U IT CCR-900 900 MHz RF Reader User Manual CCR 900 user s manual

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User’s Manual
CCR-900
U-IT Co., Ltd.
TABLE OF CONTENTS
1.
GENERAL.....................................................................................................................................................1
2.
PRODUCT SPECIFICATION.....................................................................................................................2
2.1.
RF READER SPECIFICATION ............................................................................................................................... 2
2.2.
RF TAG SPECIFICATION ...................................................................................................................................... 2
2.3.
COMMUNICATION SPECIFICATION ...................................................................................................................... 3
3.
FEATURES ...................................................................................................................................................4
4.
INTERFACE AND CONNECTION ...........................................................................................................5
5.
6.
7.
4.1.
TB201(DC POWER CABLE) ............................................................................................................................... 6
4.2.
TB202(HOST MODE, IN/OUT CABLE) .............................................................................................................. 6
4.3.
CN103(TAG REGISTER / PROGRAM UPGRADE))................................................................................................ 6
4.4.
INPUT PORT ........................................................................................................................................................ 6
4.5.
OUTPUT(A POINT OF CONTACT RELAY) PORT: .................................................................................................... 6
DIP SWITCH SETUP...................................................................................................................................7
5.1.
COMMUNICATION SETUP DIP SWITCH(SW101)................................................................................................. 8
5.2.
COMMUNICATION LINE SETUP DIP SWITCH(SW103) ......................................................................................... 8
5.3.
OPERATION SETUP DIP SWITCH(SW102)........................................................................................................... 9
5.4.
RELAY SETUP DIP SWITCH(SW201) .................................................................................................................. 9
COMMUNICATION CONNECTION METHOD...................................................................................10
6.1.
HOST COMPUTER OR TF-3700C CONTROLLER AND RS-232C CONNECTION .................................................... 10
6.2.
HOST COMPUTER OR TF-3700C CONTROLLER AND RS-485 CONNECTION (1:1) .............................................. 10
6.3.
HOST COMPUTER OR RS-485 CONNECTION (1:N)............................................................................................ 10
PRODUCT APPLICATION ...................................................................................................................... 11
7.1.
STAND ALONE MODE ....................................................................................................................................... 11
7.1.1.
RFID TAG Registration............................................................................................................... 11
7.1.2.
Communication Setup DIP Switch (SW101) Setup .................................................................... 11
7.1.3.
Operation Setup DIP Switch (SW102) Setup ..............................................................................12
7.1.4.
Relay Setup DIP Switch (SW201) Setup.....................................................................................12
7.2.
7.2.1.
Communication Setup DIP Switch (SW101) Setup ....................................................................12
7.2.2.
Operation Setup DIP Switch (SW102) Setup ..............................................................................12
7.2.3.
Communication Line Setup DIP Switch (SW103) Setup ............................................................12
7.2.4.
Relay Setup DIP Switch (SW201) Setup.....................................................................................12
7.3.
8.
COUPLED MODE............................................................................................................................................... 12
TEST MODE ...................................................................................................................................................... 12
7.3.1.
Communication Setup DIP Switch (SW101) Setup ....................................................................12
7.3.2.
Operation Setup DIP Switch (SW102) Setup ..............................................................................13
7.3.3.
Communication Line DIP Switch (SW103) Setup ......................................................................13
7.3.4.
Relay Setup DIP Switch (SW201) Setup.....................................................................................13
7.3.5.
Test List .......................................................................................................................................13
COMMUNICATION PROTOCOL ..........................................................................................................14
8.1.
TRANSMISSION CONTROL CODE ...................................................................................................................... 14
8.2.
RFID TAG READING TRANSMISSION FRAME .................................................................................................. 14
8.3.
COMMAND REQUEST FRAME (HOST ÆREADER) ............................................................................................. 15
8.4.
RESPONSE FRAME (READER Æ HOST) ............................................................................................................. 16
8.5.
TRANSMISSION ORDER .................................................................................................................................... 16
8.5.1.
Normal Operation: TAG is read during the TAG Reading Standby Mode, Transmitted Valid TAG ID to
the HOST .....................................................................................................................................................16
8.5.2.
Normal Operation: TAG is read during the TAG Reading Standby Mode, Transmitted Invalid TAG ID
to the HOST ..................................................................................................................................................17
8.5.3.
Positive Response after one Command Request Frame has been transmitted.............................17
8.5.4.
Negative Response after one Command Request Frame has been transmitted ...........................18
8.5.5.
When many numbers of Command Request Frame have been transmitted ................................19
8.6.
PRODUCT IMAGE .............................................................................................................................................. 20
9.
8.6.1.
MAIN PCB..................................................................................................................................20
8.6.2.
Frontal View ................................................................................................................................21
8.6.3.
Rear View ....................................................................................................................................22
PRODUCT INSTALLATION....................................................................................................................23
9.1.
RFID TAG POSITIONING AREA FOR THE VEHICLE ........................................................................................... 23
9.2.
PRODUCT INSTALLATION LOCATION ................................................................................................................. 24
9.2.1.
Installation location at the two lanes road with a center divider being present ...........................24
9.2.2.
Installation location at the two lanes road without a center divider being present ......................25
9.2.3.
Installation location at the T type intersection where a center divier is located at the entrance ..26
9.2.4.
Installation location at the T type intersection without a center diviers being present ................27
9.2.5.
General Installation tip for all the other cases .............................................................................28
1. General
This RF Reader uses 900MHz range of radio frequency to read the RFID TAG attached to the car. TAG’s ID data is
then transmitted to the Host Computer or Access controller through this RFID reader in Real time to allow the control
over the regularly parking authorized cars.
The reader is capable of reading the passive type of RFID TAG from 0.2m to 6m if RFID TAG is positioned
directly at the front of it. However, it does not read or detect the RFID TAG that is position behind it.
Also, RF Reader provides a relay output that can be connected to the bar gate control open the bar gate.
In order to operate as Standalone device, the reader also contains memory buffer which can store valid ID.
Registration of Valid ID can be handled directly from the reader.
RS-232C or RS485
RS-232C or RS485
Open Signal
BAR GATE
BAR GATE
RF Reader
RF Reader

Open Signal
BAR GATE
RF Reader


2. Product Specification
2.1. RF Reader Specification
Section
Case
Power / Current
Current Drain
Frequency
Reader
Interface
Environmental
Condition
Transmission Output
Channel intervals
Channel Bandwidth
Communication Speed
Modulation
Transmission Spectrum Mask
Spurious Transmission
Receive Gain
Accuracy of frequency
Reading Distance
Protocol
Multi-tag Read
Polarization
Host Communication
Input
Output(Dry contact Relay)
Operating Temperature
Operating Humidity
Detail
DC 12V / 3.5A
800mA, MAX 1.5A
903.6 ~ 913.4Mhz
Frequency Hopping Spread
Spectrum (FHSS)
1 Watt (+30dBm) / based on antenna input point
200KHz
200KHz
40Kbps
DSB-ASK
ISO-18000-6 compliance
RFID Technology Standards compliance
-25dBm ~ -70dBm
10ppm
0.5m ~ 6m
ISO18000-6B, ISO18000-6C
5 Tags per Second (Protocol dependent)
Circular Polarization, Optional-Vertical or Horizontal
RS-232C, RS-485
1 loop line input Port, Bar Gate S/W Input, Firmware
upgrade Pin
2 Bargate open output
-30 ~ +85 ℃
0-95%, Non-Condensing
2.2. RF Tag Specification
Section
Standard Application
Operating Frequency
Reading Distance
Data
Programmable data
Bit rate
Anti-collision
Power Source
Error Detection
Modulation Type
Material
Operating Temperature
Size
Detail
ISO 18000-6B
860~960MHz
0.2m ~ 6 m
64bit Unique ID
8192 bit
40kbps
Random number delay
Beam Powered
Preamble & 16bit CRC
Load Modulation
ABS
-40℃ ~ +75℃
85.60 x 53.98 x 3.00±0.08mm
2.3. Communication Specification
Type
Interface
Communication
Method
Detail
RS-232C or RS-485 (refer to DIP switch setting)
Half – Duplex communication method
Asynchronous communication method
/Transmission bit order
L:LSB (Least Significant bit )
M:MSB(Most Significant bit )
MARK(1)
SPACE(0)
Start bit
Parity bit Stop bit
ID Transmission immediately after decoding the Tag data (Check Circuit condition
Protocol
before RS485 setting)
Request / Response format
Bits per Second
9600 bps (Fixed)
Data Bit
8 Bit
Parity Bit
None
(Fixed)
Stop Bit
1 Bit
(Fixed)
Error Detection
Method
Transmission
CODE
Circuit Control
RS control
(Fixed)
Longitudinal Redundancy Check (LRC)
ASCII CODE (Standards)
Standard DATA transmission based upon order of the event transaction
ON only at the transmission
Circuit
Communication
Mark
Status Display
Address
Address 1 ~ 31can be setup using DIP Switch (Refer to DIP Switch Setup)
Terminal
Terminal Resistance can be applied or removed if RS-485 is used. (using Jumper Switch
Resistance
or Switch)
3. Features
Section
Detail
1).Stand Alone Mode: Contains memory space (Independent database) to register Tag ID. When
registered Tag ID is scanned, Relay is triggered.
2).Coupled Mode: When RF ID Tag has been read, Tag ID is transmitted to the host and the
Operation Mode
reader receives and processes the command which has been sent by the host. (Reader’s Database
is not used)
3).Test Mode: It runs series of tests on reader’s ability including the decoding read range. Relay
output points and other things. ( When RF ID Tag is decoded, a relay output is triggered and the
data is sent in as standalone mode)
Sound can be disabled to prevent loud noise caused by buzzer occurring in the middle of the
night.(Buzzer is disabled)
Buzzer
1). When RFID Tag’s decoding mode or management mode has been changed, the reader will
makes a short beep.
2). During the test mode, if RFID Tag is present within the read range, the reader will
continuously beep.
Normal mode LED which is red continuously flickers in 1 second interval during the transaction
to show that the reader is in operation.
LED(2 Colors)
1). Green LED light flickers when RFID Tag is read.
2). Green LED light flickers when command is transmitted.
3). Green LED light continuously flickers in 1 second interval while executing the test mode.
Reading Method
1). normal reading mode
2). Vehicle Detection hold input reading mode
1). Same RFID Tag is continuously verified
For the same RFID Tag that exists within the decoding read range, Tag ID is verified within
the predefined time frame and then transmitted to the Host.
Reading mode
2). Same RFID Tag is scanned only once.
For the Same RFID Tag that exists within the decoding read range, Tag ID is read only once
and then it is sent to the host..
(Therefore, If same RFID Tag is to be read and verified, RFID Tag needs to go outside the
decoding read range then enter back into the decoding read range.)
Reading Time
Interval
Reading Distance
Setup
Relay output
configuration
Decoding time interval is only valid when reading mode is configured as continuous reading
mode and decoding time interval for the same ID Tag scanned at the reader is set for 5 seconds
fixed.
Capable maximum read range is always set on maximum range.
1). Relay is triggered by the command sent by the host(Command) or relay is triggered by
decision made by reader’s own Database.
2).Relay is always triggered whenever RFID Tag is read.
4. Interface and Connection
Section
CN103
TB202
TB101
TAG Registration port
communication,IN/OUT cable connector
Power Connector
Type
Detail
RS-232C
Host
Communication
RS-485
Input1
Interface
Input
Input2
Etc…
Relay 1
Output
(Relay
connection
point)
Relay 2
DC Power
DC Power
TX
RX
GND
TRX+
TRXGND
Terminal 1
Terminal 2
Terminal 1
Terminal 2
NO
NC
COM
NO
NC
COM
DC+
GND
Remark
Bargate Loop detection wire
Input(A Point of contact)
Tag ID Registration input
Button Switch Input
Bargate Output for opening
Bargate Output for closing or
others
DC power line
12V 5A
4.1. TB201(DC Power Cable)
+12V
GND
4.2. TB202(Host Mode, IN/OUT Cable)
GND
SIREN
EXT
EXT
EXT
EXT
EXT
EXT
EXT
PWR
IN2
COM4
IN1
COM3
OUT2
COM2
OUT1
10
11
12
13
14
15
16
17
18
EXT
485(-)
485(+)
WD2
WD1
WD
232
232
232
GND
GND
TX
RX
COM1
4.3. CN103(TAG Register / Program Upgrade))
Program Upgrade
TAG ID Register
4.4. Input Port
Input1: Dry Contact Input is received directly from the vehicle detection loop sensor. When the vehicle is detected,
dry contact input becomes ON mode from OFF mode.
Input2: When the operation mode is set in Stand alone mode, RF Reader’s Database is used to store the TAG ID
Number. TAG ID number can be stored by reading the TAG while the switch is pressed ON.
4.5. Output(A point of contact Relay) Port:
Relay output uses a point of contact trigger signal to open and close bargate..
Relay Trigger Signal:
Relay Trigger Signal
On
1000msec
Off
T(msec)
5. DIP Switch Setup
SW101
SW102
Communication Setup DIP Switch
Operation Setup DIP Switch
SW103
Communication Line Setup DIP Switch
SW201
Relay Setup DIP Switch
OFF
SW1
ON
SW2
SW3
SW4
SW5
SW6
※ Follow the above settings for Pin 8, Pin 4 of the DIP Switch.
SW7
SW8
5.1. Communication Setup DIP Switch(SW101)
Address Setup( Default 1)
TAG Type Setup
Address
Sw 1
Sw 2
Sw 3
Sw 4
Sw 5
(Value)
(1)
(2)
(4)
(8)
(16)
On
Off
Off
Off
Off
Off
Off
On
Off
Off
Off
On
On
On
Off
Off
Off
Off
On
On
Off
Off
Sw 6
Mode Setup
Sw 7
Sw 8
Mode
ISO 6B
Off
On
Stand Alone
ISO 6C
On
Off
Coupled
Off
Off
Off
Off
Off
On
On
On
Off
Off
On
On
Off
Off
On
On
On
Off
Off
Off
Off
Off
On
Off
On
Off
Off
On
Off
10
Off
On
Off
On
Off
11
On
On
Off
On
Off
12
Off
Off
On
On
Off
29
On
Off
Off
Off
On
30
Off
On
On
On
On
31
On
On
On
On
On
Test Mode
5.2. Communication line setup DIP Switch(SW103)
SW1
SW2
SW3
SW4
RS-232 communication
OFF
OFF
ON
ON
RS-485 communication
ON
ON
OFF
OFF
5.3. Operation Setup DIP Switch(SW102)
SW
Setup Category
Switch mode
Setup Detail
Off
SW1
RFID Tag reading at Normal mode
TAG recognition method
RFID Tag reading when vehicle present loop sensor input is
On
provided
One time reading mode (If
Same RFID Tag is presented, it
Off
SW2
SW3
Setup for the verification
will recognize it in every 5 seconds.)
On
Continuous reading mode
Off
Operation based on its own memory
Relay Setup
Relay operation based on the commands received by the host
On
unit.
SW4
Off
RS-232
On
RS-485
Communication Setup
In coupled mode, DATA is transmitted regardless of RFID Tag registration
5.4. Relay Setup DIP Switch(SW201)
NO1
NC1
NO2
NC2
NO TYPE
ON
OFF
ON
OFF
NC TYPE
OFF
ON
OFF
ON
6. Communication Connection Method
6.1. Host Computer or TF-3700C Controller and RS-232C connection
HOST
RS-232C
RX
RX
RF READER
TX
TX
RS-232C
GND
GND
< Host Computer or TF-3700C >
< RF READER >
6.2. Host Computer or TF-3700C Controller and RS-485 connection (1:1)
HOST
RS-232C
RX
RX
TX
TX
GND
GND
485
Converter
TRX +
TRX +
RF READER
TRX -
TRX -
RS-485
GND
GND
< Host Computer or TF-3700C >
< RF READER >
6.3. Host Computer or RS-485 Connection (1:N)
HOST
RS-232C
RX
RX
TX
TX
GND
GND
485
Converter
TRX +
TRX +
RF READER
TRX -
TRX -
RS-485
GND
GND
TRX +
RF READER
TRX -
RS-485
GND
TRX +
RF READER
TRX -
RS-485
GND
7. Product Application
7.1. Stand Alone Mode
Contains memory space (Independent database) to register Tag ID. When registered Tag ID is scanned, Relay is
triggered.
7.1.1. RFID TAG Registration
When TAG Registration CAP is connected at CON4 located at the back of the reader, RFID TAG scanned at the
reader is being registered.
CON1
CON2
CON3
CON4
TAG Registration CAP
7.1.2. Communication Setup DIP Switch (SW101) Setup
SW1~SW5 is set as OFF (Default)
SW6 is set as OFF when ISO 6B Tag is being used, ON when ISO 6C Tag is being used.
SW7 is set as OFF, SW8 is set as ON
7.1.3. Operation Setup DIP Switch (SW102) Setup
SW1 is set as ON when Vehicle Detection Loop signal is present. Otherwise, Set as OFF
SW2 is set as ON when verified every 5 seconds.
Set as OFF is verified continuously.
SW3 is set as OFF (Independent Database)
SW4 is set as OFF (Default)
7.1.4. Relay Setup DIP Switch (SW201) Setup
Setup which falls under a given condition (refer to section 5.4 on page 8)
7.2. Coupled Mode
Tag ID is sent to the superior position (Host) when RFID Tag is read and Command received from the Host is then
executed. (Reader’s own Datable is not used)
Compatible communication method is selected for the communication between the reader and the host.
7.2.1. Communication Setup DIP Switch (SW101) Setup
Set SW1~SW5 compatible for specified ID
SW6 is set as OFF when ISO 6B Tag is being used, ON when ISO 6C Tag is being used.
SW7 is set as ON, SW8 is set as OFF
7.2.2. Operation Setup DIP Switch (SW102) Setup
SW1 is set as ON when Vehicle Detection Loop signal is present. Otherwise, Set as OFF
SW2 is set as ON when verified every 5 seconds.
Set as OFF is verified continuously.
SW3 is set as ON (Independent Database not used)
SW4 is set as OFF when RS-232 communication method is being used, OFF when RS-485 communication method
is being used.
7.2.3. Communication Line Setup DIP Switch (SW103) Setup
Communication Setup which falls under a given condition (refer to section 5.2 on page 8)
7.2.4. Relay Setup DIP Switch (SW201) Setup
Setup which falls under a given condition (refer to section 5.4 on page 8)
7.3. Test Mode
, reader can be inspected and tested on output relays, and other modes at the installation site by using reader’s
decoding read range test.
7.3.1. Communication Setup DIP Switch (SW101) Setup
SW1~SW5 is set as OFF (Default)
SW6 is set as OFF when ISO 6B Tag is being used, ON when ISO 6C Tag is being used.
SW7 and SW8 are set as OFF.
SW7 and SW8 are set as OFF
7.3.2. Operation Setup DIP Switch (SW102) Setup
SW1 is set as ON when Vehicle Detection Loop signal is present. Otherwise, Set as OFF
SW2 is set as ON when verified every 5 seconds.
Set as OFF is verified continuously.
SW3 is set as OFF when the reader operates under its own memory, ON when the reader operates under the Host
command.
SW4 is set as OFF when RS-232 communication method is being used, OFF when RS-485
7.3.3. Communication Line DIP Switch (SW103) Setup
Communication Setup which falls under a given condition (refer to section 5.2 ON PAGE 8)
7.3.4. Relay Setup DIP Switch (SW201) Setup
Setup which falls under a given condition (refer to section 5.4 ON PAGE 8)
7.3.5. Test List
Test Category
Detail
Red and Green LED lights flicker at the same time when RFID Tag is
RFID Tag Reading Test
presented within the read range.
Lights also flicker when same type of RFID Tag is presented within the
read rage.
Relay 1 Test
(Bargate trigger output)
Relay 2 Test
(Bargate trigger output)
Communication PORT Test
Sensor Test
Relay is triggered when RFID Tag has been read.(1 Second)
Relay is triggered when RFID Tag has been read. (1 Second).
When RFID TAG is recognized, Data is sent to the host using specified
communication format and protocol.
Red and Green LED lights flicker when sensor input has been detected.
8. Communication Protocol
PC는
회선(Circuit)이
접속된
RF
Reader를
순차적(In
ascending
단말번호(어드레스)가 부여된(granted) 명령(command) 프레임(Frame)을
order)
또는
독립적으로
하고 단말번호(어드레스)에
의해
지정된 RF READER만 응답한다
If there is an error occurred in Command frame, RF Reader sends the negative response to the 응답 frame,
command frame is then retransmitted.
But, Link is Lost at Time Out (1 Second).
8.1. Transmission Control Code
Symbol
Code
Detail
SOH
01H
Start Of Heading
STX
02H
Start Of Text
ETX
03H
End of Text
EOT
04H
End Of
ENQ
05H
Enquiry
ACK
16H
Acknowledge
NAK
15H
Negative Acknowledge
DLE
10H
Circuit 절환
Transmission
8.2. RFID TAG Reading Transmission Frame
When the RFID Tag is decoded, it is tranmitted to the host using following transmission format.
(But, Host does not respond to the reader based upon RFID transmission)
If the communication setting dip switch 1 through 5 is all set to off position, number setting can not be done therefore
address is not assigned under the transmission frame.
TAG ID(Decimal Scale)
BCC Calculation limit
When the address for the communication setup is configured using the dip switch, the address is added into the
transmission frame.
S
(Address)
TAG ID(Decimal Scale)
BCC Calculation limit
BCC Calculation limit: From STX to ETX -> XOR
8.3. Command Request Frame (Host ÆReader)
(Address)
(Command)
Data
1 ~ 128
BCC Calculation limit
1).Reader Address: Reader address which has been set by the DIP switch(01 ~ 31 )
2).Command and Data :
Command
“01”
“02”
Detail
ID Register(1 case)
ID Register(16 cases)
Data
ID 16Byte(Decimal number display)
ID 16Byte * 16 = 256Byte
(Decimal number display)
“03”
ID Delete(1 case)
ID 16Byte(Decimal number display)
“04”
ID Delete All
None
“10”
Relay 1 Relay output
None
“11”
Relay 2 Relay output
None
Remark
command “02”will be updated in near future.
3). BCC Calculation limit: From STX to ETX -> XOR
Empty space is filled up with
“0” to make 256 byte when
number count is below 16.
8.4. Response Frame (Reader Æ Host)
(Address)
Result
Reader Address: Reader address which has been set by the DIP switch(01 ~ 31 )
Result : Handling the result for Command Request
“16”: Acknowledge
“15”: Negative Acknowledge
8.5. Transmission Order
8.5.1. Normal Operation: TAG is read during the TAG Reading Standby Mode,
Transmitted Valid TAG ID to the HOST
RF READER
HOST
Read mode in Standby
Standy on TAG decoded
data tranmission
Decoded data is transmitted.
TAG decoded data
Valid decision
Relay1 Relay
transmission
output
command
Relay1 Relay output
command
Standby on Transmission if positive
Command
Response for
command transaction
response is provided
Relay1 Relay output
is
resent
response is provided
if
negative
8.5.2. Normal Operation: TAG is read during the TAG Reading Standby Mode,
Transmitted Invalid TAG ID to the HOST
RF READER
HOST
Read mode in Standby
Standy on TAG decoded
data tranmission
TAG decoded data
Transmission of Decoded Data
Invalid decision
8.5.3. Positive Response after one Command Request Frame has been transmitted
HOST
DATA
RF READER
Result ”16”
End after the result (positive response) has
End after the result has been transmitted
been transmitted
8.5.4. Negative Response after one Command Request Frame has been transmitted
HOST
DATA
RF READER
Result ”15”
Negative Response
DATA
Same Frame is retransmitted.
Result ”15”
Negative response
DATA
Same Frame is retransmitted.
Result ”16”
Positive Response.
8.5.5. When many numbers of Command Request Frame have been transmitted
HOST
DATA 1
DATA 2
DATA 3
RF READER
Result ”16”
Result ”16”
Result ”16”
8.6. Product Image
8.6.1. MAIN PCB
8.6.2. Frontal View
LED Display Screen
Normal : RED
TAG Scan: BLUE
8.6.3. Rear View
Mounting Bracket Holes
CON1
CON2
CON3
CON4
9. Product Installation
9.1. RFID TAG Positioning Area for the Vehicle
Vehicle RFID TAG Positioning Areas
170cm off from the ground
Based on RFID TAGs manufactured since Feb. 2006 (Vehicle model type is not related)
1. RF - Reader positioned in left side of the vehicle: Place RFID TAG at position 1.
2. RF - Reader positioned in right side of the vehicle: Place RFID TAG at position 2.
3. Reader positions are mixed as some left and some right based upon the entrance and the exit: Place RFID TAG at
position 3
(If the reading site is wide open area, position the card in vertical format at the opposite side (position 1 or 2) of
where the reader is positioned, or the mid position 3
Caution when positioning the RFID TAG
-RFID TAG must be 5cm away at both horizontally and vertically away from the vehicle metal frame..
-If top windshield area is tinted, do not position the RFID TAG to be in contact with more than 50% of the tint area.
-Place RFID TAG at the opposite side of where the reader is positioned.
9.2. Product Installation Location
9.2.1. Installation location at the two lanes road with a center divider being present
Exit
Distance between reader and the
Improper Installation
bargate: 2.5m or more
: Vehicle and bargate is too close to each
other
Proper Installation
: Reads RFID Tag within the speed
Maximum road width: 3.5m
of 30Km/H
Height : 170cm from the ground
Card location: Passenger’s side
windshield area towards the top
Entrance
9.2.2. Installation location at the two lanes road without a center divider being present
Exit
Distance between reader and the
bargate: 2.5m or more
Improper Installation
: Vehicle and bargate is too close to
Center Divider Installation:
In order to keep the certain distance
each other
between the reader and the
vehicle, center divider is
Proper Installation
needed to be installed
: Reads RFID Tag within the speed
(up to front side of the reader)
of 30Km/H
Height : 170cm from the ground
Maximum road width: 3.5m
Card location: Driver’s side
Entrance
windshield area towards the top
9.2.3. Installation location at the T type intersection where a center divier is located at
the entrance
Card location: Passenger’s side
windshield area towards the top
Proper Installation:
Exit
Distance between reader and the
A and B locations are both OK
bargate: 2.5m or more
Height : 170cm from the ground
Improper Installation:
Reader installation location
depending on the location A or
B, only one will be verified
:At least 4m away
Maximum road width: 3.5m
Entrance
9.2.4. Installation location at the T type intersection without a center diviers being
present
Card location: Driver’s side
Improper Installation
: depending
windshield area towards the top
on the location A
or B, only one will be verified
Center Divider Installation:
In order to keep the certain distance between the
Exit
reader and the vehicle, center divider is
Proper Installation:
needed to be installed
location A , B does not matter
(up to front side of the reader)
Height : 170cm from the ground
Reader installation location
:At least 4m away
Distance between the reader &
Maximum road width: 3.5m
the gate: at least 2.5m
Entrance
9.2.5. General Installation tip for all the other cases
For all other cases, please verify the installation area prior to setup.
Ramp : 1M away from the Reader
Bargate and Reader (transmission distance) :2.5~3M

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