Reflex Photonics to attend Defence and Security Equipment International (DSEI) exhibition

Reflex Photonics will be present at the Defence and Security Equipment International (DSEI) conference.
Defence and Security Equipment International (DSEI) is the world leading event that brings together the global defence and security sector to innovate and share knowledge. DSEI represents the entire supply chain on an unrivalled scale.
DSEI 2017 will have five key sector-focused Zones: Air, Land, Naval, Security & Joint, all showcasing the latest equipment and systems.

The DSEI Strategic Conferences take place on 11 September (Day Zero) with the main exhibition and free seminar programme running for four days from 12-15 September 2017, ExCeL, London.

Reflex Photonics launches a line of Optical Testers to simplify testing of its LightABLE rugged transceivers and of optical interconnects.

The Optical Testers are the perfect vehicle for testing and experiencing the LightABLE SR4 and SR12 transceiver modules.

Recognizing the need for a ready-made test bench for its line of transceiver modules, Reflex Photonics introduces a complete line of Optical Tester for BER measurements on the LightABLE™ SR4 and SR12 rugged embedded transceivers and optical interconnects.
Currently, Reflex Photonics offers these different optical test instruments:

Optical Tester SR4 40G (Enables BER measurement)
Optical Tester SR12 120G (Enables BER measurement)
Optical Generator/Tester SR12 120G (Generates PRBS and includes BERT capability)

The Reflex Photonics Optical Testers will speed up the LightABLE performance validation and confirm successful integration into your system as it enables BER and eye diagram tests over the SR4 and SR12 transceivers. In addition, those products will enable your communication system BER assessment.
The Optical Generator/Tester integrates a PRBS (pseudo random bit signal) generator and an embedded BER measurement capability. This instrument acts like a BERT as it will directly perform optical communication system BER assessment. It will also act as an optical cross-connect OXC.

Dr. Jocelyn Lauzon, V.P. Engineering at Reflex Photonics adds: 

These products offer an efficient, proven, and elegant ready-made solution that takes the guesswork out of testing performance and functionality of Reflex Photonics’ LightABLE.
Obviously, you can do the characterization of our transceiver, but if you replace the loopback cable by a bi-directional parallel optic communication system, the Optical Tester can be used to characterize the performance of a whole communication system. The communication bit rate and protocol can be changed, so the Optical Tester can be used to test different system architectures.

Reflex Photonics announces new operating temperature absolute rating on the LightABLE

LightABLE embedded transceiver

Reflex Photonics has proven that its LightABLE™ multichannel 120 Gbps* rugged optical transceivers can withstand temperature ranging between −55 ºC and 100 ºC, thus reaffirming Reflex Photonics commitment in delivering first-in-class optical modules for harsh environment applications. 
Reflex Photonics is relentlessly testing its line of LightABLE transceivers and constantly improving their ruggedness.

Guillaume Blanchette, product manager, says:

We are quite excited to announce that our LightABLE transceivers can withstand temperature ranging between −55 ºC and 100 ºC. This result reaffirms the reliability of the Reflex Photonics LightABLE transceivers and the suitability of these products for field deployment in harsh environments such as those found in military and space applications.

*: SR12 version

LightABLE embedded transceiver demonstrate their ruggedness with successful Accelerated Life Testing.

LightABLE LH product series being submitted to Accelerated Life Testing against MIL-STD-883J, method 1005, cond. D, June 2013.

Reflex Photonics is proud to announce that its LightABLE™ LH Series SR4 full-duplex 4 lane transceiver have proven they can withstand 2000 hours of “Lifetime Test” with no degradation of their performance. The successful completion of this industry-standard test is a first step in Reflex Photonics’ comprehensive space qualification program for its rugged transceivers.
A group of modules from the LightABLE LH product series were submitted to a “Lifetime Test” against MIL-STD-883J, method 1005, cond. D, June 2013. The test is conducted at a case temperature of 100 °C, 15 °C more than the recommended maximum operating temperature.
These units were tested against Reflex Photonics’ final production test procedure on all 8 channels, at different intervals, and at 3 different operating temperatures: −40 °C, 23 °C, and 85 °C. Even after 2000 hours of exposure to 100 °C temperatures, the LightABLE units maintained their high operational performance.

This result confirms the long-term reliability of the Reflex Photonics LightABLE transceivers and the suitability of these products for field deployment in harsh environments such as those found in military and space applications.
The LightABLE products are parallel optic interconnects operating at 10 Gbps per lane and offering the following features: small SWaP, operation over a large temperature range
(-40 °C to 85 °C), storage temperature from -57 °C to 125 °C. The LightABLE can be surface mounted or plugged on a board, and will support high temperature reflow process and operation with a link budget better than 13 dB.

Mr. Jocelyn Lauzon, Product Line Manager at Reflex Photonics adds:

When products are exposed to temperature stresses in the field, Accelerated Life Testing is used to simulate product life. In order to accelerate aging, products are tested at temperatures above that of their normal operating temperature.
Defects or failure that would only show up after many years in the field at normal operating temperatures can be detected in short times in an Accelerated Life Test.

Reflex Photonics to Show its LightCONEX Active Optical Backplane Interconnect at OFC2017

LightCONEX is a backplane interconnect solution that integrates a multilane optical transceiver into a small, rugged board-edge connector to enable easy circuit card replacement and simplify system upgrades.

LightCONEX is a backplane interconnect solution that integrates a multilane optical transceiver into a small, rugged board-edge connector to enable easy circuit card replacement and simplify system upgrades. This new connector reduces system cost and complexity as it requires no onboard optical cables or cable routing features.

The LightCONEX solution frees up board space by integrating the optical transceiver into the board edge connector. Its rugged construction ensures error free data transmission under severe shock, vibration, and temperature extremes.
The LightCONEX is offered as a 4-lane full-duplex transceiver or a 12-lane transmitter or receiver operating at up to 25 Gbps per lane over a temperature from –40°C to 85°C and occupies a very small volume of 24 (L) × 14 (W) × 5 (H) mm. It is mounted on the plug-in module board via a 1 mm high LGA socket and its output connector is compatible with the VITA 66.4 backplane aperture standard. The LightCONEX finds applications in optical backplanes, routers, switches and VPX systems, like those deployed in high performance embedded computing systems for civilian and military command and control monitoring systems.

Reflex Photonics VP of Product Management, Gerald Persaud said:

Today’s high performance computers demand numerous high bandwidth optical interconnects that uses the least space at the lowest system cost. LightCONEX is the first optical interconnect solution to meet these needs in the super competitive high performance embedded computing market.

You are invited to see a live demonstration of the LightCONEX and other Reflex Photonics products such as the LightABLE rugged transceiver, SNAP12, QSFP, and CFP.

Come visit us at OFC 2017, Booth #3939 from March 21 to March 23 2107.

Fonds de solidarité FTQ and Gestion AD Invest $3.5 Million in Reflex Photonics

Fonds de solidarité FTQ and Gestion AD Invest $3.5 Million in Kirkland-Based Reflex Photonics

From left to right:
Mr. Charles Sylvestre, Senior Director, Investments - Information Technology, Telecommunications and Environment -Fonds de Solidarité FTQ
Mr. Noël Dubé, President and CEO -Reflex Photonics
Mr. Francis Scarpaleggia, Member of Parliament for Lac-Saint-Louis
Mr. Jean-Philippe Brassard, Regional Director, Greater Montréal Business Office -Canada Economic Development for Quebec Regions

In order to allow Reflex Photonics to acquire cutting-edge infrastructure and equipment for its continued growth, the Fonds de solidarité FTQ is investing $3 million in the company’s growth. For its part, Gestion AD is investing  $500,000. This co-investment is part of the “Fonds de solidarité FTQ Investissements technologiques partnership” launched in 2012. Total investments of $5.5 million in the company from all financial partners will allow to consolidate 24 jobs and create 14 more. At the same time, Lac-St-Louis MP Francis Scarpaleggia announced a $500,000 refundable contribution from Canada Economic Development. 

Reflex Photonics to present a paper at the 9th NATO Military Symposium

A paper written by Mr. Michel Têtu, Gerald Persaud, Jocelyn Lauzon, and Dave Rolston and entitled On-Board Rugged Optical Interconnects for Embedded Computing Systems in C4ISR applications will be presented at the SET-241 Symposium to be held within the 9th NATO Military Sensing Symposium in Quebec City on May 31st to June 2nd, 2017.

Summary of the article

For military and aerospace applications, the C4ISR approach (Command, Control, Compute, Communicate, Intelligence, Surveillance, Reconnaissance) is mandatory for almost instantaneous high end decision making. This process requires the collection and processing of signals generated by a large amount of sensors of various configurations like active electronically scanned array radar, high resolution cameras, sonars and so on. These primary analog signals are digitized and transmitted to a high performance embedded computing unit (HPEC) for data fusion and processing through high bit rate communication links.

Symposium on 9th NATO Military Sensing Symposium [SET-241] 
Québec City

Learn more about the SET 241