FeiYu Tech Hornet-OSD User Manual

Hornet-osd manual

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Guilin Feiyu Electronic Technology Co., Ltd. http://www.feiyudz.cn Email: [email protected]

Guilin Feiyu Electronic Technology Co., Ltd.

http://www.feiyudz.cn Email: [email protected]

Page 1

Hornet-OSD Manual

Dear customers:

Hello! Thank you for purchasing the OSD of Guilin Feiyu Electronic Technology Co,

Ltd. In order to achieve full potential and safe operation of this product, please carefully
read this manual prior to installation.

Preface

The Hornet-OSD overlays flight telemetry information onto your video image. The

telemetry information displayed includes flight altitude, flight speed, flight direction, and
home direction and so on. You also can save the telemetry information to a MICRO SD
card (

you should buy the card by yourself, we don‟t provide it, picture is shown as below

),

then realizing trace playback via FYGCS. The Hornet-OSD can be connected to the
FY-21AP, FY-31AP, FY-3ZT or Panda systems to display autopilot telemetric data, or to a
GPS receiver to display positioning data.

Hornet-OSD automatically adapts to either PAL or NTSC video input and confirms if

there is a MICRO SD card or not. The adaptive processes are within about 20 seconds.

Working status explanation:

After connecting the power supply, the indicator LED light will be activated. The

Hornet- OSD will automatically detect the incoming video (NTSC or PAL).The "NTSC" or
"PAL" will overlaid on the screen when the video signal is detected. If Data is received
from the autopilot (FY-21AP, FY31AP, FY-3ZT, Panda or GPS module) the LED indicator
of Hornet- OSD will begin to flash. If not, the Hornet-OSD will automatically restart after
waiting for 20 seconds.

Once the input video is detected even if there is interruption to the video signal, the

telemetry data of the Hornet- OSD will continue to be transmitted via the video stream.

Interface Schematic Diagram:

1. DANGER: The three “VCC” ports (positive) for Video In, Video Out and Power In are all

inter- connected. Therefore you are allowed to connect ONE input voltage only. DO NOT

input more than one power supply or damage to the OSD will occur.

2. It is recommended to power the OSD independently to ensure a clean video display.

3. Note that power to the OSD is not supplied by the Autopilot module. Power is via the 12 volt

input.

List of Interfaces

PORT

Connection Description

Video in

Camera or video input port

Video out

OSD Overlaid video output, connect to video transmitter or video screen

SW

RC receiver switch input to control OSD display

Power

OSD video overlay board and camera and video transmitter power supply.

Data in

FY-21AP/FY-31AP/FY-3ZT/

Panda

/GPS data interface

Current Sensor

Current sensor input for measuring the battery voltage and current.

Detailed description of the “Video in” port

GND

Connect to the camera GND

VCC

Connect to camera‟s power supply “VCC”.

(Note: Power is supplied from the OSD to the Camera. Do not input any other
power supply through this port or damage will occur).

Video IN

Video input (Connect to the camera video signal output).

Detailed description of the “Video out” port

GND

Connect to video transmitter GND

VCC

Connect to video transmitter power supply input “VCC”.

(Note: Power is supplied from the OSD to the video transmitter. Do not input
any other power supply through this port or damage will occur).

Video Out

Video output (connect to video transmitter video input).

Detailed description of the “SW” port

GND

Connect to the power “GND” port of the RC receiver.

PWM IN

Connect to the signal port of your RC receiver (you need to designate to a free
channel).

Detailed description of the “Power” port

GND

Connected to the power “GND” that supply to the OSD control board.

VCC

Connect to the power “VCC” that supply to the OSD control board(Safe input
range:

DC6V to 12V

)

Note: this power supply is sent directly to your Video Camera and Video
Transmitter. E.g. if you are using a 12 volt Video Camera and Transmitter, the
input voltage should also be 12 volt.

Detailed description of the “Data in” port

GND

FY-21AP /FY-31AP /FY-3ZT/

Panda

GND ,or the GND of the GPS

+3.3V

Use only to supply power to the FY-GPS module.
(

DO NOT

connect this port to the FY-21AP /FY-31AP /FY-3ZT/

Panda

).

Data TX

Connect to the “RX1” data output port of the FY-21AP /FY-31AP /FY-3ZT/

Panda

, or the “RX” port of the GPS module.

Data RX

Connect to the “TX1” data output port of the FY-21AP /FY-31AP /FY-3ZT/

Panda

, or the “TX” port of the GPS module.

Detailed description of the “Current Sensor” port

ENG VCC

Connect to battery positive (Red)

CUR AD

Connect to the current sensor output signal (White)

+5V

+5V power supplied to the current sensor from OSD (Yellow)

ENG GND

Connect to battery negative (Black)


Current Sensor









Application diagram

The Hornet-OSD can directly connect to the data output port of

FY-21AP /FY-31AP

/FY-3ZT/

Panda, or separately connect to the output port of GPS module, and then overlay

the flight data information to the video signal. The application diagram is shown as bellow.

Note:The modules in the imaginary line frame means that you can choose any one of these

modules to connect.

Introduction for the flight State of

FY-21AP /FY-31AP /FY-3ZT/

Panda

Name

Introduction

RC

Manual Flight. Autopilot deactivated.

ABM

Auto balance mode

FAF

For FY-21AP:Fixed Altitude flying mode; for FY-3ZT/FY-31AP/ Panda : Air route fly
mode

RTL

Auto Return Mode

ACM

Auto Circle Mode

Figure4. Connection Schematic Diagram

GND VCC

Video IN

GND VCC

Video Out

GND VCC

GND PWM

ENG GND +5V CUR AD ENG VCC

GND +3.3 Data TX Data RX

Current Sensor

Data in

SW

Power

Video out

Video in

Feiyu Tech

MICRO SD card

Figure3. Current Sensor

Red
White
Yellow
Black

Battery Positive Input

Output to ECS Negative

Battery Negative Input

Output to ECS Positive

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