BAOBI UHF Reader BR790 SL
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BAOBI UHF Reader BR790 SL
BAOBI UHF Reader BR790 SL
Features:
1.Unique multi-tag recognition algorithm
2.RF channel based on Impinj dedicated UHF chip Indy R2000 with excellent performance
3.Realizes the full protocol function of 18000-6b /C, can be flexibly switched between protocols and can read double protocol labels at the same time
4.Integrated aluminum alloy body,long time operation and no high temperature issue
5.Monitored the CPU status by hardware to ensure 24 hours * 365days no crash
Technical Characteristic:
Size: 230mm (L) x 160mm (W) x 28mm (H)
Net weight: 1.8 Kg
Material: die-cast aluminum alloy
Input voltage: DC 12V ~ 18V
Standby current: <70mA
Sleep state current: <100uA
Maximum operating current: average current 600mA +/-5% @ DC 12V Input
Maximum peak current: 1.2A +/-10%@ DC 12V Input
Operating temperature: - 20 °C ~ + 55 °C
Storage temperature: - 20 °C ~ + 85 °C
Operating humidity: < 95% ( + 25 °C)
Interface Protocol: EPC global UHF Class 1 Gen 2 / ISO 18000-6C / ISO 18000-6B
Operating Frequency: 860MHz – 960MHz
Work area supports: US, Canada and other regions following U.S. FCC
Europe and other regions following ETSI EN 302 208
Mainland China, Taiwan, Japan, Korea, Malaysia
Output power: 0 – 33dBm
Output RF connector: TNC/RP-TNC
Output power accuracy: +/- 1dB
Output power flatness: +/- 0.2dB
Receive sensitivity: < -85 dBm
Inventory tag peak speed: >700 pcs / sec
Tag Cache: 1000 Tags @ 96 bit EPC
Tag RSSI: Support
Antenna connection protection: support
Ambient temperature monitoring: support
Working mode: stand-alone / intensive
Communication interface: RS-232 or TCP/IP
GPIO: 2 input optical couplings , 2 output optical coupling
Maximum communication baud rate: 115200 bps
Cooling method: air cooling
Characteristic | Remarks |
Impinj R2000 RF Chip | *RF channel based on Impinj dedicated UHF chip Indy R2000 with excellent performance |
multi-tag recognition algorithm | *Unique multi-label recognition algorithm, providing the highest recognition in the industry |
An algorithm optimized for reading small number of tags | *An algorithm designed for applications that read small number of tags. *Super high label response |
Dual CPU architecture design
| *The main CPU is responsible for the polling tag and the secondary CPU is responsible for data management. Polling tags and sending data in parallel, do not occupy time of each other. Greatly improved overall performance. *The secondary CPU is responsible for generating real random numbers and monitoring the operating status of the system. |
Fast 4-antenna polling | *High-speed polling of 4 antennas. The shortest polling time per antenna is approximately 25ms. * The polling time of each antenna can be configured separately. |
Two tag inventory modes | *Cache mode and real-time mode. *Cache mode reads the tag and puts it into the cache and filters the duplicate data. The data is not redundant. * Real-time mode uploads immediately after reading the tag, and the user can get the tag data immediately. |
Hardware crash monitoring | *Hardware monitors CPU operating status. |
| *24 hours × 365 days of normal operation does not crash. |
RFID Amplifier Condition Monitoring | * Monitors the operating status of the RFID power amplifier. * Make sure the amplifier is not saturated. Ensure that the amplifier will work stably for a long time. |
Realize 18000-6B/C full protocol function | *It can quickly switch between 18000-6B/C dual protocols, realize reading of dual protocol labels simultaneous. |
18000-6B big data read and write at the same time
| * Read 216 bytes at one time <500ms. * Write 216 bytes at one-time time < 3.5s. * Read and write with arbitrary data length at any time. |
Antenna connection status monitoring
| *Determine the antenna connection status. * Protects the receiver. * Can be closed by command. |
Multi-point on-board temperature sensor | *Multi-point monitoring for precise monitoring of system operating temperatures. |
Dual backup output power correction | * Ensure that the RF output power is accurately controllable. * Two power check modules that are backed up from each other. The system will operate normally unless it is all damaged at the same time. |
Outstanding heat dissipation design | * Large area of heat sink contact surface. *The thermal coupling interface uses a solid material with high thermal conductivity and does not volatilize at high temperatures. |
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