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Our team has been using ERDI products. They provide excellent services and can quickly solve the technical problems of the products. In particular, the perfection of their entire industrial chain in the field of distance measurement has greatly facilitated our secondary development
We are very grateful to the technical engineers of ERDI for their on-site technical guidance at our company. Their visit has accelerated the research and development of our unmanned aerial vehicle (UAV) system. The products of ERDI have demonstrated remarkably stable performance.
We're extremely thankful to ERDI's engineers for coming to our office for detailed product training. Their expertise in communication modules has been a huge boon for our telecom project. The ERDI communication products we've incorporated into our system have shown outstanding stability, significantly enhancing the efficiency of our R & D work.
FAQ
We are a national high-tech enterprise in China. For each product, we cover the entire industrial chain, ranging from research and development to manufacturing, and then to technical service solutions.
We provide samples and will try our best to keep the fees as low as possible. If you are our regular customer, we will offer some free samples.
You can contact sales online to get latest price; Or you can leave message to us. Our sales will contact you as soon as possible. And the price we provide is normally FOB price.
We accept payments via T/T, PayPal and LC.
Our minimum order quantity is 1 pc.
Please contact sales to confirm if we still have goods in stock. If yes, we will ship goods to you in one week time after we receive your payment. If not, please confirm with sales.
Usually we ship goods to customer via express, such as DHL, FedEx, UPS, TNT or airway transportation. You can also ask us to send goods to your forwarder in China. And we will pay domestic freight.
Yes, we provide OEM/ODM service. Lead time of customized products need to be confirmed with sales. Usually we will ship products after 2 months time after we receive customer’s payment.
Our skilled and friendly salesmen are ready to answer your questions about our products and services at any time, from product selection to application. Free technical consultation services are offered by request. Our experienced engineers are here to cooperate with you on your special requirements or OEM designs.
The specifications of our products are subject to change without notice. Please ask necessary questions before you order.
Laser products are warranted to conform to ERDI’ s published specifications and to be free from defects in materials and workman-ship for a period of twelve months starting on the shipping date. ERDI will repair or replace (at our decision) ASAP without charge, any part(s) found to be defective during the warranty period.
Our warranties do not cover damages due to misuse, negligence or accidents or due to installations, repairs or adjustments not authorized by ERD.
If a problem occurs and can’t be solved by phone, fax, or email, you may return products to ERDI. Please contact us for a Return Material Authorization (RMA) number prior to shipping the laser. We’ll provide you details on shipping and customs information with the RMA number. All lasers and components should be carefully packed to avoid damage during shipment.
Diode Pumped Solid State Laser vs Solid-State Laser
- ERDI
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In the world of laser technology, two key types of lasers are often compared: Solid-State Lasers (SSL) and Diode-Pumped Solid-State Lasers (DPSSL).
While they share a similar basic structure, they differ in their pumping mechanisms and performance characteristics. Understanding these differences can help you choose the right laser for your needs. Let’s break down the features, advantages, and drawbacks of each.
What is a Solid-State Laser (SSL)?
A Solid-State Laser (SSL) is a type of laser where the gain medium is a solid material, typically a crystal or glass, that is doped with rare-earth or transition metal ions like neodymium (Nd), erbium (Er), or ytterbium (Yb). The laser is pumped by an external light source, traditionally a flashlamp or arc lamp.
Pros
- High Power: SSLs can generate high output power, making them ideal for industrial applications like cutting, welding, and materials processing.
- Reliable: Flashlamp-pumped SSLs have been used for decades, offering proven reliability in various applications.
- Versatile Wavelengths: With different doped materials, SSLs can emit in a wide range of wavelengths, from UV to IR, making them versatile across multiple industries.
- Strong Beam Quality: SSLs, especially when designed with good optics, can provide high-quality beams, which are essential for precise cutting and medical applications.
Cons
- Inefficient Pumping: The use of flashlamps leads to higher thermal losses and less efficient energy conversion, lowering overall performance.
- Large Size: SSLs are typically larger and bulkier due to the need for flashlamps, cooling systems, and power supplies.
- Shorter Operational Lifespan: Flashlamps have a limited operational lifetime (usually 200-400 hours), requiring frequent replacements.
- Higher Maintenance: The complex components, including the flashlamps and cooling systems, demand more maintenance and lead to higher operational costs.
What is a Diode-Pumped Solid-State Laser (DPSSL)?
A Diode-Pumped Solid-State Laser is a technology that uses laser diodes to excite solid-state gain media (such as neodymium-doped, erbium-doped, or ytterbium-doped crystals or glasses) to generate lasers. Compared with traditional flashlamp-pumped lasers, DPSSL uses laser diodes to provide an efficient, stable, and long-term laser source. DPSS Laser generally has higher energy conversion efficiency, smaller size, and longer service life, and the output laser beam quality is generally better.
What is a Diode-Pumped Solid-State Laser (DPSSL)?
Pros
- Higher efficiency: Diode lasers convert more electrical energy into laser light while generating minimal heat, which reduces energy losses.
- Compact design: DPSSLs are smaller and lighter than traditional flashlamp-pumped SSLs.
- Longer lifetime: The lifetime of a laser diode is more than 30,000 hours, far exceeding the 200-400 hours of a typical flash lamp.
- Beam quality: DPSSLs produce high-quality, stable beams with low divergence. This makes them suitable for high-precision applications such as LiDAR, optical communications, and medical.
- Low maintenance: With fewer components (no flash lamps), DPSSLs require less maintenance, resulting in lower operating costs.
Read more: What is Pulse Radar Tracking Mode
Cons
- Higher initial cost: DPSSLs generally cost more upfront due to advanced technology and high-quality diodes.
- Thermal sensitivity: While DPSSLs are more efficient, they are sensitive to temperature fluctuations.
- Complex setup: Setting up a DPSSL requires careful alignment of the diode and gain medium.
- Limited to specific wavelengths
Where to Buy Diode-Pumped Lasers
ERDI 1535nm Microchip DPSS Laser belongs to the Diode-Pumped Solid-State Laser (DPSSL) category and utilizes Erbium-doped glass as the gain medium. The laser emits at a 1535nm wavelength, which is eye-safe and commonly used in optical communications, radar, and other applications that require long exposure with safe levels for the human eye.
In addition, it is widely used in laser target designation, laser ranging, laser lighting, solid-state laser rangefinder, laser radar system, laser medical treatment, and fiber optic communication.
Contact us to get more price information and the latest news about DPSS Laser.
Where to Buy Diode-Pumped Lasers
Key Differences Between Solid-State Laser and DPSS Laser
1. Pumping Mechanism
In a Solid-State Laser (SSL), flashlamps are used to pump the gain medium. These flashlamps emit broad-spectrum light that excites the laser material. In contrast, a Diode-Pumped Solid-State Laser (DPSSL) uses laser diodes to pump the gain medium. The laser diodes emit a specific wavelength of light, which is more efficiently absorbed by the material, leading to better energy conversion.
Read more: Diode Lasers vs. DPSS Lasers
2. Efficiency
SSLs are less efficient because the broad-spectrum light from flashlamps wastes energy as heat and much of the light is not absorbed by the gain medium. DPSS Lasers are far more efficient, as the laser diodes provide targeted energy that is absorbed more effectively, reducing energy loss and heat generation.
3. Beam Quality
SSLs typically produce lower beam quality. The light from flashlamps is less focused and tends to diverge more. In contrast, DPSSLs offer superior beam quality. The light from the laser diodes is coherent and focused, with less divergence, making it ideal for precision tasks.
4. Size and Design
SSLs are larger and bulkier because they require space for flashlamps, cooling systems, and other components. On the other hand, DPSSLs are more compact and lightweight. The use of laser diodes allows for smaller, integrated systems that require less space and are easier to manage.
5. Applications
SSL: Best for high-power applications, like cutting, welding, and material processing. Also used in medical procedures that require high power.
DPSSL: Ideal for precision applications, such as LIDAR, optical communications, and medical diagnostics. Also used for compact industrial and consumer devices.
Related read: Why does LiDAR use 905nm and 940nm bands?
10 mJ Eye safe DPSS Laser
Conclusion
SSLs are best suited for high-power applications such as cutting, welding, and material processing, as well as medical procedures that require significant power. DPSSLs excel in precision applications like LIDAR, optical communications, and medical diagnostics. They are also used in compact industrial systems and consumer devices where space, efficiency, and precision are critical.
FAQ
1. What Are the Types of Lasers?
There are five main types of lasers based on the gain medium:
- Gas Lasers (e.g., CO₂ lasers)
- Solid-State Lasers (e.g., Nd: YAG lasers)
- Fiber Lasers (e.g., Yb-doped fiber lasers)
- Liquid Lasers (e.g., Dye lasers)
- Semiconductor Lasers (e.g., Diode lasers)
2. What is the Efficiency of Diode-pumped Laser?
Diode-pumped lasers are much more efficient than lamp-pumped lasers. The absorption efficiency for diode lasers is 5.3 to 5.76 times higher than for lamp-pumped lasers, making them more energy-efficient.
3. What Are the Three Most Common Laser Level Types?
The three most common types are:
- Rotary Laser Levels
- Line Laser Levels
- Dot Laser Levels