CAEN RFID srl CAENRFID015 UHF RFID Ultra Compact Reader User Manual SLATE Technical Information Manual Rev 01

Download:
Mirror Download [FCC.gov]
Document ID	2482280
Application ID	JEFbxgk4U0MMAAPwlmTBAQ==
Document Description	technical information manual
Short Term Confidential	No
Permanent Confidential	No
Supercede	No
Document Type	User Manual
Display Format	Adobe Acrobat PDF - pdf
Filesize	69.83kB (872820 bits)
Date Submitted	2014-12-23 00:00:00
Date Available	2014-12-23 00:00:00
Creation Date	2014-07-04 10:37:58
Producing Software	Microsoft® Word 2010
Document Lastmod	2014-07-04 10:37:58
Document Title	SLATE_Technical Information Manual_Rev_01
Document Creator	Microsoft® Word 2010
Document Author:	manuela

TECHNICAL INFORMATION MANUAL
Revision 17 - 07 July 2014
CAEN UHF RFID READERS
COMMUNICATION PROTOCOL
Scope of Manual
The goal of this manual is to provide the basic information to work with the CAEN UHF RFID READERS Communication
Protocol.
Change Document Record
Date
18 Apr 2011
Revision
14
05 Oct 2012
15
15 Oct 2013
07 Jul 2014
16
17
Changes
Added AVP_PC parameter in the Tab. 2.1: Attribute types
Modified Tab. 2.3: Commands with Optional Parameters Table
Added Tab. 2.4: Renamed Commands Table
Added bit 7 and 8 in the flag description of InventoryTag
command
Added reference to Ion R4300P Reader in the Tab. 2.2: Command
codes and in the Tab. 2.3: Commands with Optional Parameters
Table
Added PowerSet unit of measurement
Modified Set Power Command
Added
R1230CB
as
supported
reader
for
the
ProgramID_EPC_C1G2 command
Renamed NewRawReadIDs in setProtocol in the Set Protocol
Command and in the Continuous Inventory Command
Renamed NewRawReadIDs in InventoryTag in the InventoryTag
Command
Renamed
G2Write in WriteTagData_EPC_C1G2 in the
WriteTagData_EPC_C1G2 Command
Renamed G2Read in ReadTagData_EPC_C1G2 in the
ReadTagData_EPC_C1G2 Command
Renamed G2Lock in LockTag_EPC_C1G2 and Tag Address in
G2Password in the LockTag Command
Added RFRegulation in the Tab.2.1: Attribute types
Added footnotes in the Tab. 2.1: Attribute types
Added values for the ResultCode attribute
Added reference to Muon A528B and qID R1240I Readers in the
Tab. 2.2: Command codes and in the Tab. 2.3: Commands with
Optional Parameters Table
Added reference to Quark Up R1270 and qIDmini R1170I Readers
in the Tab. 2.2: Command codes and in the Tab. 2.3: Commands
with Optional Parameters Table
Removed Default Configuration chapter
Removed reference to obsolete readers
Pages
10
20
21
12
19, 20
10
28
17
23, 30
24
26
27
29
10
10
19, 20
19, 20
All pages
Reference Document
[RD1]
Reader Protocol 1.0 – Working Draft Version of 25 August 2004 – Document revision 33 - EPCGlobal
[RD2]
EPC Radio Frequency Identity Protocols Class-1 Generation-2 UHF RFID Protocol for Communications at
860MHz – 960MHz – Version 1.0.9 – EPCGlobal
[RD3]
ISO/IEC FDIS 18000-6:2003(E) – Information technology automatic identification and data capture
techniques – Radio frequency identification for item management air interface – Part 6: Parameters for air
interface communication at 860-960 MHz
CAEN RFID srl
Via Vetraia, 11 55049 Viareggio (LU) - ITALY
Tel. +39.0584.388.398 Fax +39.0584.388.959
info@caenrfid.com
www.caenrfid.com
© CAEN RFID srl – 2014
Disclaimer
No part of this manual may be reproduced in any form or by any means, electronic, mechanical, recording, or
otherwise, without the prior written permission of CAEN RFID.
The information contained herein has been carefully checked and is believed to be accurate; however, no responsibility
is assumed for inaccuracies. CAEN RFID reserves the right to modify its products specifications without giving any
notice; for up to date information please visit www.caenrfid.com.
Federal Communications Commission (FCC) Notice (Preliminary)
This device was tested and found to comply with the limits set forth in Part 15 of the FCC Rules. Operation is subject to
the following conditions: (1) this device may not cause harmful interference, and (2) this device must accept any
interference received including interference that may cause undesired operation. These limits are designed to provide
reasonable protection against harmful interference when the equipment is operated in a commercial environment.
This device generates, uses, and can radiate radio frequency energy. If not installed and used in accordance with the
instruction manual, the product may cause harmful interference to radio communications. Operation of this product in
a residential area is likely to cause harmful interference, in which case, the user is required to correct the interference
at their own expense. The authority to operate this product is conditioned by the requirements that no modifications
be made to the equipment unless the changes or modifications are expressly approved by CAEN RFID.
This declaration only applies to FCC readers R1230CB, R1260I, R1260U, R4300P, A528B, R1240I, R1270, R1170I (Mod. WR1170IUAPLP and
WR1170IUHIDP)
Index …
Scope of Manual ...........................................................................................................................................................................2
Change Document Record ............................................................................................................................................................2
Reference Document ....................................................................................................................................................................2
Index … .......................................................................................................................................................................................... 4
List of Tables .................................................................................................................................................................................. 4
INTRODUCTION ................................................................................................................................................................... 5
General Information .....................................................................................................................................................................5
PROTOCOL SPECIFICATION .................................................................................................................................................. 6
Introduction..................................................................................................................................................................................6
Attribute types .............................................................................................................................................................................7
Command codes .........................................................................................................................................................................11
Commands with Optional Parameters .......................................................................................................................................20
Renamed Commands Table ........................................................................................................................................................21
ASYNCHRONOUS NOTIFICATION ....................................................................................................................................... 22
EXAMPLES ......................................................................................................................................................................... 23
Set Protocol Command...............................................................................................................................................................23
InventoryTag Command .............................................................................................................................................................24
WriteTagData_EPC_C1G2 Command .........................................................................................................................................26
ReadTagData_EPC_C1G2 Command ..........................................................................................................................................27
Set Power Command ..................................................................................................................................................................28
LockTag Command .....................................................................................................................................................................29
Continuous Inventory Command................................................................................................................................................30
List of Tables
Tab. 2.1: Attribute types ........................................................................................................................................................................10
Tab. 2.2: Command codes .....................................................................................................................................................................19
Tab. 2.3: Commands with Optional Parameters Table ..........................................................................................................................20
Tab. 2.4: Renamed Commands Table ....................................................................................................................................................21
Tab. 3.3.1: Attribute types: Notification AVP List ..................................................................................................................................22
1 INTRODUCTION
General Information
This document describes the message format of the communication protocol used by the host and the reader in order
to issuing commands and reply with responses.
The protocol is based on the Attribute Value Pair (AVP) schema and foresees a message header in order to identify the
message scope.
The command set and the firmware architecture draw inspiration from the Reader Protocol 1.0 specification draft from
EPCGlobal but, at now, this protocol is not fully compatible with the same last specifications.
Message fields are described left to right, with the most significant byte on the left and the least on the right.
INTRODUCTION - CAEN UHF RFID Readers Communication Protocol
2 PROTOCOL SPECIFICATION
Introduction
CAEN UHF RFID Reader protocol uses two logical communication channels: one for synchronous commands and one
for asynchronous notifications. Command channel is mandatory and, at now, it is implemented on top of a TCP/IP
socket (port 1000) and on RS232 while notification channels are implemented only with sockets.
All the messages (commands, responses and notifications) are composed by a header and a body. In all cases the body
of the message is a list of attribute-value pairs. Responses always echo the Command AVP sent by the host.
All the packets for the control and notification channel share a common header format:
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-------------------------------+------------------------------+
FIXED
Message ID
+-------------------------------+------------------------------+
Vendor ID
+-------------------------------+------------------------------+
Length
+-------------------------------+
FIXED: Must be 0x8001 for commands and 0x0001 for responses.
Message ID: Id of the message. It is a sequence number used to map requests to its responses: a request and its
corresponding response have the same message ID (the id is local to the channel).
Vendor ID: Must be 21336: the IANA “SMI Network Management Private Enterprise Code” assigned to CAEN SpA.
Length: Encodes the length of the message (in bytes) including the header.
The header is followed by a list of AVPs the number of which depends on the command. Each AVP have the following
format:
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-------------------------------+------------------------------+
RESERVED
Length
+-------------------------------+------------------------------+
Attribute Type
Attribute Value ………
+-------------------------------+------------------------------+
………[ until length is reached ]………
+--------------------------------------------------------------+
RESERVED: The first 16 bits are reserved for future extensions. All reserved bits must be set to 0 on outgoing messages
and ignored on incoming messages.
Length: Encodes the length of the AVP packet including the length and the reserved fields.
Attribute type: A 2 byte code identifying the attribute type.
Attribute value: The actual attribute value according to the type. It follows immediately after the Attribute Type field
and runs for the remaining bytes indicated in the Length (i.e. Length minus 6 bytes of header).
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
Attribute types
Code
0x01
0x02
0x0E
0x0F
0x10
0x11
0x12
0x1E
0x1F
0x20
0x21
0x22
0x4D
0x4E
0x4F
0x50
Description
CommandName: the command to be executed. All the commands are specified in the relevant
table. Attribute value is 2 bytes long.
ResultCode: a code representing an indication on the result of the command. All the commands
are specified in the relevant table. Attribute value is 2 bytes long.
The complete list of all possible return values is:
ERR_SUCCESS
ERR_UNKNOWN
ERR_INVALIDCMD
ERR_PWROUTRANGE
ERR_INVALIDPAR
ERR_TAGNOTPRESENT
ERR_TAGWRITE
ERR_TAGBADADDRESS
ERR_INVALIDFUNCTION
ERR_LOCKED
ERR_FAILED
=0
= 102,
= 127,
= 183,
= 200,
= 202,
= 203,
= 205,
= 206,
= 209,
= 210
Note that the ERR_INVALIDPAR is used as a generic error and may be returned even if all the
parameters passed to the reader are valid (for example, you may get an ERR_INVALIDPAR
during the execution of a lock function just to signal that the lock operation has failed).
EventType: the type of the notified event. Attribute value is 4 bytes long and can assume the
following values:
0x00 = Unknown Event
0x01 = Tag glimpsed
0x02 = Tag New
0x03 = Tag Observed
0x04 = Tag Lost
0x05 = Tag Purged
TagIDLen: the length of the tag ID. Attribute value is 2 bytes long.
TimeStamp: an indication of the time. Attribute is 8 bytes long and must be interpreted as follow:
the 4 least significant bytes are the seconds elapsed from the 1 January 1970.
the 4 most significant bytes are the micro-seconds.
TagID: the ID read from the tag. Attribute value has a maximum length of 12 bytes. For ISO18000
tags only the first 8 bytes are significant while for EPC tags all the 12 bytes are significant.
TagType: the tag’s type. Attribute value is 2 bytes long and can assume the following values:
0x00 = ISO18KB
0x01 = EPCC1G1
0x02 = ISO18KA
0x03 = EPCC1G2
0x05 = EPC119
ChannelName: the name of the notification channel. Attribute value has a maximum length of 30
bytes.
ChannelAddress: the address of the notification channel. Attribute value has a maximum length
of 30 bytes.
TriggerName: the name of the trigger. Attribute value has a maximum length of 30 bytes.
TriggerType: the type of the trigger. Attribute value has a maximum length of 30 bytes.
ReadPointName: a string representing the name of the read point. Attribute value has a
maximum length of 5 bytes and can assume the following values:
“Ant0”, “Ant1”, “Ant2”, “Ant3”
TagValue: data read from the tag memory (when applicable). Attribute value has a maximum
length of 128 bytes.
TagAddress: the memory location address of the tag where read or write data (when applicable).
Attribute value is 2 bytes long.
RESERVED.
Length: a value representing the length of a parameter. Attribute value is 2 bytes long.
Regarding the string format our convention is to use a NULL terminate string, i.e. all the string end with 0x00.
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
Code
0x51
0x52
0x53
0x54
0x56
0x57
0x58
0x59
0x5A
0x5B
0x5C
0x5D
0x5E
Description
BitRate: a value representing the RF BitRate. Attribute value is 2 bytes long and can assume the
following values:
0x00
0x01
0x02
0x03
0x04
0x05
0x06
0x07
0x08
0x09
0x0A
0x0B
0x0C
0x0D
0x0E
– Transmit : DSB ASK 10kbit,
– Transmit : DSB ASK 10kbit,
– Transmit : DSB ASK 40kbit,
– Transmit : DSB ASK 40kbit,
– Transmit : DSB ASK 160kbit,
– Transmit : DSB ASK 40kbit,
– Transmit : PR ASK 40kbit,
– Transmit : PR ASK 40kbit,
– Transmit : PR ASK 40kbit,
– Transmit : PR ASK 40kbit,
– Transmit : DSB ASK 40kbit,
– Transmit : PR ASK 40kbit,
– Transmit : PR ASK 40kbit,
– Transmit : PR ASK 80kbit,
– Transmit : PR ASK 40kbit,
Receive : FM0 10kbit
Receive : FM0 40kbit
Receive : FM0 40kbit
Receive : FM0 160kbit
Receive : FM0 400kbit
Receive : Miller M=2 160kbit
Receive : Miller M=4 250kbit
Receive : Miller M=4 300kbit
Receive : Miller M=2 250kbit
Receive : FM0 40kbit
Receive : Miller M=4 256kbit
Receive : Miller M=4 320kbit
Receive : FM0 640kbit
Receive : Miller M=4 320kbit
Receive : Miller M=4 256kbit
Note: not all the value are supported by all the readers. For the list of mode supported by each
reader please refer to the reader’s user manual.
PowerGet: a value representing the RF power. Attribute value is 4 bytes long. (used for read the
current setting)
RESERVED.
Protocol: a value representing the air protocol. Attribute value is 4 bytes long and can assume the
following values:
0x00 = ISO18000-6B
0x01 = EPCC1G1
0x02 = ISO18000-6A
0x03 = EPCC1G2
ReadPointStatus: a value representing the antenna’s status. Attribute value is 4 bytes long and
can assume the following values:
0x00 = Good: antenna is well connected.
0x01 = Poor: antenna has a low quality connection.
0x02 = Bad: antenna is not connected or broken.
Boolean: a value representing a boolean data. Attribute value is 2 bytes long and can assume the
following values:
0x00 = FALSE.
Not 0x00 = TRUE.
IPAddress: a string representing an IP address formatted with the standard IP dotted decimal
format. Attribute value has a maximum length of 30 bytes.
IPNetMask: a string representing an IP netmask formatted with the standard IP dotted decimal
format. Attribute value has a maximum length of 30 bytes.
IPGateway: a string representing an IP address formatted with the standard IP dotted decimal
format. Attribute value has a maximum length of 30 bytes.
DESBEnable: used to enable/disable the Data Exchange Status Bit handling for ISO18000-6b and
EPC 1.19 anti-collision algorithm. Attribute value is 2 bytes long and can assume the following
values:
0x00 = Disable the DESB handling.
Not 0x00 = Enable the DESB handling.
FWRelease: a string representing the device’s firmware revision. Attribute value has a maximum
length of 200 bytes.
DESBStatus: used to check the Data Exchange Status Bit handling for ISO18000-6b and EPC 1.19
anti-collision algorithm. Attribute value is 2 bytes long and can assume the following values:
0x00 = DESB handling is not enabled.
Not 0x00 = DESB handling is enabled.
EPCPWD: a value representing an EPC tag password. Attribute value is 2 bytes long.
Regarding the string format our convention is to use a NULL terminate string, i.e. all the string end with 0x00.
Regarding the string format our convention is to use a NULL terminate string, i.e. all the string end with 0x00.
Regarding the string format our convention is to use a NULL terminate string, i.e. all the string end with 0x00.
Regarding the string format our convention is to use a NULL terminate string, i.e. all the string end with 0x00.
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
Code
0x5F
0x60
0x61
0x62
0x63
0x64
0x65
0x66
0x67
0x68
0x69
0x6A
0x6B
0x6C
0x6D
0x6E
0x6F
Description
RFOnOff: used to start the generation of a continuous wave for test purposes. Attribute value is 2
bytes long and can assume the following vaules:
0x00 = Stop the wave generation.
Not 0x00 = Start the wave generation.
BaudRate: a value representing the baudrate setting of serial port. Attribute value is 4 bytes long.
DataBits: a value representing the databits setting of serial port. Attribute value is 4 bytes long.
StopBits: a value representing the stopbits setting of serial port. Attribute value is 4 bytes long.
Parity: a value representing the parity setting of serial port. Attribute value is 4 bytes long and can
assume the following values:
0x00 = No parity
0x01 = Odd parity
0x02 = Even parity
FlowCtrl: a value representing the flow control setting of serial port. Attribute value is 4 bytes
long and can assume the following values:
0x00 = No flow control
0x01 = Hardware flow control
0x02 = Software flow control (not yet implemented)
DateTime: a value representing a date and time. Attribute value has a maximum length of 30
bytes. The data format is:
YYYY–MM–DD HH:MM:SS
SelUnselOp: a value representing the tag selection operation defined by the ISO18000-6B
protocol. Attribute value is 2 bytes long and can assume the following values:
0x00 = select equal
0x01 = select not equal
0x02 = select greater than
0x03 = select lower than
0x04 = unselect equal
0x05 = unselect not equal
0x06 = unselect greater than
0x07 = unselect lower than
Bitmask: a value representing the flag parameter used in the newRawReadID command.
Attribute value is 2 bytes long (only 8 least significant bits are used).
REESERVED.
IORegister: a value representing the status of the I/O lines of the reader. Where input lines are
separated from output ones, input lines are mapped on the less significant bits while outputs are
mapped on the most significant. Attribute value is 4 bytes long (effective used bits depend on the
reader model).
ConfigParameter: a value representing a configuration parameter. Attribute value is 4 bytes long
and can assume the following values:
0x00 = ReadCycle configuration
0x01 = Observed Threshold configuation
0x02 = Lost Threshold configuration
0x03 = Starting Q value (Valid values: 0  15). EPC C1GEN2 Protocol only.
0x04 = Session (Valid values: 0  3). EPC C1GEN2 protocol only.
0x05 = Target (Valid values: 0  1). EPC C1GEN2 protocol only.
0x06 = Selected (Valid values: 0, 1, 2, 3). EPC C1GEN2 protocol only.
0x07 = Data Exchange Status B (Valid values: 0  1). ISO 18000-6B protocol only.
0x08 = Antenna dwell time during inventory (msec). A528 only.
0x09 = Inventory type (Valid values: 0  3). A528 only.
ConfigValue: a value for the configuration parameter. Attribute value is 4 bytes long.
NoOfTriggers: a value representing the number of triggers. Attribute value is 2 bytes long.
NoOfChannels: a value representing the number of channels. Attribute value is 2 bytes long.
EventMode: a value representing the event handling mode. Attribute value is 2 bytes long and
can assume the following values:
0x00 = ReadCycle mode
0x01 = Time Mode
0x02 = No Event Mode
UpgradeType: a value representing the type of upgrade to perform. Attribute value is 2 bytes long
and can assume the following values:
0x01 = TFTP firmware upgrade.
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
Code
0x70
0x71
0x72
0x73
0x74
0x75
0x76
0x77
0x78
0x7A
0x7B
0x7C
0x7D
0x96
0xFB
Description
UpgradeArgument: a value representing the argument for the requested upgrade. Attribute value
has a maximum length of 255 bytes.
For TFTP upgrade (code 0x01) the string has the form: ‘ : ’.
MemoryBank: a value representing the memory bank of a EPC Class 1 Generation 2 tag. Attribute
value is 2 bytes long and can assume the following values:
0x00 = Reserved Memory Bank
0x01 = EPC Memory Bank
0x02 = TID Memory Bank
0x03 = User Memory Bank
Payload: a value representing the payload parameter for the EPC Class 1 Gen 2 lock command
(see the EPC Gen2 specification for details). Attribute value is 4 bytes long.
G2Password: a value representing the Acess / Kill password parameter for the EPC Class 1 Gen 2
commands (see the EPC Gen2 specification for details). Attribute value is 4 bytes long.
G2NSI: a value representing the numbering system identifier for the EPC Class 1 Gen 2 tags’ id
(see the EPC Gen2 specification for details). Attribute value is 2 bytes long.
QParameter: a value representing the initial value for the Q parameter involved in the EPC Class 1
Gen 2 anticollision algorithm (see the EPC Gen2 specification for details). Attribute value is 2 bytes
long.
ReaderInfo: a string indicating the model and the serial number of the reader.
RFRegulation: a value representing the RF regulation to use. Attribute value is 2 bytes long and
can assume the following values:
0x00 = ETSI EN 302 208
0x01 = ETSI EN 300 220
0x02 = FCC
0x03 = Malaysia
0x04 = Japan
0x05 = Korea
0x06 = Australia
0x07 = China
0x08 = Taiwan
0x09 = Singapore
0x0A = Brazil
0x0B = Japan_STD_T106
0x0C = Japan_STD_T107
Note: not all the values are supported by all the readers. For the list of RF regulation supported by
each reader please refer to the reader’s user manual.
RFChannel: a value representing the RF channel to use. Attribute value is 2 bytes long and can
assume values in the range 0 … 9. Channels are referred to the ETSI EN 302 208 regulation.
RSSI: a value representing the backscattered RF field strenght. Attribute value is 2 bytes long.
AVP_OPTION
AVP_XPC a value representing the XPC word. Attribute value is 4 bytes long.
AVP_PC a value representing the PC word. Attribute value is 4 bytes long.
PowerSet: a value (mW) representing the RF power emitted during the communication with tags.
Attribute value is 4 bytes long (used to set a new current value).
SourceName: a string representing the name of the data source. Attribute value has a maximum
length of 30 bytes and can assume the following values:
“Source_0”, “Source_1”, “Source_2”, “Source_3”
Tab. 2.1: Attribute types
Regarding the string format our convention is to use a NULL terminate string, i.e. all the string end with 0x00.
The reader info string 's format is in the form   .Regarding the string format our convention is to use a
NULL terminate string, i.e. all the string end with 0x00.
Regarding the string format our convention is to use a NULL terminate string, i.e. all the string end with 0x00.
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
10
Command codes
Note: Some commands have been renamed to align the nomenclature in this manual and in the CAEN RFID API
Reference Manual. See § Tab. 2.4: Renamed Commands Table pag. 21 to know the equivalence between old and new
name of the renamed commands.
Note: Some commands have optional parameters. See § Tab. 2.3: Commands with Optional Parameters Table pag. 20
to know the CAEN RFID readers that support them.
For the compliance of the command codes with the obsolete readers, please refer to the previous revisions of the
manual that can be downloaded in the Manuals and Documents area of the CAEN RFID web site.
Code
0x12
Description
RawReadIDs: permits to get all the tag’s Ids that are under the RF field of the selected
source [obsolete].
Parameters:
SourceNameIn: [in] the name of the source to use.
SourceNameOut: [out] the name of the source used.
ReadPointName: [out] the name of the readpoint.
TimeStamp: [out] the time at which the tags are detected.
TagIDLen: [out] the ID length of the tags detected.
ListOfIDs: [out] the list of Ids detected from the source.
ResultCode: [out] the result code.
Comp.
A941M
Note: out parameters are repeated for each readpoint in the source.
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
11
Code
0x13
Description
InventoryTag: permits to get all the tag’s Ids that are under the RF field of the selected
source.
Parameters:
SourceNameIn: [in] the name of the source to use (optional)
Bank: [in] the number of the bank to use (optional).
Length: [in] Filter Mask Length (optional).
TagID: [in] the Filter Mask Value (optional).
TagAddress: [in] Filter Mask Start Address (optional)
Bitmask: [in] Inventory Flags. When set to 1 for each tag detected the RSSI value is
returned. Default value 0. (Optional).
Flags: (optional).
Bit0: RSSI: a 1 value indicates the reader will transmit the RSSI (Return Signal Strength
Indicator) in the response.
Bit1: FRAMED:a 1 value indicates that the tag's data will be transmitted by the reader
to the PC as soon as the tag is detected, a 0 value means that all the tags detected are
buffered in the reader and trasmitted all together at the end of the inventory cycle
Bit2: CONTINUOS: a 1 value indicates that the inventory cycle is repeated by the reader
depending on the SetReadCycle setting value, a 0 value means that only one inventory
cycle will be performed. If the continuous mode is selected a 0 value in the ReadCycle
setting will instruct the reader to repeat the inventory cycle until an InventoryAbort
method is invoked, a value X different from 0 means that the inventory cycle will be
performed X times by the reader.
Bit3: Compact data: a 1 value indicates that only the EPC of the tag will be returned by
the reader, a 0 value indicates that the complete data will be returned. In case that the
compact option is enabled all the other data will be populated by this library with fakes
values.
Bit4: TID reading: a 1 value indicates that also the TID of the tag will be returned by the
reader together with the other information.
Bit5: EventTrigger: a 1 value indicated that the continuous acquisition will start once an
event as a key pressure occurs (this flag requires also bit2 flag active)
Bit6: XPC: a 1 value allows the reader to get the XPC word if backscattered by a tag.
Tags that do not backscatter an XPC word will return an XPC attribute with all the 4
bytes set to 0 (A528, A528B, R1230CB, R1260I, R1260E and R1260U only).
Bit7: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
Bit8: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
Comp.
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
For each tag detected the parameters returned by the command are:
SourceNameOut: [out] the name of the source used
ReadPointName: [out] the name of the readpoint.
TimeStamp: [out] the time at which the tags are detected.
TagType: [out] the tag’s type.
TagIDLen: [out] the ID length of the tags detected.
TagID: [out] the tag’s id.
RSSI: [out] the tag’s backscattered field strength (optional, A528, A528B, R1230CB,
R1260I, R1260E, R1260U , R4300P and R1240I only).
ResultCode: [out] the result code.
Note: out parameters are repeated for each readpoint in the source.
0x3F
0x40
0x41
(See § Tab. 2.3: Commands with Optional Parameters Table pag. 20 to know the CAEN
RFID readers that support them)
AddReadTrigger: obsolete (please refer to the previous revisions of the manual that can
be downloaded in the Manuals and Documents area of the CAEN RFID web site)
AddNotifyTrigger: obsolete (please refer to the previous revisions of the manual that
can be downloaded in the Manuals and Documents area of the CAEN RFID web site)
RemoveReadTrigger: obsolete (please refer to the previous revisions of the manual that
can be downloaded in the Manuals and Documents area of the CAEN RFID web site)
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
12
Code
0x42
0x49
0x4A
0x53
0x54
0x5D
0x5E
0x5F
0x60
Description
RemoveNotifyTrigger: obsolete (please refer to the previous revisions of the manual
that can be downloaded in the Manuals and Documents area of the CAEN RFID web
site)
AllocateTrigger: obsolete (please refer to the previous revisions of the manual that can
be downloaded in the Manuals and Documents area of the CAEN RFID web site)
DeallocateTrigger: obsolete (please refer to the previous revisions of the manual that
can be downloaded in the Manuals and Documents area of the CAEN RFID web site)
AllocateChannel: obsolete (please refer to the previous revisions of the manual that
can be downloaded in the Manuals and Documents area of the CAEN RFID web site)
DeallocateChannel: obsolete (please refer to the previous revisions of the manual that
can be downloaded in the Manuals and Documents area of the CAEN RFID web site)
AddSourceToChannel: obsolete (please refer to the previous revisions of the manual
that can be downloaded in the Manuals and Documents area of the CAEN RFID web
site)
RemoveSourceFromChannel: obsolete (please refer to the previous revisions of the
manual that can be downloaded in the Manuals and Documents area of the CAEN RFID
web site)
AddReadPointToSource: permits to add a readpoint to a source.
Parameters:
SourceName: [in] the name of the source.
ReadPointName: [in] the name of the readpoint.
ResultCode: [out] the result code.
RemoveReadPointFromSource: permits to remove a readpoint from a source.
A528B
R1240I
Parameters:
SourceName: [in] the name of the source.
ReadPointName: [in] the name of the readpoint.
ResultCode: [out] the result code.
SetPower: permits to set the RF power level.
A528B
R1240I
Parameters:
PowerSet: [in] the power level to set.
ResultCode: [out] the result code.
0x64
0x6E
0x6F
0x70
0x71
0x72
0x73
Comp.
R1230CB
R1260I
R1260E
R1260U
A941M
R4300P
A528B
R1240I
R1170I
R1270
ReadTagData: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
WriteTagData: obsolete (please refer to the previous revisions of the manual that can
be downloaded in the Manuals and Documents area of the CAEN RFID web site)
LockTag: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
RESERVED
SetBitRate: obsolete (please refer to the previous revisions of the manual that can be
A941M
downloaded in the Manuals and Documents area of the CAEN RFID web site)
A528B
R1240I
GetPower: permits to get the current RF power level.
A941M
R1230CB
Parameters:
R1260I
PowerGet: [out] the current power level.
R1260U
ResultCode: [out] the result code.
R1260E
R4300P
A528B
R1240I
R1170I
R1270
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
13
Code
Description
SetProtocol: permits to set the protocol to use.
Parameters:
Protocol: [in] the protocol to use.
ResultCode: [out] the result code.
0x74
0x75
0x76
0x77
0x78
RESERVED
CheckReadPointStatus: permits to check the quality of the antenna connection.
Parameters:
ReadPointName: [in] the name of the readpoint.
ReadPointStatus: [out] the quality of the connection.
ResultCode: [out] the result code.
CheckSourceInChannel: obsolete (please refer to the previous revisions of the manual
that can be downloaded in the Manuals and Documents area of the CAEN RFID web
site)
CheckReadPointInSource: permits to verify if a readpoint belongs to a givens source.
Parameters:
ReadPointName: [in] the name of the readpoint.
SourceName: [in] the name of the source.
Value: [out] a Boolean value meaning the belonging to the source.
ResultCode: [out] the result code.
GetProtocol: permits to get the protocol in use.
Parameters:
Protocol: [out] the protocol in use.
ResultCode: [out] the result code.
0x79
0x7A
0x7B
Comp.
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
A941M
A528B
R1240I
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
SetNetwork: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
SetDESB: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
GetFirmwareRelease: permits to get the firmware revision.
Parameters:
FWRelease: [in] the firmware release.
ResultCode: [out] the result code.
0x7C
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
14
Code
0x7D
0x7E
0x7F
0x80
Description
GetDESB: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
ProgramID: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
KillTag: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
RFOnOff: permits to start/stop the generation of a continuous wave. Used only for test
and measurements purposes.
Parameters:
RFOnOff: [in] = 0  stop; != 0  start
ResultCode: [out] the result code
GetBitRate: permits to get the BitRate in use.
0x81
0x82
0x83
0x84
0x85
Parameters:
BitRate: [out] the BitRate in.
ResultCode: [out] the result code.
BlockWriteTag: obsolete (please refer to the previous revisions of the manual that can
be downloaded in the Manuals and Documents area of the CAEN RFID web site)
SetRS232: permits to modify the settings of the serial port.
Parameters:
Baudrate: [in] the baud rate value.
Databits: [in] the data bits setting.
Stopbits: [in] the stop bits setting.
Parity: [in] the parity setting.
Flowctrl: [in] the flow control setting.
ResultCode: [out] the result code.
SetDateTime: permits to modify date and time.
Parameters:
Datetime: [in] the date and time to set up.
ResultCode: [out] the result code.
GroupSelectUnselect: obsolete (please refer to the previous revisions of the manual
that can be downloaded in the Manuals and Documents area of the CAEN RFID web
site)
GetIO: permits to read the current status of the I/O lines.
Parameters:
IORegister: [out] the status of the I/O lines.
ResultCode: [out] the result code.
0x86
SetIO: permits to set the level of the output lines.
Parameters:
IORegister: [in] the value to set to the output lines.
ResultCode: [out] the result code.
0x87
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
Comp.
R1230CB
R1260I
R1260U
R4300P
A528B
R1240I
R1170I
R1270
A941M
A528B
R1240I
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
R1170I
R1270
A941M
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
15
Code
0x88
Description
SetIODirection: permits to define the direction of the I/O lines.
(0 = input; 1 = output)
Parameters:
IORegister: [in] the direction to set to the I/O lines.
ResultCode: [out] the result code.
GetIODirection: permits to read the current status of the I/O lines. (0 = input; 1 =
output)
0x89
Parameters:
IORegister: [out] the direction of the I/O lines.
ResultCode: [out] the result code.
SetSourceConfig: permits to set a configure parameter for a logical source.
0x8A
Parameters:
SourceName: [in] the name of the source to configure.
ConfigParameter: [in] the code of the parameter.
ConfigValue: [in] the value for the parameter.
ResultCode: [out] the result code.
GetSourceConfig: permits to read a configure parameter for a logical source.
0x8B
0x8C
0x8D
0x8E
0x8F
0x90
0x91
0x92
0x93
0x94
Parameters:
SourceName: [in] the name of the source to configure.
ConfigParameter: [in] the code of the parameter.
ConfigValue: [out] the value for the parameter.
ResultCode: [out] the result code.
Comp.
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
GetTriggers: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
GetChannels: obsolete (please refer to the previous revisions of the manual that can be
downloaded in the Manuals and Documents area of the CAEN RFID web site)
CheckSourceInTrigger: obsolete (please refer to the previous revisions of the manual
that can be downloaded in the Manuals and Documents area of the CAEN RFID web
site)
CheckTriggerInChannel: obsolete (please refer to the previous revisions of the manual
that can be downloaded in the Manuals and Documents area of the CAEN RFID web
site)
CheckChannelInTrigger: obsolete (please refer to the previous revisions of the manual
that can be downloaded in the Manuals and Documents area of the CAEN RFID web
site)
SetEventMode: obsolete (please refer to the previous revisions of the manual that can
be downloaded in the Manuals and Documents area of the CAEN RFID web site)
GetEventMode: obsolete (please refer to the previous revisions of the manual that can
be downloaded in the Manuals and Documents area of the CAEN RFID web site)
FirmwareUpgrade: obsolete (please refer to the previous revisions of the manual that
can be downloaded in the Manuals and Documents area of the CAEN RFID web site)
E119ProgramID: obsolete (please refer to the previous revisions of the manual that can
be downloaded in the Manuals and Documents area of the CAEN RFID web site)
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
16
Code
0x95
Description
ProgramID_EPC_C1G2: permits to write the EPC in a Class 1 Gen 2 tag.
Parameters:
SourceName: [in] the name of the source to use.
TagIDLen: [in] the ID length of the tag (must be an even number).
TagID: [in] the EPC to write into the tag memory.
G2NSI: [in] the EPC numbering system.
G2Password: [in] the EPC Access password (optional).
ResultCode: [out] the result code.
Comp.
A941M
R1230CB
R1170I
R1270
(See § Tab. 2.3: Commands with Optional Parameters Table pag. 20 to know the CAEN
RFID readers that support them)
ReadTagData_EPC_C1G2: permits to read data from anyone of the Gen2 tag memory
banks.
0x96
Parameters:
SourceName: [in, optional] the name of the source to use.
Bank: [in] the number of the bank to use (optional).
TagAddress: [in] Filter Mask Start Address (optional)
TagIDLen: [in] the ID length of the tag.
TagID: [in] the ID of the tag.
MemoryBank: [in] the memory bank.
TagAddress: [in] the address where to read the data.
Length: [in] the number of bytes to read (must be an even number).
TagValue: [out] the data read from the tag memory.
G2Password: [in] the EPC Access password (optional).
ResultCode: [out] the result code.
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
(See § Tab. 2.3: Commands with Optional Parameters Table pag. 20 to know the CAEN
RFID readers that support them).
WriteTagData_EPC_C1G2: permits to write data into anyone of the Gen2 tag memory
banks.
0x97
Parameters:
SourceName: [in, optional] the name of the source to use.
Bank: [in] the number of the bank to use (optional).
TagAddress: [in] Filter Mask Start Address (optional)
TagIDLen: [in] the ID length of the tag.
TagID: [in] the ID of the tag.
MemoryBank: [in] the memory bank.
TagAddress: [in] the address where to write the data.
Length: [in] the number of bytes to write (must be an even number).
TagValue: [in] the data to write to the tag memory.
G2Password: [in] the EPC Access password (optional).
ResultCode: [out] the result code.
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
(See § Tab. 2.3: Commands with Optional Parameters Table pag. 20 to know the CAEN
RFID readers that support them)
LockTag_EPC_C1G2: permits to execute the tag lock command defined by the EPC Class
1 Gen 2 protocol.
0x98
Parameters:
SourceName: [in, optional] the name of the source to use.
BankMask: [in] filter mask for the bank (optional).
PositionMask: [in] filter mask start address (optional).
TagIDLen: [in] the ID length of the tag to lock or the filter mask length
TagID: [in] the ID of the tag or the filter mask to use (optional).
G2Payload: [in] the lock payload.
G2Password: [in] the EPC Access password (optional).
ResultCode: [out] the result code.
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
(See § Tab. 2.3: Commands with Optional Parameters Table pag. 20 to know the CAEN
RFID readers that support them)
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
17
Code
0x99
0x9A
0x9B
0x9C
0x9D
0x9E
10
Description
KillTag_EPC_C1G2: permits to execute the tag kill command defined by the EPC Class 1
Gen 2 protocol.
Parameters:
SourceName: [in, optional] the name of the source to use.
BankMask: [in] filter mask for the bank (optional).
PositionMask: [in] filter mask start address (optional).
TagIDLen: [in] the ID length of the tag.
TagID: [in] the ID of the tag or the filter mask to use (optional).
G2Password: [in] the kill password.
ResultCode: [out] the result code.
Comp.
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
(See § Tab. 2.3: Commands with Optional Parameters Table pag. 20 to know the CAEN
RFID readers that support them)
Query_EPC_C1G2: permits to execute the tag query command defined by the EPC Class A941M
1 Gen 2 protocol. If a tag is in the field result code is ERROR_SUCCESS (0x00) else result R1230CB
code is ERROR_TAGNOTPRESENT (0xCA).
R1260I
R1260U
Parameters:
R1260E
SourceName: [in] the name of the source to use.
R4300P
ResultCode: [out] the result code.
A528B
R1240I
R1170I
R1270
SetQ_EPC_C1G2: permits to change the initial value of the Q parameter used in the
A941M
Gen2 anticollision algorithm.
R1230CB
R1260I
Parameters:
R1260U
QParameter: [in] the value of the Q parameter.
R1260E
ResultCode: [out] the result code.
R4300P
A528B
R1240I
R1170I
R1270
GetQ_EPC_C1G2: permits to read the initial value of the Q parameter used in the Gen2 A941M
anticollision algorithm.
R1230CB
R1260I
Parameters:
R1260U
QParameter: [out] the value of the Q parameter.
R1260E
ResultCode: [out] the result code.
R4300P
A528B
R1240I
R1170I
R1270
QueryAck_EPC_C1G2: obsolete (please refer to the previous revisions of the manual
that can be downloaded in the Manuals and Documents area of the CAEN RFID web
site)ResultCode: [out] the result code.
GetReaderInfo: permits to read some information about the reader itself.
A941M
R1230CB
Parameters:
R1260I
10
ReaderInfo: [out] a string with information about the reader.
R1260U
ResultCode: [out] the result code.
R4300P
A528B
R1240I
R1170I
R1270
Regarding the string format our convention is to use a NULL terminate string, i.e. all the string end with 0x00.
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
18
Code
0x9F
Description
SetLBTMode: permits to enable or disable the Listen Before Talk capability on ETSI EN
302 208 compatible readers.
Parameters:
Boolean: [in] 0 to disable LBT and ≠0 to enable LBT.
ResultCode: [out] the result code.
GetLBTMode: permits to read the current setting for the Listen Before Talk capability
on ETSI EN 302 208 compatible readers.
0xA0
Parameters:
Boolean: [out] 0 if LBT is disabled, ≠0 if LBT is enabled.
ResultCode: [out] the result code.
GetRFRegulation: permits to read the RF regulation used by the reader.
Parameters:
RFRegulation: [out] the desired RF regulation.
ResultCode: [out] the result code.
0xA2
SetRFChannel: permits to set the RF channel where the reader emits the RF field.
0xA3
Parameters:
RFChannel: [in] the RF channel.
ResultCode: [out] the result code.
GetRFChannel: permits to read the RF channel currently in use.
0xA4
0xA7
0xB0
0xB1
0xB2
0xFFFF
Parameters:
RFChannel: [out] the RF channel.
ResultCode: [out] the result code.
GetChannelData: [Obsolete]
GetBufferedData: obsolete (please refer to the previous revisions of the manual that
can be downloaded in the Manuals and Documents area of the CAEN RFID web site)
LockBlockPermaLock_EPC_C1G2
ReadBLockPermalock_EPC_C1G2
Comp.
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
A528B
R1240I
R1170I
R1270
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
R1170I
R1270
A941M
R1230CB
R1260I
R1260U
R1260E
R4300P
R1170I
R1270
A528B
R1240I
A528B
R1240I
RESERVED
Tab. 2.2: Command codes
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
19
Commands with Optional Parameters
The following table shows a list of EPC C1G2 commands with optional parameters and the CAEN RFID readers that
support them (for information about the obsolete readers, please refer to the previous revisions of the manual that
can be downloaded in the Manuals and Documents area of the CAEN RFID web site).
Reader
Command










+ SourceNameIn + bank + Length + TagID
+ TagAddress + Bitmask








InventoryTag





































































































InventoryTag
+optional
parameters
InventoryTag
+ flags
+optional
parameters
KillTag_EPC_C1G2
KillTag_EPC_C1G2
+ BankMask + PositionMask + TagId
+optional
parameters
LockTag_EPC_C1G2
LockTag_EPC_C1G2
+ BankMask + PositionMask + TagID +
G2Password
+optional parameters
ReadTagData_EPC_C1G2
ReadTagData_EPC_C1G2 +
G2Password
ReadTagData_EPC_C1G2 + Bank +
TagAddress
ReadTagData_EPC_C1G2 + Bank +
TagAddress + G2Password
+optional parameters
WriteTagData_EPC_C1G2
WriteTagData_EPC_C1G2 +
G2Password
WriteTagData_EPC_C1G2 + Bank +
TagAddress
WriteTagData_EPC_C1G2 + Bank +
TagAddress + G2Password
ProgramID_EPC_C1G2
+optional
parameters
A941EU A528B R1230CB R1260I R1260U R1260E R4300P R1240I R1270 R1170I
ProgramID_EPC_C1G2 + G2Password
Tab. 2.3: Commands with Optional Parameters Table
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
20
Renamed Commands Table
Some commands have been renamed to align the nomenclature in this manual and in the CAEN RFID API Reference
manual (you can download this manual from the CAEN RFID Web Site).
The following table shows the equivalence between old and new name of the renamed commands.
Old name
New name
NewRawReadIDs
InventoryTag
G2Kill
KillTag_EPC_C1G2
G2Write
WriteTagData_EPC_C1G2
G2Read
ReadTagData_EPC_C1G2
G2Lock
LockTag_EPC_C1G2
G2ProgramID
ProgramID_EPC_C1G2
G2Query
Query_EPC_C1G2
G2SetQ
SetQ_EPC_C1G2
G2GetQ
GetQ_EPC_C1G2
G2QueryAck
QueryAck_EPC_C1G2
G2ReadBlockPermalock
ReadBLockPermalock_EPC_C1G2
G2LockBlockPermablock
LockBLockPermalock_EPC_C1G2
Tab. 2.4: Renamed Commands Table
PROTOCOL SPECIFICATION - CAEN UHF RFID Readers Communication Protocol
21
3 ASYNCHRONOUS NOTIFICATION
The notification channels are implemented only with sockets.
All the messages notifications are composed by a header and a body. In all cases the body of the message is a list of
attribute-value pairs. The first AVP of the body is fixed and called NotifyMessage.
All the packets for notification channel share the same header format of other packet as described at § 3.
The first AVP (NotifyMessage) is followed by a list of AVPs, the number of which depends on how many tags should be
notified. Each AVP has the same format of the AVP described in § 3.
The NotifyMessage has the following fixed format:
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-------------------------------+------------------------------+
RESERVED
+-------------------------------+------------------------------+
CommandName
ReportBuffer
+-------------------------------+------------------------------+
After the NotifyMessage AVP we can receive:
a)
b)
a list of AVPs (as described in table 3) followed by an AVP with ‘Attribute Type’ ResultCode
a single AVP called KillMessage with the following fixed format:
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-------------------------------+------------------------------+
RESERVED
+-------------------------------+------------------------------+
KillCommand
KillCommand
+-------------------------------+------------------------------+
Description
TimeStamp: the timestamp of the notification
TagIDLen: the ID length of the tag.
TagID: the ID of the tag.
SourceName: the name of the source to use.
EventType: the type of the notified event
Tab. 3.3.1: Attribute types: Notification AVP List
ASYNCHRONOUS NOTIFICATION - CAEN UHF RFID Readers Communication Protocol
22
4 EXAMPLES
Set Protocol Command
Action: Set Reader Protocol to EPC C1G2
Result: Reader selects EPC C1G2 protocol.
Command sent:
0x8001
0x0000
0x00005358
0x001C
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Message Length)
0x0000
0x0008
0x0001
0x0074
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = SetProtocol)
0x0000
0x000A
0x0054
0x00000003
(Reserved)
(AVP Length)
(AVP Type = Protocol)
(AVP Value = EPC C1G2)
Response received:
0x0001
0x0000
0x00005358
0x001A
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Overall Message Length)
0x0000
0x0008
0x0001
0x0074
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = SetProtocol)
0x0000
0x0008
0x0002
0x0000
(Reserved)
(AVP Length)
(AVP Type = ResultCode)
(AVP Value = Success)
EXAMPLES - CAEN UHF RFID Readers Communication Protocol
23
InventoryTag Command
Action: Execute an inventory cycle on the logical source Source0
Result: Two EPCC1G2 tags are returned as being inventory by the reader on Ant0.
Tag1 Id = 010203040506070809101112131415161718191920 (160 bit)
Tag2 Id = 300833B2DDD9014035050000 (96 bit)
Command sent:
0x8001
0x0000
0x00005358
0x0021
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Message Length)
0x0000
0x0008
0x0001
0x0013
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = InventoryTag)
0x0000
0x000F
0x00FB
0x536F757263655F3000
(Reserved)
(AVP Length)
(AVP Type = SourceName)
(AVP Value = “Source_0”)
Response received:
0x0001
0x0000
0x00005358
0x00B6
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Overall Message Length)
0x0000
0x0008
0x0001
0x0013
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = InventoryTag)
0x0000
0x000F
0x00FB
0x536F757263655F3000
(Reserved)
(AVP Length)
(AVP Type = SourceName)
(AVP Value = “Source_0”)
0x0000
0x000B
0x0022
416E743000
(Reserved)
(AVP Length)
(AVP Type = ReadPointName)
(AVP Value = “Ant0”)
0x0000
0x000E
0x0010
0x00000578
0x00000000
(Reserved)
(AVP Length)
(AVP Type = TimeStamp)
(AVP Value = Thu Jan 1 01:23:20 1970)
(AVP Value)
0x0000
0x0008
0x0012
0x0003
(Reserved)
(AVP Length)
(AVP Type = TagType)
(AVP Value = EPCC1G2)
0x0000
0x0008
0x000F
0x0014
(Reserved)
(AVP Length)
(AVP Type = TagIDLen)
(AVP Value = 160 bit)
0x0000
(Reserved)
0x001A
(AVP Length)
0x0011
(AVP Type = TagID)
0x010203040506070809101112131415161718191920
0x0000
0x000F
0x00FB
(Reserved)
(AVP Length)
(AVP Type = SourceName)
EXAMPLES - CAEN UHF RFID Readers Communication Protocol
24
0x536F757263655F3000
(AVP Value)
0x0000
0x000B
0x0022
0x416E743000
(Reserved)
(AVP Length)
(AVP Type = ReadPointName)
(AVP Value = “Ant0”)
0x0000
0x000E
0x0010
0x00000578
0x00000000
(Reserved)
(AVP Length)
(AVP Type = TimeStamp)
(AVP Value = Thu Jan 1 01:23:20 1970)
(AVP Value)
0x0000
0x0008
0x0012
0x0003
(Reserved)
(AVP Length)
(AVP Type = TagType)
(AVP Value = EPCC1G2)
0x0000
0x0008
0x000F
0x000C
(Reserved)
(AVP Length)
(AVP Type = TagIDLen)
(AVP Value = 96 bit)
0x0000
(Reserved)
0x0012
(AVP Length)
0x0011
(AVP Type = TagID)
0x300833B2DDD9014035050000
0x0000
0x0008
0x0002
0x0000
(Reserved)
(AVP Length)
(AVP Type = ResultCode)
(AVP Value = Success)
EXAMPLES - CAEN UHF RFID Readers Communication Protocol
25
WriteTagData_EPC_C1G2 Command
Command sent:
0x8001
0x001A
0x00005358
0x005d
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Message Length)
0x0000
0x0008
0x0001
0x0097
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = WriteTagData_EPC_C1G2)
0x0000
0x000F
0x00FB
0x536F757263655F3000
(Reserved)
(AVP Length)
(AVP Type = SourceName)
(AVP Value)
0x0000
0x0008
0x000F
0x000C
(Reserved)
(AVP Length)
(AVP Type = TagIDLen)
(AVP Value = 96 bit)
0x0000
(Reserved)
0x0012
(AVP Length)
0x0011
(AVP Type = TagID)
0x300833B2DDD9014035050000
0x0000
0x0008
0x0071
0x0003
(Reserved)
(AVP Length)
(AVP Type = Memory Bank)
(AVP Value = User Memory Bank)
0x0000
0x0008
0x004e
0x0000
(Reserved)
(AVP Length)
(AVP Type = Tag Address)
(AVP Value = Address)
0x0000
0x0008
0x0050
0x0004
(Reserved)
(AVP Length)
(AVP Type = Length)
(AVP Value = # of bytes)
0x0000
0x000a
0x004d
0x00000000
(Reserved)
(AVP Length)
(AVP Type = Tag Value)
(AVP Value = bytes to be written)
Response received:
0x0001
0x001A
0x00005358
0x001A
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Overall Message Length)
0x0000
0x0008
0x0001
0x0097
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = WriteTagData_EPC_C1G2)
0x0000
0x0008
0x0002
0x0000
(Reserved)
(AVP Length)
(AVP Type = ResultCode)
(AVP Value = Success)
EXAMPLES - CAEN UHF RFID Readers Communication Protocol
26
ReadTagData_EPC_C1G2 Command
Command sent:
0x8001
0x000E
0x00005358
0x0053
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Message Length)
0x0000
0x0008
0x0001
0x0096
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = ReadTagData_EPC_C1G2)
0x0000
0x000F
0x00FB
0x536F757263655F3000
(Reserved)
(AVP Length)
(AVP Type = SourceName)
(AVP Value)
0x0000
0x0008
0x000F
0x000C
(Reserved)
(AVP Length)
(AVP Type = TagIDLen)
(AVP Value = 96 bit)
0x0000
(Reserved)
0x0012
(AVP Length)
0x0011
(AVP Type = TagID)
0x300833B2DDD9014035050000
0x0000
0x0008
0x0071
0x0003
(Reserved)
(AVP Length)
(AVP Type = Memory Bank)
(AVP Value = User Memory Bank)
0x0000
0x0008
0x004e
0x0000
(Reserved)
(AVP Length)
(AVP Type = Tag Address)
(AVP Value = Address)
0x0000
0x0008
0x0050
0x0004
(Reserved)
(AVP Length)
(AVP Type = Length)
(AVP Value = # of bytes)
Response received:
0x0001
0x000E
0x00005358
0x0024
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Overall Message Length)
0x0000
0x0008
0x0001
0x0096
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = ReadTagData_EPC_C1G2)
0x0000
0x000A
0x004d
0x00000000
(Reserved)
(AVP Length)
(AVP Type = Tag Value)
(AVP Value = bytes to be read)
0x0000
0x0008
0x0002
0x0000
(Reserved)
(AVP Length)
(AVP Type = ResultCode)
(AVP Value = Success)
EXAMPLES - CAEN UHF RFID Readers Communication Protocol
27
Set Power Command
Command sent:
0x8001
0x0000
0x00005358
0x001C
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Message Length)
0x0000
0x0008
0x0001
0x0064
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = Set Power)
0x0000
0x000A
0x0096
0x000003E8
(Reserved)
(AVP Length)
(AVP Type = Power Set)
(AVP Value = 1000 mW)
Response received:
0x0001
0x0000
0x00005358
0x001A
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Overall Message Length)
0x0000
0x0008
0x0001
0x0064
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = Set Power)
0x0000
0x0008
0x0002
0x0000
(Reserved)
(AVP Length)
(AVP Type = ResultCode)
(AVP Value = Success)
EXAMPLES - CAEN UHF RFID Readers Communication Protocol
28
LockTag Command
Command sent:
0x8001
0x0009
0x00005358
0x004F
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Message Length)
0x0000
0x0008
0x0001
0x0098
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = LockTag_EPC_C1G2)
0x0000
0x000F
0x00FB
0x536F757263655F3000
(Reserved)
(AVP Length)
(AVP Type = SourceName)
(AVP Value)
0x0000
0x0008
0x000F
0x000C
(Reserved)
(AVP Length)
(AVP Type = TagIDLen)
(AVP Value = 96 bit)
0x0000
(Reserved)
0x0012
(AVP Length)
0x0011
(AVP Type = TagID)
0x300833B2DDD9014035050000
0x0000
0x000A
0x0072
0x00000C02
(Reserved)
(AVP Length)
(AVP Type = Payload)
(AVP Value = User memory accessible on secure)
0x0000
0x000A
0x0073
0x12345678
(Reserved)
(AVP Length)
(AVP Type = G2Password)
(AVP Value = Password)
Response received:
0x0001
0x0009
0x00005358
0x001A
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Overall Message Length)
0x0000
0x0008
0x0001
0x0098
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = LockTag_EPC_C1G2)
0x0000
0x0008
0x0002
0x0000
(Reserved)
(AVP Length)
(AVP Type = ResultCode)
(AVP Value = Success)
EXAMPLES - CAEN UHF RFID Readers Communication Protocol
29
Continuous Inventory Command
Command sent (set read cycle to 0):
0x8001
0x0003
0x00005358
0x0035
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Message Length)
0x0000
0x0008
0x0001
0x008A
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = Set Source Config)
0x0000
0x000F
0x00FB
0x536F757263655F3000
(Reserved)
(AVP Length)
(AVP Type = SourceName)
(AVP Value)
0x0000
0x000A
0x006A
0x00000000
(Reserved)
(AVP Length)
(AVP Type = Config Parameter)
(read cycle)
0x0000
0x000A
0x006B
0x00000000
(Reserved)
(AVP Length)
(AVP Type = Config Value)
(read cycle = 0)
Response received:
0x0001
0x0003
0x00005358
0x001A
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Overall Message Length)
0x0000
0x0008
0x0001
0x008A
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = Set Source Config)
0x0000
0x0008
0x0002
0x0000
(Reserved)
(AVP Length)
(AVP Type = ResultCode)
(AVP Value = Success)
Command sent (Continuous inventory):
0x8001
0x0002
0x00005358
0x0040
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Message Length)
0x0000
0x0008
0x0001
0x0013
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = InventoryTag)
0x0000
0x000F
0x00FB
0x536F757263655F3000
(Reserved)
(AVP Length)
(AVP Type = SourceName)
(AVP Value)
0x0000
0x0008
0x0050
0x0000
(Reserved)
(AVP Length)
(AVP Type = Length)
(AVP Value = 0 byte)
EXAMPLES - CAEN UHF RFID Readers Communication Protocol
30
0x0000
0x0007
0x0011
0x00
(Reserved)
(AVP Length)
(AVP Type = TagID)
0x0000
0x0008
0x004e
0x0000
(Reserved)
(AVP Length)
(AVP Type = Tag Address)
(AVP Value = Address)
0x0000
0x0008
0x0067
0x0006
(Reserved)
(AVP Length)
(AVP Type = Bit Mask)
(AVP Value = Flags: FRAMED and CONTINUOS)
Response received:
0x0001
0x0002
0x00005358
0x0000
(Fixed)
(Message ID)
(Vendor ID = CAEN SpA)
(Overall Message Length not defined)
0x0000
0x0008
0x0001
0x0013
(Reserved)
(AVP Length)
(AVP Type = CommandName)
(AVP Value = InventoryTag)
0x0000
0x0008
0x0002
(Reserved)
(AVP Length)
(AVP Type = ResultCode)
0x0000
(AVP Value = Success)
Now the reader will send a data packet every time it will detect a valid tag
in the field.
To Exit from the Continuous Inventory mode the following byte shall be sent
to the reader:
0xAB
(Stop the continuous acquisition mode)
The Reader does not reply with any byte.
EXAMPLES - CAEN UHF RFID Readers Communication Protocol
31

---

Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.5
Linearized                      : No
Page Count                      : 31
Language                        : it-IT
Tagged PDF                      : Yes
Title                           : SLATE_Technical Information Manual_Rev_01
Author                          : manuela
Subject                         : 00107/05:A828x.MUTx/09
Keywords                        : 1.0
Creator                         : Microsoft® Word 2010
Create Date                     : 2014:07:04 10:37:58+02:00
Modify Date                     : 2014:07:04 10:37:58+02:00
Producer                        : Microsoft® Word 2010

EXIF Metadata provided by EXIF.tools