Phoenix UTME 4(3047452) Universal combination terminal UT

Brand:
Series:
UT
Terminal Type:
Functional
Color:
grey
Material:
PA
Conductor Cross-Sectional Area:
4mm²
Flame Retardant Grade:
V0
Connection:
Screw connection
Terminal Thickness:
6.2mm
Function:
Disconnect test terminal blocks
Rated Current:
28A
Rated Voltage:
500V
Model:
UTME 4(3047452)
Order Number:
3047452
Description:
Phoenix UTME 4 (3047452), material PA, 500V, V0, disconnect test terminal, color gray, wire cross-sectional area 4mm², terminal thickness 6.2mm, screw connection

Product parameters

Product attributes Attribute value Filter product attributes
Brand: Phoenix
Series: UT
Terminal Type: Functional
Color: grey
Material: PA
Conductor Cross-Sectional Area: 4mm²
Flame Retardant Grade: V0
Connection: Screw connection
Terminal Thickness: 6.2mm
Function: Disconnect test terminal blocks
Rated Current: 28A
Rated Voltage: 500V
Products with the same attribute : 0
Show details

Series Overview

Series Overview

The UT screw connection terminal blocks of the CLIPLINE complete system meet the strictest requirements and are suitable for various application fields. Their feature is that conductor connection is maintenance-free and supports multi-conductor connection, ensuring maximum connection flexibility. When using this series of terminals, users can directly connect or use cold-pressed connectors to connect conductors of rated cross-sections. The terminals adopt screw self-locking technology based on the "gap principle". After tightening the terminals, it can effectively prevent the screws from loosening. This series of terminals can reliably connect conductors with a maximum rated cross-section of 240 mm², and can ensure good airtightness and long-term stability.

Connection Principle

The UT screw connection terminal blocks are designed for the strictest requirements. This series of terminals has been widely used in various fields for more than 80 years. One of the important features is that there is no need to strip the conductors after connection. Because of the adoption of the screw self-locking technology - the "gap principle", after tightening the screws, the screws are prevented from loosening. There is no need to pre-process the conductors, and the UT screw connection terminal blocks of Phoenix Contact can be used to clamp the conductors. It can also prevent conductor branching through the pressure head. The clamping block can support double-conductor connection. This series of terminals can reliably clamp conductors with a cross-section of up to 240 mm², ensuring airtightness and long-term stability.

Double-layer Screw Terminal UTTB...

  • The small double-layer terminals can be easily wired and save space to the greatest extent.
  • Because each layer has a through-channel bridge connection, all potential distribution work can be completed quickly.

UT 2, 5... Three-layer Terminals

  • High wiring density can be achieved through the compact three-layer terminals.
  • Each layer has a through-bridge connection, so that all potential distribution work of each layer can be completed quickly.
  • The terminals of each layer can be marked with large labels for easy identification.
  • Through the color coding on the outer surface of the housing, P-E/L and P-E/L-N types can be clearly distributed.
The UT screw connection terminal blocks of the CLIPLINE complete system meet the strictest requirements and are suitable for various application fields. Their feature is that conductor connection is maintenance-free and supports multi-conductor connection, ensuring maximum connection flexibility. When using this series of terminals, users can directly connect or use cold-pressed connectors to connect conductors of rated cross-sections. The terminals adopt screw self-locking technology based on the "gap principle". After tightening the terminals, it can effectively prevent the screws from loosening. This series of terminals can reliably connect conductors with a maximum rated cross-section of 240 mm², and can ensure good airtightness and long-term stability.

Connection Principle

The UT screw connection terminal blocks are designed for the strictest requirements. This series of terminals has been widely used in various fields for more than 80 years. One of the important features is that there is no need to strip the conductors after connection. Because of the adoption of the screw self-locking technology - the "gap principle", after tightening the screws, the screws are prevented from loosening. There is no need to pre-process the conductors, and the UT screw connection terminal blocks of Phoenix Contact can be used to clamp the conductors. It can also prevent conductor branching through the pressure head. The clamping block can support double-conductor connection. This series of terminals can reliably clamp conductors with a cross-section of up to 240 mm², ensuring airtightness and long-term stability.

Cantilever Fuse Holder and Disconnect Terminal UT...-HESI/HEDI

Features of cantilever fuse holder terminals:
  • Specially compact design.
  • Through-channel bridge connection can easily complete all potential distribution work.
  • The same shape can be directly connected to the terminal UT 4-MTD and the function terminal UT 4-TG/MT.
  • There are observation holes on both sides of the fuse holder.
  • UT 4-HESI LED 24 (5x20) 120KOHM type, maximum LED leakage current 0.49 mA, specially developed for controllers related to safety.

Cantilever Switch Terminal UT 4-HEDI

The cantilever switch terminal has the same shape as the cantilever fuse holder terminal and supports:
  • Marking according to functional needs.
  • Marking after conductor connection.
  • Through-channel bridge connection can connect two potentials in parallel separately.
  • Save the time for establishing electrical connections.

Knife Disconnect Terminal UT...-MT

  • Compact design, rated current up to 20 A.
  • Double connection ports can be used for potential distribution and power supply separately.
  • The same shape as the through-type terminal UT...-MTD.

Through-type Terminal Blocks and Diode Terminals of the Same Shape UT 2.5-MTD...

  • UT 2.5-MTD and UT 2.5-MTD-PE
Through-type and PE terminals can be installed in combination with functional terminals of the same size for more convenient use.
Terminal marking and labeling are more convenient.
  • UT 2.5-MTD-DIO...
Component terminals can realize multiple functions.
Can provide 1N 4007 diode fuse, from left to right or right to left to supplement the bus bar.
If the two-wire terminal is arranged next to the three-wire and four-wire terminals, the bus bar can seal the protruding part.
Prevent finger contact.

Double-knife Disconnect Terminal UTTB 4...-TG/MT

  • The shape is the same as that of the double-layer through-type terminal UTTB....
  • The standard function area on the terminal can also be inserted with a switch plug, a component plug or a fuse plug for 5 x 20 mm tube fuses.
  • The lower layer of the terminal has a through-channel bridge connection.
  • Through the integrated test connection terminal block, a loop is formed in the measuring equipment.
  • The voltage and current at both ends of the terminal have no interference.

UTTB 4-MT-LA...

  • With LED, can display the status interval position of the switch.
  • The double-layer terminal adopts the interval position design:
    • Even if all the slots are filled with conductors, the conductors can be easily introduced into the lower layer of the terminal.
    • The marking and conductor wiring holes of the lower layer of the terminal can be clearly seen.

Disconnect Test Terminal UTME 4/6

The newly adopted disconnect test terminal with screw connection has the following characteristics:
  • Compact structure.
  • Simple operation.
  • Through-channel bridge connection.
  • Double isolation.
  • Flexible and comprehensive accessories.
  • The shape of the through-type terminal block is the same as that of the ground terminal block.
A current transformer measurement circuit only needs to be equipped with two UTME 4 test disconnect terminals.
  • UTME 4 test disconnect terminal:
    • Compared with the loop using plug-in terminals, less space is required.
    • ① FBS... Plug-in bridge, used for cross connection.
    • ② 4 mm Ø PAL-FIX... Test port adapter.
    • ③ SME 4 switch lock.
    • ④ SB-ME... Switch wiring.
    • ⑤ C-ME 4/2 operating rod.
  • The vertical isolating switch in the phase switch state can be reliably connected and stored.
  • The switch label printed on the switch lock clearly indicates the on-off state.
  • Through the switch lock, accidental external switch actions can be avoided.
  • Two or three switches can be driven simultaneously with one bridge connector.
  • SB-ME... The switch bridge can easily realize connection and disconnection.
  • Can be reliably clamped and positioned.
  • Connected by screw terminals.

Plug-in Test Terminal UTME 4/1P

Since both the base and the plug are finger-safe, the COMBI plug can provide the maximum protection for operators.
  • Simple and unique identification methods increase the reliability of wiring and prevent wrong connections.
  • Can be clamped with a wire clamp.
  • The locking sleeve fixes the bottom terminal for wiring.
  • Using the CES wiring system (see product catalog 4), pre-manufactured cables with IP54/IP65 protection class can be easily installed in the control cabinet, saving space.

UTME 40CT.. Plug-in Current with Automatic Short-circuit Function

Plug-in Disconnect Test Terminal
  • This terminal is equipped with a patented short-circuit plug, which is very convenient and safe to use. When the plug is inserted, it will automatically short-circuit in advance.
  • It can prevent the current loop of the connected equipment from opening.
  • Coding is simple and safe.
  • Using card-type anti-misinsertion coding, reliable polarity protection can be provided for two connector models.
  • The short-circuit plug has two models: 2-position and 3-position.
  • The return wire and the connector buckle can be clamped on the plug.
  • Function:
    • Insert the connector - no short circuit will occur.
    • Remove the connector - automatic pre-short circuit.

Disconnect Test Terminal UT 6-T-HV

  • Compact 1000 V disconnect test terminal, with screw disconnect module.
  • The terminal provides a bridge at the disconnect point, and can be inserted with plug-in bridge connectors and test plugs with a diameter of 4 mm.
  • CARRIER S5 - 55 and plug-in bridge FBS... Provide a placement device.

SB-ME... Switch Bridge Connector

  • Can be reliably clamped and positioned.
  • Connected by screw terminals.

Double-layer Diode Terminal UTTB 2.5...-DIO

  • The double-layer terminal can perform a large number of different switching tasks with only two small sizes.
  • Width: only 2.5 mm.
  • The following circuits can be realized in a small space: freewheeling diode circuit, circuit with indicator light, display disconnect circuit.
The UT screw connection terminal blocks of the CLIPLINE complete system meet the strictest requirements and are suitable for various application fields. Their feature is that conductor connection is maintenance-free and supports multi-conductor connection, ensuring maximum connection flexibility. When using this series of terminals, users can directly connect or use cold-pressed connectors to connect conductors of rated cross-sections. The terminals adopt screw self-locking technology based on the "gap principle". After tightening the terminals, it can effectively prevent the screws from loosening. This series of terminals can reliably connect conductors with a maximum rated cross-section of 240 mm², and can ensure good airtightness and long-term stability.

Connection Principle

The UT screw connection terminal blocks are designed for the strictest requirements. This series of terminals has been widely used in various fields for more than 80 years. One of the important features is that there is no need to strip the conductors after connection. Because of the adoption of the screw self-locking technology - the "gap principle", after tightening the screws, the screws are prevented from loosening. There is no need to pre-process the conductors, and the UT screw connection terminal blocks of Phoenix Contact can be used to clamp the conductors. It can also prevent conductor branching through the pressure head. The clamping block can support double-conductor connection. This series of terminals can reliably clamp conductors with a cross-section of up to 240 mm², ensuring airtightness and long-term stability.

Ground Terminal UT...-PE

PE terminals, conforming to IEC 60947-7-2, allow a minimum nominal cross-section of 10 mm².
This function provides reliable potential protection for equipment connected to the smallest power grid. The PN conductor is divided into phase conductors and protective conductors, which is particularly important.
The large conductor cross-section is usually four-core and needs to be transferred to the incoming conductor system on the terminal.
For UT screw terminals, separation is very easy. According to the standard, use the ground terminal block between metal feet and a plug-in combination terminal block. This terminal block is assembled with DIN rail. Through the bus bar, the potential of the phase conductor and the PN conductor can be connected. This terminal block and the power plug-in bridge can be directly connected. The ground terminal block does not need to be assembled with DIN rail, because when using the potential bus bar, the phase conductor is also connected to the PN conductor, so it can be manufactured.

UT with Two Through-type Terminals and PE Terminal

  • UT...-TWIN terminals, one side can realize multi-conductor connection, saving space.
  • Easily realize potential distribution.

UT with Two Through-type Terminals and PE Terminal UT...-QUATTRO

These can be used as fuse potential terminals.
The UT screw connection terminal blocks of the CLIPLINE complete system meet the strictest requirements and are suitable for various application fields. Their feature is that conductor connection is maintenance-free and supports multi-conductor connection, ensuring maximum connection flexibility. When using this series of terminals, users can directly connect or use cold-pressed connectors to connect conductors of rated cross-sections. The terminals adopt screw self-locking technology based on the "gap principle". After tightening the terminals, it can effectively prevent the screws from loosening. This series of terminals can reliably connect conductors with a maximum rated cross-section of 240 mm², and can ensure good airtightness and long-term stability.

Connection Principle

The UT screw connection terminal blocks are designed for the strictest requirements. This series of terminals has been widely used in various fields for more than 80 years. One of the important features is that there is no need to strip the conductors after connection. Because of the adoption of the screw self-locking technology - the "gap principle", after tightening the screws, the screws are prevented from loosening. There is no need to pre-process the conductors, and the UT screw connection terminal blocks of Phoenix Contact can be used to clamp the conductors. It can also prevent conductor branching through the pressure head. The clamping block can support double-conductor connection. This series of terminals can reliably clamp conductors with a cross-section of up to 240 mm², ensuring airtightness and long-term stability.

Through-type Terminal Block UT...

The UT screw connection terminal not only has the characteristics of the CLIPLINE complete system, but also has the following features:
  • The compact design without a cover can connect flexible conductors of any cross-section, even if the cross-section is larger than the specified one.
  • The large connection space allows flexible and reliable connection of incoming and outgoing conductors.
  • The large angle of the current entry makes the connection of conductors with uncertain cross-sections easier, and the risk of wire breakage is reduced.
  • Multi-conductor connection provides the best flexibility and the highest wiring density.
  • All relevant connection tools, as well as the marking of accessories.
  • Related pressure tools, please refer to sample data.

Universal Large Current Terminal UKH...

Through-type large current terminals can carry a maximum current of 240 mm² and 415 A, and are used for ground terminals of the same shape.
  • The advantages of through-type connection:
    • The incoming and outgoing conductors are centered in the terminal with a metal tube.
    • The connection resistance is reduced by using a serrated contact surface.
    • Inserting the test fork UKH...EP ensures that the shape of the conductor is firmly connected.
    • The full disconnect terminal (optional) can be used for tapping at a rated voltage of up to 1000 V (10 mm²).
    • Large marking area.

High-current Plug, with Clamping Connection

  • UKH...V high-current plug, maximum cross-section 240 mm², maximum current 415 A, optional combinations:
    • Screw connection - screw connection.
    • Screw connection - spring connection.

UKH...3L-DIN A Terminal Block with Large Current DIN Rail

  • The current of 415 A is safely installed on the DIN rail, with a rated voltage of 1000 V (10 mm²).
  • The full disconnect terminal (optional) can be used for tapping at a rated voltage of up to 1000 V (10 mm²).

UKH...-QUATTRO Large Current Terminal Block

  • The terminal block directly adopts a large current design, saving space, direct connection, and the maximum current is 415 A.
  • The full disconnect terminal (optional) can be used for tapping at a rated voltage of up to 1000 V (10 mm²).

UT with Two Through-type Terminals and PE Terminal

  • UT...-TWIN terminals, one side can realize multi-conductor connection, saving space.
  • Easily realize potential distribution.

UT with Two Through-type Terminals and PE Terminal UT...-QUATTRO

These can be used as fuse potential terminals.

Rachel

Industrial Control Sales Specialist: Focuses on delivering high-performance, cost-effective industrial control products. Offers end-to-end one-stop procurement support—covering rapid quotation, streamlined order fulfillment, and responsive after-sales service—to simplify clients’ procurement processes. Email: Anthony@icxsg.com

We offer competitive product pricing. For fast support, send your email, phone, address, and the product model & quantity you want—we’ll reach out quickly!

We typically respond via email within one business day! You can also contact us at Anthony@icxsg.com

Message*
email*
address
File upload:
Attention: Upload file types:. jpg,. png,. jpg,. pdf,. doc,. docx.
Upload file sizes up to 2 MB

Latest Articles

  • This article will focus on two industry giants—Siemens SINAMICS drive series and ebmpapst smart fans—and delve into how they are defining the performance standards for modern industry.
  • In today’s connected manufacturing environment, industrial communication protocols form the backbone of modern automation. They enable devices to exchange data, integrate seamlessly, and support remote monitoring across global networks. For industrial suppliers serving international customers, understanding and implementing mainstream communication standards is crucial for product compatibility and competitiveness.
  • As manufacturing shifts toward high precision, high flexibility, and intelligent automation, traditional motor control methods are no longer sufficient. AC servo drive systems have emerged as the preferred choice for CNC machines, industrial robots, and automated assembly lines. This article provides an in-depth look at AC servo drive principles, selection criteria, and application advantages in precision control environments.
  • In modern industrial automation systems, the motor drive acts as the core power unit that determines the efficiency, stability, and energy consumption of the entire process. For international projects and engineering contractors, selecting the right Variable Frequency Drive (VFD) is crucial. This article provides a detailed and practical guide to understanding how VFDs work, how to select them correctly, and how to avoid common mistakes during implementation.
  • Intelligent motor control systems integrate sensors, controllers, frequency converters, and communication modules into a unified platform capable of real-time decision-making. This shift marks the transition from simple control to smart orchestration—where data, algorithms, and hardware collaborate to maximize performance and reliability.
  • A frequency converter regulates the speed and torque of an AC motor by adjusting the frequency and voltage supplied to it. This not only enhances process control but also significantly reduces power consumption, equipment wear, and system maintenance costs.
  • In any industrial automation setup, power stability determines the overall reliability of control systems. A single voltage drop or surge can cause PLC malfunctions, sensor errors, or complete equipment shutdown. Therefore, designing a stable, efficient, and maintainable industrial power system is a fundamental task for electrical and automation engineers.
  • In the field of industrial automation, Industrial Ethernet has become a cornerstone of efficient communication, replacing many traditional fieldbus systems. Its high speed, flexibility, and openness make it an essential part of smart manufacturing and Industry 4.0. For engineers and plant operators, mastering how to deploy and optimize Industrial Ethernet networks is key to ensuring system stability, reducing downtime, and preparing for digital transformation.
  • In today’s interconnected industrial supply chains, businesses worldwide need reliable access to high-quality HVAC (Heating, Ventilation, Air Conditioning) systems, industrial control equipment, and electronic components—with fast delivery, clear technical support, and flexible sourcing solutions. As an international trade partner operated by APAC HVAC TECH PTE. LTD. and headquartered in Singapore, ICX (icxsg.com) delivers exactly that.
  • As the "first line of defense," Motor Protection Circuit Breakers (MPCBs) can minimize fault losses through accurate monitoring and rapid circuit interruption. This article provides a comprehensive analysis of MPCBs, covering technical principles, selection methods, installation and maintenance, as well as industry trends, to offer systematic solutions for industrial users.
  • The sequence of low-voltage fuses and low-voltage switches (including circuit breakers) in a circuit depends primarily on the core protection objectives of the circuit, the functional positioning of the equipment, and specific application scenarios; it is not absolutely fixed. The design of "connecting the fuse after the air switch" in machine tool distribution boxes is essentially an optimized protection logic tailored to the special power consumption needs of machine tool equipment, rather than a violation of general principles.
  • In modern industrial electrical systems, the vacuum contactor, as a key control and protection device, plays an extremely important role. With its unique arc-extinguishing method and many excellent performances, it is widely used in various power control scenarios to ensure the reliable operation of power systems. Next, let's deeply explore the working principle, structural composition, application fields and maintenance points of the vacuum contactor.​
  • As a professional engaged in overseas fan procurement, do you often encounter challenges such as difficult working condition adaptation, complex cost accounting, and delayed after-sales response during cross-border procurement? Combining 15 years of experience in serving the global fan market, we have sorted out professional solutions in three core dimensions—selection, cost, and after-sales service—based on the actual needs of overseas procurement, providing you with rigorous and practical procurement references.
  • Have you ever wondered why your home washing machine can "automatically power off after washing clothes"? Or why the factory assembly line can "feed materials first and then start stamping after 3 seconds"? Behind these scenarios of "doing things in a time sequence" lies a key component — the time relay.
  • Please read our Terms and Conditions and this Policy before accessing or using our Services. If you cannot agree with this Policy or the Terms and Conditions, please do not access or use our Services. If you are located in a jurisdiction outside the European Economic Area, by using our Services, you accept the Terms and Conditions and accept our privacy practices described in this Policy.
  • APAC HVAC TECH PTE. LTD. (hereinafter referred to as "we") is dedicated to safeguarding the privacy and security of your personal information. This Privacy Policy explains how we collect, use, and disclose your personal information when you use our website or purchase our import and export products.
  • As a core control device in industrial automation, the PLC has evolved from an early "relay replacement" to an "industrial nerve center" integrating logic control, motion control, and process control. This article will elaborate on the technical architecture, core functions, application scenarios, and development trends of PLCs, systematically sorting out their technical principles and engineering practice points.
  • The Frame Circuit Breaker, also known as the air circuit breaker (ACB), usually has a steel frame structure, and all components are installed within this frame. It can switch on, carry, and break currents under normal circuit conditions, and also has the ability to switch on, carry for a certain time, and break currents under specified abnormal circuit conditions (such as overload, short circuit, ground fault, etc.)
  • Fans, as key equipment that converts mechanical energy into gas energy, play a vital role in various fields such as industrial production, building ventilation, and energy development. This article will delve into the working principles, classification methods, performance parameters, design essentials, application fields, and future development trends of fans, presenting a comprehensive knowledge system of fan technology to readers.