The Picard Ovens EL64-0115 Thermocouple Type J Non Ground is a precision temperature sensing device designed for commercial foodservice applications requiring accurate thermal management. Manufactured by Picard Ovens under the OEM category, this thermocouple features a Type J configuration with non-grounded construction, optimized for industrial-grade temperature measurement in high-temperature environments. Its compact form factor (5.8" W x 7.65" D x 1.2" H) and durable stainless steel construction ensure reliable performance in demanding kitchen workflows, including oven temperature monitoring, oven load calibration, and process control for food processing equipment. The device operates within a specified temperature resistance range, providing precise feedback essential for maintaining consistent cooking and baking standards.
Top AllPoints EL64-0115 Features
This thermocouple offers a robust design tailored for commercial kitchen environments, featuring non-grounded wiring for enhanced signal integrity and safety. Its stainless steel sheath provides durability against high temperatures and frequent cleaning, while straightforward mounting options facilitate easy integration into various foodservice equipment. The compact profile minimizes spatial impact, making it suitable for installation in confined environments such as oven chambers or food processing lines. By delivering reliable and accurate temperature readings, the EL64-0115 supports process consistency, reducing downtime and ensuring operational efficiency in moderate-load scenarios.
- Precise temperature monitoring in high-heat environments
- Corrosion-resistant stainless steel sheath for longevity
- Non-grounded wiring simplifies maintenance and reduces noise
- Compact design facilitates integration in restricted spaces
- Easy installation with straightforward mounting features
Ideal for temperature control in industrial ovens and specialized food processing equipment.
AllPoints EL64-0115 Technical Specs
The AllPoints EL64-0115 thermocouple operates with standard thermoelectric wiring based on Type J (iron-constantan), offering consistent temperature measurements across a range of industrial environments. It features a stainless steel sheath, measuring 5.8 inches in width and 7.65 inches in depth, with a height of 1.2 inches. The device weighs approximately 0.18 lbs, ensuring minimal interference during installation. Its construction is designed for high-temperature operation, with a maximum safe temperature range suitable for demanding foodservice equipment like commercial ovens. No hazardous materials are involved, and it is suitable for easy cleaning and maintenance due to its corrosion-resistant materials. The device is typically supplied as a single unit ready for integration into OEM systems.
- Electrical Requirements: Compatible with standard thermoelectric wiring based on Type J
- Construction & Finish: Stainless steel sheath, corrosion-resistant for food processing environments
- Temperature Resistance: Safe operating temperature range up to 500°F (260°C)
- Dimensions: 5.8" W x 7.65" D x 1.2" H
- Weight: 0.18 lbs
- Usage Compatibility: Suitable for oven temperature control, process calibration, and industrial monitoring
Electrical Compatibility: Connects seamlessly with OEM temperature control systems
Mounting: Compatible with standard industrial mounting brackets
Cleaning & Maintenance: Corrosion-resistant sheath facilitates routine cleaning
Installation Clearances: Requires minimal space, with easy access for calibration
Workflow Integration: Supports process automation and quality control in food production
What is a commercial thermocouple?
A commercial thermocouple is a temperature sensing component designed for industrial and foodservice environments to monitor and control heating processes. The Picard Ovens EL64-0115 thermocouple features a Type J configuration with a non-grounded design, constructed from durable stainless steel for accurate thermal feedback in high-temperature applications. Commonly installed in ovens, food processing equipment, and calibration systems, it ensures precise temperature measurement essential for consistent product quality and operational safety in moderate-throughput kitchen environments. The device's compact size and robust construction make it well-suited for integration into OEM equipment used across various foodservice settings, including baking, roasting, and process automation.'
Top Thermocouples for Moderate-Volume Foodservice Settings
Designed for precise temperature sensing in commercial kitchen workflows, the AllPoints EL64-0115 thermocouple provides reliable operation in medium-load foodservice applications like oven calibration and process control. Manufactured by AllPoints, model EL64-0115 is built to deliver accurate readings, supporting consistent cooking and safety standards across food production environments.
- Moderate workflow — suitable for medium-throughput kitchen operations
- Commercial kitchen equipment — optimized for oven temperature monitoring
- Food processing applications — supports process calibration and automation
- Industrial-grade durability — stainless steel sheath withstands frequent cleaning
- Process control — enhances operational efficiency in food service environments
Why Choose AllPoints EL64-0115?
Compared to other thermocouples, the AllPoints EL64-0115 distinguishes itself with a non-grounded, stainless steel design that offers enhanced durability, noise immunity, and ease of maintenance. Its compact form factor and straightforward installation minimize workflow disruptions, while its high-temperature resistance ensures longevity in demanding foodservice environments. This model's precision and reliability support consistent cooking results, making it suitable for standard oven calibration and process monitoring tasks in commercial kitchens and food processing facilities.
- Self-contained design reduces noise and interference in signals
- Stainless steel sheath ensures corrosion resistance and longevity
- Compact size for versatile integration in tight spaces
- High-temperature resistance up to 500°F (260°C) for reliable operation
- Accurate and consistent temperature feedback in process workflows
