User's Manual
Table Of Contents
- Contents
- Before You Begin
- Developing the Installation Site Plan
- Installing and Configuring the MPI 6000
- Lane Tuning Guidelines
- Optimizing MPI 6000 Reader System Performance
- General Software Information
- Configuration Commands and Responses
- Configuring the MPI 6000
- Required Commands to Set Up MPI 6000 Reader
- System Interface Command Group Commands
- System Identify
- Set Communications Baud Rate
- Get Communications Baud Rate
- Set Time and Date
- Get Time and Date
- Firmware Download
- Reset Reader
- Get Stored Tag Response Message
- Get Number of Stored Tag Response Messages
- Delete All Stored Tag Response Messages
- Get System Startup Status
- Get Lane Controller Interface Status
- Get System Interface Status
- Get DigBrd Hdwr Remote Inventory
- Get DigBrd CPU Boot Fmwr Remote Inventory
- Get DigBrd CPU Appl Fmwr Remote Inventory
- Get DigBrd FPGA UDP/IP Core Fmwr Remote Inventory
- Get UDP/IP Core Lane Controller Parameters
- Set UDP/IP Core IP Address
- Get UDP/IP Core IP Address
- Get UDP/IP Core Port Number
- Configuring the MPI 6000
- Tag Command Processing
- System Diagnostics and Preventive Maintenance
- Acronyms and Glossary
- Block Diagrams
- System Technical Specifications
- Hardware Interfaces
MPI 6000 Multi-Protocol Reader System Guide
3-4
Figure 3-1 Connector Locations on MPI 6000 Enclosure
Power
The MPI 6000 requires 19V DC to 28V DC or 19V AC to 27V AC RMS voltage
source. Table 3-
1 lists the MPI 6000 external power connector specifications.
RF Antenna Connector
The MPI 6000 Reader typically is co
nnected t
o an AA3152 Universal Toll Ante
nna
by a single low-loss RF cable. The antenna configuration is designed for overhead
mounting on a gantry or sign structure. Figure 3-2 shows the antenna connector on the
MPI 6000 enclosure.
Table 3-1 MPI 6000 Power Connection Specifications
Connector Type
Two-Pin Terminal Block
Wire Gauge
12 – 30 AWG
Voltage
19V to 28V DC or 19V to 27V AC RMS
Note I
f AC is used do not ground one end of the AC
input, the AC s
upply must float.
Polarity
Either, power supply is polarity independent
Current
2 amps
PRELIMINARY