Product Center
-
Hydrological equipment monitoring station
-
Water Quality Monitor Sensor
-
Plant protection equipment
-
Food Testing Equipment
- Solar-Powered Water Level Monitoring System Utilizes Microwave Radar Technology for Non-Contact Hydrological Observation
- Tubular Soil Moisture Monitor Simultaneous Measurement of Soil Moisture, Temperature, and Conductivity at Multiple Depths
- Groundwater level monitoring Utilizing Integrated Molding Technology to Ensure Stable Deep-Well Measurement
- Agricultural monitoring equipment Remote Management of Agricultural "Four Conditions" via IoT Sensors
- Water Level Measurement Features Triple-Layer Lightning Protection and High-Tensile Steel-Wire Cabling
- Crop Monitoring and Scouting Integrated Online Monitoring System for Soil Moisture, Pest Activity, Crop Growth, Disaster Conditions, and Spores
Shandong Fengtu IOT Technology Co., Ltd
Sales Manager:Ms. Emily Wang
Tel, Whatsapp:+86 15898932201
Email:info@fengtutec.com
Add:No. 155 Optoelectronic Industry Accelerator, Gaoxin District, Weifang, Shandong, China
Aquaculture monitoring system
Model:FT-SS03B
Brand:fengtu
Get a Free QuoteRelated products
Product details
1. Aquaculture monitoring system product introduction
Aquaculture monitoring system can detect water quality, temperature, conductivity, PH and other key water quality indicators at the same time to ensure the safety of aquaculture water environment.The SS03B model Aquaculture monitoring system is an electrode method water quality analysis instrument that uses fully digital electrode detection to detect water quality, temperature, conductivity, and PH parameters.The instrument is equipped with the self-developed ftiot operating system, which is simple to operate, has stable performance, accurate measurement, and wide detection range.It has a built-in high-capacity rechargeable lithium battery, making it convenient for users to conduct water quality testing at any time in the field or laboratory.
2.Aquaculture monitoring system host parameters
| Charging input voltage | 4.5V-5.5V |
| Charging current | <2A |
| screen size | 3.5 inches |
| screen resolution | 480*800☆ |
| screen interface | MIPI DSI☆ |
| USB interface | 2 (Supports external expansion of mouse, keyboard, 4G, etc.)☆ |
| Type-C | 1 (Supports external expansion of mouse, keyboard, 4G, etc.)☆ |
| RS485 | 2 (Supports Modbus, json, asc input, etc.) |
| External sensor supply voltage | 12V |
| External sensor supply current | 1A |
| operating system | ftiot (based on Linux-5.4)☆ |
| CPU | 2*Cotex-A7, 650Mhz☆ |
| RAM | 512M DDR3☆ |
| Flash | 8G-64G |
| OpenGL | ES 2.0☆ |
| Wifi | support |
| 4G | Optional |
| button | support |
| capacitive touch screen | support |
| software architecture | B/S☆ |
| web access | Support☆ |
| MTP mode | Support☆ |
| Multiple terminal login | Support☆ |
| IPV6 | Support☆ |
| Sensor communication method | RS485, TCP, UDP, HTTP☆ |
| Data forwarding method | RS485, TCP, UDP, HTTP☆ |
| Remote SSH | Support☆ |
| remote debugging | Support☆ |
3.Aquaculture monitoring system sensor parameters and configuration
| serial number | name | Measuring range | principle | Measurement accuracy | Configuration | Remark |
| 1 | temperature | 0~50℃ | High-precision digital sensor | ±0.3℃ | ✔ | |
| 2 | pH | 0~14(ph) | Electrochemistry (Salt Bridge) | ±0.1PH | ✔ | |
| 3 | ORP | -1500mv~1500mv | Electrochemistry (Salt Bridge) | ±6mv | ||
| 4 | Conductivity | 0~5000uS/cm,0~10000uS/cm | contact electrode method | ±1.5% | ✔ | |
| 5 | TDS | 0~20μS/cm (TDS 0-10mg/L) | contact electrode method | ±1.5% | ||
| 6 | salinity | 0-2.5ppt or 0-80ppt | contact electrode method | ±0.05ppt or ±1ppt | ||
| 7 | Sludge concentration | 0~20.000g/L | scattered light method | ±5% (depending on sludge homogeneity) | ||
| 8 | Turbidity | 0~40NTU (low turbidity) | scattered light method | ±1% | Optional | |
| 0~1000NTU (medium turbidity) | scattered light method | ±1% | ||||
| 0~3000NTU (high turbidity) | scattered light method | ±1% | ||||
| 9 | Dissolved oxygen | 0~20mg/L | fluorescence lifetime method | ±2% | ||
| 10 | Ammonia nitrogen | 0-1000.00mg/L (default) 0-100.00mg/l/ (customizable) | Ion selective electrode method | 10% of reading, ±0.5℃ | ||
| 11 | suspended solids | 0~2000mg/L | scattered light method | ±5% (depending on sludge homogeneity) | ||
| 12 | Residual chlorine | 0~5.00mg/L | Ion selective electrode method | ±5% of reading | The accuracy is best when the flow rate is 0.42m/s-0.85m/s. | |
| 13 | Chloride ions | 0-3500.0mg/L | Ion selective electrode method | ±5% | ||
| 14 | Total hardness | 0~1000.0mg/L | Ion selective electrode method | ±10% of reading | ||
| 15 | cod | 0~500mg/L | UV254 absorption method | ±5% | COD and chlorophyll are equipped with automatic cleaners to prevent biological adhesion and avoid light window pollution to ensure long-term monitoring is still stable; the automatic cleaning time and cleaning frequency can be set, and the power consumption is 0.7W | |
| 16 | Chlorophyll | 0~400ug/L | Fluorescence method | R2>0.999 |
This paper addresses:https://fengtusz.com/Portable-Water-Quality-Monitor/Aquaculture-monitoring-system.html
- Previous Article :Aquaculture Water Quality Monitor
- Next Article:Portable Multi parameter Water Quality Meter
Related article
-
Tubular Soil Moisture Monitor: Adaptive Sensing for Smart Farming Operations
2025-07-07 -
Aquaculture monitoring systems: applications and development of the Internet of Things in fisheries
2024-05-31 -
FT - LF2 Crack Monitor: Your Shield Against Geological Risks
2025-01-21 -
Flood control visualisation with water measuring and reporting system
2024-06-11 -
The Indispensable Role of Automatic Soil Monitoring System in Sustainable Crop Cultivation
2024-11-28 -
The Significance and Function of Handheld Weather meter in the Wild
2025-03-17 -
An Introduction to Propeller Flow Meter and Its Working Mechanism
2024-12-17 -
Essential River flow monitoring system: Navigating the Complexities of Riverine Data
2024-11-25
