SCOUT Specifications

Review the GNSS performance, antenna, inertial sensor, data interface, electrical, and environmental specifications of the SCOUT integrated L1/L5 RTK GNSS receiver. Variant-specific parameters are marked as Standard RTK or RTK + DR.

GNSS performance

The following table summarizes the receiver-level GNSS specifications.

Parameter Specification
Receiver type 200-channel L1/L5 dual-band GNSS receiver.
Constellations and frequencies GPS: L1C/A, L5
GLONASS: L1
Galileo: E1, E5a
BeiDou: B1I, B1C, B2a, B2I
QZSS: L1C/A, L5
SBAS: L1
Update rate
Standard RTK 1 Hz
RTK + DR 10 Hz
Position accuracy Standalone: ≤ 1.0 m CEP
RTK fixed: ≤ 10 cm CEP
Velocity accuracy Standalone: 0.2 m/s
RTK fixed: 0.01 m/s
Cold-start TTFF 28 s
Hot-start TTFF 1 s
Dynamic limits Altitude: 10,000 m
Velocity: 500 m/s
Acceleration: 4 g

Receiver architecture

SCOUT integrates the NOMAD K16-series GNSS module, antenna, enclosure, mounting surface, and USB host interface into a single receiver assembly.

NOMAD K16-series core module

Standard RTK uses the K16C module. RTK + DR uses the K16E module with integrated inertial-sensor support.

Integrated dual-band antenna

The receiver includes a dual-stacked ceramic patch antenna covering L1 and L5 bands without requiring an external antenna cable.

USB serial integration path

SCOUT exposes NMEA output, configuration commands, and RTCM correction-data input through its integrated USB Type-C host connection.

Antenna and inertial sensors

SCOUT integrates a dual-band ceramic patch antenna. The RTK + DR configuration additionally includes an inertial sensor for short GNSS-degraded intervals.

Parameter Specification
GNSS antenna Built-in high-gain dual-stacked ceramic patch antenna: 33 × 33 × 6 mm and 25 × 25 × 4 mm.
Frequency ranges L1 band: 1559–1606 MHz
L5 band: 1167–1249 MHz
Inertial sensor RTK + DR only BOSCH BMI325 6-axis IMU for dead-reckoning sensor fusion.
Dead-reckoning performance RTK + DR only Position error is typically ≤ 4% of distance traveled during complete GNSS signal outages.
SCOUT internal dual-band GNSS antenna structure
SCOUT internal dual-band GNSS antenna structure.

Data and communication

SCOUT exposes serial GNSS data through its USB Type-C host interface and accepts correction data for RTK workflows.

Parameter Specification
Output protocol NMEA 0183: GGA, GSA, GSV, RMC, GLL, VTG, and GST.
Correction input RTCM v3.x. Review Protocol for message and integration details.
Default baud rate 115,200 bps
Configurable baud rate Up to 921,600 bps. Serial configuration: 8 data bits, no parity, 1 stop bit.

Electrical and environmental

Parameter Specification
Power supply 5.0 V ± 10% DC, supplied through USB.
Input current < 80 mA during typical operation.
Ingress protection IP67-rated enclosure.
Operating temperature −40°C to +85°C
Storage temperature −40°C to +90°C

Integration references

Use the SCOUT Series shared documentation for mechanical dimensions, host-interface details, and available integration resources.

SCOUT interface schematic

Reference circuit diagram for the USB interface and power path.

Download schematic
Architecture note

The specifications above describe the finished SCOUT receiver. Developers building custom carrier boards should refer to the Kalmix NOMAD K16-series module documentation for module-level design details. For access to the applicable files, contact Kalmix.

Product evaluation

Evaluating SCOUT for your machine?

Review the product page or discuss an integration requirement with the Kalmix team.