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
Hardware Interfaces
16 Hardware Overview
Hardware Interfaces
Antenna Connections
The M6e supports four monostatic bidirectional RF antennas through four MMCX
connectors: labeled J1 through J4 on the module. See Cables and Connectors
for more
information on antenna connector parts.
The maximum RF power that can be delivered to a 50 ohm load from each port is 1.4
Watts, or +31.5 dBm (operation above 30dBm requires a professional installer).
Note
The RF ports can only be energized one at a time.
Antenna Requirements
The performance of the M6e is affected by antenna quality. Antennas that provide good
50 ohm match at the operating frequency band perform best. Specified sensitivity
performance is achieved with antennas providing 17 dB return loss or better across the
operating band. Damage to the module will not occur for any return loss of 1 dB or
greater. Damage may occur if antennas are disconnected during operation or if the
module sees an open or short circuit at its antenna port.
Antenna Detection
To minimize the chance of damage due to antenna disconnection, the M6e supports
antenna detection. Detection can be done automatically or manually, the choice of which
is configured through API calls. Regardless of how it’s used it is generally recommend
that antenna detection be enabled as it helps protect the module from possible damage
due to return losses less than 1 dB.
Digital/Power Connector
The digital connector provides power, serial communications signals, shutdown and reset
signals to the M6e module, and access to the GPIO inputs and outputs. These signals are
provided through connector part number: Molex 53261-1571 - 1.25mm pin centers, 1