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
Antenna Ports
24 Functionality of the Embedded Modules
Antenna Ports
Monostatic Mode
The M6e-TC has one antenna port which both transmits and receives.
To set up the module to use a single antenna in monostatic mode, connect the antenna to
port 1 (labeled J1 on Printed Circuit Board) which is responsible for both TX and RX
communication.
Power Management
The modules use different methods and levels of power management.
Power Modes
The M6e-TC was designed for power efficiency and offers several different power
management modes, set using
Set Power Mode (98h). The following lists the current
modes being offered:
Full Power Mode – In this mode, the unit operates at full power to attain the best
performance possible. This mode is only intended for use in cases where power
consumption is not an issue. This is the default Power Mode at startup.
Minimal Saving Mode – This automatically executes basic power savings that do not
severely degrade system performance May result in a nominal 1 ms additional delay.
Medium Saving Mode – This mode may add up to 50 ms of delay between
commands. It performs more aggressive power savings, such as automatically
shutting down the analog section between serial commands, and then restarting it
whenever a tag command is issued.
Maximum Saving Mode – This mode essentially shuts down the digital and analog
boards, except to power the bare minimum logic required to wake the processor. It
can take up to 150 ms to wake the processor and execute the desired command.
Note: In Maximum Saving Mode the USB interface is disabled and the RS232 interface
communication speed is limited to 9600 baud.