GL MODULE COMMON SPECIFICATIONS

• Temperature Range Assurance: The GL Module is guaranteed to operate within a temperature range of -40°C to 100°C (with the suggested maximum temperature on the radiating side).
• PVC Coating: This product features a PVC coating that adheres to UL standards.
• Silicone Comparison: Similar to the KE347 product. It’s important to note that only the lateral side is not fully sealed for moisture-proof and waterproof measures.

• Temperature Limits: Ensure that the Th-side (hot side) of the Micro Module does not exceed 80°C, or 90°C for other modules.
• Handle with Care: Avoid dropping or subjecting the unit to mechanical shock, as it may lead to breakage. Handle the product carefully.
• Surface Contact: Proper surface contact between the Peltier Module and the heat exchanger is crucial for its functionality. Ideally, keep any deviation from flatness under 0.02mm.
• Thermally Conductive Grease: Apply a thin layer of thermally conductive grease between the Peltier Module surface and the heat exchanger.
• Optimal Voltage and Current: Maximum efficiency is not achieved at maximum voltage or current. It is recommended to set the voltage and current to approximately 70% of the maximum.
• Cascade of Micro Modules: Rapidly changing the current polarity as a modulation method will shorten the unit’s lifespan. Avoid using this method of operation.
• Vmax Specifications: The specifications listed for Vmax are measured at a temperature of Th = 27°C.

GL MODULE COMMON SPECIFICATIONS

• Temperature Range Assurance: The GL Module is guaranteed to operate within a temperature range of -40°C to 100°C (with the suggested maximum temperature on the radiating side).
• PVC Coating: This product features a PVC coating that adheres to UL standards.
• Silicone Comparison: Similar to the KE347 product. It’s important to note that only the lateral side is not fully sealed for moisture-proof and waterproof measures.

• Temperature Limits: Ensure that the Th-side (hot side) of the Micro Module does not exceed 80°C, or 90°C for other modules.
• Handle with Care: Avoid dropping or subjecting the unit to mechanical shock, as it may lead to breakage. Handle the product carefully.
• Surface Contact: Proper surface contact between the Peltier Module and the heat exchanger is crucial for its functionality. Ideally, keep any deviation from flatness under 0.02mm.
• Thermally Conductive Grease: Apply a thin layer of thermally conductive grease between the Peltier Module surface and the heat exchanger.
• Optimal Voltage and Current: Maximum efficiency is not achieved at maximum voltage or current. It is recommended to set the voltage and current to approximately 70% of the maximum.
• Cascade of Micro Modules: Rapidly changing the current polarity as a modulation method will shorten the unit’s lifespan. Avoid using this method of operation.
• Vmax Specifications: The specifications listed for Vmax are measured at a temperature of Th = 27°C.

GL MODULE COMMON SPECIFICATIONS

• Temperature Range Assurance: The GL Module is guaranteed to operate within a temperature range of -40°C to 100°C (with the suggested maximum temperature on the radiating side).
• PVC Coating: This product features a PVC coating that adheres to UL standards.
• Silicone Comparison: Similar to the KE347 product. It’s important to note that only the lateral side is not fully sealed for moisture-proof and waterproof measures.

• Temperature Limits: Ensure that the Th-side (hot side) of the Micro Module does not exceed 80°C, or 90°C for other modules.
• Handle with Care: Avoid dropping or subjecting the unit to mechanical shock, as it may lead to breakage. Handle the product carefully.
• Surface Contact: Proper surface contact between the Peltier Module and the heat exchanger is crucial for its functionality. Ideally, keep any deviation from flatness under 0.02mm.
• Thermally Conductive Grease: Apply a thin layer of thermally conductive grease between the Peltier Module surface and the heat exchanger.
• Optimal Voltage and Current: Maximum efficiency is not achieved at maximum voltage or current. It is recommended to set the voltage and current to approximately 70% of the maximum.
• Cascade of Micro Modules: Rapidly changing the current polarity as a modulation method will shorten the unit’s lifespan. Avoid using this method of operation.
• Vmax Specifications: The specifications listed for Vmax are measured at a temperature of Th = 27°C.

GL MODULE COMMON SPECIFICATIONS

• Temperature Range Assurance: The GL Module is guaranteed to operate within a temperature range of -40°C to 100°C (with the suggested maximum temperature on the radiating side).
• PVC Coating: This product features a PVC coating that adheres to UL standards.
• Silicone Comparison: Similar to the KE347 product. It’s important to note that only the lateral side is not fully sealed for moisture-proof and waterproof measures.

• Temperature Limits: Ensure that the Th-side (hot side) of the Micro Module does not exceed 80°C, or 90°C for other modules.
• Handle with Care: Avoid dropping or subjecting the unit to mechanical shock, as it may lead to breakage. Handle the product carefully.
• Surface Contact: Proper surface contact between the Peltier Module and the heat exchanger is crucial for its functionality. Ideally, keep any deviation from flatness under 0.02mm.
• Thermally Conductive Grease: Apply a thin layer of thermally conductive grease between the Peltier Module surface and the heat exchanger.
• Optimal Voltage and Current: Maximum efficiency is not achieved at maximum voltage or current. It is recommended to set the voltage and current to approximately 70% of the maximum.
• Cascade of Micro Modules: Rapidly changing the current polarity as a modulation method will shorten the unit’s lifespan. Avoid using this method of operation.
• Vmax Specifications: The specifications listed for Vmax are measured at a temperature of Th = 27°C.

Our standard Electronic Cooler Units are designed to facilitate seamless integration into original products and systems. We’ve carefully considered the challenges and complexities associated with designing new systems.

Our standard Electronic Cooler Units are designed to facilitate seamless integration into original products and systems. We’ve carefully considered the challenges and complexities associated with designing new systems.

High Cooling Performance

• GL module incorporates an enhanced seal structure for water resistance, designed to effectively absorb thermal stress.

• Flexible product design and easy installation.

• No screws to tighten results in better heat absorption and maximizes performance.
• GL structure reliability involves rigorous polarity reversal testing.
• Easy to operate, low assembly cost.
• Options include heatsink design or water-cooling jacket.

High Cooling Performance

• GL module incorporates an enhanced seal structure for water resistance, designed to effectively absorb thermal stress.

• Flexible product design and easy installation.

• No screws to tighten results in better heat absorption and maximizes performance.
• GL structure reliability involves rigorous polarity reversal testing.
• Easy to operate, low assembly cost.
• Options include heatsink design or water-cooling jacket.

High Cooling Performance

• GL module incorporates an enhanced seal structure for water resistance, designed to effectively absorb thermal stress.

• Flexible product design and easy installation.

• No screws to tighten results in better heat absorption and maximizes performance.
• GL structure reliability involves rigorous polarity reversal testing.
• Easy to operate, low assembly cost.
• Options include heatsink design or water-cooling jacket.