High Precision Direction Finding Receiver

High Precision Direction Finding Receiver

ER-SR-32C Features:
1. A high performance of the multimode receiver;
2. Has small volume, light weight, installation, convenient carrying etc;
3. Used in various fields of navigation and positioning and heading.

High Precision Direction Finding Receiver

High Precision Direction Finding Receiver

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    Introduction

    ER-SR-32C High Precision Direction Finding Receiver

    Introduction

    ER-SR-32C series High Precision Direction Finding Receiver is a high performance of the multimode receiver. In terms of packaging, the ER-SR-32C series receiver has the characteristics of small size, light weight, convenient installation, and convenient carrying. This machine has multiple serial ports to communicate with external devices, and can also output high-precision positioning heading and other information. ER-SR-32C can be used in various navigation positioning and heading fields, such as ship navigation, vehicle positioning, scientific research and power failure detection, and the receiver can be packaged with BDM 651/670/680 board cards.

    Specifications

    Performance index
    The size (not including antenna socket) 188mm×155mm×50mm
    Weight <1.3kg
    Power waste ≤5W
    Horizontal positioning accuracy (RMS) 1.5m
    RTK accuracy (horizontal) Level: 25px+1ppm; vertical 50px+1ppm
    Direction finding accuracy (RMS) 1m baseline 0.2 degrees, 2m baseline 0.1 degrees
    Data update rate 5Hz
    Power input 8~20VDC (recommend 12VDC)
    Working temperature -40℃~+70℃
    Storage temperature -45℃~+85℃
    Humidity 5%~95% relative humidity, no condensation
    Interface type 2 antenna interface (TNC female), 1 power interface (LEMO)
    2 communication interface (LEMO), Optional built-in radio (received)

    Application Techniques

    1.What is the Device Interface Definition of MEMS North Seeker

    2.What Performance is the FOG sensor in FOG North Finder

    3.Where are MEMS Gyroscopes Used?

    4.Research Background and Current Status of MEMS IMU

    5.How do parameters affect the performance of the quartz accelerometer?

    6.Background and Development Status of MEMS Inertial Sensors


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