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Introduction:

If you are about to begin working with laser diodes, you are most likely aware that their are some very specific nuances to safely driving them and controlling their temperature. They require a special set of specifically designed electronic control elements. This set of control elements are combined to produce what is commonly called a laser diode driver or laser diode current source. Essentially, these elements determine how the laser is turned on and driven to produce a specific wavelength and output power. And how this is accomplished without damaging the laser diode. More »

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SBW-243 QSI burner driver informations. Download latest Firmware and driver for FREE. » OEM Module Drivers: These are current sources that are packaged in on onto a small housing or heat sink; connections to the driver module are required for the AC or DC power and the logic control supplies, plus connection to the load. They are available in a wide range of output current ranges, 50 mA – 100 Amps. Professional Driver QSI Awards: Entry guidelines This does NOT constitute a full entry to the awards. This must comprise a written submission of not more than 1,000 words, plus supporting materials including photographs or videos that back up the claims made in the entry.

QSI Reviews “No CCD sensor in recent memory has generated as much excitement as the 8.3mp Kodak KAF-8300 with tiny 5.4 micron pixels. All the major manufacturers of astronomical CCD cameras offer models with this detector, but those from Quantum Scientific Imaging caught our eye, because the built-in filter wheel is so close to the sensor. I just downloaded the new QSI ASCOM drivers (v1.0.0.4) as well as SGP v3.1.0.295 and installed both. If you are using QSI cameras you will need to update both the camera selection to “QSI Camera 2” AND the filter wheel selection to' QSI Filter Wheel 2' in your “Equipment Profiles” (ALL of them) and in the Control Panel for ALL your sequences. I completely overlooked the Filter Wheel.

A Brief Overview of Laser Diodes:

In order to understand what laser diode drivers are and why they are important, it's important to understand a few of the key featues of laser diode devices. These devices require special attention to how they are turned on, operated and turned off. There is a lot of detailed information about laser diodes online. But in short, a laser diode is a semiconductor device made of two different materials. One a P-material, the other an N-material, sandwiched together. Forward electrical bias across the P-N junction causes the respective holes and electrons from opposite sides of the junction to combine giving off a photon in the process of each combination. The junction area’s surfaces (cavity) are to a mirror like finish. Those who know laser theory know what happens when there are photons bouncing around a polished cavity. The electrical bias for the junction needs to be a stable, low-noise, transient free current source.

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This short article provides basic information on laser diode drivers, aka constant current sources, why they are important in control and protection of these devices. It provides a basic overview of how laser diode drivers work and the many types of laser diode drivers available in the industry.

What is a Laser Diode Driver? And What is a Constant Current Source?

A driver is a constant current source. Here is a helpful short video on YouTube explaining constant current and constant voltage sources, and why current sources are preferred for controlling laser diodes. If you’re offended by its simplicity … our apologies.

Understanding Tuning Coefficients and Efficiency:

Laser diodes are current driven and current sensitive semiconductors. A change in drive current equals a change in the devices’ wavelength and output power. Any instability in the drive current (noise, drift, induced transients), will affect the laser diode’s performance characteristics. Specifically, they will affect the output power and wavelength. Furthermore, the temperature of the diode junction is directly affected by current. Current instability of the source will cause junction temperature swings; the output characteristics (again power and wavelength) will change. For the same diode referenced above:

Instability in the drive current directly lead to junction temperature swings although the time scale is somewhat slower than the direct effect of current changes.

Understanding Dynamic Impedance and Your Driver's Forward Voltage:

The forward voltage across a laser diode is not constant. It changes, especially past the threshold point. The threshold point is the point at which the optical output power of the laser is linear with the input drive current, mW/mA.

For those of you who still remember calculus, a first derivative of the V-I curve shows a plot of dynamic resistance of the diode, it also is not constant. So the entire load characteristic of a laser diode is not constant. Voltage and resistance change with current (and temperature). So as we learned from the video on constant current sources, a good, stable, low noise current source will maintain a constant current regardless of the load connected to its output!

Why You Should Not Use a Bench-Top Voltage Source:

Voltage sources (bench-top power supplies) ramp voltage at turn-on, but the current is not controlled. This is not good for diodes which require a constantly controlled current. A change in resistance on a constant voltage source results in a change in current. If the application demands constant laser output and stable wavelength, a voltage source will not work and may put the laser at risk from thermal shock and/or transients due to a quick change in current.

What are the Main Types of Laser Diode Drivers?

At a very general level, there are a few classes or 'types' of laser drivers which you will hear commonly discussed. These are: constant current (CW), pulsing (including QCW), low power and high power drivers. Constant current is just what it states, a constant output level over time, say 30 mA, in theory forever if needed. Pulsed laser diode drivers are an interesting variation in that the output is a function of time, duty cycle being the best way to describe it. Duty cycle is the time the current source is on - output current high divided by the total time of the pulse (on and off time). A quick note about off times in current sources, they are never truly off (meaning zero current), but often are at an output level low enough where the laser diode output is minimal - well below threshold.The next section loosely defines low and high power versions of these types of drivers.

What are the Common Commercially Available Power Levels Available for Drivers?

'Low power' and 'high power' drivers are common industry terminology that describes the magnitude of the output to the load. However, it’s a bit of a misnomer: the output level is not expressed in terms of power, that is Watts, it is expressed in terms of μA, mA, and amps. In the high power pulsed current source world, you may see the output pulse expressed in Joule’s, which is energy, ie 1W = 1J/s. The data sheets will usually also state output current magnitude and voltage, you just have to look for it. A low power driver is roughly defined as 1 mA to 5 Amps. A high power laser diode driver is 5 Amps and up to 100’s of Amps in a CW mode. Their are kW level drivers available in pulsed and QCW mode versions. These are by no means standards, just a generalization based on the author’s experience in the laser diode controller world.

Quick Look at a Laser Driver Circuit:

The next step is understanding from a schematic point of view how a “typical” laser diode current source works. Wavelength Electronics has an excellent video describing their current source designs. It is good information in block diagram form and easy to understand.

The information presented in this video will apply to most all commercially available laser diode current sources, differences in function and features will dictate the performance and surely price.

Of course you can go much, much deeper in your understanding of laser current sources. There’s a level where you may want to build your own, here you’ll need to understand electric circuits and components. A quick search of laser diode current sources on YouTube will result in a multitude of build your own current sources. For those of you with specialized requirements not met from commercial manufacturers, there’s a good paper titled An Ulta-high stability, low noise laser current driver from BYU. It is highly detailed, contains great schematics for those who understand electrical design with mathematically backed design principles and the performance backed up by data and graphs.

So, with that said, and the next level is to purchase a commercially available current source. Driver downloads for windows 7.

What are the Typical Price Ranges for Commercially Available Laser Diode Drivers?

Here is quick review of the basic package styles and price ranges of constant current and pulsed current sources which are commercially available.

» PCB Mount IC Level Current Sources: These are an integrated circuit (IC) which is soldered directly to a printed circuit board (PCB). These are typically lower power and basic current sources providing 10 mA – 500 mA. You will find these in your DVD player, bar code scanners, pointers etc. Price range: $10.00 to $100.00.

» OEM Module Drivers: These are current sources that are packaged in on onto a small housing or heat sink; connections to the driver module are required for the AC or DC power and the logic control supplies, plus connection to the load. They are available in a wide range of output current ranges, 50 mA – 100 Amps. Price range: $250.00 to $2500.00.

» Bench-Top Driver Instruments: These are stand-alone current sources that are housed in an enclosure with a front panel for easy control. The only connections to it are the AC input and the output to the laser diode load. These can be feature rich (microprocessor controlled, low noise, high stability, muti-range) or basic (analog control, single range, on/off), low power or high power. These are available in pulsed and CW modes from 100 mA to 100A or more. You will find these in many optical labs, clean rooms etc. Price range: $1,000.00 to $10,000.00

What is the Most Important Feature? Protecting Your Laser Diode:

Laser diode protection, often overlooked, forgotten about or just plain ignored. Well, you can take a chance and just use any current or voltage source, but you will take on the risk of either damaging a very expensive laser diode in development, or risk losing hours of lab work and troubleshooting because of a blown laser. Diode lasers have a low thermal shock tolerance. Strategies for protection found in most commercially available laser diode current sources include the way the current source is enabled and disabled (slow-start circuits), over-current protection (current limits), transient protection, cabling etc. There is an excellent Application Note from Newport Corp. on protection: Protecting Your Laser Diode.

Consideration of all protection levels should be a factor in not only found in commercial laser diode current sources but also implemented and followed in the laboratory or product development system.

AND, don’t forget about temperature control as well… many critical laser diode parameters, including wavelength, threshold current, and efficiency, are highly dependent on junction temperature. So, for many applications, highly stable temperature control is required.

What are the Most Important Specifications to Consider When Choosing a Driver?

This answer is most certainly dependent on the application for the diode. For example, a laser pointer doesn’t have as many stringent requirements on current control as a diode used in a spectroscopic application requiring a very narrow line width. In most research applications where you are intending to spend hundreds to several thousands of dollars on a laser diode current source, the most important spec's are: protection from current and voltage overshoots and transients, current noise density and long term stability. There are many other important features for sure, but you need a constant current source first and foremost to optimize and protect the laser diode for the particular application.

One more note about attributes, even though not mentioned in the top three, the current range is of course important. But beyond the obvious reason, here's why: If you purchase a current source with a 2 amp range and the diode requires only 50 mA, pay attention to the current source resolution, it is a function of the total output range. Output accuracy also scales with range if that is important in the application. Pay particular attention to the manufacturer's specifications for these spec's. Look for tech notes or ask the manufacturer how they are defined, measured and verified.

Who Makes Laser Diode Drivers?

Now you have a basis to help you start looking for a specific current source driver for your laboratory. You can visit our laser diode drivers index to compare price and specifications from many of the top manufacturers around the World. These companies offer a wide range of low power, high power, CW, and pulsed laser diode drivers rich in features and performance.

The History and Origins of QSI

Sanaa International School opened in September 1971 with four students and grew to over 200 within a few years. The school’s early history is related to the founder’s first assignment in Yemen. In 1966-67, Mr. James E. Gilson was employed as principal of the Yemen-American Cooperative School in Taiz, Yemen. In May of 1967, the American community was evacuated and the school ceased operations. Mr. Gilson, encouraged by the friendliness and hospitality of the people of Yemen, and interested in their culture and history as well as the development of the young republic, had a desire to return. In 1971, after discussions with key people in Sanaa, it became apparent that there was a need for an international school. Therefore, Mr. Gilson accepted a position in Saudi Arabia, hired a teaching couple to go to Yemen, and was able to financially guarantee the first year of Sanaa International School. The school grew to about 25 students in the first year making it possible for Mr. and Mrs. Gilson and their two sons, Marcus and Kevin, to move to Yemen in July 1972.

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1971 – Present

Drivers Sizes

Sanaa International School opened in September 1971 with four students and grew to over 200 within a few years. The school’s early history is related to the founder’s first assignment in Yemen. In 1966-67, Mr. James E. Gilson was employed as principal of the Yemen-American Cooperative School in Taiz, Yemen. In May of 1967, the American community was evacuated and the school ceased operations. Mr. Gilson, encouraged by the friendliness and hospitality of the people of Yemen, and interested in their culture and history as well as the development of the young republic, had a desire to return. In 1971, after discussions with key people in Sanaa, it became apparent that there was a need for an international school. Therefore, Mr. Gilson accepted a position in Saudi Arabia, hired a teaching couple to go to Yemen, and was able to financially guarantee the first year of Sanaa International School. The school grew to about 25 students in the first year making it possible for Mr. and Mrs. Gilson and their two sons, Marcus and Kevin, to move to Yemen in July 1972.

In 1974, the established AdvisoryBoard composed of leading expatriates and Yemenis, joined by a few others inSanaa, met and formulated the school’s Articles of Organization and By-Laws.This established the school as a non-profit organization and formed a Board ofDirectors. Accurate accounting records have been kept throughout theschool’s existence. As a non-profit entity, the school has been able toreceive grants, loans, and land. As early as 1972, it was foreseen that apurpose-built school should be constructed. After three years ofdiscussions and meetings at many levels, the Yemen Government granted theschool its present 35 acres (about 14 hectares) gratis for a period of fiftyyears. Many individuals of the Yemen Government, the American Government,the United Nations, and the German Government gave considerable assistance intime and influence to obtain land that was occupied on 22 December 1976. Construction began on 1 January 1977. A formal agreement with theYemen Government was signed on 7 May 1977 that included the land grant. Thebuilding program and site development included the school buildings, two waterwells, one residential home, a workshop, and playground development. In thefall of 1992, a new domed carpeted auditorium/sports area was put into use.

The educational program has progressed from the philosophy brought by the first teachers to a structured performance-based model first implemented in the fall of 1987 in the secondary section. By the autumn of 1989, the entire school was performance-based. Formal accreditation was granted by the Middle States Association of Colleges and Schools on 24 April 1987. The most important key to the school’s success is the dedicated and caring staff the school had during its year of operation. The school was closed at the end of the 2014-15 school year due to the danger of foreign staff being kidnapped. As a civil war developed, the domed carpeted building was destroyed by a Saudi Arabian bomb on 29 December 2015. It happened in the evening and the custodian had departed about 30 minutes earlier, thus no one was injured. The school remains closed due to the situation in Yemen.

Quality Schools International has a more recent history. In 1991, the political structure of the world began a rapid transition. Great changes took place in the former USSR and in areas formerly under its sphere of influence. Combining this recent history with experience in the school restructuring process leading to higher success in schools, QSI was launched. Mr. Duane Root and Mr. James Gilson co-founded Quality Schools International as a non-profit educational organization with a view to opportunities in education in new countries. On 13 May of 1991, Mr. Gilson traveled to Albania to have a look at a country just emerging from over 45 years of dictatorial rule. During his time there, he met some key people in the Tirana community and made a decision to begin Tirana International School. Continuing expansion has resulted in an organization that today offers excellence in education in 31 different countries.

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I am grateful to be part of QSI International School in Bishkek because here I have a chance to approach every student in my class considering his or her needs. School curriculum, equipment and facilities make it possible for students to explore new topics and matters through hands on activities and express their learning in […]

QSI offers a multicultural environment and promotes tolerance and respect values for all cultures. The school organization and courses-schedule are very clear and our child adapted rapidly. The communication between the school and parents and among parents is very good and we can easily get information and advice.

The best school in Almaty with caring and highly qualified teachers! Administration is anticipating and easily adopts a forward-looking approach. School has rich material basis and provides vital security, logistical and technical support. My child is highly motivated to study and socialize within AIS-QSI community!