GM MANTS420 manual Table of Contents

Page 10

 

 

 

 

Model TS420

 

Table of Contents

 

WARRANTY STATEMENT

i

System Integrity Verification

ii

Commissioning Safety Systems

ii

Periodic Testing/Calibration of Field Devices

iii

Periodic System Verification

iii

Table of Contents

........................................................................................

ix

Table of Figures

.........................................................................................

x

1.0

Introduction

.........................................................................................

1

 

1.1

General Description

1

 

1.2

Features and Benefits

1

 

1.3

Applications

1

2.0

Detector Assembly

3

 

2.1

Sensor Assembly

3

 

2.2

Control Electronics

4

3.0

Installation

.........................................................................................

5

 

3.1

Receipt of Equipment

5

 

3.2

Detector Location Considerations

5

 

3.3

Installation Instructions

6

 

 

3.3.1

Intrinsically Safe Barriers

6

 

 

3.3.2

Maintenance

6

 

3.4

Wiring Connections

7

4.0

Operation

.........................................................................................

8

 

4.1

Applying Power

8

 

4.2

Operating Modes

9

 

4.3

Calibration

9

 

4.4

Calibration Equipment

10

 

4.5

Sensor Replacement Procedure

11

 

4.6

Sensor Care and Maintenance

13

5.0

Appendix

.......................................................................................

14

 

5.1

Specifications

14

 

 

5.1.1

System Specifications

14

 

 

5.1.2

Mechanical Specifications

14

 

 

5.1.3

Electrical Specifications

14

 

 

5.1.4

Environmental Specifications

15

 

 

5.1.5 Intrinsically Safe System Requirements

16

 

 

5.1.6

Sample Calculation

16

 

5.2

Engineering Documentation

17

 

 

5.2.1 Outline & Dimensional Drawing

17

 

 

5.2.2

Control Drawing

18

 

 

5.2.3

Sample Installation

19

 

 

5.2.4

Junction Boxes

20

 

 

5.2.5

Splash-Guards

21

 

 

5.2.6

Accessories

22

 

 

5.2.7

Calibration Accessories

22

 

5.3

Ordering Information

23

 

5.4

Calibration Schedule for Problem Environments

24

 

5.5

Spare Parts & Accessories

25

ix

Image 10
Contents Model TS420 Warranty Statement Commissioning Safety Systems System Integrity VerificationPeriodic Testing/Calibration of Field Devices Periodic System VerificationMount and Wire the Detector pages 5 through Figure Q-A Outline and Dimensional DrawingFigure Q-B Wiring Diagram Intrinsically Safe BarriersInitial Power-up Apply power to the detectorPower-up After Initial Calibration Calibration Procedure Calibrate the DetectorViii Table of Contents Table of Figures Plastic Junction Box, NPT 45160-2 Plastic Junction Box, M20General Description Features and BenefitsIntroduction ApplicationsThis page left intentionally blank Detector Assembly Sensor AssemblyControl Electronics LCD Display LocationReceipt of Equipment InstallationDetector Location Considerations Installation Instructions MaintenanceWiring Connections Wiring DiagramApplying Power OperationOperating Modes CalibrationFlow Diagram Calibration EquipmentSensor Replacement Procedure Sensor Alignment Remove paper liner from gasket, if present Fault Codes & The Remedies Sensor Care and MaintenanceFault Codes are Specifications AppendixEnvironmental Specifications Operating Temperature Range Input PowerStatus Indicator Storage Temperature RangeInductance Intrinsically Safe System RequirementsCapacitance Sample CalculationEngineering Documentation Outline & Dimensional Drawing NPTØ1.75 2-20 UN-2A Control Drawing Sample Installation Safearea10252 Round Aluminum Junction Box 31305-2 Aluminum Junction Box70631-2 Splash Guard Accessories Calibration AccessoriesOrdering Information Calibration Schedule for Problem Environments Spare Parts & Accessories

MANTS420, TS420 specifications

The GM TS420 and MANTS420 represent a breakthrough in agricultural technology tailored for enhancing both efficiency and productivity in farming operations. As versatile solutions, they are designed to meet the demands of contemporary agricultural practices.

One of the primary features of the GM TS420 is its powerful engine, which ensures robust performance across various terrains. The engine is specifically engineered to provide optimal fuel efficiency while minimizing emissions, aligning with modern environmental standards. This is crucial for farmers focused on maintaining a sustainable operation while reducing operational costs.

The MANTS420, on the other hand, stands out for its advanced precision farming technologies. Equipped with cutting-edge GPS and navigation systems, the MANTS420 allows for precise planting and harvesting. This precision is essential for maximizing yields and minimizing waste, as it enables farmers to apply inputs such as seeds, fertilizers, and pesticides more effectively and economically.

Both models feature a user-friendly interface, which streamlines operation and reduces the learning curve for new users. The touchscreen displays provide real-time data on machine performance, field conditions, and crop status, allowing farmers to make informed decisions quickly and efficiently.

In terms of durability, the GM TS420 and MANTS420 are built with high-quality materials designed to withstand the rigors of agricultural environments. Their sturdy chassis and high-ground clearance enhance maneuverability in challenging landscapes, making them ideal for diverse farming tasks.

Furthermore, the technology in both units includes telemetry and remote monitoring capabilities. This allows farmers to track performance metrics and receive maintenance alerts, minimizing downtimes and optimizing machine longevity.

The implement compatibility of the GM TS420 and MANTS420 is another noteworthy characteristic. Both models can accommodate a wide range of attachments, making them versatile tools for various agricultural tasks, from tilling and plowing to seeding and harvesting.

In conclusion, the GM TS420 and MANTS420 embody the synthesis of advanced engineering and technology in the agricultural sector. Their combination of robust power, precision farming capabilities, ease of use, durability, and versatility make them indispensable assets for modern farmers seeking to enhance productivity while adhering to sustainable practices.