User Manual
Table Of Contents
- M6e-31.5dBm Hardware Guide
- Contents
- Mercury6e Introduction
- Hardware Overview
- Firmware Overview
- Communication Protocol
- Functionality of the Mercury6e
- Appendix A: 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
- 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 B: Getting Started - Devkit
Performance Characteristics
50 Functionality of the Mercury6e
Performance Characteristics
Event Response Times
The following table provides some metrics on how long common M6e operations take. An
event response time is defined as the maximum time from the end of a command (end of
the last bit in the serial stream) or event (e.g. power up) to the response event the
command or event causes.
Event Response Times
Start Command/
Event
End Event
Time
(msecs)
Notes
Power Up Application Active
(with CRC check)
800 This longer power up period should only
occur for the first boot with new firm-
ware.
Power Up Application Active 100 Once the firmware CRC has been veri-
fied subsequent power ups do not
require the CRC check be performed,
saving time.
Tag Read RF On 20 When in Power Mode = 0
Tag Read RF On 50 When in Power Mode = 1
Tag Read RF On 120 When in Power Mode = 2
Change to Mode 1 Power Mode 1 5 From Power Mode =0
Change to Mode 2 Power Mode 2 5 From Power Mode =0