Siemens TPS3 11 Simplified Explanation of Operation, Specifications, AWG 18 inch-pounds

Page 5

For further information, please review latest editions of NEC® Art. 285, UL 1449, contact your local Siemens sales office or contact Siemens TPS Tech Support at 1.888.333.3545.

The TPS3 11 is a Type 1 SPD. The TPS3 11 is suitable for use almost anywhere (not as a plug-in SPD). Type 1 SPDs are evaluated more rigorously by UL 1449 for 2008 NEC® Article 285 compliance. Type 1 SPDs and their connecting leads have been evaluated for line side applications without need for supplemental overcurrent protection. Type 1 SPDs include internal overcurrent protection. As a generalization, there are practical maintenance reasons for installing on the load side of the main overcurrent device (i.e. Type 2 installation). When connected on load side of main disconnect, we recommend connecting via a 30A circuit breaker due to 10 AWG conductors. The circuit breaker serves as a disconnect switch and provides NEC® imposed short circuit protection to the conductors in Type 2 or 4 applications.

Simplified Explanation of Operation

SPDs sense overvoltage and create a momentary short circuit to redirect harmful surge energy to earth ground. SPD’s are not a one time device. They reset automatically and wait for the next surge. SPDs are capable of repeating this function thousands of times.

Parts List and Inspection

Items included in the package consist of the following:

1 TPS3 11 SPD including 3’ (~1m) conductors

1 User’s Manual (this document)

If the Flush Mount Kit was ordered, additional parts are supplied as follows:

1 Flush Mount Plate

1 Flush Mount Installation Instructions

4 Mounting Screws

Carefully inspect each item in the package for signs of damage. If damage is found, please contact Siemens TPS Technical Support: 1.888.333.3545. For more information about this product or other Siemens products, visit www.sea.siemens.com.

Figure 2: DIMENSIONS AND WEIGHT

This device features internal overcurrent and overtemperature protection that will disconnect effected surge suppression components at the end of their useful life, but will maintain power to the load – now unprotected. If this situation is undesirable for the application, follow these instructions for replacing the device. TPS3 11 is ultrasonically welded closed and contains no user serviceable parts.

Table 1: Specifications

Specifications

 

Temperature Operating

-40oC (-40oF) to 60oC (+140oF)

 

 

Temperature Storage

-55oC (-67oF) to 65oC (+149oF)

 

 

Wire Size & Installation Torque

10 AWG; 18 inch-pounds

 

 

Appropriate Circuit Breaker

30A (SPD includes internal OCP)

based on conductor size

 

NEMA 250 Enclosure Rating

Type 4X with appropriate

sealing & sealing condulets

 

Voltage Rating & Application

 

Before installing SPD, verify by nameplate voltage or model number that it has the same voltage rating as the power distribution system. If unsure call Siemens TPS Tech Support at 1.888.333.3545 before proceeding. The SPDs specifier or user should be familiar with the configuration and arrangement of the power distribution system. The system is defined by how the secondary windings of the transformer supplying the service entrance main or load are configured. This includes whether or not the transformer windings are referenced to earth via a grounding conductor. The system configuration is not based on how any specific load or equipment is connected to a particular power distribution system. SPDs should be installed per the distribution system, not per a load or motor’s wiring connection.

For example, suppose a 480V three phase motor appears to be connected as a 480V Delta. In actuality, the serving distribution system might be a 480Y/277V grounded Wye, with or without a neutral pulled to the motor or MCC. The system is still a 480Y/277V Wye, even though the load is connected as a Delta. A grounded Wye has a defined reference to ground (i.e., neutral is bonded to ground). In contrast, some Delta systems are ungrounded, which have no reference to ground.

TPS3 11’s have demonstrated 200kA Short Circuit Current Ratings (SCCR) including leads (120/240V Split phase models have 100kA SCCRs). See UL Label markings on SPD or see Data Sheet for specs.) Supplemental overcurrent protection is not required to protect this SPD. However, NEC® convention requires that connecting conductors have overcurrent protection in Type 2 or 4 applications. Follow applicable codes.

Table 2: Model number decoder

Model

Voltage

Service Voltage

Code

 

 

TPS3A11

A

240/120V 1Ø, 3W Plus Ground,

TPS3B11

B

240/120V 3Ø, 4W Plus Ground High Leg Delta

TPS3C11

C

208Y/120V 3Ø, 4W Plus Ground

TPS3D11

D

240v 3Ø, 3W Plus Ground

TPS3E11

E

480Y/277V 3Ø, 4W Plus Ground

TPS3F11

F

480v 3Ø, 3W Plus Ground

TPS3G11

G

600v 3Ø, 3W Plus Ground

TPS3K11

K

380Y/220V 3Ø, 4W Plus Ground

TPS3L11

L

600Y/347V 3Ø, 4W Plus Ground

TPS3S11

S

400Y/230V 3Ø, 4W Plus Ground

Image 5
Contents TPS3 Bonding and Grounding Hazard Table of Contents SPD Types IntroductionSimplified Explanation of Operation SpecificationsAWG 18 inch-pounds Appropriate Circuit Breaker16 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.