MALAYSIA HORTICULTURE LED LIGHTING MARKET

INTRODUCTION

Horticultural lighting has been used as a complement to, or replacement for, sunlight as a stimulant for plant development for many years. While several light sources have been employed, most supplementary and replacement illumination for plant development in professional, large-scale operations is provided by high intensity discharge (HID) lamps. 

Because of the popularity of HID lighting, there are specialized chemistries of high pressure sodium and metal halide lamps made specifically for grow lighting. Since the commercialization of LEDs in lighting, attempts have been made to create LED plant growth lighting that uses the direct colors and relative adjustability of LED spectrums to try and optimize the light to the plant's absorption.

Since the invention of electric lights, artificial illumination has been utilized to augment plant growth. Early research centered on carbon-arc lights, but incandescent bulbs eventually took control. While these products were successful, they were inefficient and substantially weighted in the red and far red spectrums, causing stem development to be extended. 

When discharge lamps first became commercially available, they were employed to varying degrees of success, and the industry eventually decided on high pressure sodium and metal halide lamps for supplementary lighting. Fluorescent lights, which employ phosphors to tune the spectrum more towards plant development, have also been used in some instances for a wider spectrum of light.

The issue with current technology is that it is largely stagnant. The spectrum cannot be adjusted when plant development requirements vary without manually changing out a bulb, which requires additional labor. High pressure sodium lamps are inexpensive, efficient, and long-lasting, however they only give a restricted spectrum for growth, primarily in the orange and red regions. 

Metal halide lamps, which may emit strong blues (a spectrum that promotes leaf development), suffer from quick luminosity depreciation owing to arc tube darkening and have extremely high pressures, necessitating the installation of a lensed fixture. There have been attempts to integrate the two into a single bulb, however these lamps end up with a lumen maintenance imbalance.

Water is the most evident and possibly harmful environmental condition to which horticulture lighting is subjected. This is an issue with any sort of illumination because power and water must be considered, but it is usually amplified in a horticulture context.Efficient lighting systems, such as HID or LED, include a ballast or driver that converts the incoming AC line voltage into something usable for the light source, as well as a way to guide the created light.

For HID, this might be a magnetic or electronic ballast that starts the lights and maintains correct electrical conditions, as well as reflectors that distribute the strong light across an area. For LEDs, this driver might be simple or sophisticated, with or without a reflector.

Deterioration in either the electrical or optical controls, regardless of source type, will lower light output (to zero if the light becomes inoperable) and hence effectively diminish yield and/or product quality.Different levels of protection may be required depending on the fixture's position and the watering system used in the facility.

For drip irrigation or hydroponics, for example, the issue may be preventing internal components from being damaged by excessive humidity rather than protecting against direct spray. For some applications, rain-like spray or even more powerful sprays from the irrigation system or stray sprays from human watering may be a hazard with the fixture.

MALAYSIA HORTICULTURE LED LIGHTING MARKETSIZE AND FORECAST

TheMalaysia Horticulture LED Lighting Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.

MARKET DYNAMICS

When compared to traditional growing systems, indoor plant culture can result in greatly better resource usage efficiency (land, water, and fertilizers), yet lighting costs remain high. QEOS LED PSYN-HL horticulture LED lighting is the most energy-efficient option on the market. QEOS LED technology uses less energy to power the LEDs and generates less heat, putting less strain on the facility's cooling systems without sacrificing light.

QEOS LED's cutting-edge LED technology achieves the best photosynthetic photon flux per watt efficiency LED in the world. When combined with Malaysia Unique tailor-made improved solar radiation spectrum, they are able to elicit ideal plant development characteristics and hence stimulate nearly TWO times the growth rate of standard soil cultivation.

Furthermore, QEOS LED horticulture solid state light (SSL) solutions are intended for simple, plug-and-play installation, as well as being fully sealed and IP-rated for easy cleaning in high-care, clean settings.LEDs with high efficiency increase crop yield while lowering operating costs.

QEOS LED is dedicated to producing leading high effectiveness LEDs that will greatly lower lighting energy costs while boosting optical efficiency. Different Spectrum Design Enables Photosynthesis-Driven Plant Growth

QEOS LED Photosynthesis Active Radiation (PAR) spectrums for certain crops may be built with distinct photosynthetic pigments and photoreceptors in mind. Even in a harsh clean horticulture environment, provide high reliability.QEOS LED is planning to build a ruggedized vertical or indoor farming system with a longer warranty duration than LEDs for general illumination.

COMPANY PROFILE

• OKES LED Lights
• Pozeen Sdn Bhd
• Hi-Beam Lighting Sdn Bhd
• I Eco Lighting Solution Sdn Bhd
• Oversea Lighting & Electric Sdn Bhd

THIS REPORT WILL ANSWER FOLLOWING QUESTIONS

• How many Horticulture LED Lighting are manufactured per annum Malaysia? Who are the sub-component suppliers in different regions?
• Cost breakup of a  Malaysia Horticulture LED Lighting and key vendor selection criteria
• Where is the Horticulture LED Lighting manufactured? What is the average margin per unit?
• Market share of Malaysia Horticulture LED Lighting market  manufacturers and their upcoming products
• Cost advantage for OEMs who manufacture Malaysia Horticulture LED Lighting in-house
• 5 key predictions for next 5 years in Malaysia Horticulture LED Lighting market
• Average B-2-B Horticulture LED Lighting market price in all segments
• Latest trends in Horticulture LED Lighting market, by every market segment
• The market size (both volume and value) of the Horticulture LED Lighting market in 2023-2030 and every year in between?
• Production breakup of Horticulture LED Lighting market, by suppliers and their OEM relationship