Our Stranded Type T Thermocouple Extension Cable with fiberglass braiding is built to tackle high-heat environments with ease. Designed for Type T thermocouples (copper-constantan), this cable delivers precise temperature readings from -60°C to +400°C. The fiberglass insulation and braid provide top-notch flame resistance and durability, while the stranded conductors make it super flexible for tricky installations. Rated for 300V, it’s ready for tough industrial setups. The twisted pair design cuts down on electrical noise, and optional aluminum Mylar shielding takes it up a notch for cleaner signals. This cable is your go-to for reliable performance in scorching conditions.
The thermocouple extension cable market is heating up, driven by industries like metallurgy, glass manufacturing, and aerospace that demand cables capable of withstanding extreme temperatures. Fiberglass insulation is gaining traction for its high thermal resistance and flame-retardant properties, outpacing materials like PVC or silicone in high-heat applications. As industrial processes push for greater precision and automation, low-noise and flexible cables are critical. Compliance with standards like IEC 60584-3 and ANSI MC96.1 is a must for safety and reliability. Our Type T cable fits right into these trends, offering the durability and accuracy needed for today’s demanding industrial environments.
| Thermocouple Type | Compensating Wire Type | Usage | EMF Standard | Precision Grade | General Grade | |||
| Temperature /℃ | Value /μV | Tolerance μV | EMF Range μV | Tolerance μV | EMF Range μV | |||
| K | KX,KCA or KCB | G | -25 | -968 | ±40 | -924~-1012 | ±80 | -880~-1 056 |
| 100 | 4096 | 4052~4140 | 4 008~4 184 | |||||
| H | -25 | -968 | ±40 | -924~-1012 | ±88 | -880~-1 056 | ||
| 100 | 4096 | 4052~4140 | 4 008~4 184 | |||||
| 200 | 8138 | 8094~8182 | 8 050~8 226 | |||||
| J | JX | G | -25 | -1 239 | ±62 | -1177~-1301 | ±123 | -1 116~-1 362 |
| 100 | 5269 | 5207~5331 | 5 146~5 392 | |||||
| H | -25 | -1239 | ±62 | - 177~-1301 | ±123 | -1 116~-1 362 | ||
| 100 | 5269 | 5207~5331 | 5 146~5 392 | |||||
| 200 | 10779 | 10717~10841 | 10 656~10 902 | |||||
| E | EX | G | -25 | -1432 | ±81 | -1351~-1513 | ±138 | -1 294~-1 570 |
| 100 | 6 319 | 6238~ 6400 | 6 181~6 457 | |||||
| H | -25 | -1432 | ±81 | -1351~- 1513 | ±138 | -1 294~-1 570 | ||
| 100 | 6319 | 6238~6400 | 6 181~6 457 | |||||
| 200 | 13421 | 13340~13502 | 13 283~13 559 | |||||
| T | TX | G | -25 | -940 | ±30 | -910~-970 | ±60 | -1850 |
| 100 | 4279 | 4249~4309 | 4189~4339 | |||||
| H | -25 | -940 | ±48 | -892~-988 | ||||
| 100 | 4279 | 4231~4327 | ||||||
| 200 | 9288 | 9240~9336 | ||||||
| N | NX or NC | G | -25 | -646 | ±43 | -603~-689 | ±86 | -560~-732 |
| 100 | 2774 | 2731~2817 | 2 688~2 860 | |||||
| H | -25 | -646 | ±43 | -603~-690 | ±86 | -560~-732 | ||
| 100 | 2774 | 2731~2817 | 2 688~2 860 | |||||
| 200 | 5913 | 5870~5956 | 5 827~5 999 | |||||
| SorR | SC or RC | G | 100 | 646 | ±30 | 616~676 | ±60 | 586~706 |
| H | 100 | 646 | - | - | ±60 | 586~706 | ||
| 200 | 11441 | - | - | 1.381~1 501 | ||||
This cable is a beast in high-temperature settings. Metallurgy plants use it to monitor furnaces and smelting processes where temperatures soar. Glass manufacturing relies on it for precise control in molten glass production. Aerospace applications include engine testing and thermal systems, where accuracy is non-negotiable. Industrial furnaces across various sectors depend on its ability to handle extreme heat while maintaining signal integrity. The stranded conductors make it easy to route through tight spaces, and the fiberglass braid adds extra protection against abrasion and flames, ensuring your temperature data stays accurate in the toughest conditions.
Comparison Parameters Table
Parameter | Our Type T Extension Cable | Competitor A | Competitor B |
|---|---|---|---|
Conductor Material | Copper-Constantan (Type T) | Copper-Constantan | Copper-Constantan |
Insulation | Fiberglass | PVC | Silicone |
Temperature Range | -60°C to +400°C | -20°C to +105°C | -30°C to +200°C |
Outer Protection | Fiberglass Braid | No Braid | PVC Jacket |
Voltage Rating | 300V | 250V | 300V |
Flame Resistance | High (Fiberglass) | Moderate (PVC) | Low (Silicone) |
Shielding | Optional Aluminum Mylar | None | Foil Shield |
Flexibility | High (Stranded Conductors) | Low | Moderate |
Certifications | IEC 60584-3, ANSI MC96.1 | ANSI MC96.1 | IEC 60584-3 |
Applications | High-Temp, Industrial Furnaces | General Industrial | Moderate-Temp Systems |
Our Stranded Type T Thermocouple Extension Cable stands out for its high-temperature performance and flexibility. The fiberglass insulation and braid handle up to 400°C and offer better flame resistance than PVC or silicone alternatives, making it ideal for extreme environments. With IEC 60584-2 Class 1 accuracy, it delivers more precise readings than lower-class options. The stranded conductors provide superior flexibility compared to solid-core cables, simplifying installation in complex setups. Optional aluminum Mylar shielding outperforms unshielded or basic foil-shielded cables, ensuring cleaner signals in noisy environments. Certified to IEC 60584-3 and ANSI MC96.1, and rated for 300V, our cable is the durable, accurate solution you need for high-heat applications.
Choose our cable for a flexible, flame-resistant, and high-accuracy thermocouple solution that keeps your operations running smoothly, even in the hottest conditions.
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Our 12,000㎡ factory is equipped with complete capabilities for research, production, testing, and packaging. We strictly adhere to ISO 9001 standards in our production processes, with an annual output of 1,200 tons. This ensures that we meet both quantity and quality demands. Furthermore, all products undergo rigorous simulated environment testing including high temperature, high pressure, and corrosion tests before being dispatched, ensuring they meet customer specifications.
For all our clients, we offer timely and multilingual after-sales support and technical consulting, helping you resolve any issues swiftly and efficiently.
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FAQs:
What is the Stranded Type T Thermocouple Extension Cable used for?
Connects Type T thermocouples to instrumentation for accurate temperature measurements in high-temperature environments.What materials are used in this cable?
Copper-constantan conductors, fiberglass insulation, and a fiberglass braid for enhanced durability.What’s the temperature range for this cable?
Rated for -60°C to +400°C, ideal for high-heat industrial applications.Is the fiberglass braid flame-resistant?
Yes, the fiberglass braid provides excellent flame resistance and thermal stability.What industries use this Type T extension cable?
Metallurgy, glass manufacturing, aerospace, and industrial furnaces.How flexible is this cable?
Stranded conductors offer high flexibility for easy routing in complex installations.Does it meet industry standards?
Complies with IEC 60584-3 and ANSI MC96.1 for accuracy and color coding.Can it handle electrical interference?
Yes, the twisted pair design reduces noise, with optional shielding available for enhanced performance.
