| Attribute | Value |
|---|---|
| Product Name | Sace “T” Overcurrent Release |
| Brand | Sace Novomax |
| Model | LG “T” Overcurrent Release Kit 072 |
| Type | TE |
| Rated Current (In/ITH) | 1250 A |
| Temperature Rating | 45°C |
| I1n/I2n Ratio | 800× |
| I1/I2 Ratio | 1250× |
| Breaking Capacity | 10 kA |
| Part Number | 600967/071 |
| Weight | 620 gm |
| Reference Number | 60346 |
What is a SACE “T” Overcurrent Release?
The SACE “T” Overcurrent Release is a thermal overcurrent protection device that works with low-voltage circuit breakers. It is designed to detect abnormally high current flow and trip the circuit breaker before the system overheats, develops short circuits, or serious electrical faults.
These releases are usually used with ABB’s SACE series of circuit breakers. They provide reliable thermal protection to uphold electrical safety, limit equipment failures, and improve continuity of operations.
In other words, the SACE “T” Overcurrent Release acts as the first line of defense against current overloads.
Key Features of SACE “T” Overcurrent Release
The SACE “T” model is designed to deliver accurate and reliable overcurrent protection. Below are the major features:
Thermal Overload Protection
A thermal trip mechanism of the device acts when current surpasses the defined rating continuously. This prevents cable heating and resultant equipment damage.
Compatible With ABB SACE Circuit Breakers
Designed to work seamlessly together with ABB molded case circuit breakers (MCCBs) for maximum performance.
Adjustable Settings
Most SACE T releases are available with adjustable current thresholds, enabling technicians to set the protection levels according to the system load.
High Reliability
Offering both strong build quality and long operational life, these releases provide stable protection in the harshest of environments.
Low Maintenance
Once installed, the device performs consistently with minimal maintenance needs.
Fast Trip Response
The mechanism reacts quickly to overloads by reducing the chances of thermal stress and fire hazard.
Safe to Use in Industry
Designed to meet international protection standards, ensuring safety, reliability, and compliance.
Applications of SACE “T” Overcurrent Release
The SACE “T” Overcurrent Release finds application in several industries because of its versatility, durable construction, and precise overload protection.
1. Electrical Marine Systems
Marine environments demand a very stable distribution of power. Overcurrent releases protect vital shipboard electrical systems, including navigation, control panels, and power distribution boards.
2. Industrial Automation
Widely used in automatic process equipment, conveyor systems, robotic systems, and control panels to avoid failure of equipment.
3. Manufacturing Plants
Protects high-load machinery like motors, compressors, CNC machines, packaging machines, and process lines.
4. Power Distribution Boards
Ensures safe operation of power distribution units, preventing overloads that could lead to circuit damage.
5. HVAC and Pumping Systems
Safeguards motors and drives in heating, cooling, and pumping applications.
6. Commercial Electrical Installations
Used in buildings, industrial facilities, and commercial sites for general overload protection.
7. Renewables and Energy Systems
Supports electrical safety in solar, wind, and hybrid energy setups where overload management is essential.
Why Choose the SACE “T” Overcurrent Release?
Some of the reasons why the SACE “T” Overcurrent Release is preferred protection include:
1. Quality from Trusted ABB
The release is backed, as part of the ABB SACE family, by global engineering expertise and strict quality standards.
2. Accurate Overcurrent Detection
Its thermal mechanism ensures precise response to overloads, reducing risks and improving electrical system safety.
3. Long Operational Life
It’s built to last and can withstand the rigors of continuous use in tough industrial environments.
4. Easy Integration
Compatible with a wide range of SACE circuit breakers, this makes for easy installation and replacement.
5. Improves System Reliability
This helps to maintain consistent system uptime by preventing overload damage, reducing costs related to system downtime.
6. Cost-Effective Protection
Provides robust overload protection without the need for complex electronic trip units.
7. Proven Performance under
Extreme Conditions Perfect for marine, industrial, and heavy-duty use where reliability absolutely cannot be sacrificed.
