Superluminescent Diodes, STLD Series

Superluminescent Diodes, STLD Series

Keywords: superluminescent diode, emitting, Fiber-Pigtailed SLDs
Aug 18, 2021 View: 3583 Data Sheet

Our main products are free space SLED/SLD modules and SM and PM fiber pigtailed SLD modules based on a single transverse mode SLD emitters, as well as multimode fiber pigtailed SLD modules in different spectral bands from 650 nm to 1620 nm, including

Since 1992, we have been manufacturing high quality Superluminescent Light Emitting Diodes (SLDs or SLEDs), Gain Chip Modules and Semiconductor Optical Amplifiers (SOAs). Our main products are free space SLD modules and SM and PM fiber pigtailed SLD modules based on a single transverse mode SLD emitters, as well as multimode fiber pigtailed SLD modules in different spectral bands from 650 nm to 1620 nm, including extremely powerful (up to 100 mW) and broadband (up to 100 nm FWHM) models.

The modules are offered in a variety of hermetic packages (TO, DIL14, Butterfly, etc.). Custom performance characteristics and different package types are available upon request. For customers' convenience, modules can be delivered with an appropriate current and temperature controller.

Our products are employed over a wide range of applications including biomedical and industrial optical coherence tomography (OCT), fiberoptic gyros, Bragg Grating sensors, atomic force microscopy, metrology of fiberoptic components (including DWDM components testing) and machine vision.

Superluminescent Diodes

Uncooled Single-Mode Free-Space SLDs

Our uncooled single mode free space SLDs are listed in the table below, grouped by spectral band.

Model numberWavelength (nm)Spectrum width, FWHM (nm)Output power, free space (mW)Package
STLD-260-MP-6706707.5up to 5.0TO-9
STLD-260-HP-6706707.0up to 15.0TO-9
STLD-340-MP-7957951520TO-9
STLD-380-MP-TO56825205TO-56
STLD-380-MP-TO98351720TO-9
STLD-340-HP-8508502030TO-56
STLD-340-UHP-84084025 – 30up to 100TO-9
STLD-340-MP-8808804020TO-9
STLD-480-MP-9209203020TO-9
STLD-480-UHP-9609604590TO-9
STLD-530-UHP-1040104035 – 45up to 80.0TO-9

Uncooled Single-Mode Fiber-Pigtailed SLDs

Our uncooled single mode fiber pigtailed SLDs are listed in the table below, grouped by spectral band.

Model numberWavelength (nm)Spectrum width, FWHM (nm)Output power, SM fiber (mW)Package
STLD-381 MINIBUT770 – 86015 – 20Up to 2.0Minibut
STLD-561 MINIBUT1270 – 133020 – 25Up to 1.0Minibut

Temperature-Controlled (Cooled) Single-Mode Free-Space and Fiber-Pigtailed SLDs

Our temperature-controlled (cooled) single mode SLDs are listed in the table below, grouped by spectral band.

Model numberWavelength (nm)Spectrum width, FWHM (nm)Output power, fiber/free space (mW)Package
STLD-261-MP660 – 6807.5up to 2.0/n.a.Butterfly, DIL14
STLD-260-HP660 – 6807.0n.a./15.0TOW
STLD-261-HP660 – 6807.0up to 10.0/n.a.New! Butterfly
STLD-260-UHP660 – 6807.0n.a./25.0New! TOW
STLD-261-UHP660 – 6807.015.0/n.a.New! Butterfly
STLD-33-MP770 – 79050up to 1.25/4.0Butterfly/DIL14,TOW
STLD-33-HP770 – 79050up to 25.0/50.0Butterfly/DIL14,TOW
STLD-34-MP840 – 860up to 60up to 2.5/4.0Butterfly/DIL14,TOW
STLD-34-HP810 – 88030 – 50up to 16.0/40.0Butterfly/DIL14,TOW
STLD-35-MP820 – 87062up to 1.25/6.0Butterfly/DIL14,TOW
STLD-35-HP825 – 87062up to 25.0/50.0Butterfly/DIL14,TOW
STLD-351UBB83085 (6 dB)10/n.a.Butterfly
STLD-37-MP835501.25/6.0Butterfly/DIL14,TOW
STLD-37-HP84050up to 25.0/50.0Butterfly/DIL14,TOW
STLD-38-MP770 – 89020up to 3.0/12.0Butterfly/DIL14,TOW
STLD-38-HP790 – 86020up to 30.0/50.0Butterfly/TOW
STLD-47-MP900, 940up to 751.5/5.0Butterfly/DIL14,TOW
STLD-48-MP-920920303.0/7.5New! Butterfly/DIL14,TOW
STLD-47-HP940up to 100up to 10.0/20.0Butterfly/DIL14,TOW
STLD-471UBB930115 (6 dB)10/n.a.Butterfly
STLD-48-HP96030up to 30.0/60.0Butterfly/DIL14,TOW
STLD-48-MP-970970303.0/7.5Butterfly/DIL14,TOW
STLD-521000, 1020up to 100up to 5.0/10.0Butterfly/DIL14,TOW
STLD-53-MP1020 – 106020 – 705.0/10.0Butterfly/DIL14,TOW
STLD-53-HP105035up to 30.0/60.0Butterfly/DIL14,TOW
STLD-54-HP106070up to 20.0/40.0Butterfly/DIL14,TOW
STLD-55-MP1180301.0/n.a.Butterfly/DIL14,TOW
STLD-661-LP1370 -1410850.35/n.a.Butterfly/DIL14
STLD-661-MP1370 -1410652.05/n.a.Butterfly/DIL14
STLD-661-HP1370 -141045-60155/n.a.Butterfly/DIL14
STLD-761-LP156070 – 1000.2/n.a.Butterfly/DIL14
STLD-761-MP155045 – 70up to 2.0/n.a.Butterfly/DIL14
STLD-761-HP155045up to 10.0/n.a.Butterfly/DIL14

Multimode Fiber-Pigtailed SLDs

Our multimode SLDs are listed in the table below, grouped by spectral band.

Model numberWavelength (nm)Spectrum width, FWHM (nm)Power ex M fiber(mW)Package
STLD-M38184015up to 2.0/n.a.Butterfly
STLD-M34185525n.a./15.0Butterfly
STLD-M531106540up to 10.0/n.a.Butterfly

Fiber-Coupled Semiconductor Optical Gain and Amplifier Modules

We introduce a new family of products, fiber-coupled Semiconductor Optical Gain and Amplifier modules:

  • Broadband gain modules based on double path Superluminescent Light Emitting Diodes (SLDs) gain chips (similar to AR/HR coated laser diode gain chips).

  • Traveling wave amplifier modules.

The modules are offered in hermetic packages as follows:

1.    Broadband Gain Modules

(1)  STOA-371 – Broadband HR/AR Gain Modules at 840nm

Features:

  • Up to 60 nm tuning range*

  • PM or SM fiber pigtails

  • PD monitors

  • FC/APC terminated pigtails on request

  • * When used as an active element of an external cavity semiconductor laser.

  • Packages: DIL, DBUT

Specifications:

(Nominal Emitter Stabilization Temperature +25 °C)

ModeParameterMin.Typ.Max.
SLD-mode (angled fiber cleave)Output power ex SM fiber at maximum spectral width, mW
1.0
Forward current, mA
6590
Peak Wavelength, nm
840
Spectral width, nm4550
Residual spectral modulation, %
3.06.0
Laser-mode (normal fiber cleave)Threshold current, mA
4050
External slope efficiency, mW/mA0.250.4
Output power in SM fiber, mW

10.0

Forward voltage, V
1.82.0
Operating temperature (case temperature), °C-55
+70
Cooler current, A

1.2
Cooler voltage, V

3.5

(2)  STOA-481 – Broadband HR/AR Modules at 970nm

Features:

  • Up to 60nm tuning range*

  • PD monitors

  • PM fiber pigtails

  • FC/APC terminated pigtails on request

  • * When used as an active element of an external cavity semiconductor laser.

  • Packages: cooled DIL, DBUT

Specifications:

(Nominal Emitter Stabilization Temperature +25 °C)

ModeParameterMin.Typ.Max.
SLD-mode (angled fiber cleave)Output power ex SM fiber at maximum forward current, mW
1.0
Forward current, mA
200260
Peak Wavelength, nm
970
Spectral width, nm4550
Residual spectral modulation, %
3.06.0
Laser-mode (normal fiber cleave)Threshold current, mA
100150
External slope efficiency, mW/mA0.050.1
Output power in SM fiber, mW

10.0

Forward voltage, V
1.82.0
Operating temperature (case temperature), °C-55
+70
Cooler current, A

1.2
Cooler voltage, V

3.5

(3)  STOA-521 – Broadband HR/AR Gain Modules at 1020 nm

Applications:

  • spectroscopy

  • optical sensors

  • optical coherence tomography

  • optical metrology

  • others

Features:

  • up to 120 nm tuning range*

  • * When used as an active element of an external cavity semiconductor laser.

  • Packages: DIL, DBUT

Specifications:

(Nominal Emitter Stabilization Temperature +25 °C)

ModeParameterMinTyp.Max
SLD-mode (angled fiber cleave)Output power ex SM fiber at maximum forward current, mW
3.0
Forward current, mA
200240
Peak Wavelength, nm
1020
Spectral width, nm100110
Residual spectral modulation, %
5.010.0
Laser-mode(normal fiber cleave)Threshold current, mA
4060
External slope efficiency, mW/mA0.20.3
Output power in SM fiber, mW

10.0

Forward voltage, V
2.02.2
Operating temperature (case temperature), °C-55
+70
Cooler current, A

1.2
Cooler voltage, V

3.5

The following part numbers should be used when ordering:

STOA-521-(a)-(b)-(c),

where:

  • (a) – package type,

  • (b) – fiber type (SM or PM),

  • (c) – PD (if PD monitor is required).

Example: STOA-521-DBUT-SM-PD.

2.    Traveling Wave Amplifier (TWA) Modules

(1)  STOA-332: Travelling-wave broadband SOA at 785 nm

Features:

  • fiber-to-fiber optical gain of more than 20 dB

  • output power of up to 13 dBm

  • -3 dB optical gain bandwidth of up to 50 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--300
Forward voltage, V--2.5
Output optical power, dBm--13.0
Central wavelength c, nm-785-
-3 dB optical gain bandwidth, nm-50-
Gain ripple, dB-< 0.1-
Small signal gain, dB--25
Polarization dependent gain, dB-7.0-

(2)  STOA-382-800: Travelling-wave SOA at 800 nm

Features:

  • fiber-to-fiber optical gain of more than 30 dB

  • output power of up to 13 dBm

  • -3 dB optical gain bandwidth of up to 20 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--200
Forward voltage, V--2.5
Output optical power, dBm--13.0
Central wavelength c, nm-795-
-3 dB optical gain bandwidth, nm-16-
Gain ripple, dB-< 0.1-
Small signal gain, dB-30-
Polarization dependent gain, dB-7.0-

(3)  STOA-352-830: Travelling-wave broadband SOA at 830 nm

Features:

  • fiber-to-fiber optical gain of more than 25 dB

  • output power of up to 15 dBm

  • -3 dB optical gain bandwidth of up to 55 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--200
Forward voltage, V--2.5
Output optical power, dBm--15.0
Central wavelength c, nm-830-
-3 dB optical gain bandwidth, nm-55-
Gain ripple, dB-< 0.1-
Small signal gain, dB--25
Polarization dependent gain, dB-7.0-

(4)  STOA-382-840: Travelling-wave high-power SOA at 840 nm

Features:

  • fiber-to-fiber optical gain of more than 30 dB

  • output power of up to 17 dBm

  • -3 dB optical gain bandwidth of up to 25 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--300
Forward voltage, V--2.3
Output optical power, dBm--17.0
Central wavelength c, nm-840-
-3 dB optical gain bandwidth, nm-25-
Gain ripple, dB-< 0.1-
Small signal gain, dB-30-
Polarization dependent gain, dB-7.0-

(5)  STOA-372: Travelling-wave broadband SOA at 850 nm

Features:

  • fiber-to-fiber optical gain of of up to 25 dB

  • output power of up to 13 dBm

  • -3 dB optical gain bandwidth of up to 40 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--200
Forward voltage, V--2.5
Output optical power, dBm--13.0
Central wavelength c, nm-850-
-3 dB optical gain bandwidth, nm-40-
Gain ripple, dB-< 0.1-
Small signal gain, dB-22-
Polarization dependent gain, dB-7.0-

(6)  STOA-352-870: Travelling-wave broadband SOA at 870 nm

Features:

  • fiber-to-fiber optical gain of more than 25 dB

  • output power of up to 13 dBm

  • -3 dB optical gain bandwidth of up to 60 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--220
Forward voltage, V--2.5
Output optical power, dBm--13.0
Central wavelength c, nm-870-
-3 dB optical gain bandwidth, nm-58-
Gain ripple, dB-< 0.1-
Small signal gain, dB--25
Polarization dependent gain, dB-7.0-

(7)  STOA-382-870: Travelling-wave SOA at 870 nm

Features:

  • more than 20 dB fiber-to-fiber optical gain

  • 10 dBm ASE power while keeping very low spectral ripple

  • 20 nm gain bandwidth (-3 dB)

  • Package: butterfly (DBUT)

Additional and customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(Nominal Emitter Stabilization Temperature +25 °C)

ParameterTyp.Max.
Forward current, mA
200
Forward voltage, V
2.2
ASE output power ex SM fiber (Pin=0), dBm10.0
Central wavelength с, nm870
-3 dB optical gain bandwidth, nm20
Gain ripple, dB 0.10.2
Small signal gain, dB25
Saturation output power, dBm6.0

(8)  STOA-472: Travelling-wave broadband SOA at 930 nm

Features:

  • fiber-to-fiber optical gain of more than 25 dB

  • output power of up to 13 dBm

  • -3 dB optical gain bandwidth of up to 65 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterTyp.Max.
Forward current, mA
200
Forward voltage, V
2.2
Output optical power, dBm
13.0
Central wavelength с, nm930
-3 dB optical gain bandwidth, nm65
Gain ripple, dB<0.1
Small signal gain, dB
25
Polarization dependent gain, dB7.0

(9)  STOA-482: Travelling-wave high-power SOA at 970 nm

Features:

  • fiber-to-fiber optical gain of more than 25 dB

  • output power of up to 15 dBm

  • -3 dB optical gain bandwidth of up to 40 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--220
Forward voltage, V--2.3
Output optical power, dBm--15.0
Central wavelength c, nm-970-
-3 dB optical gain bandwidth, nm-40-
Gain ripple, dB-< 0.1-
Small signal gain, dB--27
Polarization dependent gain, dB-7.0-

(10) STOA-522: Travelling-wave broadband SOA at 1010 nm

Features:

  • fiber-to-fiber optical gain of up to 24 dB

  • output power of up to 13 dBm

  • -3 dB optical gain bandwidth of up to 95 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--300
Forward voltage, V--2.5
Output optical power, dBm--13.0
Central wavelength c, nm-1010-
-3 dB optical gain bandwidth, nm-95-
Gain ripple, dB-< 0.1-
Small signal gain, dB--24
Polarization dependent gain, dB-7.0-

(11) STOA-532: Travelling-wave SOA at 1060 nm

Features:

  • fiber-to-fiber optical gain of up to 30 dB

  • output power of up to 15 dBm

  • -3 dB optical gain bandwidth of up to 35 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--300
Forward voltage, V--2.3
Output optical power, dBm--15.0
Central wavelength c, nm-1060-
-3 dB optical gain bandwidth, nm-35-
Gain ripple, dB-< 0.1-
Small signal gain, dB--30
Polarization dependent gain, dB->10-

(12) STOA-542: Travelling-wave broadband SOA at 1060 nm

Features:

  • fiber-to-fiber optical gain of up to 25 dB

  • output power of up to 13 dBm

  • -3 dB optical gain bandwidth of up to 75 nm

  • Package: Butterfly (DBUT)

Additional & customized:

  • PM fiber pigtails

  • FC/APC terminated pigtails

Specifications:

(nominal stabilization temperature +25 °C)

ParameterMin.Typ.Max.
Forward current, mA--220
Forward voltage, V--2.5
Output optical power, dBm--13.0
Central wavelength c, nm-1060-
-3 dB optical gain bandwidth, nm-75-
Gain ripple, dB-< 0.1-
Small signal gain, dB--25
Polarization dependent gain, dB-7.0-

The following part numbers should be used when ordering:

STOA-542-(a)-(b),

where:

  • a – package type (DBUT); b – fiber type (SM or PM).

  • Example: SOA-542-DBUT-SM.

Master Oscillator Power Amplifier SLD Systems

Our MOPA-STLD-850 is an ultra-high power SLD-based light source that features both high power levels (tens milliwatts) and an extremely weak sensitivity to optical feedback. This is achieved using a special optical scheme called MOPA (Master Oscillator Power Amplifier). A simplified block diagram of the MOPA scheme is shown in the figure below. A medium-power SLD operating as a master source provides an optical power of 6 – 10 mWwith a relatively broad spectrum of 10 – 20 nm centered at 850 nm. After passing through an appropriate optical isolator with an isolation of better than −25 dB, the power is elevated to a high level of 50 mW by a spectrally matched Semiconductor Optical Amplifier (SOA). The key advantage of such an optical configuration is its weak sensitivity to optical feedback, because the input power of 6 – 10 mW makes it possible for the SOA to reach a deep saturation level. In this situation, there is no need to install an optical isolator at the output of the SOA for protection from optical feedback. In addition, this allows eliminating any unwanted power drop related to insertion loss inside the isolator, which frequently reaches 2 dB. Another advantage of the MOPA scheme is that it uses only the polarization maintaining optical fiber — no SM-fiber coupled components are utilized. Most of the fiber-optic components are built on the fast-axis-blocked technology that guarantees high values of the PER (Polarization Extinction Ratio) at the MOPA output (> 18 dB).

Block Diagram of the MOPA Optical Scheme (Simplified).
  M-SLD – Master SLD.
  ISO – Isolator.
  SOA – Semiconductor Optical Amplifier.
  OPM – Optical Power Monitor.
  APC – Automatic Power Control.

The MOPA system is offered in a compact metal case which can be used on a lab bench or in a rack. The instrument consists of a modular mainframe and several plug-in modules (power supplies, optical unit, current and temperature controllers, CPU etc.). Each MOPA system is equipped with a high-precision PM FC/APC optical socket for easy coupling of 2.0-mm narrow-key connectors. The device is supplied with a 1 mPM optical patch cable (other lengths are available upon request).

Our drive electronics includes two independent, high-precision, low-noise, constant-power current & temperature control drivers. The electronics provides safe current and temperature operation of the master SLD and the SOA. All the necessary SLD protective measures are implemented. Among the measures, the most important ones are the soft start, turn-on transient suppression, over temperature protection, open-circuit protection and pumping current limit.

The MOPA-SLD-850 can be operated locally from the front panel, or remotely from a computer with an RS-232 port. It contains minimum front-panel features needed for operation. No adjustments are required to run the device because it is completely pre-set at the factory. The rear panel of the instrument has a digital input to allow the drive current of the SOA to be pulse modulated (switched on or off). The maximum frequency of modulation is 50 kHz.

The device includes a linear power supply capable to operate from 220 VAC or 110 VAC. The required value of the line voltage is pre-set at the factory and should be specified by the customer when placing the order.

SLD-based light sources are excellent high-power speckle-free broadband light sources with a great potential for using in many practical applications such as OCT (Optical Coherence Tomography) Imaging Systems, FOG (Fiber Optic Gyroscopes), optical spectroscopy and the others.

Laser Safety Measures

For added safety, the system is designed to meet the laser safety requirements for class 3B laser products. Accordingly, the instrument incorporates the laser safety measures specified in IEC 60825-1 Ed. 2 2007-03, namely: the master key control, remote interlock connection, visual/audible alarm, information and warning stickers etc.

Product Customization Capabilities

We offer product customization services. A number of the operating characteristics of the product (e.g. the output power level, spectral characteristics etc.) are available for modification according to your specific needs.

Please contact us for further discussion of your requirements.

Swept Wavelength Tunable Semiconductor Lasers, Broadsweepers

The Broadsweepers series is a new family of tunable semiconductor lasers intended for applications that require fast and precision wavelength tuning with high sweep-to-sweep reproducibility of the "instantaneous" wavelength. Among all possible applications, the most important are Optical Coherence Tomography (including Full Field OCT), biomedical imaging, interferometry, optical spectroscopy, fiber-optic sensing and optical component characterization.

The optical scheme of the Broadsweeper is based on an external fiber-optic ring cavity and a broadband Semiconductor Optical Amplifier (SOA), working as a gain medium. The wide bandwidth feature of the SOA module and its high fiber-to-fiber gain allow reaching a wavelength tuning range of more than 50 nm at 3 mW of the output power.

The wavelength tuning technique involves the use of an Acousto-Optical Tunable Filter (AOTF) with a very narrow spectral passband ranging from 0.2 to 0.8 nm (FWHM). The AOTF is actively temperature controlled for high spectral stability of laser radiation. Since the laser cavity contains no mechanically moving components, high accuracy of wavelength selectivity and excellent wavelength reproducibility in sweep operation are ensured. Due to the perfect AOTF tuning characteristic, the laser provides k-linear wavelength tuning over a wide spectral range.

As well as the SOA and the AOTF, the other important elements of the laser are a fiber-optic coupler, optical isolator and in-line optical power monitor. All of them feature a unique customized design perfectly fitted for broadband spectral applications. Collimating optics used with the AOTF is relied on high-quality aspherical lens. This optics is aberration-free that allows obtaining not only a well-collimated laser beam required for effective operation of the AOTF but also maximum efficiency of coupling the light into the output optical fiber. The filter and the optics are packaged into one monolithic metal housing, thereby ensuring reliable day-after-day operation without misalignment. The external cavity of the laser uses a PANDA-type polarization maintaining (PM) fiber. This provides a well-defined state of polarization as well as high stability of laser polarization in time and under different ambient conditions. The only front-panel optical port delivers an optical signal with ultra-low amplified spontaneous emission (< -50 dB) and a polarization extinction ratio (PER) of min. 18 dB. Most of the fiber-optic components are built on the fast-axis-blocked technology that also guarantees high values of the PER at the laser output.

The output polarization is provided in the slow axis of the fiber that is precisely aligned to the connector key.

The laser is housed in a compact metal case suitable for applications on the bench and in the rack. The device has a modular design that incorporates several plug-in modules (power supplies, tunable optical module, current and temperature driving module, central processing unit, etc.) into one single mainframe. Our driving electronics provides precise, reliable and safe control of the laser in all modes of operation. All the necessary laser diode protective measures such as transient suppression, over-temperature protection, open-circuit protection and laser current limit are implemented. The optical power control loop in combination with the very fast laser current source adjusted for automatic-power-control mode allow operation with a flat-top-shaped tuning characteristic at all specified sweep speeds.

The laser provides the following modes of operation:

  • CW operation at any single wavelength within the full tuning range. The operating wavelength is adjustable from the front panel or from a computer. Under computer control, typical switching between two different wavelengths is done in less than 100 ms. The user can select any wavelength within the full wavelength range with a 50-pm resolution.

  • Continuous sweeps over the full tuning range or over the band of interest (within the full tuning range) not shorter than 5 nm. Both the internal triggering and the external triggering are available.

  • Continuous switching between any two wavelengths within the full tuning range at a certain repetition frequency. The range of frequencies includes 13 factory-set values. Customized settings for the repetition frequency are possible upon request.

When internally triggered, the device produces synchronizing pulses. BNC-connectors necessary to synchronize the laser with your measuring equipment are located on the rear panel of the device. In the external triggering mode, the device responds to incoming TTL-compatible trigger signals.

The Broadsweeper offers the maximum output power of 3 mW. For powerful applications, the device can additionally be equipped with an optical power booster elevating the power up to 20 mW.

The laser output is performed through the front-panel high precision PM optical socket for an FC/APC connector with the narrow key (2.0 mm). The device is supplied with a PM optical patch cable. An SM optical patch cable is also available on request.

Remote Control Capability

The device has an RS-232 DTE port for remote control from a computer. The necessary connectivity software is supplied with the instrument.

Laser Safety Measures

To fulfill the requirements of IEC 60825-1 Ed. 2 2007-03, the instrument is equipped with laser safety measures including: the master key control, remote interlock connection, visual/audible alarm, informational warning stickers, etc.

Standard Models Available For Ordering

Depending on the spectral band and sweep speed, there are several models of the product to choose from. Refer to the table below for the standard versions of the product.

ModelTuning Range (nm)Output Power (mW)Sweep Speed (nm/s)Linewidth (nm)

765 – 815 nm Spectral Range

STBS-785-15032 – 10,0000.06
STBS-785-1-HP*50202 – 10,0000.06
STBS-785-2503100 – 100,0000.12
STBS-785-2-HP*5020100 – 100,0000.12

805 – 880 nm Spectral Range

STBS-840-17532 – 10,0000.06
STBS-840-1-HP*75202 – 10,0000.06
STBS-840-2753100 – 100,0000.12
STBS-840-2-HP*7520100 – 100,0000.12

900 – 980 nm Spectral Range

STBS-930-18032 – 10,0000.09
STBS-930-1-HP*80202 – 10,0000.09
STBS-930-2803100 – 100,0000.15
STBS-930-2-HP*8020100 – 100,0000.15

1020 – 1090 nm Spectral Range

STBS-1060-17032 – 10,0000.09
STBS-1060-1-HP*70202 – 10,0000.09
STBS-1060-2703100 – 100,0000.15
STBS-1060-2-HP*7020100 – 100,0000.15

* INCLUDES INTERNAL OPTICAL POWER BOOSTER

General Specifications

Power Requirements:110 VAC or 220 VAC, 50 Hz or 60 Hz
Power Consumption:20 W / 25 W*
Operating Temperature:+15 °C to + 30 °C
Storage Temperature:0 °C to +40 °C
Outline Dimensions (W × H × D):257 × 170 × 325 mm / 362 × 160 × 326 mm*
Weight:9 kg / 12 kg*

* FOR MODELS WITH INTERNAL OPTICAL POWER BOOSTER

Product Customization Capabilities

We offer product customization services. A number of the operating characteristics of the product (e.g. the output power level, target wavelengths for the tuning range, the sweep speed limits, etc.) can be modified to meet your requirements. Please contact us for further discussion of your tunable laser requirements.

STDL Series DFB, SLED, ELED, ASE, BP1, BF, FBGL, FP Chip Laser Diodes

Cutting edge optical and photonics technology to design and manufacture laser diodes and other laser products. These products are key components in diverse applications that will pave the way to revolutionising the technology of the future: self-driving cars, quantum optics, structural health monitoring, renewable energy harvesting, optical test and measurement solutions.

With state-of-the-art photonics technology and highly qualified experienced team in its 50,000 square foot purpose built facility that houses R&D, product design and manufacturing, with ability to produce prototypes of customised photonics devices and arrays also allows customers to outsource the photonics supply chain. The ISO 9001:2015 certification was awarded.


Product familyProduct CodeSpecificationForm factorApplication
DFBSTDL-DFB65303TWL 1653.7 nm,
Min. Power 3 mW,
SMSR >35 dB
TOGas sensing
DFBSTDL-DFB65304D
STDL-DFB65306D
WL 1653.7 nm,
Min. Power 4mW, 6mW,
SMSR >35 dB
ChipGas sensing
SLEDSTDL-CS5103A
STDL-CS5153A
STDL-CS5203A
Typ. WL 1550 nm
Typ. FWHM 40 nm
Min. Power 10, 15, 20, 35 mW
SMF/PMF
14-pin BTFNavigation
SLEDSTDL-CS50L4C
STDL-CS55057C
Typ. WL 1550 nm
Typ. FWHM 40, 60 nm
Min Power 1, 5 mW
8-pin BTFNavigation
SLEDSTDL-CS3089A
STDL-CS3159A
Typ. WL 1310 nm
Typ. FWHM 75, 83 nm
Min. Power 8, 15 mW
14-pin BTFFiber Optic Test and Measurement
SLEDSTDL-CS43H4ATyp. WL 1430 nm
Typ. FWHM 45 nm
Min. Power 15 mW
14-pin BTFFiber Optic Test and Measurement
SLEDSTDL-CS5169ATyp. WL 1550 nm
Typ. FWHM 80, 100 nm
Min. Power 16, 10 mW
14-pin BTFFiber Optic Test and Measurement
SLEDSTDL-CS51010ATyp. WL 1550 nm
Typ. FWHM 80, 100 nm
Min. Power 16, 10 mW
14-pin BTFFiber Optic Test and Measurement
SLEDSTDL-CS5029LTyp. WL 1510 nm
Typ. FWHM 100 nm
Min. Power 0.2 mW
14-pin DILFiber Optic Test and Measurement
SLEDSTDL-CS3024A
STDL-CS3089A
STDL-CS3159A
Typ. WL 1310 nm
Typ. FWHM 40, 75, 83 nm
Min. Power 2, 8, 15 mW
14 pin BTFMetrology
SLEDSTDL-CS5103A
STDL-CS5153A
STDL-CS5203A
Typ. WL 1550 nm
Typ. FWHM 40 nm
Min. Power 10, 15, 20, 35 mW
SMF/PMF
14-pin BTFStructural Health Monitoring
SLEDSTDL-CS5169ATyp. WL 1550 nm
Typ. FWHM 80, 100 nm
Min. Power 16, 10 mW
14-pin BTFStructural Health Monitoring
SLEDSTDL-CS68M5ATyp. WL 1680 nm
Typ. BW FWHM 50 nm
Min. Power 15 mW
Typ. Spectral Ripple 0.3 dB
14-pin BTFMedical
ELEDSTDL-US5084DTyp. WL 1550 nm
Typ. FWHM 40 nm
Min. Power 0 8 mW
TO-56 spherical LensFiber Optic Test and Measurement
ELEDSTDL-US31014D-FSTyp. WL 1310 nm
Typ. FWHM 40 nm
Min. Power 0.15 mW
TO-56 CoaxialFiber Optic Test and Measurement
ELEDSTDL-US3104HTyp. WL 1310 nm
Typ. FWHM 40 nm
Min. Power 1 mW
TO-56 Flat LensData Communications
ASE seriesSTDL-ASE-CW-CSC5169AWL 1510-1590 nm
DOP < 5%
Power Density > 25 dBm/0.1 nm
ILMDistributed Fiber Optic Sensing
BP1 seriesSTDL-BP1-CS5169ATyp. WL 1550 nm
Typ. FWHM 80 nm
Min. Power 12 mW (with circulator)
ILMDistributed Fiber Optic Sensing
BF seriesSTDL-BFx-CLS101B-S1550WL 1550 nm,
Min. Power 10 mW,
Linewidth <50, <200 kHz
ILMDistributed Fiber Optic Sensing
BF seriesSTDL-BFx-CLS101B-S1550WL 1550 nm,
Min. Power 10 mW,
Linewidth <50, <200 kHz
ILMStructural
Health
Monitoring
BF SeriesSTDL- BFx-CLS101B-FP-S1550WL 1550 nm,
Min. Power 10 mW,
Linewidth <50, <200 kHz
ILMSensing
FBGLSTDL-CLS101B-FP-S1550WL 1550 nm,
Min. Power 10 mW,
Linewidth <100, <200 kHz
SMSR >45 dB
14-pin BTFSensing
FPSTDL-FPL65110T ATyp. WL 1650 nm
Op. Temp 0C - 60C
Min. Power 50 mW pulsed
Typ. SE 0.09 mW/A@25C
TOMedical

ELED Edge-Emitting LEDs

The STDL-US series are uncooled edge emitting LEDs in TO can or coaxial pigtail package engineered for optical communication systems and test instruments It operates over a wide temperature range from 0 to 70 C without any need for a thermoelectric cooler and temperature controller.

ELED

Applications

  • Reconfigurable Optical Add Drop Multiplexer (ROADM)

  • Optical test instrument

  • Fiber optic sensors

  • Optical metrology

  • OTDR

  • Optical transceiver

  • Power line transmission monitor

Features & Performance

  • Uncooled SLED in TO can, coaxial pigtail or collimation TOSA

  • High coupled power to SMF /MMF

  • Narrow beam divergence upon collimation (free space model)

  • Center wavelength of 1310nm and 1550nm (for datacom), other wavelengths on request

  • Form factor available: TO 56, TO 56 coaxial pigtail, and others on request

  • Cost effective and flexible manufacturing process

  • Monitoring photo diode(Optional)

Center Wavelength (nm)Product CodeMin
Power (mW)
Min Band width FWHM (nm)Package OptionsTyp Iop (mA)

STDL-US3054D-PD0.535TO-56 Aspherical Lens
With PD
100

STDL-US3154D-PD1.535TO-56 Aspherical Lens
With PD
100
1310STDL-US3044H
STDL-US3064H
0.4
0.6
40
40
TO-56 Flat Lens
TO-56 Flat Lens
100
100

STDL-US3104H140TO-56 Flat Lens100

STDL-US3084D0.840TO-56 Aspherical L ens100

STDL-US31014D-FS*0.1540TO-56 SMF Coaxial Pigtail100

STDL-US31034D-FS*0.340TO-56 SMF Coaxial Pigtail120
1530STDL-US53084H-D0.840TO-56 Flat Lens120
1550STDL-US5054D-PD
STDL-US5154D-PD
STDL-US5084D
STDL-US55016D-FS*
STDL-US55036D-FS*
0.5
1.5
0.8
0.12
0.25
35
35
40
50
50
TO-56 Aspherical Lens
With PD
TO-56 Aspherical Lens with PD
TO-56 Aspherical Lens TO-56 SMF Coaxial Pigtail TO-56 SMF Coaxial Pigtail
120
120
120
125
125

*TO 56 SMF Coaxial Pigtail with PD is available

ELED ELED

ELEDELED

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