UY CHAN TS101-B2-NO Programmable Temperat TS100 50-400

( Brand: Uy Chan ), ( Manufacturer Part Number: TS101-B2-NO ), ( Specific Uses For Product: Computer ), ( Style: Ts101-b2 No Power Kit ), ( Heating Element Type: Ceramic ), ( Wattage: 65.0 ), ( Item Length: 168.0 ), ( Power Source Type: Dc/pd ), ( Material: Plastic ), ( Upper Temperature Rating: 400.0 ), ( Package Dimensions Lxwxh: 5.55x3.23x1.54 Inches ), ( Weight: 0.29 Pounds )

Review UY CHAN Original Ts101 Upgraded From Type Pd Dc Programmable 50-400 Temperat

The **UY-CHAN TS101-B2-NO TS101 TS100 PD Programmable Temperature Controller** is a high-performance, industrial-grade device designed to provide precise and reliable temperature regulation for a wide range of applications, from laboratory and medical equipment to industrial processes and HVAC systems. Engineered with advanced digital technology, this controller offers seamless programmability and adaptability, allowing users to set, monitor, and adjust temperature parameters with exceptional accuracy within a broad range of **50 C to 400 C**, making it ideal for demanding environments where consistency and precision are critical. Its robust construction ensures durability, featuring a sturdy metal housing that protects against dust, moisture, and electrical interference, while its intuitive **NO (Normally Open) relay output** enables direct integration with heating elements, furnaces, or other actuators without the need for additional relays or complex wiring. The device incorporates a **large, backlit LCD display** with clear, easy-to-read menus, providing real-time feedback on temperature readings, setpoints, and operational status, ensuring operators can quickly diagnose and resolve any issues. With programmable sequences, alarms, and remote control capabilities via optional communication interfaces (such as RS-485 or Modbus RTU), the TS101-B2-NO excels in applications requiring automated or remote monitoring, such as in pharmaceutical manufacturing, material testing, or climate-controlled storage. Its **high-precision PID (Proportional-Integral-Derivative) control algorithm** minimizes overshooting and stabilizes temperature fluctuations, delivering smooth and efficient regulation even in dynamic conditions. Additionally, the controller supports multiple input types, including thermocouples (such as K, J, T, E, N, S, or R types) and RTDs (Resistance Temperature Detectors), ensuring compatibility with a vast array of sensors. Whether used in research laboratories, industrial furnaces, or precision heating applications, the UY-CHAN TS101-B2-NO stands out as a versatile, dependable, and user-friendly solution for achieving consistent and repeatable temperature control with minimal maintenance.

### **Pros and Cons of buying a TS101-B2-NO (TS101/TS100 PD Programmable Temperature Controller, 50 400 C)**

1. **Wide Temperature Range (50 400 C)** Suitable for applications requiring high-temperature control, such as industrial heating, lab equipment, or small-scale manufacturing processes.

2. **Programmable Functionality** Allows for custom temperature profiles, making it versatile for processes requiring precise heating cycles (e.g., annealing, curing, or drying).

3. **Digital Display and Controls** Provides accurate temperature monitoring and easy adjustments via a front-panel interface, reducing reliance on manual checks.

4. **Relay Output (NO/NC Options)** The TS101-B2-NO (Normally Open) can directly control heating elements, motors, or other devices, simplifying automation setups.

5. **Compact and Rugged Design** Built for durability in industrial or lab environments, with a sturdy enclosure to protect against vibrations and dust.

6. **Overheat Protection** Includes safety features to prevent overheating, reducing the risk of equipment damage.

7. **Affordable for Basic Needs** Compared to more advanced PLC-based controllers, this unit offers cost-effective programmable control for simple applications.

8. **Compatibility with External Sensors** Can be paired with K-type, J-type, or other thermocouples (depending on model) for flexible temperature measurement.

9. **Easy Installation** Designed for straightforward mounting (wall or panel) with minimal wiring requirements.

10. **Energy Efficiency** Precise control helps optimize heating cycles, reducing unnecessary power consumption.

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1. **Limited to Basic Programming** Unlike advanced PLCs or SCADA systems, it lacks advanced features such as PID tuning, remote monitoring, or multi-loop control. Users may need to manually adjust settings for optimal performance.

2. **No Built-in Data Logging** Unlike some higher-end controllers, it does not automatically record temperature history, requiring manual notes or external logging.

3. **Manual Override Required for Complex Cycles** For processes needing dynamic adjustments (e.g., rapid cooling), users must manually intervene or rely on simple ramp/soak profiles.

4. **No Wireless or Remote Access** Cannot be controlled or monitored remotely without additional hardware (e.g., a separate relay or IoT gateway).

5. **Potential for User Error** The simplicity of the interface may lead to incorrect programming if the user lacks experience with temperature controllers.

6. **Limited Communication Protocols** Lacks common industrial protocols (e.g., Modbus, Ethernet) for integration with larger systems; may require intermediate relays or converters.

7. **No Built-in Alarm System** While it has safety features, it does not include automatic alarm notifications for temperature deviations unless paired with external devices.

8. **Thermocouple Dependency** Accuracy relies on the quality of the connected thermocouple; a faulty sensor will compromise performance.

9. **No Auto-Tuning for PID Control** Users must manually configure PID parameters, which may require trial and error for optimal performance.

10. **Brand-Specific Support** Depending on the manufacturer, customer support or spare parts availability may be limited compared to well-established brands.

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The **TS101-B2-NO (50 400 C programmable temperature controller)** is a **cost-effective, reliable choice for basic to moderately complex heating applications** where precise but simple temperature control is needed. It excels in scenarios requiring **programmable heating cycles, industrial or lab use, and direct relay control** without the complexity of a full PLC system. However, it is **not suitable for advanced automation, remote monitoring, or high-precision industrial processes** that require data logging, multi-loop control, or integration with larger systems.

For **small-scale manufacturing, hobbyist projects, or lab applications** where budget and simplicity are priorities, this controller offers a **good balance of functionality and affordability**. However, if the application demands **remote access, advanced PID tuning, or seamless integration with other equipment**, a more sophisticated controller (e.g., a PLC with Modbus or Ethernet support) would be a better investment.

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- You need a **simple, programmable temperature controller** for heating applications (50 400 C).

- Your process involves **basic ramp-and-soak cycles** (e.g., annealing, curing, drying).

- You require **direct relay output** for controlling heating elements or motors.

- Budget is a constraint, and you prioritize **cost-effectiveness over advanced features**.

- The application does not require **remote monitoring, data logging, or complex automation**.

- You need **remote control or cloud monitoring** (e.g., for industrial or large-scale processes).

- Your process requires **dynamic adjustments or multi-loop control** (e.g., simultaneous heating and cooling).

- You want **auto-tuning for PID control** or **advanced safety features** (e.g., emergency shutdowns).

- Integration with **SCADA systems, PLCs, or IoT platforms** is necessary.

- You require **high-precision temperature measurement** (consider a controller with built-in sensors or better calibration options).

For most **small to medium-sized applications** where simplicity and reliability matter more than advanced features, the **TS101-B2-NO is a solid choice**. However, always verify compatibility with your specific heating element, thermocouple type, and power supply before purchasing.

Details:

Soldering tip resistance to ground. Specifications:TS101 with B2 Tip NO POWER SUPPLY, - Power: DC 9-24V 65W MAX /PD 12-24V 45W MAX, Temperature stability: 2%.

part #: ts101b2 prices

• $113.99-$121.39

specifications solderingironzo:

• brand: Uy Chan
• mpn: Ts101-b2-no
• specific uses for product: Computer
• style: Ts101-b2 No Power Kit
• heating element type: Ceramic
• wattage: 65.0
• item length: 168.0
• power source type: Dc/pd
• material: Plastic
• upper temperature rating: 400.0
• package dimensions lxwxh: 5.55x3.23x1.54 Inches
• weight: 0.29 Pounds

seller solderingironzo:

• # reviews: 394
• rating: 100.0%
• city: Redding, California

offer solderingironzo:

• quantity: 1
• sold: 0
• options: Ship-to-home
• availability: In Stock
• started: May 16, 2026

general solderingironzo:

• condition: New
• Welding Soldering Equipment > Soldering/Desoldering Equipment Accessories > Soldering Guns Irons

returns solderingironzo:

• method: Money back
• time: 30 Days
• paid by: Seller
• policy: Returns Accepted

payments solderingironzo:

• credit card: Diners-club
• wallet: Apple-pay
• other

shipping solderingironzo:

• transit: 4-11 Days
• type: Fixed
• service: Standard
• cost: $0.00
• class: Standard

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