Linear SWR, SWC manual Model SWD Exploded View

Page 28

Model SWD Exploded View

28

13C

13A

15

26 19

22

17

18

20

23

25

4

2

13B

 

16

12

7B

 

10

 

13

 

14

5

11

7

7A

3B

3A

89

3

1

MODEL SWD MECHANICAL PARTS LIST

REF. #

PART #

DESCRIPTION

1

2300-925-BEIGE

Operator Cover, Tan

2300-925-BLACK

Operator Cover, Black

 

2

2300-926-BEIGE

Rain Cap, Tan

2300-926-BLACK

Rain Cap, Black

 

3

2100-2030-BEIGE

Access Door, Tan (no lock or reset button)

2100-2030-BT

Access Door, Black (no lock or reset button)

 

3A

2510-354

Plunger Reset Assembly

2500-2240

Plunger Reset Button

 

2500-2241

Plunger Extension Only

3B

2200-790

Lock for Cover, with Keys

2200-824

Extra Keys

 

4

2110-785

Frame Assembly

5

2400-509

Socket Head Cap Screw, 3/8-16 x 1-1/2”

7

2500-1902

Motor, 24 VDC

7A

2100-2037

Motor Mounting Plate

7B

2510-223

Transformer Assembly

 

2500-1776

Transformer only, 115 VAC - 24 VAC, 250VA

8

2200-411

Pulley, 1-1/2”, 1/2” bore

9

2200-975

V-belt, 4L, 29”

10

2200-081

Gear Reducer, 60:1

11

2200-079

Pulley, 7”, 3/4” bore

12

2200-084

Sprocket, 40-B-13, 1” bore

13

2100-2020-PLT

Drive Shaft

13A

2200-015

Shaft Collar, 1” diameter, 9/16 LTB

13B

2100-519-PLT

Sleeve Spacer

13C

2200-016

Moisture Seal

14

2200-274

Pillow Block Bearing, 1” diameter

 

2220-048

5” Torque Limiter with Bushing and 40-A-36

 

Sprocket

15

 

2300-381

Friction Disc Pair for 5” Torque Limiter

 

2200-782

Bushing for 5” Torque Limiter

 

2200-583

Sprocket, 40-A-36, 1” Bore

REF. #

PART #

 

DESCRIPTION

16

2200-673

 

#40 Chain, 21 Links

2200-006

 

#40 Master Link

 

 

17

2100-1748

 

Limit Cam

18

2200-015

 

Shaft Collar, 1” diameter, 9/16 LTB

19

2500-2347

 

Limit Switch

 

2510-432

 

Power Box Assembly

 

2500-2411

 

Power Switch

 

2500-2413

 

Power Outlet

20

2100-2113

 

Back Plate

2100-2112

 

Cover Plate

 

2500-1819

 

Fuse Holder

 

2500-1742

 

Fuse, 6 Amp, Slow-Blow

 

2500-2473

 

Relay, 24 VDC

 

2500-1768

 

Bridge Rectifi er

21

2100-2111

 

Controller Latch

22

2100-2108

 

Limit Switch Mounting Bracket

23

2100-2024

 

Accessory Mounting Shelf

2200-874-PLT

 

Hinge, Male for Control Box

 

 

 

2510-439

 

APeX Module and DC Motor Board Assembly

 

2500-2393

 

APeX Module

25

2500-2399

 

APeX DC Motor Module

2100-2104

 

APeX Mounting Plate

 

2300-1025

 

Plastic Cover Only

 

2510-423

 

Knob Kit

 

2510-420

 

Stop/Reset Switch and Bracket Assembly

26

2500-2435

 

Alarm

28

2510-182

 

Battery Assembly

2500-1118

 

Battery, 12V (2 required)

 

2300-450

 

Velcro Tape, per foot

29

2510-433

 

Wiring Harness Assembly (Not Shown)

 

 

 

OPTIONAL PARTS

 

2120-483

 

Post Mounting Kit

 

2100-2041

 

Operator Base Plate

SWR SWC SWD Swing Gate Operator Installation Guide

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227965 Revision X13 3-28-2008

Image 28
Contents SWR SWC SWD Table of Contents Before You Begin Always Check the Gate’s ActionRegulatory Warnings Gate Operator ClassificationsAC Power Wiring Wiring SpecificationsDC Control and Accessory Wiring Mounting Pad Installation Mounting Pad SpecificationsGate Arm Installation Vent Plug InstallationSetting Left or Right Hand Configuration Gate Plate InstallationInstalling the Gate Arm on the Operator Setting the Arm LengthsChoosing Good Harmonics Good BAD HarmonicsOperator Setup Controller AccessAC Power Connection Connect AC Power Pigtail Leads to AC SourceLimit Cam Rough Adjustment Torque Limiter AdjustmentLimit Cam Fine Adjustment CamsDisplay Controller FeaturesButtons Indicator Descriptions Terminal Descriptions Operator Accessory Connections Operator Accessory ConnectionsBasic Controller Programming Run Alarm and Pre-start Alarm Maximum Open Direction Current SettingMaximum Close Direction Current Setting RUN Alarm PRE-START AlarmAdvanced Controller Programming Auxiliary Relay Mode Reverse Delay TimeLow Power Mode Power Failure ModeReset Cycle Count Maintenance Alert TriggerSoft Start/Stop Duration Mid-travel Stop PositionRadio Enable Antenna InstallationReset Controller to Factory Defaults Radio Transmitter LearnUSE Relief Cuts AT Corners Loop Layout IllustrationLoop Safety Edge Layout Illustration Retaining BracketPhotoeye Installation Illustration Refer to Connection Illustrations for DetailsDual Gate Installations Gate OperationError Indications Operation IndicationsTroubleshooting Model SWR Exploded View DescriptionModel SWC Exploded View Model SWD Exploded View SWR, SWC, SWD Gate Arm Assembly Exploded View Model SWD Maintenance Battery MaintenanceDC Motor Brush Replacement When NEWPreventative Maintenance Month Preventative MaintenanceFCC Notice GeneralGate Operator Installation Checklist

SWR, SWD, SWC specifications

Linear SWC (Single Wire Control), SWD (Single Wire Debug), and SWR (Single Wire Radio) are advanced communication protocols widely utilized in embedded systems and electronic applications. These protocols enhance the efficiency of data transmission, reduce the number of physical connections required, and simplify the design process for developers.

The main feature of Linear SWC is its ability to transmit control signals over a single wire, allowing for straightforward connectivity between microcontrollers and various peripherals. This approach minimizes the complexity of printed circuit boards (PCBs) and reduces the space needed for connections, making it ideal for compact designs. Linear SWC operates based on a master/slave architecture, where the master device initiates communication, and the slave devices respond.

SWD, primarily used for debugging embedded systems, is a two-pin interface that supports high-speed data transfer with minimal pin usage. Unlike traditional JTAG, SWD is simpler and more efficient, allowing developers to perform debugging and programming tasks with fewer resources. The SWD protocol offers features such as breakpoint management, memory read/write capabilities, and real-time variable monitoring, empowering developers to optimize their code and increase debugging efficiency.

SWR is focused on wireless communication, leveraging a single wire for transmitting radio signals. This technology is particularly advantageous in applications requiring minimal hardware while maintaining robust connectivity. SWR supports various modulation techniques and can operate in different frequency bands, making it versatile for various use cases. The single-wire approach reduces the complexity of antenna design and enhances the overall reliability of wireless communications in challenging environments.

One of the key characteristics shared by SWC, SWD, and SWR is their ability to reduce power consumption. By minimizing the number of connections and optimizing signal paths, these protocols significantly decrease the energy required for data transmission. Additionally, their compatibility with a wide range of microcontrollers and integrated circuits contributes to their widespread adoption in modern electronic designs.

In summary, Linear SWC, SWD, and SWR serve critical roles in the evolution of embedded systems, offering unique features, advanced technologies, and efficient characteristics. Their capability to simplify designs, reduce power consumption, and enhance overall communication quality makes them essential tools for engineers and developers in today's fast-paced technological landscape. As the demand for compact, efficient solutions grows, these protocols are poised to play an increasingly significant role in future innovations.