• Simrad EK80
  • About this manual
  • Data subscriptions and remote control
    • About data subscriptions and remote control
    • Overview of the data subscriptions
    • Data subscription processes
      • Request server information
      • Connect to server
      • Keep connection alive
      • Issue commands to the server
      • Collecting data
        • Create data subscription
        • Handling data
        • Change data subscription
        • Destroy data subscription
      • Disconnect from server
    • Parameter management
      • About parameter management
      • Get parameter
      • Set parameter
      • Get parameter information (attributes)
      • Subscribe to parameter notifications
      • Unsubscribe from parameter notifications
    • Handling parameter subscriptions
      • About subscriptions handling
      • The header structure (ParamMsgHdrDef)
      • Value and attribute update messages
        • Parameter update structures
        • Attribute update structures
      • Server alive message
      • Request re-transmit message
    • Data subscription types
      • About data subscription types
      • Data subscription type: Bottom Detection
      • Data subscription type: Target Strength (TS) detection
      • Data subscription type: Target Strength (TS) detection chirp
      • Data subscription type: Sample data
      • Data subscription type: Echogram
      • Data subscription type: Targets echogram
      • Data subscription type: Integration
      • Data subscription type: Integration chirp
      • Data subscription type: Targets integration
      • Data subscription type: Noise Spectrum
      • Data subscription type: ADCP Backscatter
      • Data subscription type: ADCP Vessel Velocity
      • Data subscription type: ADCP Geo Velocity
    • Parameter descriptions
      • About parameters
      • Application parameters
      • Operation control parameters
      • Sample storage control parameters
      • Navigation and vessel motion parameters
      • Environment parameters (Water column)
      • Environment parameters (Transducer face)
      • Transceiver information parameters
      • Ping based parameters (Conditions)
      • Ping based parameters (Settings)
      • Bottom detection parameters
      • Ping mode manager parameters
  • REST API
    • What is a REST API?
    • What is Swagger?
    • Working with REST API and Swagger
      • Browsing the API
      • Get a parameter
      • Get a structure
      • Set a parameter
      • Legal parameter values
    • Auto generation of client code
  • File formats
    • File formats supported by the EK80 system
    • Raw data format
      • The raw data file format
      • Raw data format compatibility
      • Raw file datagrams
        • Data encapsulation of datagrams
        • Using XML datagrams
        • Numeric type definition
        • Datagram updates
        • Annotation text (ASCII) datagram
        • Configuration XML datagram
          • The <Header> tag
          • The <Transceivers> tag
          • The <Transducers> tag
          • The <ConfiguredSensors> tag
        • Environment XML datagram
        • Filter XML datagram
        • Motion Sensor binary datagram
        • Filter binary datagram
        • Initial Parameter XML datagram
        • Motion binary datagram 0
        • Motion binary datagram 1
        • NMEA text datagram
        • Parameter XML datagram
        • Ping sequence XML datagram
        • Pulse XML datagram
        • Sample binary datagram description
        • Transmit pulse sample datagram description
        • Sensor XML datagram
    • Index file format for RAW data files
    • XYZ file format
    • NetCDF file format
    • BOT data format
      • The BOT data file format
      • Recording parameters
      • Simrad BOT depth datagram format
    • The SEGY data file format
  • I/O Datagram formats
    • About NMEA and standard datagram formats
      • About the NMEA datagram formats
      • NMEA
      • NMEA sentence structure
      • Standard NMEA 0183 communication parameters
    • NMEA datagram formats
      • NMEA CUR datagram format
      • NMEA DBK datagram
      • NMEA DBS datagram format
      • NMEA DBT datagram format
      • NMEA DDC datagram format
      • NMEA DPT datagram format
      • NMEA GGA datagram format
      • NMEA GGK datagram format
      • NMEA GLL datagram format
      • NMEA HDG datagram format
      • NMEA HDM datagram format
      • NMEA HDT datagram format
      • NMEA MTW datagram format
      • NMEA RMC datagram format
      • NMEA VBW datagram format
      • NMEA VHW datagram format
      • NMEA VLW datagram format
      • NMEA VTG datagram format
      • NMEA ZDA datagram format
    • Proprietary datagram formats
      • CP1 Current Profile datagram format
      • DFT Water level datagram format
      • OFS Drop keel datagram format
      • ATS Annotation datagram format
      • Simrad EK500 Depth datagram
      • Simrad ITI-FS datagram formats
        • Simrad HFB datagram format
        • Simrad DBS datagram format
        • Simrad TDS datagram format
        • Simrad TPR datagram format
        • Simrad TPT datagram format
      • Simrad PI50 datagrams
        • Simrad PSIMDHB datagram format
        • Simrad PSIMP D datagram format
        • Simrad PSIMP F datagram format
      • Kongsberg EM Attitude 3000 datagram format
      • KM Binary datagram format
    • Third-party datagram formats
      • Atlas Depth datagram format
      • Furuno GPhve datagram format
      • Hemisphere GNSS GPHEV datagram format
      • Teledyne TSS1 datagram format
      • AML Sound speed datagram format
      • Trimble PTNL GGK datagram format
      • ZMQ Beam Velocity datagram format
  • How to calculate power from power data
    • Calculating power from Power data recorded with GPT and WBT
    • Calculating power from Complex data recorded for WBT
    • Calculating power from Complex data recorded for EC150–3C
  • How to calculate angle from angle data
    • Angle data in Sample datagram
    • Calculating angle from Angle data
    • Special scaling requirements for split beam transducers with three sectors
    • Calculating the angles from Complex data for Beam Type: 1
    • Calculating the angles from Complex data for Beam Type: 17 49, 65 and 81
    • Calculating the angles from Complex data for Beam Type: 97
    • Implementation of arctan
  • Calculating transducer impedance with WBT
    • Transducer impedance with WBT using RAW3
    • Transducer impedance with WBT using RAW4