User Guide
Table Of Contents
- Contents
- Contents
- Introduction to the Mercury6e- Transcore Module
- Functionality of the Embedded Modules
- Overview of the Communication Protocol
- Command Set
- Boot Loader Commands
- Multi-Protocol Tag Commands
- Allegro/Title-21 Tag Commands
- eGo/SeGo Tag Command Set
- ATA Tag Command Set
- Gen2 Tag Commands
- Get Configuration Commands
- Get Hardware Version (10h)
- Get Antenna Configuration (61h)
- Get Read TX Power (62h)
- Get Current Tag Protocol (63h)
- Get Write TX Power (64h)
- Get Frequency Hop Table (65h)
- Get User GPIO Inputs (66h)
- Get Current Region (67h)
- Get Power Mode (68h)
- Get User Mode (69h)
- Get Reader Configuration(6Ah)
- Get Protocol Configuration (6Bh)
- Get Reader Statistics (6Ch)
- Get Available Protocols (70h)
- Get Available Regions (71h)
- Get Current Temperature (72h)
- Set Configuration Commands
- Regulatory Test Commands
- Appendix A: Hardware Details
- Appendix B: Using the ArbSer Application
- Appendix C: Error Messages
- Common Error Messages
- FAULT_MSG_WRONG_NUMBER_OF_DATA – (100h)
- FAULT_INVALID_OPCODE – (101h)
- FAULT_UNIMPLEMENTED_OPCODE – 102h
- FAULT_MSG_POWER_TOO_HIGH – 103h
- FAULT_MSG_INVALID_FREQ_RECEIVED (104h)
- FAULT_MSG_INVALID_PARAMETER_VALUE - (105h)
- FAULT_MSG_POWER_TOO_LOW - (106h)
- FAULT_UNIMPLEMENTED_FEATURE - (109h)
- FAULT_INVALID_BAUD_RATE - (10Ah)
- Bootloader Faults
- FPGA Faults
- Flash Faults
- Protocol Faults
- FAULT_NO_TAGS_FOUND – (400h)
- FAULT_NO_PROTOCOL_DEFINED – 401h
- FAULT_INVALID_PROTOCOL_SPECIFIED – 402h
- FAULT_WRITE_PASSED_LOCK_FAILED – 403h
- FAULT_PROTOCOL_NO_DATA_READ – 404h
- FAULT_AFE_NOT_ON – 405h
- FAULT_PROTOCOL_WRITE_FAILED – 406h
- FAULT_NOT_IMPLEMENTED_FOR_THIS_PROTOCOL – 407h
- FAULT_PROTOCOL_INVALID_WRITE_DATA – 408h
- FAULT_PROTOCOL_INVALID_ADDRESS – 409h
- FAULT_GENERAL_TAG_ERROR – 40Ah
- FAULT_DATA_TOO_LARGE – 40Bh
- FAULT_PROTOCOL_INVALID_KILL_PASSWORD – 40Ch
- FAULT_PROTOCOL_KILL_FAILED - 40Eh
- FAULT_PROTOCOL_BIT_DECODING_FAILED - 40Fh
- FAULT_PROTOCOL_INVALID_EPC – 410h
- FAULT_PROTOCOL_INVALID_NUM_DATA – 411h
- FAULT_GEN2 PROTOCOL_OTHER_ERROR - 420h
- FAULT_GEN2_PROTOCOL_MEMORY_OVERRUN_BAD_PC - 423h
- FAULT_GEN2 PROTOCOL_MEMORY_LOCKED - 424h
- FAULT_GEN2 PROTOCOL_INSUFFICIENT_POWER - 42Bh
- FAULT_GEN2 PROTOCOL_NON_SPECIFIC_ERROR - 42Fh
- FAULT_GEN2 PROTOCOL_UNKNOWN_ERROR - 430h
- Analog Hardware Abstraction Layer Faults
- Tag ID Buffer Faults
- System Errors
- Common Error Messages
- Appendix D: FPGA Support
Regional Support
18 Functionality of the Embedded Modules
Supported Regions
The regional functionality is set using a single serial command,
Set Configuration
Commands. Setting the Region configures the regional default settings including:
Loads the Frequency Hop Table with the appropriate table for the selected region.
Sets the PLL frequency to the first entry in the hop table, even if the RF is off.
Selects the transmit filter, if applicable.
Region Regulatory Support M6e-TC
North America (NA) FCC 47 CFG Ch. 1 Part 15
Industrie Canada RSS-210
Yes
European Union
(EU3)
Revised ETSI EN 302 208 By default EU3 will use four channels. EU3
region can also be used in a single channel
mode. These two modes of operation are
defined as:
Single Channel Mode
• Set by manually setting the frequency hop
table to a single frequency. In this mode the
module will occupy the set channel for up to
four seconds, after which it will be quiet for
100ms before transmitting on the same
channel again.
Multi Channel Mode
• Set by leaving the default or manually
setting more than one frequency in the hop
table. In this mode the module will occupy
one of the configured channels for up to
four seconds, after which it may switch to
another channel and immediately occupy
that channel for up to four seconds. This
mode allows for continuous operation.
People’s Republic of
China (PRC)
SRRC, MII The PRC specifications limits channels 920 to
920.5MHz and 924.5 to 925.0MHz to transmit-
ting at 100mW or below. The default hop table
uses only the center channels which allow 2W
ERP, 1W conducted, power output. If the hop
table is modified to use the outer, lower power
channels the RF level will be limited to the outer
channels limit, 100mW or +20dBm
Open Region No regulatory compliance enforced Yes