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NEO/LEA-6T

u-blox 6タイミングGPSモジュール

NEO/LEA‑6T is an older generation product. For new designs see:
u-blox M8同時並行受信GNSSタイミング・モジュール

ハイライト

  • 高精度タイミング:
    • タイムパルス出力×1または2(最大10MHz)
    • 衛星1基での動作
    • タイミング精度強化のための静止(サーベイイン)モード
    • 外部イベント入力のタイムマーク
  • シュードレンジのRawデータ出力
  • UART、USB、DDC(I2C準拠)インターフェース
  • ウォームスタート/ホットスタートの時間を短縮するオンボードRTC水晶振動子
17 x 22.4 x 2.4 mm

製品バリエーション

LEA-6T-0

u-blox 6 GPSモジュール タイミング、Rawデータ

LEA-6T-1

u-blox 6 GPSモジュール タイミング、TCXO、フラッシュ

NEO-6T

u-blox 6 GPSモジュール タイミング、Rawデータ

製品バリエーションLEA-6T-0LEA-6T-1NEO-6T
GPS-only
GNSS features 
OscillatorTCXO
Area 
Global
Microprocessor on board  
Standalone module
Interfaces 
UART1
USB1
SPI1
DDC (I²C compliant)1
Electrical data 
Minimum supply [V]2.70
Maximum supply [V]3.6
Environmental data, quality & reliability 
Maximum temperature [°C]85
Minimum temperature [°C]-40
Size [mm]17 x 22.4 x 2.4
Features 
アンテナ断線検出ピン-
アンテナ短絡検出 / 保護ピン-
プログラマブル・フラッシュ・メモリ--
アクティブ・アンテナ / LNA供給-
追加LNA-
追加SAW-
外部割り込み / ウェークアップ-
内蔵発振器-
RTC 水晶振動子-
タイムパルス出力-

製品概要

NEO-6T / LEA-6T Product Summary
328 KB

インテグレーション・マニュアル

LEA-6/NEO-6/MAX-6 Hardware Integration Manual

09-Oct-2017

2.68 MB

インターフェース・マニュアル

u-blox6 Receiver Description Protocol Specification
3.71 MB
u-blox6 GPS/GLONASS/QZSS Receiver Description Protocol Specification
2.08 MB

アプリケーション・ノート

Data, Clock (IODC) Value Selection Process and IS-GPS-200H Compliance Statement

15-Mar-2018

43 KB
u-blox Production Test Information

22-Nov-2016

549 KB
GLONASS & GPS HW designs recommendations
899 KB
GPS Antennas: RF Design Considerations for u-blox GPS Receivers
1.33 MB
GPS-based Timing Application Note
1.09 MB
Power Management Considerations with u-blox 6 GPS receiver designs
928 KB

リリースノート

u-blox GNSS Sensor Device Driver for Windows, v2.40

21-Dec-2017

129 KB
u-blox GNSS VCP Device Driver for Windows, v3.10

01-Nov-2017

126 KB
u-blox GNSS VCP Device Driver for Windows, v3.03

28-Apr-2017

125 KB
u-blox GNSS Sensor Device Driver for Windows, v2.33

28-Apr-2017

125 KB

ドライバー

u-blox GNSS Sensor Device Driver for Windows, v2.40

01-Nov-2017

4.95 MB
u-blox GNSS VCP Device Driver for Windows, v3.10

01-Nov-2017

5.47 MB
u-blox GNSS Sensor Device Driver for Windows, v2.33

28-Apr-2017

4.94 MB
u-blox GNSS VCP Device Driver for Windows, v3.03

28-Apr-2017

4.76 MB
u-blox GNSS Standard Driver for Windows, v1.2.0.8
582 KB

インストール・ガイド

u-blox GNSS Sensor and VCP Device Driver User Guide

01-Nov-2017

1.87 MB
Selection guide for u-blox GNSS USB Windows driver

01-Nov-2016

354 KB

適合宣言書

LEA-6T Declaration of Conformity (RED)

10-Jan-2018

69 KB

概要

u-blox Package Information Guide

21-Aug-2018

2.55 MB
u-blox GNSS module overview

14-Feb-2017

690 KB

ホワイトペーパー

GPS Compendium Book
5.75 MB
Anti-jamming techniques in u-blox GPS receivers
854 KB
u-blox’s comprehensive approach to multi-GNSS positioning
1.14 MB
u-blox's GNSS and cellular module philosophy
451 KB
u-blox M8 and u-blox 7: Two u-blox GNSS platform generations address all market requirements
331 KB
The promising marriage of wireless and GPS technologies
1.59 MB

The NEO‑6T/LEA‑6T modules provide precision GPS timing for demanding synchronization applications such as basestations. This module features user configurable frequency and timepulse outputs. An accuracy of up to 15 ns is achievable by using the quantization error information to compensate the granularity of the time pulse. NEO‑6T/LEA‑6T feature a time mode function whereby the GPS receiver assumes a stationary 3D position, whether programmed manually or determined by an initial self‑survey. During stationary operation GPS timing is possible with only one visible satellite. This means that time can be maintained even under adverse signal conditions or in environments with poor sky visibility. A built‑in time mark and counter unit provide precise time measurement of external event inputs. T‑RAIM (Timing Receiver Autonomous Integrity Monitoring) is available to detect faulty GPS measurements. NEO‑6T/LEA‑6T deliver raw pseudorange data for survey and specialist applications. NEO‑6T/LEA‑6T modules are manufactured in ISO/TS 16949 certified sites. Each module is tested and inspected during production. Qualification tests are performed as stipulated in the ISO16750 standard: “Road vehicles – Environmental conditions and testing for electrical and electronic equipment”.