SparkFun

DAN-F10N Dual-Band L1/L5 GNSS Breakout

Name: DAN-F10N Dual-Band L1/L5 GNSS Breakout
Brand: SparkFun
SKU: SF-GPS-28435
Price: 117.9 AUD
Availability: InStock

· MPN: GPS-28435

Breakouts GPS & Location Sensors

$117.90 |

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Built around the u-blox F10 engine, this GNSS breakout receives L1 and L5 frequency bands simultaneously for reliable metre-level positioning, even in challe...

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Built around the u-blox F10 engine, this GNSS breakout receives L1 and L5 frequency bands simultaneously for reliable metre-level positioning, even in challenging environments such as dense urban canyons. u-blox multipath mitigation helps isolate the strongest signals, while the SAW-LNA-SAW RF front-end and LTE B13 notch filter help reject interference from nearby cellular modems.

The board includes an integrated 20mm x 20mm x 8mm RHCP dual-band patch antenna with a wide beamwidth for flexible device orientation. An onboard antenna switch also allows connection to an external dual-band antenna when your application needs a different mounting position or antenna type.

Configuration, data logging and real-time performance analysis are supported through u-blox u-center-2 software. The module is compatible with AssistNow Online, Offline and Autonomous A-GNSS services, and communicates using standard NMEA 4.11 and UBX binary protocols.

Features:

u-blox DAN-F10N GNSS module
Concurrent signal reception
L1 and L5 frequency bands
GNSS constellation: GPS (USA)
GNSS constellation: Galileo (EU)
GNSS constellation: BDS (China)
GNSS constellation: QZSS (Japan)
GNSS constellation: NavIC (India)
SBAS system: WASS (USA)
SBAS system: EGNOS (EU)
SBAS system: BDSBAS (China)
SBAS system: MSAS (Japan)
SBAS system: GAGAN (India)
SBAS system: KASS (Korea)
SBAS system: SouthPAN (Australian + New Zealand)
Built-in NIC anti-jamming unit
Four mounting holes
USB-C connector
Backup battery
GNSS receiver
u-blox F10 engine
Digital I/O
EXTINT input for wakeup
JTAG debug interface (disabled by default)
RF interference and jamming detection/reporting
Spoofing detection/reporting
Secure boot for firmware integrity
Signed UBX messages (SHA-256
Antenna switch function
Supports external active antenna (optional)
Integrated RTC crystal and TCXO

Specifications:

Concurrent signal reception: 5 + QZSS
Breakout board dimensions: 1.60" x 1.60" (40.6mm x 40.6mm)
Breakout board weight: 0.84oz (23.75g)
Mounting hole compatibility: 4-40 screw compatible
Connections: 14 PTH Pins
UART interfaces: (x1)
Connections: 6 PTH pins (BlueSMiRF/Serial-to-UART)
PWR LED: Red 3.3V power indicator
PPS LED: Green PPS signal indicator
GPS: L1 C/A, L5
QZSS: L1C/A, L5
Galileo: E1B/C, E5a
BeiDou: B1C, B2a
NavIC: L5
SBAS: L1 C/A, L1S, L1Sb, B1C
Tracking & Navigation sensitivity: -164dBm
Reacquisition sensitivity: -156dBm
Cold start sensitivity: -145dBm
Hot start sensitivity: -156dBm
Update rate: Up to 10Hz
Horizontal position accuracy: 1.0m CEP (with SBAS)
Horizontal position accuracy: 1.5m CEP (without SBAS)
Cold start acquisition: 28s
Aided start acquisition: 2s
Reacquisition acquisition: 2s
Interfaces: 1x UART
Configurable timepulse: 0.25Hz to 10MHz
NMEA: 2.1, 2.3, 4.0, 4.10, 4.11 (default)
Communication protocol: UBX binary
Communication protocol: RTCM v3.4
Communication protocol: SPARTN v2.0.2
Power supply: 2.7V to 3.6V
Backup supply: 1.65V to 3.6V
Power consumption: 63 mW (continuous tracking, 3V)
Temperature range: -40°C to +85°C
Package: 56-pin LCC package
Package dimensions: 20 x 20 x 11.6mm
Package weight: 17.5g

A strong fit for navigation, tracking, timing and robotics projects that need dual-band GNSS performance in a compact breakout format.

Jargon buster

Plain-language definitions for the technical terms used above.

5G: 5G is the fifth-generation mobile network standard, offering higher-speed, lower-latency wireless data than earlier 4G/LTE networks. 5G modems can move large amounts of data over cellular networks but may draw significant current and need a suitable aerial and reliable power.
B2a: A BeiDou satellite signal used by newer dual-band GNSS receivers. Support for B2a can improve accuracy and reliability when combined with other GNSS bands.
BDS: BeiDou, China’s satellite navigation system. Support for BDS gives the receiver access to more satellites, which can help maintain a better position fix in challenging locations.
breakout: A breakout board carries a small or fine-pitched component and brings its connections out to standard, breadboard- and header-friendly pins. Describing a part as a breakout means it can be wired into a project without soldering directly to the component's tiny contacts.
E5a: A Galileo satellite signal band used for higher-performance positioning services. Support for E5a can help dual-band GNSS receivers improve accuracy and reduce errors from atmospheric delay.
EGNOS: Europe’s SBAS service for improving GNSS positioning accuracy and reliability. It is relevant if the receiver will be used in Europe or nearby supported areas without an RTK correction link.
GAGAN: India’s SBAS service for improving GNSS positioning. It matters for projects in its coverage region because it can improve standard GNSS accuracy when RTK is not being used.
Galileo: Europe’s satellite navigation system. Galileo support can improve satellite availability and accuracy, especially when combined with GPS and other constellations.
GNSS: GNSS stands for Global Navigation Satellite System, an umbrella term for satellite positioning networks such as GPS, GLONASS, Galileo and BeiDou. Receivers use these satellites to determine position, and high-precision units can output a steady stream of serial position data.
GPS: The US satellite navigation system used by GNSS receivers to calculate position and time. Support for GPS is important because it is widely available and often used together with other constellations for more reliable positioning.
JTAG: JTAG is a hardware debugging and programming interface used to inspect and control chips at a low level. It matters for advanced development because it can help diagnose firmware problems that are hard to see through normal serial output.
L1C/A: A GPS signal band used by many GNSS receivers for standard positioning. Support for this band helps determine which satellite signals the receiver can use and how well it can maintain a location fix.
L5: A modern GNSS signal band used by several satellite systems for more accurate and robust positioning. Dual-band receivers that include L5 can often perform better than single-band receivers, especially for RTK and areas with reflected signals.
LED: A light-emitting diode (LED) is a small electronic component that emits light when current flows through it in the correct direction. Because it only conducts one way, its polarity matters, and a through-hole LED must be soldered the correct way around to light up.
MSAS: Japan’s SBAS service for improving GNSS positioning. It is useful to know because SBAS benefits depend on whether your project is located in the service’s coverage area.
PTH: Plated through-hole means the pin holes are metal-lined so solder connects the pad on both sides of the board. It is useful for connectors and headers that need a strong mechanical and electrical connection.
QZSS: Japan’s regional satellite navigation system designed to improve coverage around Japan and the Asia-Pacific region. QZSS support can improve satellite availability in supported regions when used alongside GPS.
RF: RF means radio frequency, referring to signals used for wireless communication and other high-frequency electronics. A low-noise, stable power supply is important for RF circuits because power noise can affect signal quality and measurements.
RTC: A Real-Time Clock keeps track of time even when the main processor is asleep or powered down, usually with a small backup battery. It matters for data logging and tracking projects that need accurate timestamps.
SBAS: Satellite-Based Augmentation System, a set of regional services that broadcast correction information for GNSS receivers. SBAS can improve ordinary GPS-style positioning, although it is not the same as centimetre-level RTK correction.
UART: UART is a simple asynchronous serial interface that sends data over separate transmit and receive wires, usually labelled TX and RX, with both ends set to the same baud rate. It is a common way for microcontrollers and other serial devices to exchange data.
USB-C: USB-C is a small, reversible USB connector that can carry power, data and, on some devices, video over a single cable. The same connector can range from charging only to high-speed data, so the functions a given port actually supports vary.