LDX-XXXX-680

Laser Diode, Multimode, 680nm

Key Features:

  • Wavelength: 680nm
  • Output Power:  Up to 2000mW free space, Up to 1600mW from the fiber
  • High output power and dynamic range
  • High efficiency
  • Custom packaging available
  • Custom wavelengths and laser designs are available.

 

There are many configurations and options available. If you do not see exactly what you need below, please contact us!

Need Quantities? Have a question?

POPULAR CONFIGURATIONS:

 
Picture
Part Number
Part Description
Datasheet
Price
Lead Time
 
R1Z8-Photo-C-mount LDX-2405-680-C

Semiconductor Laser Diode, 680+/-3 nm, 400mW, 50um emitter, C-mount

 

Inquire

Get Quote
R1Z8-Photo-C-mount LDX-3115-680-C

Semiconductor Laser Diode, 680+/-3 nm, 1200mW, 150um emitter, C-mount

 

Inquire

Get Quote
R1Z8-Photo-C-mount LDX-2810-680-C

Semiconductor Laser Diode, 680+/-3 nm, 800mW, 100um emitter, C-mount

 

Inquire

Get Quote
R1Z8-Photo-C-mount LDX-3230-680-C

Semiconductor Laser Diode, 680+/-3 nm, 2000mW, 300um emitter, C-mount

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-2405-680-9

Semiconductor Laser Diode, 680+/-3 nm, 400mW, 50um emitter, 9mm Package

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-3115-680-9

Semiconductor Laser Diode, 680+/-3 nm, 1200mW, 150um emitter, 9mm Package

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-2810-680-9

Semiconductor Laser Diode, 680+/-3 nm, 800mW, 100um emitter, 9mm Package

 

Inquire

Get Quote
R1Z8-Photo-TO-3 LDX-2405-680-TO3

Semiconductor Laser Diode, 680+/-3 nm, 400mW, 50um emitter, TO-3 Package

 

Inquire

Get Quote
R1Z8-Photo-TO-3 LDX-3115-680-TO3

Semiconductor Laser Diode, 680+/-3 nm, 1200mW, 150um emitter, TO-3 Package

 

Inquire

Get Quote
R1Z8-Photo-TO-3 LDX-2810-680-TO3

Semiconductor Laser Diode, 680+/-3 nm, 800mW, 100um emitter, TO-3 Package

 

Inquire

Get Quote
R1Z8-Photo-TO-3 LDX-3230-680-TO3

Semiconductor Laser Diode, 680+/-3 nm, 2000mW, 300um emitter, TO-3 Package

 

Inquire

Get Quote
R1Z8-Photo-TO-3 LDX-2405-680-TO3-TEC

Semiconductor Laser Diode, 680+/-3 nm, 400mW, 50um emitter, TO-3 Package w/ TEC, Thermistor

 

Inquire

Get Quote
R1Z8-Photo-TO-3 LDX-3115-680-TO3-TEC

Semiconductor Laser Diode, 680+/-3 nm, 1200mW, 150um emitter, TO-3 Package w/ TEC, Thermistor

 

Inquire

Get Quote
R1Z8-Photo-TO-3 LDX-2810-680-TO3-TEC

Semiconductor Laser Diode, 680+/-3 nm, 800mW, 100um emitter, TO-3 Package w/ TEC, Thermistor

 

Inquire

Get Quote
R1Z8-Photo-HHL-Package LDX-2405-680-HHL-TEC-PD

Semiconductor Laser Diode, 680+/-3 nm, 400mW, 50um emitter, HHL Package w/ TEC, Thermistor, PD

 

Inquire

Get Quote
R1Z8-Photo-HHL-Package LDX-2810-680-HHL-TEC-PD

Semiconductor Laser Diode, 680+/-3 nm, 800mW, 100um emitter, HHL Package w/ TEC, Thermistor, PD

 

Inquire

Get Quote
R1Z8-Photo-HHL-Package LDX-3115-680-HHL-TEC-PD

Semiconductor Laser Diode, 680+/-3 nm, 1200mW, 150um emitter, HHL Package w/ TEC, Thermistor, PD

 

Inquire

Get Quote
R1Z8-Photo-HHL-Package LDX-3230-680-HHL-TEC-PD

Semiconductor Laser Diode, 680+/-3 nm, 2000mW, 300um emitter, HHL Package w/ TEC, Thermistor, PD

 

Inquire

Get Quote
R1Z8-Photo-9-SMA-121 LDX-2405-680-9-SMA

Semiconductor Laser Diode, 680+/-3 nm, 400mW, 50um emitter, 9mm-SMA Package, Detachable Fiber not included

 

Inquire

Get Quote
R1Z8-Photo-9-SMA-121 LDX-2810-680-9-SMA

Semiconductor Laser Diode, 680+/-3 nm, 800mW, 100um emitter, 9mm-SMA Package, Detachable Fiber not included

 

Inquire

Get Quote
R1Z8-Photo-9-SMA-121 LDX-3115-680-9-SMA

Semiconductor Laser Diode, 680+/-3 nm, 1200mW, 150um emitter, 9mm-SMA Package, Detachable Fiber not included

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-2405-680-FCP

Semiconductor Laser Diode, 680+/-3 nm, 400mW, 50um emitter, Pigtailed Fiber Coupled 2-pin FCP Package, >80% Output Power from Fiber, Includes 105um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-2810-680-FCP

Semiconductor Laser Diode, 680+/-3 nm, 800mW, 100um emitter, Pigtailed Fiber Coupled 2-pin FCP Package, >80% Output Power from Fiber, Includes 105um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-3115-680-FCP

Semiconductor Laser Diode, 680+/-3 nm, 1200mW, 150um emitter, Pigtailed Fiber Coupled 2-pin FCP Package, >80% Output Power from Fiber, Includes 200um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-3230-680-FCP

Semiconductor Laser Diode, 680+/-3 nm, 2000mW, 300um emitter, Pigtailed Fiber Coupled 2-pin FCP Package, >80% Output Power from Fiber, Includes 400um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-2405-680-BFC-105-TEC

Semiconductor Laser Diode, 680+/-3 nm, 400mW, 50um emitter, Pigtailed Fiber Coupled 8-pin BFC Package w/ TEC, Thermistor, PD, >80% Output Power from Fiber, Includes 105um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8-Photo-8-pin-BFC LDX-2810-680-BFC-105-TEC

Semiconductor Laser Diode, 680+/-3 nm, 800mW, 100um emitter, Pigtailed Fiber Coupled 8-pin BFC Package w/ TEC, Thermistor, PD, >80% Output Power from Fiber, Includes 105um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8-Photo-8-pin-BFC LDX-3115-680-BFC-200-TEC

Semiconductor Laser Diode, 680+/-3 nm, 1200mW, 150um emitter, Pigtailed Fiber Coupled 8-pin BFC Package w/ TEC, Thermistor, PD, >80% Output Power from Fiber, Includes 200um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-2405-680-HHLFC-105

Semiconductor Laser Diode, 680+/-3 nm, 400mW, 50um emitter, Pigtailed Fiber Coupled HHL Package w/ TEC, Thermistor, PD, >80% Output Power from Fiber, Includes 105um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-2810-680-HHLFC-105

Semiconductor Laser Diode, 680+/-3 nm, 800mW, 100um emitter, Pigtailed Fiber Coupled HHL Package w/ TEC, Thermistor, PD, >80% Output Power from Fiber, Includes 105um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8 - Photo - Packages LDX-3115-680-HHLFC-200

Semiconductor Laser Diode, 680+/-3 nm, 1200mW, 150um emitter, Pigtailed Fiber Coupled HHL Package w/ TEC, Thermistor, PD, >80% Output Power from Fiber, Includes 200um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote
R1Z8-Photo-HHL-FC-Package LDX-3230-680-HHLFC-400

Semiconductor Laser Diode, 680+/-3 nm, 2000mW, 300um emitter, Pigtailed Fiber Coupled HHL Package w/ TEC, Thermistor, PD, >80% Output Power from Fiber, Includes 400um, 0.22NA, 1m long fiber pigtail with SMA connector

 

Inquire

Get Quote

The LDX Series of made-in-the-US, high power, multimode laser diodes provides wavelengths from 400nm – 1900nm, a wide range of output powers and package types, as well as completely customized solutions. We have been offering these high quality laser diodes for over 25 years. The performance, reliability, and lifetimes are time tested and if for some reason there is an issue, we will make it right.

Benefits:

  • Low threshold current and high slope efficiency: resulting in a low operating current that enhances reliability
  • High precision placement with a flux-free, void-free, uniform solder thickness
  • Customizable: From wafers & packaging to options & qualification
  • Made-in-the-US: No tariffs or international shipping issues
  • Dependable Delivery: Just-in-time deliveries – Buffer stock
  • No Discontinued Products: Guaranteed supply for the life of your program
  • Advanced hard or soft laser soldering process – Superior packaging
  • The broadest selection of diode wavelengths and packaging configurations on the market

We have many standard packages and configurations available, as well as customization options, including micro-lensing, fiber coupling, TECs, photodiodes, and aiming beams.  We can also offer electrical isolation, ruggedization & low SWaP, advanced thermal management, custom submount designs, special facet coatings, and more!

If you have any questions or need more information, please contact us.

R1Z8_Diode Laser_Part Number Configurator

How can we help you?

Talk to one of our experienced product managers today!

Contact us

Component FAQs
Can I operate multiple laser diodes from the same power supply?

Can I operate multiple laser diodes from the same power supply?

The same power supply can drive multiple laser diodes if they are connected in series, but they must never be connected in parallel. When two diodes are connected in series, they will function properly as long as the compliance voltage is large enough to cover the voltage drop across each diode. For example, suppose you are trying to power two diode lasers, each with an operating voltage of 1.9 V, and connect the two in series. In that case, the pulsed or CW laser driver must have a total voltage capacity greater than 3.8 V. This configuration works because diodes share the same current when connected in series. In contrast, when two diodes are connected in parallel, the current is no longer shared between the two diodes. Get more details on the topic in this article: “Can I Operate Multiple Laser Diodes From the Same Power Supply?” Get more information from our Lasers 101, Blogs, Whitepapers, FAQs, and Press Release pages in our Knowledge Center!

Can laser diodes emit green, blue, or UV light?

Can laser diodes emit green, blue, or UV light?

The output wavelength of a semiconductor laser is based on the difference in energy between the valance and conduction bands of the material (bandgap energy). Since the energy of a photon is inversely proportional to its wavelength, this means that a larger bandgap energy will result in a shorter emission wavelength. Due to the relatively wide bandgap energy of 3.4 eV, gallium nitride (GaN) is ideal for the production of semiconductor optoelectronic devices, producing blue wavelength light without the need for nonlinear crystal harmonic generation. Since the mid-’90s, GaN substrates have been the common material utilized for blue LEDs. In recent years, GaN based laser technology has provided blue, green and UV laser diodes, now available in wavelengths from 375 nm to 521 nm, with output powers exceeding 100 watts. Read our article, titled “Gallium Nitride (GaN) Laser Diodes: Green, Blue, and UV Wavelengths” to learn more about GaN Based Laser Diodes, available through RPMC. Get more information from our Lasers 101, Blogs, Whitepapers, and FAQs pages in our Knowledge Center!

How long will a laser diode last?
How long will a laser diode last?

Honestly, it depends on several factors, and there is no simple chart to cover everything. Typical diode lifetimes are in the range of 25,000 to 50,000 hours. Though, there are lifetime ratings outside this range, depending on the configuration. Furthermore, there are a wide range of degradation sources that contribute to a shorter lifespan of laser diodes. These degradation sources include dislocations that affect the inner region, metal diffusion and alloy reactions that affect the electrode, solder instability (reaction and migration) that affect the bonding parts, separation of metals in the heatsink bond, and defects in buried heterostructure devices. Read more about diode lifetime and contributing factors in this article: “Understanding Laser Diode Lifetime.” Get more information from our Lasers 101, Blogs, Whitepapers, FAQs, and Press Release pages in our Knowledge Center!

What factors affect the lifetime of laser diodes?
What factors affect the lifetime of laser diodes?

There are a great many factors that can increase or decrease the lifetime of a laser diode. One of the main considerations is thermal management. Mounting or heatsinking of the package is of tremendous importance because operating temperature strongly influences lifetime and performance. Other factors to consider include electrostatic discharge (ESD), voltage and current spikes, back reflections, flammable materials, noxious substances, outgassing materials (even thermal compounds), electrical connections, soldering method and fumes, and environmental considerations including ambient temperature, and contamination from humidity and dust. Read more about these critical considerations and contributing factors in this article: “How to Improve Laser Diode Lifetime: Advice and Precautions on Mounting.” Get more information from our Lasers 101, Blogs, Whitepapers, FAQs, and Press Release pages in our Knowledge Center!

What is a laser diode?
What is a laser diode?

A Laser Diode or semiconductor laser is the simplest form of Solid-State Laser. Laser diodes are commonly referred to as edge emitting laser diodes because the laser light is emitted from the edge of the substrate. The light emitting region of the laser diode is commonly called the emitter. The emitter size and the number of emitters determine output power and beam quality of a laser diode. Electrically speaking, a laser diode is a PIN diode. The intrinsic (I) region is the active region of the laser diode. The N and P regions provide the active region with the carriers (electrons and holes). Initially, research on laser diodes was carried out using P-N diodes. However, all modern laser diodes utilize the double-hetero-structure implementation. This design confines the carriers and photons, allowing a maximization of recombination and light generation. If you want to start reading more about laser diodes, try this whitepaper “How to Improve Laser Diode Lifetime.” If you want to read more about the Laser Diode Types we offer, check out the Overview of Laser Diodes section on our Lasers 101 Page!

What is the difference between laser diodes and VCSELs?
What is the difference between laser diodes and VCSELs?

Laser Diodes and VCSELs are semiconductor lasers,  the simplest form of Solid State Lasers.  Laser diodes are commonly referred to as edge emitting laser diodes because the laser light is emitted from the edge of the substrate. The light emitting region of the laser diode is commonly called the emitter.  The emitter size and the quantity of emitters determine output power and beam quality of a laser diode. These Fabry Perot Diode Lasers with a single emission region (Emitter) are typically called laser diode chips, while a linear array of emitters is called laser diode bars. Laser diode bars typically use multimode emitters, the number of emitters per substrate can vary from 5 emitters to 100 emitters. VCSELs (Vertical Cavity Surface Emitting Laser) emit light perpendicular to the mounting surface as opposed to parallel like edge emitting laser diodes.  VCSELs offer a uniform spatial illumination in a circular illumination pattern with low speckle. If you want to read more about lasers in general, and help narrowing down the selection to find the right laser for you, check out our Knowledge Center for our Blogs, Whitepapers, and FAQ pages, as well as our Lasers 101 Page!VCSEL

What’s the difference between single transverse mode & single longitudinal mode?

What’s the difference between single transverse mode & single longitudinal mode?

Within the laser community, one of the most overused and often miscommunicated terms is the phrase “single mode.”  This is because a laser beam when traveling through air takes up a three-dimensional volume in space similar to that of a cylinder; and just as with a cylinder, a laser beam can be divided into independent coordinates each with their own mode structure.  For a cylinder we would call these the length and the cross-section, but as shown in the figure below for a laser beam, we define these as the transverse electromagnetic (TEM) plane and the longitudinal axis.   Both sets of modes are fundamental to the laser beam’s properties, since the TEM modes determine the spatial distribution of the laser beams intensity, and the longitudinal modes determine the spectral properties of the laser.  As a result, when a laser is described as being “single-mode” first you need to make sure that you truly understand which mode is being referred to.  Meaning that you must know if the laser is single transverse mode, single longitudinal mode, or both. Get all the information you need in this article: “What is Single Longitudinal Mode?” Get more information from our Lasers 101, Blogs, Whitepapers, FAQs, and Press Release pages in our Knowledge Center!