한백교역

적외선 센서 Infrared Detector

적외선을 감지하여 파장대역(스펙트럼)에 따라 가스분석, 온도 측정, 물질성분 분석하는데 사용됩니다.

InAs/InAsSb SL Technology

Customers’ demands of wider spectral band absorption detectors in MWIR/LWIR region with competitive parameters to MCT technology encouraged VIGO to develop a novel class of materials & detectors. InAs/InAsSb superlattice (SL) based detectors are our response to fully RoHS compliant product designed for operation with thermoelectric coolers (TEC) at HOT conditions.

 

 

InAsInAsSb SL Technology_1.png

 

Currently manufactured widely used detectors are made with mercury-cadmium telluride compound (MCT) by Metalorganic Chemical Vapour Deposition (MOCVD) technology. Despite many advantages of MCT compound, nowadays in some applications, detectors containing mercury, cadmium and lead are successively removed from the consumer market through norms and directives (e.g. RoHS) due to their toxicity.


Abovementioned limitations connected to MCT encouraged the company to find alternative material system and technology as a replacement. The InAsSb ternary III-V compound is a great candidate, operating in similar wavelength regime. Encouraged by literature and scientific partners, VIGO decided to develop Ga-free InAs/InAsSb superlattices.


After three years of work on MBE growth technology of InAs/InAsSb SL on SI GaAs substrates, VIGO is ready to present a first generation of SL products with parameters comparable to MCT. So far, we have successfully manufactured photovoltaic devices (MWIR) and photoconductive devices (LWIR).

 

 

 

MWIR SUPERLATTICE DETECTORS

For MWIR detection VIGO is developing SL detectors operating at room temperature or with the use of a two-stage thermoelectric cooler (at 230 K). Recent results showed that SL detectors exhibit higher resistance area (RA) product in comparison to bulk InAsSb devices. That allows us to produce wider spectral band detectors (Fig. 1) exhibiting satisfactory detectivity.

 

Advantages:

- Cut-on wavelength limited to transmission of GaSb buffer ~1.7 μm

- High RA product and D* to similar to MCT (Fig. 2)

- RoHS compliant product

- Wider spectral range and higher operating frequencies than PbSe detectors (quicker detection of many gases with one device )

- Operation without bias (elimination of 1/f noise present in photoconductors)

 

InAsInAsSb SL Technology_2.png

 

 

InAsInAsSb SL Technology_data.png

* 1 x 1 mm on request

 

LWIR SUPERLATTICE DETECTORS

For LWIR detection VIGO is developing detectors both on 2 and 3 stage thermoelectric coolers (operating at 230 K and 210 K respectively). We are able to offer detectors optimized for 10 μm and 12 μm (possibility up to 15 µm and even more). Recent results showed that SL detectors exhibit sheet resistance comparable to MCT technology at 210-230 K temperature range. This is the first RoHS compliant product for LWIR detection that does not require liquid nitrogen cooling! This product line opens a new perspective for spectroscopy.

 

InAsInAsSb SL Technology_3.png

ADVANTAGES:

- Cut-on wavelength limited to transmission of GaSb buffer ~1.7 µm

- Higher D* compared to PC InAsSb and thermopile detectors

- RoHS compliant product

- Very good stability ideal for harsh environment

- 50% cut-off wavelength optimized for 10 or 12 μm

- NO LIQUID NITROGEN COOLING REQUIRED! (Fig. 4)

 

InAsInAsSb SL Technology_4.png

 


InAsInAsSb SL Technology_data2.png

* 1 x 1 mm on request

 

ROADMAP OF MWIR INAS/INASSB SL DETECTORS

 

Q1-Q2 2021

Samples available for testing:

Active area:


- 1×0.1

- 1×1 immersed

- 1×1* (on special request)

 

 

Q3-Q4 2021

Further development:


- etalon reducing coatings layers

- optimized wavelength modification

- photovoltaic multiple junction technology

- development of unipolar photoconductors with higher RA product

 

ROADMAP OF LWIR INAS/INASSB SL DETECTORS


Q1-Q2 2021

Samples available for testing:

Active area:


- 1×1 immersed

- 1×1 or 0.1×0.1 *(on special request)



Q3-Q4 2021

Further development:


– antifringing and antireflection layers

– wavelength modification for VLWIR

– development of photovoltaic product without 1/f noise

– improvement of parameters, especially for the long wavelengths range