Présentation du produit
Discover the HLG Triple heat sink, ideal for designing your HLG LED lighting kit.
Please login or create account
HLG Triple Heatsink
Expand Discover the HLG Triple heat sink, ideal for designing your HLG LED lighting kit.
HLG Triple Heatsink
Our team will reply within 24 business hours.
Ref:
Warning: Last items in stock!
Availability date:

Discover the HLG Triple heat sink, ideal for designing your HLG LED lighting kit.
| Thermal management | passive nervurée en aluminium |
| Type | Dissipateur thermique |
| Matière | aluminium anodisé |
| Puissance consommée (W) | 325 |
| Compatibilité | Quantum Boards HLG QB304 ou QB288 (3 unités) |
| Niveau sonore (dB) | nul (sans ventilateurs additionnels) |
The HLG Triple heatsink is specifically designed to optimize thermal dissipation for HLG LED modules, particularly the Quantum Board models equipped with Samsung LM301B or LM301H chips. These LED chips are known for their luminous efficiency and low heat output, and when paired with this triple heatsink, they allow for optimal thermal management during demanding indoor cultivation.
This heatsink is therefore perfectly suitable for setups using HLG Quantum Boards, ensuring better stability and longevity of the LEDs through improved heat dissipation.
The HLG Triple heat sink, designed for powerful horticultural LED configurations, typically supports a power range between 300 and 500W for continuous use, depending on ventilation and exact design. However, no official technical specification specifies this threshold for this triple heat sink.
It is essential to ensure good ventilation and adhere to mounting recommendations to avoid overheating. For optimal and safe use, do not exceed the power generally accepted for this type of heat sink.
To optimize the heat dissipation of the HLG Triple heat sink in a setup with multiple LEDs in parallel, it is essential to ensure good air circulation around each heat sink. Position them so that they are not too close to each other to prevent heat buildup.
Effective passive cooling requires that air can flow freely around the surfaces of the heat sink. Install them suspended or on a structure that leaves sufficient space, thereby promoting heat evacuation and preventing heat stagnation.
Lastly, if possible, accompany this device with light and strategic ventilation to improve dissipation and maintain a stable temperature in your growing space.
Beyond that, increased vigilance and improved ventilation are recommended, especially in confined spaces. This limit ensures a good balance between performance and reliability for healthy and sustainable LED cultivation.
The HLG Triple SLATE-2-TRIPLE heat sink, thanks to its larger size (891 mm) and mass (2 kg), offers a thermal dissipation surface approximately 3 times larger than a standard single model (340 mm, 0.73 kg). Under the same power, this results in a much more efficient heat management, with a significantly lower LED junction temperature.
If no precise delta temperature value is published, it can be estimated that the difference is significant, likely several tens of degrees Celsius, in favor of the Triple model. Its design is optimized to prevent overheating, especially at high power, which prolongs the lifespan and performance of the LEDs.
In summary, for the same power, the HLG Triple heat sink ensures thermal dissipation that is far superior to a standard model, effectively limiting the temperature rise.
The HLG Triple SLATE-2-TRIPLE heatsink is specially sized to dissipate the heat generated by powerful LEDs, up to 325W with three Quantum Boards. This ensures optimal cooling even under heavy thermal loads.
This efficient thermal dissipation is essential as it allows the LEDs to operate at a stable temperature, maximizing their light performance in a hydroponic system. Furthermore, it significantly prolongs the durability of the LEDs by limiting thermal stress, which reduces premature degradation and replacement costs.
To maintain this efficiency, it is advisable to regularly maintain the heatsink by cleaning off dust that could impair its cooling.
The thermal dissipation coefficient in watts per degree Celsius for the HLG Triple Reference SLATE-2-TRIPLE heatsink is not specifically communicated in the accessible technical sources. This heatsink is designed to efficiently handle up to around 325 W of LED, with an anodized aluminum design promoting good cooling, but the precise thermal dissipation data (W/°C) is not published.
In practice, thermal performance will also depend on air flow and installation. For detailed information on this point, a thorough technical analysis would be needed, which is often absent from standard product datasheets.
The HLG Triple heatsink provides high thermal dissipation, capable of supporting continuous power between 300 and 500 watts, ideal for high-performance Quantum Boards like the QB 648 or QB 288. Its robust design accommodates multiple HLG LEDs, including the QB304, thanks to optimized pre-drilling, making it perfectly compatible with a complete kit.
In summary, this heatsink ensures stable and efficient cooling for ambitious horticultural setups, providing good thermal management even during prolonged operation on powerful configurations.
The HLG Triple heat sink of the Slate 2 Triple module ensures optimized passive thermal dissipation thanks to its fin structure, which increases the heat exchange surface. This triple design maximizes contact with the air to efficiently dissipate the heat produced by the LEDs, even in a confined space.
However, in an enclosed environment where air circulation is limited, it is strongly recommended to add an external ventilation system. This allows for a regular airflow through the fins, reducing the temperature and preventing LED overheating, which extends their lifespan and maintains their optimal luminous performance.
For optimal thermal management, pairing this heat sink with suitable ventilation is key to cultivating with peace of mind under the Slate 2 Triple.
The HLG Triple heat sink is perfectly compatible with HLG LEDs, particularly the Quantum Boards equipped with Samsung LM301B or LM301H chips, which ensures excellent thermal management. For a small grow cabinet, this heat sink effectively optimizes cooling as long as good ventilation is provided and there is enough space around to avoid heat buildup.
Make sure to ensure good air circulation, especially if the total power approaches 300 to 500W, in order to preserve the performance and longevity of your LEDs in a restricted environment.
The HLG Triple heatsink used on a 1.5 x 1.5 m surface with minimal electrical consumption offers a real light output estimated between 2.5 and 2.8 µmol/J, which is typical for high-end Bridgelux LEDs. This efficiency is based on good thermal management due to this aluminum heatsink, which maintains an optimal temperature, thus limiting performance loss and ensuring longevity.
For uniform and efficient coverage on this surface, the minimum consumption would be around 50 to 55 W per LED panel, ensuring an excellent balance between power and thermal dissipation. This calibration is essential to fully exploit the light potential of the system without overheating.
Thus, by combining this triple heatsink with adequate consumption, you benefit from stable and suitable light performance for indoor LED cultivation.
The HLG Triple heatsink is perfectly designed to optimize the thermal dissipation of HLG LED modules, particularly the Quantum Boards equipped with Samsung LM301B or LM301H chips. It supports a power of up to 325W, ensuring rapid and stable cooling, which protects and extends the lifespan of the LEDs.
It is therefore compatible with common HLG Quantum Board LED boards such as QB304 or QB288, but its adaptation to other types or sizes of boards will depend on their specific configuration. For optimal cooling, it is important to verify the exact match between the heatsink and the LED board used.
The HLG Triple Heat Sink has an estimated thermal resistance of around 0.14 °C/W, which means it drops its temperature by approximately 0.14°C for each watt dissipated. This performance allows it to efficiently manage between 300 and 500 watts of thermal power in continuous use, provided it is properly ventilated and mounted. This dissipation rate ensures optimal cooling of powerful LED components, essential for preserving their longevity and efficiency.
