Siemens TPS3 11 user manual Poor Engagement Conduit needs to be threaded in farther

Page 7

VCAUTION

CONDUCTING DIELECTRIC AND/OR HI-POTENTIAL TESTING WILL CAUSE INTERNAL DAMAGE TO TPS3 UNIT.

Do not perform dielectric or high potential

tests with the TPS3 unit installed.

V DANGER

Hazardous voltage.

Will cause death or serious injury.

Keep Out.

Qualified personnel only.

Disconnect and lock off all power before working on this equipment.

TPS3 11 Installation Instructions

Common Problems to Avoid

Confirm System voltage to SPD voltage (120V SPD will fail instantly on 240V, 277V, etc.)

Locate SPD close so leads are short & straight as possible (or will seriously hurt performance)

Make sure N-G or XO bonding meets NEC® (or will prematurely fail SPD)

Energize SPD AFTER system is stabilized & checked (inadvertent system problem may fail SPD)

SPDs are regulated by NEC®Article 285 and UL 1449

Never Hi-Pot test any SPD (will prematurely fail SPD)

Pre-Plan your installation. You will need to accomplish the following:

Figure 4: Conduit Installation

CORRECT INSTALLATION

Threaded 6 Full Turns

INCORRECT INSTALLATIONS

Meet all National and Local codes (NEC® Article 285 addresses

 

SPDs)

• Mount SPD as close to panel or equipment as possible to keep leads

 

short

Ensure leads are as short and straight as possible, including neutral

 

and ground. Consider a breaker position that is closest to the SPD and

 

the panel’s neutral & ground

• Suggested breaker & conductor size is 50A-30A with 8 AWG

• Make sure system is grounded per NEC® and clear of faults before

 

energizing SPD.

1.

Use a voltmeter to check all voltages to ensure correct SPD

2.

If unit has Flush Mount option refer to Flush Mount Installation

 

Instructions following

3.

If SPD has Dry Contact pre-plan its installation

4.

Remove power for panel. Confirm panel is deenergized.

5.

Identify breaker location and SPD location

6.

Remove an appropriately sized knockout from panel

7.

Mount SPD, use appropriate weatherproofing equipment as

POOR ENGAGEMENT Conduit needs to be threaded in farther

Figure 5: Typical Panel Installation

To Protected Loads

OVERTIGHTENED

Stresses box, ONLY 6 full turns required

 

needed

8.

Connect conductors as appropriate – short and straight as possible

 

(Note that Hi-Legs are Phase B)

9.

Label or mark conductors as appropriate (neutral: white, ground:

 

green, energized: black, hi-leg: orange)

10. Make sure system is bonded per NEC® and is clear of hazards or

 

faults before energizing (N-G bonding not per NEC® will fail SPDs:

 

#1 cause of SPD failures)

11.

Energize and confirm proper operation of indicators and/or

 

options

A sealing O-ring is provided. SPD can be chase-nipple mounted (nut is provided).

Note that any conduits must be installed correctly.

A B C

BREAKER

N

Use closest breaker to SPD

Locate SPD close to intended breaker

Keep Leads Short as Possible • Avoid Sharp Bends

G

 

 

E

 

 

 

 

 

 

 

 

 

 

SERVIC

1

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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Rotate TPS3 11 such

 

 

 

 

888-333-3545

TYPE 1 SURGE

 

 

 

 

 

 

CAUTION

 

 

 

 

 

 

 

 

 

 

that LED indicator is

 

 

RDANGEV

 

WWW.SIEMENS.COM

PROTECTIVEDEVICE

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

most visible

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Outdoor installation requires appropriate weather sealing at nipple (o-ring, sealing conduit,

etc.)

7

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Contents TPS3 Bonding and Grounding Hazard Table of Contents SPD Types IntroductionAppropriate Circuit Breaker SpecificationsSimplified Explanation of Operation AWG 18 inch-pounds16 Wide Stresses box, only 6 full turns required Poor Engagement Conduit needs to be threaded in fartherInstallation Wiring Diagrams Please note OperationLimited Warranty MaintenancePage 10.al #8174

TPS3 11 specifications

Siemens TPS3 11 is a cutting-edge process control system that is designed to enhance industrial automation and optimize production processes. As a part of Siemens' long-standing commitment to innovation, the TPS3 11 serves a diverse range of industries, including power generation, water management, and manufacturing.

One of the standout features of the Siemens TPS3 11 is its modular architecture. This design allows for flexibility and scalability, making it suitable for both small and large-scale operations. The system can easily be expanded by adding modules, which means that businesses can start with what they need and expand as they grow. This adaptable design helps to future-proof investments in automation technology.

The TPS3 11 leverages advanced technologies such as integrated safety protocols, which enhance operational safety without compromising efficiency. The system follows global safety standards, ensuring that it can be used in environments that require high levels of safety and reliability. This makes it particularly advantageous in sectors such as chemicals and oil and gas, where safety is paramount.

Another key characteristic of the Siemens TPS3 11 is its user-friendly interface. The system features an intuitive Human-Machine Interface (HMI) that simplifies the monitoring and control of processes. Operators can easily access real-time data, visualize workflows, and manage operational parameters with minimal training, thus reducing the learning curve and increasing overall efficiency.

Siemens TPS3 11 is also equipped with advanced communication capabilities, supporting various industrial protocols and network configurations. This ensures seamless integration with existing systems and devices, promoting a unified operational environment. The system's compatibility with Industry 4.0 standards further strengthens its position in the realm of modern industrial automation, enabling businesses to leverage big data and IoT technologies.

In terms of performance, the TPS3 11 is engineered for high reliability and uptime. Redundant components and robust hardware design minimize the risk of failures, allowing industries to maximize productivity and reduce downtime. The system's ability to perform in demanding environments ensures it can withstand the rigors of industrial applications.

Overall, Siemens TPS3 11 stands out as a powerful process control solution that combines modularity, safety, user-friendliness, and advanced communication features. It positions businesses to achieve operational excellence and adapt to the evolving demands of modern industries. With its blend of cutting-edge technology and proven reliability, the TPS3 11 represents a significant advancement in the field of industrial automation.