1.Product introductionG01NET-3-F high-precision dynamic data acquisition instrument is a dynamic data acquisition instrument with the functions of synchronous acquisition of monitoring data, on-site s
G01NET-3-F high-precision dynamic data acquisition instrument is a dynamic data acquisition instrument with the functions of synchronous acquisition of monitoring data, on-site storage and real-time data upload. This collector has 8-channel analog input channel and 24-bit conversion accuracy; supports Beidou, GPS, and host computer network to calibrate the collector;
This collector has the fucntion of remotely modifying the operating parameteres in the SD card,remotely copying data,and monitoring thr storage space of the SD card.
This instrument supports customers' secondary development. We can open the communication protocol of the collector for free.。
The instrument is equipped with special parameter setting software, data acquisition and analysis software. For detailed use of the software, please read the software instruction manual (G01NETCS2019S1 data acquisition instrument parameter setting software instruction manual, G01NETFDC2020S1 wind power tower safety monitoring system instruction manual, DZJC2020S1 engineering ground vibration and vibration monitoring system instruction manual)
Index name | Technical parameter |
Type | G01NET-3-F |
Analog signal input channel | 8 channels (default single-ended input, support differential input) |
Input range and resolution | -10~10V/0.005mV |
Sampling frequency | Can be set to 1~10547Hz (all channels are fully synchronized) |
Storage capacity and format | Storage capacit:The standard configuration:16G SD card,Storage format:Binary |
Remote data transmission | Support three communication methods: UDP, TCPIP Client and TCPIP Server; the default is TCPIP Client; the default is continuous transmission after power on |
Transmission data type | Real-time transmission of raw data |
Timing | GPS、Big Dipper、Host computer network |
Dynamic range | ≥120dB |
Power supply | DC12V |
Consumption | 4watts |
Size(L*W*H,mm) | 177*182*44(Installation hole spacing:153*68mm it is recommended to use a nut with a size of 11mm to fix the collector) |
Input resistance | 1MΩ |
Operating temperature | Temperature:-35℃~+70℃ Humidity:≤90% |
On-site data storage trigger mode | Trigger based on amplitude |
Blast monitoring, earthquake monitoring, microseismic monitoring, fan tower and other building structure safety monitoring.
High precision, low power consumption, small size, real-time data collection, triggered storage of data, real-time data transmission, positioning and altitude measurement functions.
Figure1 Description of collector interface
Table 1 Description of the external interface and terminal block of the collector
No. | Name | Descrioption |
1 | 电源接口(DC12V) | Power supply interface for the collector, connect to 12V DC voltage, the size of the interface is 5.5*2.1mm; the power adapter is standard at the factory |
2 | GPS | Connect GPS antenna |
3 | SD | 16G memory card location |
4 | RJ45 | RJ45 network cable interface, connect to switch or server, etc. |
5 | GPS | GPS or Beidou connection status display, flashing light indicates that GPS or Beidou is connected. |
6 | WORK | Operating status indicator; lights up when the machine is initialized, starts to collect at the end of initialization, and blinks at 2 Hz; when data is transmitted remotely; the state light turns off at 1 Hz. |
7 | TRIGGER | Trigger status indicator; Trigger success: Turns red and starts saving data. The indicator goes off after the specified length of time. |
8 | RESTART | After receiving the commandfrom the host computer, it turns red until the light is off after the task is completed. |
9 | 12V DC voltage output | 12V power supply positive pole, supplying power to the sensor, usually connected to the red core wire of the sensor |
10 | GND | The negative pole of the power supply (signal ground), usually connected to the black core wire and shielded wire of the sensor. |
11 | Signal input channel 1 | The first analog signal input channel of the collector, connected to the sensor signal line |
12 | Signal input channel 2 | The second analog signal input channel of the collector is connected to the sensor signal line. |
13 | 12V DC voltage output | The positive pole of the 12V power supply powers the sensor, usually connected to the red core wire of the sensor. |
14 | GND | Power supply negative (signal ground), usually connected to the black core wire and shielded wire of the sensor |
15 | Signal input channel 3 | The third analog signal input channel of the collector, connected to the sensor signal line |
16 | Signal input channel 4 | The fourth analog signal input channel of the collector is connected to the sensor signal line. |
17 | 12V DC voltage output | The positive pole of the 12V power supply powers the sensor, usually connected to the red core wire of the sensor. |
18 | GND | The negative pole of the power supply (signal ground), usually connected to the black core wire and shielded wire of the sensor. |
19 | Signal input channel 5 | The fifth analog signal input channel of the collector is connected to the sensor signal line. |
20 | Signal input channel 6 | The sixth analog signal input channel of the collector is connected to the sensor signal line. |
21 | 12V DC voltage output | The positive pole of the 12V power supply powers the sensor, usually connected to the red core wire of the sensor. |
22 | GND | Power supply negative (signal ground), usually connected to the black core wire and shielded wire of the sensor |
23 | Signal input channel7 | The seventh analog signal input channel of the collector is connected to the sensor signal line.。 |
24 | Signal input channel 8 | The eighth analog signal input channel of the collector is connected to the sensor signal line. |