- Using innovative, patent pending CooChip^® technology, the LED chip is attached and bonded directly to the aluminum PCB and heat-sink, resulting in ultra low heat resistance. CooChip^® Runs COOL!
- Extended operating life at high ambient temperature, 75,000+ hrs @25℃ / 50,000+ hrs @40℃ for white LED modules.
- 178° wide angle, emits much softer, more even light compared to regular LED.
- Can be customized as light bar. Excellent for channel letter, cabinet lighting or any other back lighting application.

The LED chip is bonded onto aluminum PCB embedded in aluminum enclosure. Heat directly transfers to the substantial heat-sink. In typical modules relying on tiny LED lamp legs to transfer the same amount of heat, the results are much higher thermal resistance and excessive chip temperatures of 100℃+.

In addition, CooChip modules use thermal conductive tape to further assists heat dissipation.

The Life- Tj illustration demonstrates the relationship between life time and chip/junction temperature for typical LED chips. The lower the temperature, the longer the life. By using Coochip^® technology, our LED modules have achieved the lowest possible chip temperature, thus prolonging its life even under high ambient temperatures.

The diagram below explains heat management comparison between Coochip Modules and Typical Modules.

Product Dimensions:

]]> Sat, 19 May 2012 13:00:06 +0000 http://www.hyrite.com/coochip-led-module-medmc-w150.html

- Using innovative, patent pending CooChip^® technology, the LED chip is attached and bonded directly to the aluminum PCB and heat-sink, resulting in ultra low heat resistance. CooChip^® Runs COOL!
- Extended operating life at high ambient temperature, 75,000+ hrs @25℃ / 50,000+ hrs @40℃ for white LED modules.
- 178° wide angle, emits much softer, more even light compared to regular LED.
- Can be customized as light bar. Excellent for channel letter, cabinet lighting or any other back lighting application.

The LED chip is bonded onto aluminum PCB embedded in aluminum enclosure. Heat directly transfers to the substantial heat-sink. In typical modules relying on tiny LED lamp legs to transfer the same amount of heat, the results are much higher thermal resistance and excessive chip temperatures of 100℃+.

In addition, CooChip modules use thermal conductive tape to further assists heat dissipation.

The Life- Tj illustration demonstrates the relationship between life time and chip/junction temperature for typical LED chips. The lower the temperature, the longer the life. By using Coochip^® technology, our LED modules have achieved the lowest possible chip temperature, thus prolonging its life even under high ambient temperatures.

The diagram below explains heat management comparison between Coochip Modules and Typical Modules.

Product Dimensions:

]]> Sat, 19 May 2012 13:00:06 +0000 http://www.hyrite.com/coochip-led-module-medmc-b150.html

- Using innovative, patent pending CooChip^® technology, the LED chip is attached and bonded directly to the aluminum PCB and heat-sink, resulting in ultra low heat resistance. CooChip^® Runs COOL!
- Extended operating life at high ambient temperature, 75,000+ hrs @25℃ / 50,000+ hrs @40℃ for white LED modules.
- 178° wide angle, emits much softer, more even light compared to regular LED.
- Can be customized as light bar. Excellent for channel letter, cabinet lighting or any other back lighting application.

The LED chip is bonded onto aluminum PCB embedded in aluminum enclosure. Heat directly transfers to the substantial heat-sink. In typical modules relying on tiny LED lamp legs to transfer the same amount of heat, the results are much higher thermal resistance and excessive chip temperatures of 100℃+.

In addition, CooChip modules use thermal conductive tape to further assists heat dissipation.

The Life- Tj illustration demonstrates the relationship between life time and chip/junction temperature for typical LED chips. The lower the temperature, the longer the life. By using Coochip^® technology, our LED modules have achieved the lowest possible chip temperature, thus prolonging its life even under high ambient temperatures.

The diagram below explains heat management comparison between Coochip Modules and Typical Modules.

Product Dimensions:

]]> Sat, 19 May 2012 13:00:06 +0000 http://www.hyrite.com/coochip-led-module-medmb-w150.html

- Using innovative, patent pending CooChip^® technology, the LED chip is attached and bonded directly to the aluminum PCB and heat-sink, resulting in ultra low heat resistance. CooChip^® Runs COOL!
- Extended operating life at high ambient temperature, 75,000+ hrs @25℃ / 50,000+ hrs @40℃ for white LED modules.
- 178° wide angle, emits much softer, more even light compared to regular LED.
- Can be customized as light bar. Excellent for channel letter, cabinet lighting or any other back lighting application.

The LED chip is bonded onto aluminum PCB embedded in aluminum enclosure. Heat directly transfers to the substantial heat-sink. In typical modules relying on tiny LED lamp legs to transfer the same amount of heat, the results are much higher thermal resistance and excessive chip temperatures of 100℃+.

In addition, CooChip modules use thermal conductive tape to further assists heat dissipation.

The Life- Tj illustration demonstrates the relationship between life time and chip/junction temperature for typical LED chips. The lower the temperature, the longer the life. By using Coochip^® technology, our LED modules have achieved the lowest possible chip temperature, thus prolonging its life even under high ambient temperatures.

The diagram below explains heat management comparison between Coochip Modules and Typical Modules.

Product Dimensions:

]]> Sat, 19 May 2012 13:00:06 +0000 http://www.hyrite.com/led-power-supply-eldv-12e350b.html

Excellent heat dissipation via a convection fan. The open access electrical connection block enhances ease of installation. Compact size and light weight, enabling use in a variety of indoor installation locations.

Build in Power Factor Corrector(PFC)
Suitable for leading and trailing edge dimming
Designed for indoor LED lighting applications
Burn-in test

Features:
- Designed for LED applications.
- Constant current output.
- Resin potted and waterproof.
- Convection cooled with Aluminum housing.
- Complies with CE standard.

-Designed for outdoor signage, decoration or lighting applications.

- Constant voltage output.
- Rainproof.
- Special heat dissipation design with aluminium housing and hot start ventilating fan.
- Safety design with separated line input power cord and low voltage output terminals, preventing electrical shock.
- Output voltage adjustable.

- Using innovative, patent pending CooChip^® technology, the LED chip is attached and bonded directly to the aluminum PCB and heat-sink, resulting in ultra low heat resistance. CooChip^® Runs COOL!
- Extended operating life at high ambient temperature, 75,000+ hrs @25℃ / 50,000+ hrs @40℃ for white LED modules (LEDMJ, MK).
- 178° wide angle, emits much softer, more even light compared to regular LED.
- Can be customized as light bar. Excellent for channel letter, cabinet lighting or any other back lighting application.

The LED chip is bonded onto aluminum PCB embedded in aluminum enclosure. Heat directly transfers to the substantial heat-sink. In typical modules relying on tiny LED lamp legs to transfer the same amount of heat, the results are much higher thermal resistance and excessive chip temperatures of 100℃+.

In addition, CooChip modules use thermal conductive tape to further assists heat dissipation.

The Life- Tj illustration demonstrates the relationship between life time and chip/junction temperature for typical LED chips. The lower the temperature, the longer the life. By using Coochip^® technology, our LED modules have achieved the lowest possible chip temperature, thus prolonging its life even under high ambient temperatures.

The diagram below explains heat management comparison between Coochip Modules and Typical Modules.

Product Dimensions:

- Using innovative, patent pending CooChip^® technology, the LED chip is attached and bonded directly to the aluminum PCB and heat-sink, resulting in ultra low heat resistance. CooChip^® Runs COOL!
- Extended operating life at high ambient temperature, 75,000+ hrs @25℃ / 50,000+ hrs @40℃ for white LED modules (LEDMJ, MK).
- 178° wide angle, emits much softer, more even light compared to regular LED.
- Can be customized as light bar. Excellent for channel letter, cabinet lighting or any other back lighting application.

The LED chip is bonded onto aluminum PCB embedded in aluminum enclosure. Heat directly transfers to the substantial heat-sink. In typical modules relying on tiny LED lamp legs to transfer the same amount of heat, the results are much higher thermal resistance and excessive chip temperatures of 100℃+.

In addition, CooChip modules use thermal conductive tape to further assists heat dissipation.

The Life- Tj illustration demonstrates the relationship between life time and chip/junction temperature for typical LED chips. The lower the temperature, the longer the life. By using Coochip^® technology, our LED modules have achieved the lowest possible chip temperature, thus prolonging its life even under high ambient temperatures.

The diagram below explains heat management comparison between Coochip Modules and Typical Modules.

Product Dimensions:

1.Features
-UL1310,Class 2 compliant;
-Constant voltage output;
-For outdoor or indoor applications;
-Suitable for installing in a wiring raceway;
-Ambient temperature:-25~+40
-Protection: over-voltage, over current and short circuit ,auto-recovery;

2.Wiring Diagram:

3. Installation Guide

3.1 Typical Installation

a. Supplies required:

b. Installation in a raceway:

Step 1 :Assemble the back plates with the liquid tight fittings, put the PLTC cable through and make the connections accordingly.MAKE SURE that the AC and DC cables are connected to their respective terminals.Use screws to mount the back plates to the case. Tighten up thescrews and the fittings to prevent leaking.(Fig3)
Step 2:Put the LED Power Supply into the raceway and mount with screws. (Fig.4)

c.Installation without junction boxes for indoor use: Follow Step 1 in “Installation in a raceway” and mount with screws.

d. Installation with junction boxes for indoor use:

Step 1: Mount the junction box on the wall with screws.
Step 2: Assemble the back plates with the liquid tight fittings, pull the AC input cable through.AC the DC output side, put the PLTC cablethrough and make the connections accordingly. Use screwsto mount both back plates to the case. Put the AC side fitting into the knock-out hole of the junction box, Tighten up the screws and the fittings to prevent leaking and mount the DC power supply to thejunction box. (Fig. 3, Fig. 5)
Step 3: Mount the DC power supply to the wall using the back plate at the DC output side with screws . (Fig. 6)
Step 4: Make the AC connections inside the junction box using electrical wire connectors.(Fig.7)

e. Installation with junction boxes for outdoor use:

Step 1: When installing the DC power supply outdoors, follow the steps in "Installation with junction boxes for indoor use with one condition:The product MUST be installed vertically with the junction box on top. Fail to do so may cause leaking over time.(Fig.8,Fig.9)

3.2 Installation Guide for Aluminum Case with Conduit holes

a. Supplier required:

b. Installation Guide:

Step1: Assemble the liquid tight connectors with the case, put the PLTS cable through and make the connections accordingly,MAKE SURE that the AC and DC cables are connected to their respective terminals.When only one AC connection i sneeded,use an end cap to seal the knock-out hole.(Fig.12.Fig.13)
Step2: Use screws to mount both back plates to the DC power supply.Then mount the whole unit onto the wall using screws.Tighten up the screws,liquid tight fittings and the conduit to prevent leaking.(Fig.14)