GPS/GNSS Modules

Multi-GNSS Disciplined Oscillator Model GF-8801/02/03

(GF-8801/GF-8802/GF-8803)

Ultra-small size form factor featuring atomic clock level frequency stability with 24h holdover.

GF-88 series is a full-featured multi-GNSS disciplined oscillator (GNSSDO), embedded with multi-GNSS receiver, OCXO, LDO regulator and antenna detection circuit in a compact pin-header module.
It provides outputs of one-second pulse (1PPS), synchronized with Coordinated Universal Time (UTC), and reference frequency (10MHz) signal.

Combined with ultra-miniature OCXO, GF-8802 / 8803 (approx. 34mm x 27mm) builds up a holdover function which can maintain within 10μs / 24 hours(ex.GF-8803) in case that GNSS falls into unlock. There is also low-profile module called GF-8801 embedded with TCXO on the same form factor. 3 available models save significant time and effort during product design.

Documents, Software

Timing

Features

  • Generates UTC-synchronized 1PPS (pulse per second) and continuously disciplined 10 MHz

  • One-module combining a GNSS receiver, crystal oscillator and peripheral circuits that dramatically reduces design cycle (time-to-market) of wireless system.

    GNSS Receiver manufacturer featured one-package solution (no need external CPU)

  • Extremely high stability of 4.5ns (1sigma) using a single band receiver compliant with G.8272 PRTC-A, PRTC-B

    FURUNO technology made it possible to achieve 5G performance with 4.5ns (1 sigma) stability by single band receiver. For example, GF-8803 is compliant with G.8272 PRTC-B. This is achieved by an improved and advanced position estimation algorithm. It optimizes position calculations using several different GNSS satellite constellations. It allows users to achieve 5G-required performance without changing existing single band GNSS antennas.

    White Paper: High Stability of 4.5ns (1 sigma) using a single band GNSS timing receiver

  • Suitable for various RF・Broadcasting applications. Designed functions aiming to solve usual troubles on site.

    The number of radio stations applied with GNSS time synchronization, ex. PMR, local 5G, and V2X, has been increasing year by year. Especially in urban area, users have to face problems such as urban canyon (signals blocked) and multi-path (signals reflected) etc.

    GF-88 series have embedded solutions against;

    1. Multipath in Urban area
    2. Jamming (interference wave)
    3. Spoofing
    4. Interruption of GNSS signal (holdover)

    In addtion, as a longterm supplier of major mobile base venders, Furuno keeps the same carrier grade quality on GF series as well.

    White Paper: Countermeasure for GNSS receiver failure

    1.GNSS antennas can be mounted on walls and windows of tall buildings
    The Dynamic Satellite Selection™* minimizes deterioration of time synchronization performance by choosing only the high quality satellite signals
    * a new satellite signal selection algorithm developed by NTT



    * GF-880x : GT-88 + OCXO/TCXO
    2.Jamming (interference wave)

    If GNSS receiver is interfered by jamming signals, it can mitigate the negative impact and prevent GNSS signal loss or failure. It also helps investigate the source by detecting and monitoring frequency and power level from the jamming signals.

    3.Spoofing

    Malicious spoofing signals intentionally mislead the position and timing calculation of the GNSS receiver. Therefore it is designed to detect and cancel such effects and protect the system from spoofing attack.

    4.Interruption of GNSS signal (holdover)

    Even if the receiving satellites are all lost due to antenna failure, jamming, signal interruption, the timing function keeps working for a holdover period of time.
    ・In case GNSS positioning is interrupted, it predicts and corrects oscillator performance through exclusive adjusting technology.
    ・Excellent cost performance as replacement for atomic oscillator.

  • A lineup of 3 compact size models of "Short" form factor.

    GF-8801, GF-8802, GF-8803 are small and low-profile models for size oriented users. 3 models are all pin compatible with same output, the only difference is the holdover performance.

    For very high accuarcy end users, GF-8804 and GF-8805 provides superlative holdover function (i.e. Grande form factor).

    [Specification]    
    Form factor Model 1PPS Accuracy 10MHz Short Term Stability
    (Root Allan variance ( =1s))
    Size (mm)
    Lock State Holdover
    Lock State, Holdover
    Short GF-8801 < ±40ns - < 5×10-10 34×27×11
    GF-8802 < ±40ns < ±50μs/24h < 5×10-11 34×27×15.5
    GF-8803 < ±40ns < ±10μs/24h < 2×10-11 34×27×20
    Grande GF-8804 < ±40ns < ±5μs/24h < 1×10-11 100×52×20
    GF-8805 < ±40ns < ±1.5μs/24h < 1×10-11 100×52×20

    [Test data]
    1PPS Timing Accuracy <± X μs continued from start of holdover.
    * Reference information only, values not guaranteed.
    Form factor MODEL 1PPS Accuracy
    < ±0.1μs < ±0.4μs < ±1.1μs < ±1.5μs < ±5μs < ±10μs
    Short GF-8802 - - 1h 2h 8h 16h
    GF-8803 - 1h 3h 4h 16h -
    Grande GF-8804 - 2h 6h 8h - -
    GF-8805 2h 6h 18h - - -
  • Coherent behavior between time pulse (jitter less 1PPS) and frequency (10 MHz)

  • Single satellite tracking capable operations (except Navigation Mode)

  • Synchronization with external pulse

    Enables synchronizing to time pulse from an external source
    ・Usable to synchronize to time information such as IEEE1588 or SyncE obtained through the network
    ・Improves robustness of the system
  • Enhance performance in combination with recommended antenna

    AU-300 Multi-GNSS Timing Antenna delivers both high stability and high robustness.

Specifications

GENERAL

GNSS Reception Capability
GPS L1C/A, GLONASS L1OF, Galileo E1B/E1C, QZSS L1C/A, QZSS L1S, SBAS L1C/A
GNSS Reception
32 channels
Sensitivity
GPS
Tracking: > -162 dBm
Acquisition: > -148 dBm

GLONASS
Tracking: > -158 dBm
Acquisition: > -144 dBm

Galileo
Tracking: > -146 dBm
Acquisition: > -136 dBm

QZSS
Tracking: > -147 dBm
Acquisition: > -131 dBm

*Measurement platform with recommended active antenna
ITU-T Recommendation
GF-8801
Compliant with G.8272 PRTC-A

GF-8802/GF-8803
Compliant with G.8272 PRTC-A, PRTC-B
Initial Stabilization Time
< 5 minutes (until lock state)
10 MHz Output
Square pulse
10MHz Output (Lock State)
GF-8801
10MHz Long Term Stability (24h average): < ± 1 × 10-11
10MHz Short Term Stability (Root Allan variance ( =1s)): < 5 × 10-10

GF-8802
10MHz Long Term Stability (24h average): < ± 1 × 10-12
10MHz Short Term Stability (Root Allan variance ( =1s)): < 5 × 10-11

GF-8803
10MHz Long Term Stability (24h average): < ± 1 × 10-12
10MHz Short Term Stability (Root Allan variance ( =1s)): < 2 × 10-11
1PPS Output (Lock State)
1PPS Accuracy: < ± 40ns (vs UTC)
1PPS Stability: < 4.5ns(1 σ)

*Open sky
10MHz Output (Holdover)
GF-8801
-

GF-8802
10MHz Long Term Stability (24h average): < ± 1 × 10-9
10MHz Short Term Stability (Root Allan variance ( =1s)): < 5 × 10-11

GF-8803
10MHz Long Term Stability (24h average): < ± 2 × 10-10
10MHz Short Term Stability (Root Allan variance ( =1s)): < 2 × 10-11
1PPS Output (Holdover)
GF-8801
-

GF-8802
1PPS Accuracy: < ± 50μs/24h
(< ± 3μs/1h(TYP))

GF-8803
1PPS Accuracy: < ± 10μs/24H
(< ± 3μs/1H(TYP))
Supply Voltage
3.7 VDC
Power Consumption
GF-8801
< 150 mA

GF-8802
450 mA(Typ)

GF-8803
600 mA(Typ)

*When supply voltage is stabilized
Operating Temperature
-40°C to +85°C
Antenna Detection
Short and Open Detection
Outer Size
GF-8801
34 mm x 27 mm x 11 mm

GF-8802
34 mm x 27 mm x 15.5 mm

GF-8803
34mm × 27mm × 20mm
Protocol
eSIP (NMEA 0183 Standard Ver 4.10)
Functions
Anti-Jamming (8CW), Multipath Mitigation (Dynamic Satellite Selection™), Anti-Spoofing, T-RAIM, Synchronization with external pulse

Countermeasure for GNSS receiver failure

We provide technical white papers for each of the typical failures caused by GNSS receiver. For each failures, our experts in time synchronization explain details about countermeasures on receiver side, using diagrams to show the effectiveness, and how to select products. If you are considering a GNSS receiver for the first time, please take a look.

  1. High stability with single band receiver
    White Paper: High Stability of 4.5ns (1 sigma) using a single band GNSS timing receiver
  2. Multipath in Urban area
    White Paper: Industry-leading multipath mitigation in urban canyon environments
  3. Jamming (interference wave)
    White Paper: Measures against GNSS jamming (jamming wave)
  4. Spoofing
    White Paper: Measures against GNSS spoofing signals
  5. Interruption of GNSS signal (holdover)
    White Paper: "Holdover function" as measures against GNSS reception interruptions

Download form

Evaluation Kit

P/N VF-81 : Evaluation kit for GF-8801
P/N VF-82 : Evaluation kit for GF-8802
P/N VF-83 : Evaluation kit for GF-8803

Connect the PC with a USB port to communicate. Output time pulse (1PPS) and 10 MHz reference frequency (selectable) from a SMA terminal.

Contents: GNSS antenna, CD (GNSS Conductor GF), USB cable


Evaluation kit configuration (video)
simple use by connecting the GNSS antenna with the power supply.

Our Customers

GF-88 series is selected as a core part of Grandmaster Clock (GMC), which plays key role in synchronization of network devices.

Seiko Solutions Grandmaster Clock: calibration system of mechanical watch Grand Seiko (Page in Japanese only)

Quote Request

Please fill out the quote form and our staffs will respond to you shortly.
 

This is a quote form only for GNSS receivers for time synchronization.
For other contents, please contact us using the respective inquiry form.

Quote request form

Documents, Software

Download documents and software related to this product and other GPS/GNSS products (Specifications document, Drivers and Monitor software).
 

Download contents for GF-8801/02/03

  • Hardware Specifications
  • Protocol Specifications
  • 3D data
  • Monitoring Software
  • User's Guide
  • User's Guide For Evaluation Kits
  • White Paper (Countermeasure for GNSS receiver failure)
  • Article (Supporting Industrial and Societal DX Through Time Synchronization)
  • Article (Strengthening Critical Global Infrastructure: Ushering in an Era of Dual Band GNSS Signal Reception for Time Synchronization)
  • Article (Basics of Network Time Synchronization)
  • Article (Supporting nanosecond-precise infrastructure with GNSS technology cultivated from marine business)

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Documentation

* Specifications subject to change without notice.