- 全向:2.4G全向
- 可调节距离:距离1-120米可调节
- P接口:OE接口或24V供电
-
防爆型户外全向基站
1、产品概述
防爆型户外全向基站是用于采集车辆卡和人员卡信息的装置。其内部集成有2.4G高性能通讯模块,利用射频通讯原理(交变磁场或电磁场)产生电磁波实现无接触信息传递,并通过所传递的信息达到自动识别目的。从而能对指定区域的电子标签对应人员或车辆进行定位。
2、外形及尺寸3、产品参数
物理参数
外形尺寸 180mm*175mm*65mm
产品材质 压铸铝
产品颜色 浅绿色
产品重量 小于1.8kg
包装 泡沫盒盒(1个/盒)(可定制)环境参数
工作湿度 5%~95%
工作温度 -20℃ ~+65℃
存储温度 -40℃ ~+80℃
防爆等级 需要报检
防护等级 IP66性能参数
工作电压 12v
工作电流 ≤ 1A
识别距离 空旷、无干扰120米距离可调
工作频段 2.4GHz~2.5GHz ISM 微波段
读卡速度 小于1S
调制模式 GFSK
输出功率 20dBm(可调)
接收灵敏度 -89dBm(可调)
射频通讯速率 250K/1M/2M bps
通讯模式 TCP/IP
通讯接口 RJ45
输入输出接口 6P航空插头(RJ45网口)
天线相关电气性能
频率范围 2400-2500MHz
天线增益 >8dBi
极化方式 垂直极化
驻波比VSWR <1.5
水平波瓣宽度 360°
垂直波瓣宽度 60°
输入阻抗 50(Ω)
最大功率容量 100(W)
4、网络设定及通讯方法
1、通过客户端工具检索设备和更新设备固件和参数的方法:
打开TdArmCoreFrm.exe工具,点击[搜索设备]按钮可读到所连接网络的设备网络参数,如需要更改则修改网络参数,先选择好网络设备MAC地址,把设备网络参数修改后再点击[参数设置]按钮即可,如需固件升级则使用[固件更新]按钮。2、通过WEB修改设备系统参数方法:
设备默认IP地址:192.168.1.88(连接网络并确保设备与本地网络同一IP段的况下,可用IE打开设备的配置页面),WEB配置如下①中英文切换选项
②设备当前使用的固件版本
③进入配置页面时输入的登录密码,出厂默认没有
④设备当前时间
⑤每台设备唯一ID号
⑥每隔一段时间通讯一次,检查设备是否在线(默认60秒)①模式之间切换;常规接收模式:读取2.4g标签使用
常规应答模式:用于答题卡标签、基站
增强**模式:实现更好的接收状态
蓝牙模式:用于接收蓝牙类标签
若修改模式后无法正常使用,2.4g类标签修改回常规模式
②射频密码不建议修改,修改后不能与标签同步
③2.4g距离调节,0最大距离,但不会显示灵敏度值,1最小15最大(有灵敏度数值显示)
④在设定时间内重复读到标签只上传一次,默认0秒实时上传
⑤适用于TD-PJ15,每隔设定时间闪一次灯光,默认值0为关闭
⑥所有读卡:基站接收的标签ID都会上传
仅限匹配低频激励地址:该选项使阅读器仅接收“低频激励参数”的“低频编号”
显示设备当前网络参数①设备常规适用TCPIP无需修改
②设置设备所接收的数据上传到的电脑IP地址或服务器IP
③通讯端口默认2000根据客户使用的服务端口来修改①单字节关闭低频输出;双字节适用常规卡;增强模式适用特殊卡;默认双字节模式
②低频编号用于辨别125k地址码
③125k激活距离调节0最小100最大
④厂家调试选项,用户请勿修改,默认值120
⑤厂家调试选项,用户请勿修改,默认值333
⑥设置125k的间隔工作时长
该功能为支持4g插卡的基站适用,开启与关闭选项,显示物联网卡相关信息
修改任何一项参数都需点击“保存并重启”才会生效
十、网络操作指令
序号 名称 指令 参数 说明 举例 返回值
1 获取版本号码 #GET_VER 无 当前设备的版本号 #GET_VER *VER:?.?*
2 获取系统时间 #GET_TIME 无 获取设备的日期时间 #GET_TIME *YYYY-MM-DD HH:MM:SS*
3 设定系统时间 #SET_TIME YYYY-MM-DD HH:MM:SS 设置设备的日期时间 #SET_TIME 2015-03-15 17:00:00 *OK*
4 获取历史记录 #GET_HISTORY 无 提出上传失败的记录 GET_HISTORY 数据打包回传
5 恢复出厂值 #FACTORY 无 恢复厂家默认值 #FACTORY *OK*
(注意:如果是带参数的指令,其参数格式一定按照说明要求的格式序列)
下发数据给标签(下发文字消息、下发报警指令)
数据格式:字符型
长度:不定
指令名称 参数一 参数二 示例
#SET_TAG_DATA 功能一 功能一 功能一
0001-标签号码 文字内容 #SET_TAG_DATA 0002-1234567890 Msg:Hello!/n
功能二 功能二 功能二
0002-标签号码 报警功能 所有标签报警30秒
#SET_TAG_DATA 0002-0000000000 100030/n
所有标签关闭报警
#SET_TAG_DATA 0002-0000000000 000000/n
指定标签报警30秒设置
#SET_TAG_DATA 0002-1234567890 100030/n
指定标签灯光报警30秒
#SET_TAG_DATA 0002-1234567890 200030/n
指定标签声音报警30秒
#SET_TAG_DATA 0002-1234567890 300030/n
指定标签报警解除
#SET_TAG_DATA 0002-1234567890 000000/n下发举例
例1:指定卡号1234567890的标签报警30秒下发:#SET_TAG_DATA 0002-1234567890 100030/n
例2:指定卡号1234567890的标签报警解除:#SET_TAG_DATA 0002-1234567890 000000/n
注意:标签号码为0000000000的话对所有标签进行操作1、数据包的定义:
40位字符数据包格式 (不包括结尾的回车符和换行符)
序号 定义 说明
1 头标志 ‘#’
内容格式:十六进制字符格式
设备类型、设备编号或者场地编号,可自行修改(进入设备管理页面可进行修改)
(此数据指是读卡器的设备编号,而非腕带的编号)
2 设备ID7(H)
3 设备ID6(H)
4 设备ID5(H)
5 设备ID4(H)
6 设备ID3(H)
7 设备ID2(H)
8 设备ID1(H)
9 设备ID0(H)
10 年高位(D) 内容格式:十进制字符格式
时间
年月日时分秒
11 年低位(D)
12 月高位(D)
13 月低位(D)
14 日高位(D)
15 日低位(D)
16 时高位(D)
17 时低位(D)
18 分高位(D)
19 分低位(D)
20 秒高位(D)
21 秒低位(D)
22 卡号第10位(H) 卡号
内容格式:十进制字符格式
腕带的2.4G卡号
23 卡号第9位 (H)
24 卡号第8位 (H)
25 卡号第7位 (H) 内容格式:十六进制字符格式
卡号:与外壳印刷号码一致,人卡取5字节,车卡取后4字节
26 卡号第6位 (H)
27 卡号第5位 (H)
28 卡号第4位 (H)
29 卡号第3位 (H)
30 卡号第2位 (H)
31 卡号第1位 (H)
32 功能标志位(C) 内容格式:任意字符,标志位大写字符电量正常,标志位小写字母低电量
A/a:定位功能,标签数据1里表示标签采集到的低频定位地址码,
B/b:拆除报警功能
S/s:报警功能,标签数据1值为01表示求救报警、02表示加速度报警
H/s:心率功能,标标签数据1里表示标签采集到的心率、数据2表示血氧值。
T/t:温度功能,标签数据1表示体温整数值、数据2表示体温小数值,数据3表示环境温度。
33 标签数据1
34
35 标签数据2
36
37 标签数据3 RSSI信号强度值,高半字节0~F表示 信号强度,超小值信号超强,低半字节1~4表示对应的通道号
38
39 校验和的高4位(H) 内容格式:十六进制字符格式
检验和字节,将前面38个字符的十六进值加起来,再加上这里的校验码值,合并的和尾部字节值为零
40 校验和的低4位(H)
2、数据包详细介绍:校验和举例:示例:#000000011504180808090022046518E9900007D
序号 字符 十六进制 运算方法
01 # 23 ‘#’
校验和计算:把所有16进制的值相加的总和,未字节为0值
23+30+30+30+30+30+30+30+31+31+35+30+34+31+38+30+38+30+38+30+39+30+30+32+32+30+34+36+35+31+38+45+39+39+30+30+30+30+7D=800(合并得值尾字节为0)
02 0 30
03 0 30
04 0 30
05 0 30
06 0 30
07 0 30
08 0 30
09 1 31
10 1 31
11 5 35
12 0 30
13 4 34
14 1 31
15 8 38
16 0 30
17 8 38
18 0 30
19 8 38
20 0 30
21 9 39
22 0 30
23 0 30
24 2 32
25 2 32
26 0 30
27 4 34
28 6 36
29 5 35
30 1 31
31 8 38
32 E 45
33 9 39
34 9 39
35 0 30
36 0 30
37 0 30
38 0 30
39 7 7d
40 D十二、网络心跳包机制
为了保证连接的可靠性及检查设备是否实时在线,设备端会每隔一段时间(默认为60秒)向服务端发送心跳包数据。
1、设备端发送心跳包的数据格式(40字符):
心跳包的数据格式与以上的读卡数据包是一致的,在其数据包中的卡号内容为0000000000。
举例:#0331DF001602271623570000000000000000092
2、服务端发送确认包的数据格式(24字符):
为了保持设备端的系统时间与服务端一致,以及系统网络异常情况下自动重启设备重新连接网络(如果已启用设备自动重启功能),服务端收到设备发送过来的心跳包后要作出返回数据的响应,返回包数据格式如下:
名称 头标志 命令代码 设备日期 设备时间
描述 # ACK 10位日期字符 8位时间字符
举例:#ACK 2015-05-09 08:14:08
Explosion-proof outdoor omnidirectional base station
1. Product overview
The explosion-proof outdoor omnidirectional base station is a device for collecting information of vehicle card and personnel card. It is integrated with 2.4G high-performance communication module, which uses radio frequency communication principle (alternating magnetic field or electromagnetic field) to generate electromagnetic waves to achieve non-contact information transmission, and through the transmitted information to achieve the purpose of automatic identification. In this way, the electronic tag corresponding to the designated area of the person or vehicle can be located.
2. Shape and size
3. Product parameters
Physical parameters
External dimensions 180mm*175mm*65mm
Product material die - cast aluminum
Product color light green
The product weight is less than 1.8kg
Packaging foam box box (1 / box) (can be customized)
Environmental parameters
The operating humidity ranges from 5% to 95%
Operating temperature -20 ° C to +65 ° C
Storage temperature -40 ° C to +80 ° C
Explosion-proof grade requires inspection
Protection level IP66
The performance parameters
Operating voltage 12v
Operating current ≤ 1A
Identification distance from open space, no interference 120 meters distance adjustable
Operating frequency band 2.4GHz ~ 2.5GHz ISM microwave segment
The card reading speed is less than 1S
Modulation mode GFSK
Output power 20dBm (adjustable)
Receiving sensitivity -89dBm (adjustable)
The RF communication rate is 250K/1M/2M bps
Communication mode TCP/IP
Communication interface RJ45
Input/output port 6P Aviation plug (RJ45 network port)
Antenna related electrical performance
Frequency range 2400-2500MHz
Antenna gain >8dBi
The polarization mode is vertical polarization
VSWR <1.5
Horizontal lobe width 360°
Vertical lobe width 60°
Input impedance 50 (Ω)
Maximum Power Capacity 100 (W)
4. Network setting and communication methods
1. Methods of retrieving devices and updating device firmware and parameters through client tools:
Open the TdArmCoreFrm.exe tool and click the [Search device] button to read the network parameters of the device to be connected to the network. If you need to modify the network parameters, select the MAC address of the network device first, modify the network parameters of the device and then click the [Parameter Setting] button. If you need to upgrade the firmware, use the [Firmware update] button.
2. Method of modifying device system parameters through WEB:
The default IP address of the device is 192.168.1.88. If the device is connected to the network and in the same IP address segment as the local network, you can open the device configuration page using Internet Explorer. The WEB configuration is as follows
① Switching options between Chinese and English
② The current firmware version of the device
③ The login password entered on the configuration page is not configured by factory default
④ Current time of the device
⑤ Unique ID of each device
⑥ Communicate every once in a while to check whether the device is online (default 60 seconds)
① Switching between modes; Normal reception mode: used to read 2.4g labels
Regular response mode: for answer sheet labels, base stations
Enhanced ** mode: Achieve better reception state
Bluetooth mode: Used to receive Bluetooth labels
If the mode cannot be used properly, change the 2.4g label back to the normal mode
② You are not advised to change the radio frequency password. After the password is changed, it cannot be synchronized with the label
③2.4g distance adjustment, 0 maximum distance, but sensitivity value will not be displayed, 1 minimum 15 maximum (sensitivity value is displayed)
④ Upload labels repeatedly within the specified period of time. By default, the labels are uploaded in real time within 0 seconds
⑤ applicable to TD-PJ15, every set time to flash the light, the default value of 0 is off
⑥ All read card: the base station receives the tag ID will be uploaded
Match low frequency excitation address only: This option makes the reader only receive the "low frequency number" of the "low frequency excitation parameter"
Displays the current network parameters of the device
① The device is generally applicable to the TCPIP
② Set the computer IP address or server IP address for uploading data to the device
③ Communication port Default 2000 The value can be changed according to the service port used by the customer
(1) Single byte off low frequency output; Double byte for conventional cards; Enhanced mode for special cards; Default double-byte mode
The low frequency number is used to identify the 125k address code
(3) 125k activation distance adjustment 0 min 100 Max
④ Manufacturer debugging option, users do not modify, the default value is 120
⑤ Manufacturer debugging option, users do not modify, default value 333
⑥ Set the interval working time of 125k
This function is applicable to base stations that support 4g cards. It enables and disables the option to display information related to the Internet of Things card
To modify any parameter, click "Save and Restart" to make it take effect
Network operation instruction
Parameter Description Example Value Returned
1 Obtain the version number. #GET_VER None Version number of the current device. #GET_VER *VER:? .? *
2 Obtain the system time #GET_TIME None Obtain the date and time of the device #GET_TIME *YYYY-MM-DD HH:MM:SS*
3 Set the system time #SET_TIME YYYY-MM-DD HH:MM:SS Set the date and time of the device #SET_TIME 2015-03-15 17:00:00 *OK*
4 Obtain a history record. #GET_HISTORY None Packet the GET_HISTORY data that fails to be uploaded and send it back
5 Restore FACTORY defaults #FACTORY None Restore factory defaults # factory *OK*
(Note: If it is an instruction with arguments, the format of the arguments must follow the format sequence specified in the instructions)
Send data to tags (send text messages, send alarm instructions)
Data format: characters
Length: variable
Directive name Parameter one parameter two example
#SET_TAG_DATA function one function one function one
0001- Tag number text content #SET_TAG_DATA 0002-1234567890 Msg: Hello! /n
Function two Function two function two
0002- Label number alarm function Alarms all labels for 30 seconds
#SET_TAG_DATA 0002-0000000000 100030/n
All tags closed alarm
#SET_TAG_DATA 0002-0000000000 000000/n
Specify label alarm 30 second setting
#SET_TAG_DATA 0002-1234567890 100030/n
Specify label light alarm for 30 seconds
#SET_TAG_DATA 0002-1234567890 200030/n
Specify label sound alarm for 30 seconds
#SET_TAG_DATA 0002-1234567890 300030/n
The specified tag alarm is removed
#SET_TAG_DATA 0002-1234567890 000000/n
For the issuance of the
Example 1: #SET_TAG_DATA 0002-1234567890 100030/n is delivered after 30 seconds
Example 2: #SET_TAG_DATA 0002-1234567890 000000/n The tag with the specified card number 1234567890 is undetected
Note: Perform operations on all tags with the tag number 0000000000
1. Definition of data packet:
40-bit character packet format (excluding carriage return and newline characters at the end)
Serial Number Definition Description
1 Head sign '#'
Content format: hexadecimal characters
The device type, device number, or site number can be modified by yourself (you can modify it on the device management page).
(This data refers to the device number of the card reader, not the number of the wristband)
2 equipment ID7 (H)
3 equipment ID6 (H)
4 equipment ID5 (H)
5 equipment ID4 (H)
6 equipment ID3 (H)
7 equipment ID2 (H)
8 device ID1 (H)
9 device ID0 (H)
10-year high (D) Format: decimal character format
time
Year month day hour minute second
11-year Low (D)
December High (D)
13-month Low (D)
14-day High (D)
15-day Low (D)
16 hours high (D)
17:00 low (D)
18 points high (D)
19 Low points (D)
20 second high (D)
21 second low (D)
22 Card number 10th (H) Card number
Format: decimal characters
2.4G card number of the wrist strap
23 Card No. 9 (H)
24 Card No. 8 (H)
25 Card number 7 (H) Content format: hexadecimal character format
Card number: THE same as the printed number of the shell, 5 bytes for the person card and 4 bytes for the car card
26 Card No. 6 (H)
27 Card No. 5 (H)
28 Card No. 4 (H)
29 Card No. 3 (H)
30 Card No. 2 (H)
31 Card No. 1 (H)
32 Function flag bit (C) Content Format: Any character. Uppercase character indicates normal power, lowercase character indicates low power
A/a: location function. Label data 1 indicates the low-frequency location address collected by the label.
B/b: disable the alarm function
S/s: alarm function. The value of label 1 is 01, indicating distress alarm, and 02, indicating acceleration alarm
H/s: heart rate function. Label data 1 represents the heart rate collected by the label, and data 2 represents the blood oxygen value.
T/t: indicates the temperature function. Data 1 indicates the integer value of the body temperature, data 2 indicates the minor value of the body temperature, and data 3 indicates the ambient temperature.
33 Label data 1
34
35 Label data 2
36
37 Label data 3 Indicates the RSSI signal strength. A high half byte (0 to F) indicates the signal strength, a small half byte (1 to 4) indicates the strong signal, and a low half byte (1 to 4) indicates the corresponding channel number
38
39 High-four-bit (H) content of the checksum Format: hexadecimal character format
Check and byte, add the hexadecimal values of the previous 38 characters, plus the check code value here, the combined and tail byte value is zero
The lower 4 bits of the checksum (H)
2, packet in detail: the checksum example: example: # 000000011504180808090022046518 e9900007d
Ordinal character hexadecimal operation method
01 # 23 '#'
Checksum calculation: The sum of all hexadecimal values added together, with no bytes being the zero value
23+30+30+30+30+30+30+30+31+31+35+30+34+31+38+30+38+30+38+30+39+30+30+32+32+30+34+36+35+31+38+45+39+39+30+30+30+30+7D=800 (The merged value ends in 0)
02 0 30
03 0 30
04 0 30
05 0 30
6 0 30
07 0 30
08 0 30
09 1 to 31
10 1 to 31
11 5 to 35
12 0 30
13 4 34
14 1 to 31
15 8, 38
16 0 30
17, 8, 38
18 0 30
19 8, 38
20 0 30
The 21st September 39
22 0 30
23 0 30
24 2 32
25 2 32
26 0 30
27 4 34
28 6 to 36
29 5 to 35
30 1 to 31
31 August 38
32 E 45
33 9 39
34 9 39
35 0 30
36 0 30
37 0 30
38 0 30
39 7 7d
40 D
Network heartbeat packet mechanism
To ensure connection reliability and check whether the device is online in real time, the device sends heartbeat packets to the server every 60 seconds by default.
1. Data format of the heartbeat packet sent by the device (40 characters) :
The data format of the heartbeat packet is the same as that of the preceding card read packet. The card number content in the heartbeat packet is 0000000000.
Example: # 0331 df001602271623570000000000000000092
2. Data format of the confirmation packet sent by the server (24 characters) :
To keep the system time of the device consistent with that of the server and automatically restart the device to reconnect the network when the system network is abnormal (if the automatic restart function of the device is enabled), the server should respond to the heartbeat packet sent by the device in the following format:
Name header Indicates command code Device Date Device time
Description # ACK 10 bit date character 8 bit time character
Example: #ACK 2015-05-09 08:14:08