Operation

MN1800

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Contents MN1800 Linear MotorsTable of Contents Ii Table of Contents MN1800 Indicates a condition that can cause damage to equipment Limited WarrantyOverview Installation, operation and maintenance of this equipment Lifting, installing, operating and maintaining operationsDo not apply AC power before you ensure that all grounding Attempt to install operate or maintain this equipmentStorage ReceivingUnpacking HandlingGeneral Information MN1800 Mounting a Stage to the Machine Base and Payload To Stage Clean RoomLocation Lmac Linear Induction Motor Lmac Connection DiagramLmbr Series Brush DC Linear Servo Motor Lmbl Series Brushless Linear Iron Core Servo Motor InstallationAlternate Installation Refer to Figure Motor Cable Hall Cable Limit Cable AY1763A00 Leadwire ConnectionWire Color Modular Magnet Track Installation Hall Cable Limit Cable Brushless Linear Iron Core Servo Motor Modular Magnet TrackAir Gap Spacing Lmcf Series Brushless Linear Cog Free Servo MotorPin# Color Lmnc Moving Coil TypeLmnm Moving Magnet Type Non Commutated DC Linear Servo Motor Lmpy Series Polynoid Linear Motor Holding Option SwitchingSingle Holding Double HoldingMotor Cable Signal Name Wire Color Leadwire ConnectionLmpy Series Polynoid Linear Motor Holding OptionMaintenance Adjust Air GapAY0165A00 Leadwire Connection 9 pin to flying leads Lmss Series Linear StepperInstallation Mounting the Forcer on the Platen Air Bearing Motor Cleaning the Forcer and PlatenLmss Series Removing the Forcer from the PlatenItems Required but not Included Lmds Series Dual Axis Linear Stepper MotorUnpacking Stage Specifications DisclaimerPositioning Stages LSE Series Enclosed Position Stage General Description Stage specificationsConstruction Bearing typeAY1779A00 LSE with Renishaw Encoder RGH24 Flying Leads LD9124A00 Limit and Home, Axis 1, Internal Pin# Color LD9125A01 Limit only Color Pin# DescriptionLD9137A01 Limit only Color Pin# Description LSE Stage Connector Locations LSC Series Cross Roller Position Stage General Description AY1775A00 Leadwire Connection for LinDrive 15 pin LD9125A02 H-Limit and Home Color Pin# Description AY1759A00 Renishaw RSF Encoder LSS Series Single Bearing Position StageAY1802A00 Stages with Renishaw Encoder RSF Flying Leads AY1801A00 Stages with Renishaw Encoder RGH22 Flying LeadsLD9114A00 Leadwire Connection LD9103A00LXS Connections Female LinDrive Connections Male Pin D Sub Male Motor / Limit Connections Pin Circular Connector MalePin D Sub Female LD9119A01 Color Pin# Description LSX Leadwire Connection Limit Switch PigtailsLD9119A02 Color Pin# Description LD9137A02 Limit and HomePin Encoder Connections Pin Encoder ConnectorCross Roller Type Bearing Bearing Maintenance Recirculating Bearing Rail And BlockTechnical Data Encoder MaintenanceRSF Series MSA6x Enclosed Type Color Description FunctionRSF Series MS6x Open Type Glass Scale Renishaw RGH22 series Open Type Metal Scale Associated Components Renishaw RGH22 series Open Type Metal Scale SpecificationsElgo Mix 4 series Magnetic Type Encoder Head Output Connector Pin AssignmentElgo Mix 5 series Magnetic Type Mix 4 and Mix 5 Dial Settings Resolution using 4x multiplierRequirements Encoder SpecificationsCables and Cable Chain Procedures Additional Cables  Baldor Electric Company MN1800 01 C&J1500 Baldor Electric Company

iMN1800 specifications

The Baldor iMN1800 is a comprehensive industrial motor drive, engineered for a wide range of applications in various sectors such as manufacturing, robotics, and automation. This drive exemplifies Baldor's commitment to innovation, performance, and efficiency, offering users advanced features that cater to modern industrial demands.

At the heart of the iMN1800 is its state-of-the-art motor control technology, designed to provide precise control over motor speed and torque. This is achieved through a sophisticated algorithm that adjusts the motor's performance in real-time, ensuring reliability and efficiency. The iMN1800 is compatible with various forms of electric motors, including AC induction and permanent magnet synchronous motors, making it versatile for numerous applications.

One of the standout features of the Baldor iMN1800 is its energy efficiency. It complies with various energy standards, which not only helps reduce operational costs but also minimizes the environmental impact associated with industrial operations. With an impressive efficiency rating, the iMN1800 contributes to lower energy consumption, making it an economically viable solution for businesses aiming to enhance sustainability.

In terms of connectivity, the iMN1800 incorporates advanced communication protocols such as Ethernet/IP and Modbus, allowing for seamless integration into existing industrial networks. This feature facilitates real-time monitoring and control, empowering operators to make informed decisions based on live data. The user-friendly interface enables quick access to essential parameters for both configuration and diagnostics, ensuring ease of use for technicians and engineers alike.

Moreover, the iMN1800 is built with robust construction materials, ensuring durability in demanding environments. Its rugged design allows it to withstand harsh conditions, including high temperatures and vibrations, common in industrial settings. This reliability contributes to reduced downtime and maintenance costs, promoting a more productive work environment.

The Baldor iMN1800 also features advanced safety mechanisms, including overload protection and short-circuit protection, guaranteeing the safety of both personnel and equipment. These attributes align with modern safety standards, making it a trusted choice for industries that prioritize workplace safety.

In summary, the Baldor iMN1800 is a top-tier industrial motor drive that combines advanced motor control technology, energy efficiency, robust construction, and enhanced safety features. Its flexibility and connectivity make it a valuable asset for diverse industrial applications, ultimately driving operational efficiency and effectiveness.