FS-GF801 User’s Manual Favite Inc.
Table of Contents CHAPTER 1 .......................................................................................................................... 3 Introduction ................................................................................................................ 3 RFID Reader Overview ........................................................................................................ 3 EPC Class 1 UHF RFID Tags .............................................................................
CHAPTER 1 Introduction This Hardware Setup Guide provides instructions for installing and operating the FS-GF801 RFID Readers. This document is designed for use by RFID system integrators and software developers - those who wish to develop software products and extended systems that take full advantage of the RFID Reader's capabilities. Included with each reader or developer kit are the Favite RFID Reader Software Developer’s Kit and User Documentation on FTP Server or download in Favite web ( http://rfid.
For more information about RFID tags from Favite Inc., please visit our website at http://rfid.favitete.com. Requirements To interface with the RFID Reader you will need the following: Standard DC 19V, 3.42A Power supply and Host software (Favite demo software or your own custom software implement by Favite Software Development Kit.
Module Specifications System Host Interface Chipset (USB / UART/ RS232 / LED / Reset / Debug Port / GPIO / SAMBA / VCC in / GND) PHY: Impinj R2000 MAC: ATMEL AT91SAM7S-256 Operating Voltages 12.0V+/-5% or 5.0V+/-5% (option) DC Power 12V:1.
FS-GF801 RFID module will use in the following host. 195 219.42 Mechanical: Reader Physical Size 221 Figure 2 - Outline Drawing of the FS-GF801 (2) 6 61.62 42.30 71.
Figure 3 - Outline Drawing of the FS-GF801 (3) Figure 4 - Outline Drawing of the FS-GF801 (4) 7
On Wall Fixed Way Figure 5 - On Wall Screw Position SMA Female Connector Wall Mount Self Tapping Screw Wall Hanging hool Figure 6 – Wall Hanging Way Note: Please use self tapping screw. The length of the screw is 30mm and the outdoor diameter of the screw is 4mm.
1 2 3 4 5 6 7 8 Figure 7 - Outline Drawing of the FS-GF801 Antenna Port Series Antenna Port Terminal Interface: Mono-Static Mode TX/RX Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 Table 1 – Mono-Static Mode Antenna Port definition of FS-GF801 Antenna Port Terminal Interface: Bi-Static Mode TX Port Port Port Port 1 2 3 4 RX Port Port Port Port 5 6 7 8 Table 2 – Bi-Static Mode Antenna Port definition of FS-GF801 9
Reader I/O Terminal Figure 8 - FS-GF801 GPIO Pin definition and Power Supply, VGA, RJ-45, USB port description. A ○ Power Button: Press this button to turn on FS-GF801. B Power Connector: ○ Plug the power cord to this connector. C VGA Port: ○ Monitor can be connected to VGA port. D Reset Switch: ○ Press this button to start the hardware reset. E RJ-45 LAN Port: ○ The Ethernet LAN port provides Internet connection at up to 1Gbps data rate.
GPIO Port Terminal Interface Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Signal input 1 Signal input 2 Signal input 3 Signal input 4 Signal input 5 Signal input 6 Signal input 7 Signal input 8 Signal output 1 Signal output 2 Signal output 3 Signal output 4 Signal output 5 Signal output 6 Signal output 7 Signal output 8 Ground Ground 24 V input 24 V input Table 3 – Pin definition of the GPIO 11
GPIO O Port Te erminal C Circuit Diagram D Figure 9- Circuit C Diagraam Pin definitiion Figure 10- Circuit Diagram D Pin definition d of Siignal output 12
Figuree 11- Circuit Diagram D Pin definition d of Signal S input Notte. If FSS‐GF801 wants to receiive data from other device througgh GPIO, pleease connecct 24V pow wer source tto PIN19 or PIN20 and connect thee device ou utput line to o Pin 1~ Pin8 8. The e developmeent of progrramming off receiving data d from GPIO could rreference th he document “Speecification for f GM‐801 GPIO API.cchm” and seee the sessio on 4.6 or 4.11 to d data from m GPIO with application n method.
CHAPTER 2 Reader Hardware Installation and Operation This chapter describes the RFID Reader and provides installation and operation information. Receiving the RFID Reader Your RFID Reader Kit is shipped with the items listed below. Please verify the contents of your received shipment before assembling.
Figure 13 - FS-GF801 Power Supply and Adapter cable 15
Figure 14 - FS-GF801 Power Supply and Adapter cable 16
Diagnostic LEDs The FS-GM201 includes diagnostic LEDs on the face of the reader to provide easy and convenient external indication for various operating conditions: Power (green) – indicates power is applied to the reader. Read (yellow) – indicates that the reader is receiving data from a tag. Fault (red) – indicates a fault condition like CRC check error with the reader.
Antenna Panel The antenna panel contains eight coax antenna connector ports as shown below. These are SMA connectors. Figure 16 - Antenna Connections CAUTION: Reader antennas should be positioned so that personnel in the area for prolonged periods may safely remain at least 23 cm (9 in) in an uncontrolled environment from the antenna’s surface. See FCC OET Bulletin 56 “Hazards of radio frequency and electromagnetic fields” and Bulletin 65 “Human exposure to radio frequency lectromagnetic fields.
Demonstration Software Guide Please see the document “FAVITE_FS_GF801_Demo_API_User_Guide.doc”, “FS-GF801 GPIO Test API User Guide.doc”. “FS-GF801 DotNet CSharp API Programming Guide.doc”.
FCC statement in User’s Manual (for class B) “Federal Communications Commission(FCC) Statement” This Equipment has been tested and found to comply with the limits for a class B digital device, pursuant to Part 15 of the FCC rules. These Limits are designed to provide reasonable protection against harmful interference in a residential installation.
USERS MANUAL OF THE END PRODUCT: In the users manual of the end product, the end product, the end user has to be informed to keep at least 23cm separation with the antenna while this end product is installed and operated. The end user has to be informed that the FCC radio‐frequency exposure guidelines for an uncontrolled environment can be satisfied.
