Produces 1.00 Each of Product Material - Mosquito sensor

• Process Type: Assemble Mosquito

  Assemble the Mosquito sensor using all made components

  • Input: consumes 1.00 Each Part Optical - Mosquito optical layer
    Domain: OptoMechanical, Material Item: Part/Component/Product, Source: SENSORICA

    This is a generic category for the optical layer of the Mosquito sensor. Variations of this will contain different configurations of optical/photonics components.

    https://docs.google.com/document/d/1lUcR376j7tqXnkwuLuBDfzvTcqASJ_Lok6zIO2ZZFd0/edit#

    • Process Type: Assemble Mosquito photonics layer

      Assembling of different optical/photonic modules of the Mosquito

      • Feature: 1.00 Each Mosquito optical layer architecture Feature for Part Optical - Mosquito optical layer
        • Option: Part - PD and LD
          Domain: ElectroOptical, Material Item: Part/Component/Product, Source: purchased

          This is an assembly of a PD and a LD, used in the Mosquito and in other types of optical sensors.
          Some of them are canned into metal casing. Others can come as fiber assemblies using couplers or circulators

        • Option: Part Optical - Circulator
          Domain: Optical, Material Item: Part/Component/Product, Source: purchased OR partner

          An optical circulator is a special fiber-optic component that can be used to separate optical signals that travel in opposite directions in an optical fiber, analogous to the operation of an electronic circulator. An optical circulator is a three-port device designed such that light entering any port exits from the next. This means that if light enters port 1 it is emitted from port 2, but if some of the emitted light is reflected back to the circulator, it does not come out of port 1, but instead exits from port 3. Circulators can be used to achieve bi-directional transmission over a single fiber. Because of its high isolation of the input and reflected optical powers and its low insertion loss, optical circulators are widely used in advanced communication systems and fiber-optic sensor applications.
          Optical circulators are non-reciprocal optics, which means that changes in the properties of light passing through the device are not reversed when the light passes through in the opposite direction. This can only happen when the symmetry of the system is broken, for example by an external magnetic field. A Faraday rotator is another example of a non-reciprocal optical device.

        • Option: Part - Optical coupler/splitter
          Deliverable: Product, Domain: Optical, Material Item: Part/Component/Product, Source: purchased OR SENSORICA

          Connects optical guides: n inputs to m outputs. Works in reverse.

      • Input: work 1.00 HR Work - Manufacturing - Optics
        Domain: Optical, Work: Manufacturing work

        Type of work - Assembling or making of optical/photonics parts. This type of work requires some techniques and training. Manufacturing can be done manually or using some equipment. This is about making stuff to be exchanged on the market, or about making prototypes or demos, for marketing and sales purposes.

    • Process Type: QT for the Mosquito optical layer

      Quality testing of the optical layer once assembled.

      • Input: work 15.00 min Work - Quality control
        Work: Manufacturing work

        Type of work - Quality control type of work. This is a general category that applies for many manufacturing processes.

  • Input: consumes 1.00 Each Prototype Material- Mosquito electronics layer
    Deliverable: Prototype, Domain: Electronic, Material Item: Part/Component/Product, Source: SENSORICA

    This is a generic category for the electronic layer of the Mosquito. This electronic layer contains modules for signal acquisition, i.e. reading a photodiode, signal conditioning (amplification, filtering and others), numeration and operations on data (ADC and DAC, DSP...).

    If you use this resource type you need to specify which prototype or sub-product you are using.
    See this doc for different versions of the electronic layer
    https://docs.google.com/document/d/1lUcR376j7tqXnkwuLuBDfzvTcqASJ_Lok6zIO2ZZFd0/edit#

    • Process Type: QT for the Mosquito electronic layer

      Quality control of the Mosquito electronics once assembled

      • Input: work 7.00 min Work - Quality control
        Work: Manufacturing work

        Type of work - Quality control type of work. This is a general category that applies for many manufacturing processes.

    • Process Type: Assemble Mosquito electronics layer

      Assembly of all electronics parts of the Mosquito

      • Feature: 1.00 Each Mosquito electronics layer architecture Feature for Prototype Material- Mosquito electronics layer
        • Option: Prototype Material - Mosquito electronics layer v3
          Deliverable: Prototype, Domain: Electronic, Material Item: Part/Component/Product, Source: SENSORICA

          This is a circuit board that mixes the laser driver created by Frederic and the photodiode circuit created by Jonathan. Development was done by Jonathan.

      • Input: work 3.00 HR Work - Manufacturing - Electronics
        Domain: Electronic, Work: Manufacturing work

        Type of work - Assembling of electronics components. This type of work requires some techniques and training. Manufacturing can be done manually or using some equipment. This is about making stuff to be exchanged on the market, or about making prototypes or demos, for marketing and sales purposes.

  • Input: work 1.00 HR Work - Manufacturing - Mechanics
    Domain: Mechanical, Work: Manufacturing work

    Type of work - Assembling mechanical parts. This type of work requires some techniques and training. Manufacturing can be done manually or using some equipment. This is about making stuff to be exchanged on the market, or about making prototypes or demos, for marketing and sales purposes.