What are robot cables and what are their primary uses?

Robot cables are specialized cables designed for use in robotic applications, particularly in environments requiring high durability, flexibility, and resistance to various stressors such as heat, oil, and mechanical wear. They are primarily used for wiring robotic arms, cable carriers, and other moving parts in factory automation, ensuring reliable performance in dynamic operations.

What types of robot cables are available and how do they differ?

There are several types of robot cables, including those for moving parts, fixed applications, and network cables with enhanced flex resistance and shielding. Cables for moving parts are designed to withstand continuous flexing, while fixed application cables are suited for stationary environments and clean rooms. Network cables feature additional shielding for signal integrity in demanding conditions.

How do I choose the right robot cable for my application?

Selecting the appropriate robot cable involves considering factors such as the environment (e.g., presence of oil, chemicals, or high temperatures), the required flexibility, the number of cores, and the voltage rating. It's crucial to match the cable's specifications to the operational demands to ensure longevity and performance. For example, cables used in robotic arms require high flex resistance and durable insulation materials.

What are the key features to look for in a high-quality robot cable?

Key features include flexibility, durability, resistance to heat, oil, and chemicals, and the ability to withstand continuous movement and mechanical stress. Look for cables with high flex cycles, appropriate insulation materials like PVC or TPE, and additional features such as shielding to protect against electromagnetic interference. Conductors should be made of pure copper for optimal electrical performance.

What materials are commonly used in robot cables and why?

Common materials include copper for conductors due to its excellent conductivity and durability, PVC or TPE for insulation due to their flexibility and resistance to environmental stressors, and sometimes fluorine-based materials for their superior heat and chemical resistance. The outer jacket is often made from durable compounds that offer protection against abrasion and external damage.

How are robot cables rated for voltage and what does this mean for their application?

Robot cables are rated for voltage based on the maximum voltage they can safely carry without risk of breakdown or failure. Common ratings include 300V and 600V. Higher voltage ratings indicate the cable can handle more demanding electrical environments. For example, a 600V cable is suitable for power applications, while a 300V cable is often used for signal and control functions.

What is the significance of shielding in robot cables?

Shielding is used in robot cables to protect against electromagnetic interference (EMI) and radio frequency interference (RFI), which can disrupt the signal transmission. Shielding materials, such as aluminum or copper braids, help maintain signal integrity by preventing external noise from affecting the cable's performance, which is crucial in environments with high electrical noise.

What does 'flex resistance' mean in the context of robot cables?

Flex resistance refers to a cable’s ability to withstand repeated bending and movement without degrading in performance or structural integrity. This is critical for cables used in robotic arms or other moving machinery parts, as they are subject to continuous flexing, twisting, and pulling. High flex resistance ensures long-term reliability and prevents premature cable failure.

How do you determine the right conductor size for a robot cable?

The conductor size, typically measured in AWG or mm², is determined by the current carrying capacity and voltage drop requirements of the application. Larger conductors are used for higher currents and lower voltage drops. The choice of conductor size depends on the electrical load the cable needs to handle and the distance over which it will carry the current.

Why is oil resistance important for robot cables?

Oil resistance is important because many industrial environments involve the use of lubricants and oils, which can degrade standard cable materials over time. Robot cables with oil-resistant jackets and insulation can withstand exposure to these substances, ensuring reliable performance and preventing damage such as cracking or loss of flexibility.

What are the different jacket materials used in robot cables and their benefits?

Common jacket materials include PVC, which offers good flexibility and resistance to chemicals; TPE, known for its excellent abrasion and chemical resistance; and fluoropolymers, which provide superior heat and chemical resistance. Each material is selected based on the specific environmental and mechanical demands of the application.

Can robot cables be used in outdoor applications?

Yes, certain robot cables are designed for outdoor use and can withstand exposure to UV radiation, weather conditions, and temperature variations. These cables often have jackets made from materials like TPE or special UV-resistant compounds, making them suitable for applications such as outdoor robotics and automated machinery exposed to the elements.

What is the difference between shielded and unshielded robot cables?

Shielded cables have a layer of conductive material, such as a foil or braided shield, that protects the internal conductors from external electrical noise and prevents signal interference. Unshielded cables lack this protection and are generally used in environments with minimal electromagnetic interference. Shielded cables are preferred in applications where signal integrity is critical.

How do robot cables ensure safety and reliability in high-flex applications?

Robot cables ensure safety and reliability through the use of high-quality materials, robust construction, and thorough testing for flex cycles and environmental resistance. Features like flexible conductors, durable insulation, and protective jackets help the cables withstand continuous movement, harsh conditions, and mechanical stress without failing or causing hazards.

What are some common applications of robot cables?

Common applications include use in robotic arms, cable carriers, and automated machinery in industries such as manufacturing, automotive, aerospace, and medical devices. They are also used in clean rooms, outdoor robotics, and anywhere that requires reliable, flexible, and durable cabling solutions to handle dynamic movements and harsh environments.

How do environmental factors like temperature and humidity affect robot cable selection?

Environmental factors such as temperature and humidity can significantly impact the performance and longevity of robot cables. Cables used in high-temperature environments require heat-resistant materials, while those exposed to moisture or chemicals need appropriate protective jackets. Selecting cables with the right specifications for these factors ensures optimal performance and durability.

What standards should robot cables comply with for industrial use?

Robot cables should comply with standards such as UL (Underwriters Laboratories), CSA (Canadian Standards Association), and CE (Conformité Européenne) to ensure they meet safety, performance, and environmental requirements. Compliance with these standards guarantees that the cables are suitable for industrial applications and can withstand the demands of their operating conditions.

How can I ensure the longevity of my robot cables?

To ensure longevity, choose cables that match the environmental and mechanical demands of your application, and follow proper installation practices to avoid excessive bending or pulling. Regularly inspect and maintain the cables, keeping them clean and free from damage. Using protective conduit or cable carriers can also help prevent wear and extend the life of the cables.

What are the advantages of using robot cables over standard cables?

Robot cables offer superior flexibility, durability, and resistance to environmental stressors compared to standard cables. They are specifically designed to handle the continuous movement and mechanical stress typical in robotic and automated applications, providing reliable performance and reducing the risk of downtime and maintenance costs.

How are robot cables tested for performance and reliability?

Robot cables undergo rigorous testing to ensure they meet performance and reliability standards. Tests include flex life testing, temperature and chemical resistance evaluations, and electrical performance assessments. These tests simulate the conditions the cables will face in real-world applications, ensuring they can withstand the operational demands and maintain their integrity over time.

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TATSUTA ELECTRIC WIRE & CABLE Machinery Robot Cables（Representative Standard：UL）

TATSUTA ELECTRIC WIRE & CABLE offers products Machinery Robot Cables specified by Representative Standard UL from Wiring Components product category. There are a total of 5 items. Equipment and parts for electrical systems, cables and electrical connections. TATSUTA ELECTRIC WIRE & CABLE products are available to order through MISUMI online 24 hours a day. Free shipping, no minimum order.

Configure

Specification/Dimensions

Conductor Cross Section(mm²)
0.08

0.1

0.12

0.125

0.14 + 0.5

0.15

0.2

0.204

0.25

0.3

0.324

0.34

0.34 + 0.5

0.38

0.5

0.5 + 0.25

0.5/0.25

0.518

0.7

0.75

0.8

0.823

1

1.1

1.25

1.3

1.5

1.7

2

2.07

2.08

2.5

3.3

3.5

4

5

5.26

5.5

6

8

8.36

10

13.3

14

16

22

25

35

50

70
Details

Clear

AWG size(AWG)
4

6

8

10

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28
Details

Clear

Number Of Cores(Core)
1

2

3

4

4 × 2 + 4

4 + 3 × (2 + 2)

4 + 3 × 2 + 3 × 2

5

5 + 2

6

7

8

9

10

11

12

13

14

15

16

18

20

21

24

25

26

28

30

31

36

40

50
Details

Clear

Logarithm
0

1

1P

1.5

2

2P

3

3P

4

4P

5

5P

6

6P

7

7P

8

8P

9P

10

10P

12

12P

13

14P

15

15P

18

18P

20

20P

25

25P
Details

Clear

Shield
- Available
- NA
Details

Clear

Rated Voltage
- 600V
- 300V
- For Low Current Circuits
- Other
- 90 V
Details

Clear

Properties
- Oil Resistance
- Heat-Resistance
- Cold Resistance
- Abrasion Resistance
- Chemical Resistance
- Weatherproof
- Flex Resistance
Details

Clear

Sheath (outer coating) color
- Black
- Gray
- White
- Brown
- Red
- Yellow
- Green
- Blue
Clear

Finished outer diameter(mm)
0.81

0.94

1.12

1.5

1.68

2.05

3

3.3

3.4

3.5

3.6

3.65

3.7

3.8

3.9

3.95

4

4.1

4.2

4.21

4.27

4.3

4.4

4.45

4.5

4.57

4.6

4.7

4.8

4.81

4.9

5

5.1

5.17

5.2

5.25

5.3

5.31

5.4

5.41

5.5

5.58

5.6

5.7

5.8

5.85

5.9

6

6.1

6.2

6.25

6.3

6.4

6.5

6.58

6.6

6.7

6.8

6.87

6.88

6.9

7

7.1

7.16

7.17

7.2

7.22

7.3

7.4

7.41

7.5

7.51

7.57

7.6

7.7

7.72

7.8

7.9

8

8.05

8.1

8.17

8.2

8.3

8.4

8.5

8.6

8.7

8.8

8.87

8.9

9

9.1

9.2

9.3

9.4

9.5

9.53

9.6

9.7

9.8

9.9

10

10.1

10.2

10.23

10.3

10.4

10.5

10.6

10.7

10.8

10.9

11

11.1

11.1X17.6

11.2

11.3

11.4

11.5

11.6

11.7

11.8

11.9

12

12.1

12.2

12.3

12.4

12.5

12.6

12.7

12.8

12.9

13

13.1

13.1X19.6

13.2

13.3

13.4

13.5

13.6

13.7

13.8

13.9

14

14.1

14.2

14.3

14.4

14.5

14.6

14.7

14.8

14.9

15

15.1

15.2

15.2X21.7

15.4

15.5

15.6

15.7

15.8

15.9

16

16.1

16.2

16.3

16.4

16.5

16.6

16.7

16.8

16.9

17

17.1

17.2

17.3

17.4

17.5

17.5X24.0

17.7

17.9

18

18.1

18.4

18.5

18.8

19

19.1

19.3

19.5

19.6

19.7

19.7X26.2

19.8X26.3

19.9

20

20.1

20.5

20.8

21

21.3

21.5

21.7

21.8X28.3

22

22.5

23.4

23.5

24

24.4

25.3

25.5

26

26.8

27.5

28

29.1

30.5
Details

Clear

Overall Length(m)
1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

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81

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84

85

86

87

88

89

90

91

92

93

94

95

96

97

98

99

100

200
Clear

Sheath (outer coating) material
- PVC (Polyvinyl Chloride)
- Urethane-Based
- Other
- Oil-Resistant / Heat-Resistant PVC
Clear

Grounding Wire
- Colored YG (yellow/green)
- GY (green/yellow) colored
- NA
Clear

Representative Standard
- PSE
- UL
- CE
- CSA(c-UL)
- CCC
Details

Clear

Insulation body materials
- PVC (Polyvinyl Chloride)
- Fluorine-Based
- Polyethylene-Based
- Other
Clear

Brand	(43) (0) DYDEN (7) FUKUDEN (0) HANSHIN ELECTRIC WIRE & CABLE (6) IGUS (9) JUNKOSHA (0) KANEKO CORD (0) KURAMO ELECTRIC (7) MITSUBISHI (0) MITSUBOSHI (CABLE) (0) NIHON ELECTRIC WIRE & CABLE (1) OKI ELECTRIC CABLE (3) ONAMBA (0) TAIYO CABLETEC (10) TANAKA DENSEN (0) TATSUTA ELECTRIC WIRE & CABLE (5)
CAD	2D 3D

5 items

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: 30; 60; 90

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UL2464-OHFRPCVV Robot Cable (Rated 300 V/80°C)

TATSUTA ELECTRIC WIRE & CABLE

· The conductor is made of extremely fine strong copper alloy wire with excellent flexibility and resistance to twisting.
· Tensile strength is approximately 2.2 times that of pure copper wire.
· The insulation body is made of heat-resistance vinyl, bridged polyethylene and an lso ETFE, which is resistant to bending.
· Utilizes shielding suitable for applications and environments where a high level flexibility and bending, etc. is required.
· Utilizes as standard a heat, oil and wear-resistant vinyl sheath suitable for use in any environment.
· In addition to a sheath with excellent resistance to flame and welding sparks, special sheaths with resistance to thinners and low outgassing are also available.
*Environmental regulations regarding limits on use of specific toxic substances
· UL standard certification acquired

From: ฿ 341.39
Days to Ship: 3 Day(s)

3 Day(s)

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UL2854-OHFRPCPVVSB Anti-Twisting Shielded Robot Cable (Rated 30 V/80°C)

TATSUTA ELECTRIC WIRE & CABLE

From: ฿ 300.89
Days to Ship: 3 Day(s)

3 Day(s)

Compare

UL2854-OHRPCVV Robot Cable (Rated 30 V/80°C)

TATSUTA ELECTRIC WIRE & CABLE

From: ฿ 135.48
Days to Ship: 3 Day(s)

3 Day(s)

Compare

UL2854-OHFRPCVV Robot Cable (Rated 30 V/80°C)

TATSUTA ELECTRIC WIRE & CABLE

From: ฿ 162.42
Days to Ship: 3 Day(s)

3 Day(s)

Compare

UL2464-OHFRPCPVVSB Robot Cable With Anti-Twist Shield (Rated 300 V/80°C)

TATSUTA ELECTRIC WIRE & CABLE

From: ฿ 413.68
Days to Ship: 3 Day(s)

3 Day(s)


Brand
Product Series
From
Days to Ship
Conductor Cross Section(mm²)
AWG size(AWG)
Number Of Cores(Core)
Logarithm
Shield
Rated Voltage
Properties
Sheath (outer coating) color
Finished outer diameter(mm)
Overall Length(m)
Sheath (outer coating) material
Grounding Wire
Representative Standard
Insulation body materials

	You can add up to 6 items per a category to the compare list.Compare	You can add up to 6 items per a category to the compare list.Compare	You can add up to 6 items per a category to the compare list.Compare	You can add up to 6 items per a category to the compare list.Compare	You can add up to 6 items per a category to the compare list.Compare
Brand	TATSUTA ELECTRIC WIRE & CABLE	TATSUTA ELECTRIC WIRE & CABLE	TATSUTA ELECTRIC WIRE & CABLE	TATSUTA ELECTRIC WIRE & CABLE	TATSUTA ELECTRIC WIRE & CABLE
Product Series	UL2464-OHFRPCVV Robot Cable (Rated 300 V/80°C)	UL2854-OHFRPCPVVSB Anti-Twisting Shielded Robot Cable (Rated 30 V/80°C)	UL2854-OHRPCVV Robot Cable (Rated 30 V/80°C)	UL2854-OHFRPCVV Robot Cable (Rated 30 V/80°C)	UL2464-OHFRPCPVVSB Robot Cable With Anti-Twist Shield (Rated 300 V/80°C)
From	฿ 341.39	฿ 300.89	฿ 135.48	฿ 162.42	฿ 413.68
Days to Ship	3 Day(s)	3 Day(s)	3 Day(s)	3 Day(s)	3 Day(s)
Conductor Cross Section(mm²)	0.75 ～ 1.25	0.2 ～ 0.5	0.15 ～ 0.3	0.2 ～ 0.5	0.75
AWG size(AWG)	17 ～ 19	21 ～ 25	23 ～ 26	21 ～ 25	19
Number Of Cores(Core)	2 ～ 12	2 ～ 24	2 ～ 3	2 ～ 30	2 ～ 4
Logarithm	-	1 ～ 12	-	-	1 ～ 2
Shield	NA	Available	NA	NA	Available
Rated Voltage	300V	For Low Current Circuits	For Low Current Circuits	For Low Current Circuits	300V
Properties	Oil Resistance / Heat-Resistance	Oil Resistance / Heat-Resistance	Oil Resistance / Heat-Resistance	Oil Resistance / Heat-Resistance	Oil Resistance / Heat-Resistance
Sheath (outer coating) color	Black	Black	Black	Black	Black
Finished outer diameter(mm)	7.7 ～ 13.5	6.6 ～ 12	3 ～ 4	4.2 ～ 12.5	7.8 ～ 12.5
Overall Length(m)	1 ～ 100	1 ～ 100	1 ～ 100	1 ～ 100	1 ～ 100
Sheath (outer coating) material	PVC (Polyvinyl Chloride)	PVC (Polyvinyl Chloride)	PVC (Polyvinyl Chloride)	PVC (Polyvinyl Chloride)	PVC (Polyvinyl Chloride)
Grounding Wire	-	-	-	-	-
Representative Standard	UL	UL	UL	UL	UL
Insulation body materials	PVC (Polyvinyl Chloride)	PVC (Polyvinyl Chloride)	PVC (Polyvinyl Chloride)	PVC (Polyvinyl Chloride)	PVC (Polyvinyl Chloride)

Related Categories to Machinery Robot Cables

- Machinery Robot Cables

FAQ Machinery Robot Cables

Question: What are robot cables and what are their primary uses?: Answer: Robot cables are specialized cables designed for use in robotic applications, particularly in environments requiring high durability, flexibility, and resistance to various stressors such as heat, oil, and mechanical wear. They are primarily used for wiring robotic arms, cable carriers, and other moving parts in factory automation, ensuring reliable performance in dynamic operations.
Question: What types of robot cables are available and how do they differ?: Answer: There are several types of robot cables, including those for moving parts, fixed applications, and network cables with enhanced flex resistance and shielding. Cables for moving parts are designed to withstand continuous flexing, while fixed application cables are suited for stationary environments and clean rooms. Network cables feature additional shielding for signal integrity in demanding conditions.
Question: How do I choose the right robot cable for my application?: Answer: Selecting the appropriate robot cable involves considering factors such as the environment (e.g., presence of oil, chemicals, or high temperatures), the required flexibility, the number of cores, and the voltage rating. It's crucial to match the cable's specifications to the operational demands to ensure longevity and performance. For example, cables used in robotic arms require high flex resistance and durable insulation materials.
Question: What are the key features to look for in a high-quality robot cable?: Answer: Key features include flexibility, durability, resistance to heat, oil, and chemicals, and the ability to withstand continuous movement and mechanical stress. Look for cables with high flex cycles, appropriate insulation materials like PVC or TPE, and additional features such as shielding to protect against electromagnetic interference. Conductors should be made of pure copper for optimal electrical performance.
Question: What materials are commonly used in robot cables and why?: Answer: Common materials include copper for conductors due to its excellent conductivity and durability, PVC or TPE for insulation due to their flexibility and resistance to environmental stressors, and sometimes fluorine-based materials for their superior heat and chemical resistance. The outer jacket is often made from durable compounds that offer protection against abrasion and external damage.
Question: How are robot cables rated for voltage and what does this mean for their application?: Answer: Robot cables are rated for voltage based on the maximum voltage they can safely carry without risk of breakdown or failure. Common ratings include 300V and 600V. Higher voltage ratings indicate the cable can handle more demanding electrical environments. For example, a 600V cable is suitable for power applications, while a 300V cable is often used for signal and control functions.
Question: What is the significance of shielding in robot cables?: Answer: Shielding is used in robot cables to protect against electromagnetic interference (EMI) and radio frequency interference (RFI), which can disrupt the signal transmission. Shielding materials, such as aluminum or copper braids, help maintain signal integrity by preventing external noise from affecting the cable's performance, which is crucial in environments with high electrical noise.
Question: What does 'flex resistance' mean in the context of robot cables?: Answer: Flex resistance refers to a cable’s ability to withstand repeated bending and movement without degrading in performance or structural integrity. This is critical for cables used in robotic arms or other moving machinery parts, as they are subject to continuous flexing, twisting, and pulling. High flex resistance ensures long-term reliability and prevents premature cable failure.
Question: How do you determine the right conductor size for a robot cable?: Answer: The conductor size, typically measured in AWG or mm², is determined by the current carrying capacity and voltage drop requirements of the application. Larger conductors are used for higher currents and lower voltage drops. The choice of conductor size depends on the electrical load the cable needs to handle and the distance over which it will carry the current.
Question: Why is oil resistance important for robot cables?: Answer: Oil resistance is important because many industrial environments involve the use of lubricants and oils, which can degrade standard cable materials over time. Robot cables with oil-resistant jackets and insulation can withstand exposure to these substances, ensuring reliable performance and preventing damage such as cracking or loss of flexibility.
Question: What are the different jacket materials used in robot cables and their benefits?: Answer: Common jacket materials include PVC, which offers good flexibility and resistance to chemicals; TPE, known for its excellent abrasion and chemical resistance; and fluoropolymers, which provide superior heat and chemical resistance. Each material is selected based on the specific environmental and mechanical demands of the application.
Question: Can robot cables be used in outdoor applications?: Answer: Yes, certain robot cables are designed for outdoor use and can withstand exposure to UV radiation, weather conditions, and temperature variations. These cables often have jackets made from materials like TPE or special UV-resistant compounds, making them suitable for applications such as outdoor robotics and automated machinery exposed to the elements.
Question: What is the difference between shielded and unshielded robot cables?: Answer: Shielded cables have a layer of conductive material, such as a foil or braided shield, that protects the internal conductors from external electrical noise and prevents signal interference. Unshielded cables lack this protection and are generally used in environments with minimal electromagnetic interference. Shielded cables are preferred in applications where signal integrity is critical.
Question: How do robot cables ensure safety and reliability in high-flex applications?: Answer: Robot cables ensure safety and reliability through the use of high-quality materials, robust construction, and thorough testing for flex cycles and environmental resistance. Features like flexible conductors, durable insulation, and protective jackets help the cables withstand continuous movement, harsh conditions, and mechanical stress without failing or causing hazards.
Question: What are some common applications of robot cables?: Answer: Common applications include use in robotic arms, cable carriers, and automated machinery in industries such as manufacturing, automotive, aerospace, and medical devices. They are also used in clean rooms, outdoor robotics, and anywhere that requires reliable, flexible, and durable cabling solutions to handle dynamic movements and harsh environments.
Question: How do environmental factors like temperature and humidity affect robot cable selection?: Answer: Environmental factors such as temperature and humidity can significantly impact the performance and longevity of robot cables. Cables used in high-temperature environments require heat-resistant materials, while those exposed to moisture or chemicals need appropriate protective jackets. Selecting cables with the right specifications for these factors ensures optimal performance and durability.
Question: What standards should robot cables comply with for industrial use?: Answer: Robot cables should comply with standards such as UL (Underwriters Laboratories), CSA (Canadian Standards Association), and CE (Conformité Européenne) to ensure they meet safety, performance, and environmental requirements. Compliance with these standards guarantees that the cables are suitable for industrial applications and can withstand the demands of their operating conditions.
Question: How can I ensure the longevity of my robot cables?: Answer: To ensure longevity, choose cables that match the environmental and mechanical demands of your application, and follow proper installation practices to avoid excessive bending or pulling. Regularly inspect and maintain the cables, keeping them clean and free from damage. Using protective conduit or cable carriers can also help prevent wear and extend the life of the cables.
Question: What are the advantages of using robot cables over standard cables?: Answer: Robot cables offer superior flexibility, durability, and resistance to environmental stressors compared to standard cables. They are specifically designed to handle the continuous movement and mechanical stress typical in robotic and automated applications, providing reliable performance and reducing the risk of downtime and maintenance costs.
Question: How are robot cables tested for performance and reliability?: Answer: Robot cables undergo rigorous testing to ensure they meet performance and reliability standards. Tests include flex life testing, temperature and chemical resistance evaluations, and electrical performance assessments. These tests simulate the conditions the cables will face in real-world applications, ensuring they can withstand the operational demands and maintain their integrity over time.

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TATSUTA ELECTRIC WIRE & CABLE Machinery Robot Cables（Representative Standard：UL）

Configure

Specification/Dimensions

Conductor Cross Section(mm²)

AWG size(AWG)

Number Of Cores(Core)

Logarithm

Shield

Rated Voltage

Properties

Sheath (outer coating) color

Finished outer diameter(mm)

Overall Length(m)

Sheath (outer coating) material

Grounding Wire

Representative Standard

Insulation body materials

Related Categories to Machinery Robot Cables

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MISUMI Contact 8:00 - 18:00 (Mon-Sat),*Order cut off time is 17:00 / Online order cut off time is 18:00

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How can we improve?

TATSUTA ELECTRIC WIRE & CABLE Machinery Robot Cables（Representative Standard：UL）

Configure

Specification/Dimensions

Conductor Cross Section(mm2)

AWG size(AWG)

Number Of Cores(Core)

Logarithm

Shield

Rated Voltage

Properties

Sheath (outer coating) color

Finished outer diameter(mm)

Overall Length(m)

Sheath (outer coating) material

Grounding Wire

Representative Standard

Insulation body materials

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Service hours

Noted for use

Payment Methods

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MISUMI Contact 8:00 - 18:00 (Mon-Sat),*Order cut off time is 17:00 / Online order cut off time is 18:00

Conductor Cross Section(mm²)