The utility model content
The utility model provides a kind of low-power consumption anti-collision electronic label for solving above-mentioned problems of the prior art, and this electronic tag power consumption is lower, and the unit capacity battery is long service time, has higher recognition efficiency simultaneously under the target mobile status.
The technical solution of the utility model is as follows:
Low-power consumption active anticollision electronic label, it is characterized in that: form (3) by rf chip (1) and external 2.4G ceramic antenna (2), power supply thereof, rf chip (1) includes 8051 one-chip computer modules, radio-frequency (RF) receiving and transmission module and Flash storer, in the built-in Flash storer burning wear the staff's of electronic tag identity id information.
The place that this electronic tag is different from other low-power consumption active electronic tag is: adopt the one-way communication reported data between label and the card reader, the no response process can reduce the working time over half; Label has the channel busy listening functions, reduces the conflict in the communication.
Electronic tag mainly is made of with power module (3) described rf chip (1), 2.4G ceramic antenna (2); Rf chip can be arranged on the 11st to the 25th channel (channel), and each channel is corresponding to different frequency of operation (Freq), and computing formula is:
Freq=2400+5 * channel (unit: MHz)
Electronic tag has 3 kinds of mode of operations when work: activation, emission and park mode.
The utility model adopts battery to power to electronic tag, adopt one-way communication mechanism between label and the card reader, simplify the recognition process, shorten the working time of label, label takes reasonably to keep out of the way the delay retransmission mechanism in the transmission data procedures simultaneously, collision possibility when effectively the many labels of reduction are distinguished simultaneously improves recognition efficiency.
Embodiment
Electronic tag mainly is made up of rf chip, antenna and power supply.The oscillator pin XOSC_Q1 of rf chip U1 is connected with 1 pin of crystal Y1, and oscillator pin XOSC_Q2 is connected with 3 pin of crystal Y1.Capacitor C 1 one ends are connected other end ground connection with 1 pin of crystal Y1.Capacitor C 2 one ends are connected other end ground connection with 3 pin of crystal Y1.2, the 4 pin ground connection of crystal Y1.
The oscillator pin P2.3/XOSC_Q1 of rf chip U1 is connected with 1 pin of crystal Y2, and oscillator pin P2.4/XOSC_Q2 is connected with 2 pin of crystal Y2.Capacitor C 13 1 ends are connected other end ground connection with 2 pin of crystal Y2.Capacitor C 14 1 ends are connected other end ground connection with 1 pin of crystal Y2.
Supply pin the 7th, 20,47,23,41 pin of rf chip U1 are connected to the 3.3V power supply, i.e. anode, and the 49th pin is connected to ground.
One end of capacitor C 5 links to each other with anode, another section ground connection.One section of capacitor C 6 links to each other another section ground connection with the positive pole of battery.
The resetting pin RESET_N of rf chip U1 is connected to resistance R 3, and resistance R 3 other ends are connected to the 3.3V power supply.
The radio frequency input and output pin RF_P pin of rf chip U1 is connected to inductance L 1, L2 and L3.The other end of inductance L 1 is connected to the radio frequency input and output pin RF_N pin of rf chip U1.The other end of inductance L 2 is connected to the transmitting-receiving control pin TXRXSWITCH of rf chip U1.Inductance L 3 one ends are connected to the radio frequency input and output pin RF_P pin of rf chip U1, and the other end links to each other with capacitor C 8.The other end of capacitor C 8 is connected to antenna.
The 1.8V power supply output pin PREG_OUT pin of rf chip U1 is connected to resistance capacitance C9 and C10, and the other end of capacitor C 9, C10 is connected to ground.
Supply pin 24,25,27,28,29,30,31,35,36,37,38,39,40 interconnection of rf chip U1.
The 42 pin DCOUPL of rf chip U1 link to each other with ground by capacitor C 3.
The 26 pin RBIAS2 of rf chip U1 link to each other with ground by resistance R 1.
The 22 pin RBIAS1 of rf chip U1 link to each other with ground by resistance R 2.
Electronic tag is worn with oneself or is installed on the equipment by personnel, each electronic tag rf chip U1 includes 8051 one-chip computer modules, radio-frequency (RF) receiving and transmission module and Flash storer, in the built-in Flash storer burning expression id information of these personnel (or equipment), i.e. job number.After electronic tag worked on power, single-chip microcomputer was read employee information among the Flash, was labeled as the identity of self.The data that single-chip microcomputer will need to send send radio-frequency (RF) receiving and transmission module to, send by radio-frequency (RF) receiving and transmission module, rf chip U1 working frequency range is 2.4GHz, emission signal frequency is 2400~2483.5MHz, be divided into 16 channels on this frequency range again, the selection of channel is definite by running application in the one-chip computer module.
The method of work of described low-power consumption active anticollision electronic label, it is characterized in that: after electronic tag works on power, single-chip microcomputer is read the identity id information of staff in the Flash storer, be labeled as the identity of self, determine that the frequency of operation that sends with the information of reception is a working channel, then according to following steps work:
1) send: report a secondary data, described data are made up of the low byte of frame head sign, ID numbering, high byte, the check bit of ID numbering, and time span is T1.
Table 1 electronic tag reported data form
Sequence number |
Implication |
Length (byte) |
Remarks |
1 |
0xAB |
1 |
The frame head sign |
2 |
ID numbers low byte |
1 |
|
3 |
ID numbers high byte |
1 |
|
4 |
Verification |
1 |
2,3 content additions |
2) dormancy: enter park mode, the dormancy T2 time;
3) activate: whether after carrying out necessary state initialization after the activation, intercepting has out of Memory using described working channel in the space outerpace:
If the working channel free time, then forward step 1) to;
If working channel is occupied, then carry out following anticollision back off algorithm:
1. initial time delay stand-by period Ta=T is set, and T is a constant, the initial number of times Time0=1 that waits;
2. the Ta time is waited in time-delay;
3. intercept the working channel operating position:
If the working channel free time, forward step 1) to;
If working channel is occupied, then carry out next step:
If 4. wait number of times Time0, forward step to 6., otherwise carry out next step greater than 4;
5. waiting time Ta=Ta * 2+ random number is set, and the random number size is no more than 0.05 millisecond, is provided with and waits number of times Time0=Time0+1 time, forwards step to 2.;
6. send failure, this sends end, enters step 2).
Embodiment:
If the transmission data baud rate of electronic tag is 250KBps, label reported data content-length is 4 bytes, then reports time span to be calculated as:
4*8/250000=0.000128 second, promptly 0.128 millisecond;
Under the ideal state, 80 electronic tags all report a data time to be:
0.128*80=10.24 millisecond;
If once conflict (80 labels are worked simultaneously) in each process of transmitting sends the successfully 1000ms of dormancy afterwards, activation initialization time is 1ms, and the transmission electric current is 27 milliamperes, and activated current is 15 milliamperes, and quiescent current is pressed 0.01ma, then has:
The label average consumed cur-rent:
I=(0.128*27+(1+0.1)*15+1000*0.01)/(0.128+1+0.1+1000)
=0.0299 (milliampere)
Then the time that can work of the battery of 2000 MAHs is: 2000/ (0.0299*24*30)=92 (moon)