Brand Name: | CSPPM |
Model Number: | PPM-T9204 |
MOQ: | 1 PCS |
Packaging Details: | Standard export packing, including instructions and certificate |
Payment Terms: | L/C, T/T, Western Union, MoneyGram |
24 Bit High Resolution ADC Acquisition PPM-T9204 Explosion Proof Wireless Level Transmitter
Description
PPM-T9204 intelligent wireless liquid level transmitter is a high energy lithium battery powered, intelligent instrument for liquid level detection with wireless communication function. the instrument uses silicon piezoresistance with stainless steel isolation film as the pressure signal measuring element, pressure and temperature signals are collected by 24-bit high-precision ADC, the zero point and temperature performance compensation of the transmitter in a wide temperature range are realized. support a variety of wireless, 433,LORA,LORAWAN,GPRS,LTE,NB-IOT,WIFI etc. . the man-machine interface uses a 1.3-inch low-power LCD screen, operation display is convenient for application. the field of application is liquid level monitoring in the field or in the situation where the supporting power supply environment is inconvenient, such as fire tanks, pools, wells, etc. , by means of wireless communication, for long-distance wireless transmission of signals, this simplifies the installation, it saves the wiring cost of the customers, really achieve the goal of energy conservation and environmental protection.
Standard Range
Range | Unit |
0 ~ 1 | mH2O |
0 ~ 2 | mH2O |
0 ~ 5 | mH2O |
0 ~ 10 | mH2O |
0 ~ 20 | mH2O |
0 ~ 50 | mH2O |
0 ~ 100 |
mH2O |
Performance Specifications
PARAMETERS | VALUES |
Accuracy (combined non linearity, hysteresis, and repeatability) | 0.25% |
Zero temperature drift | ±0.03%FS/℃ |
Full range temperature drift | ±0.03%FS/℃ |
Long term stability (1 year) | ±0.25%Span |
Pressure Overload | 1.5 full scale |
Burst Pressure | 5x full range |
Compensated Temperature | 0 ~ 55℃ |
Operating Temperature | -40 ~ 60℃ |
Storage temperature | -40 ~ 85℃ |
Protection level | IP65 |
Power supply | 3.6 v High Energy Lithium Ion battery |
Display screen | OLED 1.3 inch ultra low power display |
Transmit interval | 1MIN ~ 99999MINcan be set |
Ordering Information
The selection code of the example is as follows:
MODEL | [0-X] | H | G | CO | B6 | V4 | G |
PPM-T9204 | Pressure range | Units | Output | Pressure Port | Connection | Power Supply | Type |
[0-X] |
H=mH2O
|
G=GPRS L20=LORA(20dB) L30=LORA(30dB) M=433MHZ W=WIFI T=LTE N=NB-IOT A=LORAWAN |
C1=M20X1.5 end face C6=G3/8 external thread C7=G1/2 external thread CX=Customized C0=none
|
B6= external antenna B8= external sucker antenna
|
V3= external adapter V4=built-in battery |
G=gage A=absolute pressure
|
Example:PPM-T9204-[0-5]H-G-C0-B6-V3-G(PPM-T9204 Explosion proof wireless level transmitter,Measuring 5 meters of water, Output: GPRS,Interface level probe,Connection: external antenna,Power Supply: built-in battery,gage)
3,Special requirements, please consult with us, and indicate it in the order form.
Installation Guide
PPM-T9204 intelligent wireless level transmitter probe can be installed with flange bracket, the display can be installed with a sheet metal bracket. when removing the instrument, do not apply force to instrument case.regular replacement of pressure seal ring is recommended, to make sure the transmitter works properly.
Tags: wireless pressure sensor
What are the key features and specifications of the 24 Bit Wireless Level Sensor, and how does it compare to traditional wired level sensors in terms of accuracy and reliability?
Key Features and Specifications:
High Resolution: A 24-bit sensor offers high resolution in measuring the level of liquids or materials. This allows for precise and detailed monitoring of changes in level.
Wireless Connectivity: These sensors are equipped with wireless communication technology, such as Wi-Fi, Bluetooth, or LoRa, to transmit data to a monitoring system without the need for physical wiring.
Battery-Powered: Many wireless sensors are battery-powered, providing mobility and enabling their use in remote or hard-to-reach locations.
Remote Monitoring: The wireless nature of the sensor allows for real-time remote monitoring of level data, accessible through computers, smartphones, or dedicated monitoring systems.
Environmental Compatibility: Some sensors are designed to operate in harsh environments, with features like waterproof or explosion-proof casings to withstand challenging conditions.
Data Logging: Data can be logged and stored for historical analysis and trend monitoring. The capacity and method of data storage can vary between sensor models.
Alarm and Notification: Wireless level sensors often provide alerting and notification functions, sending warnings when levels reach certain thresholds or when anomalies are detected.
Compatibility: They can be integrated with existing industrial control systems, SCADA (Supervisory Control and Data Acquisition) systems, or IoT platforms.
Comparison to Traditional Wired Level Sensors:
How does the wireless communication technology used in the sensor work, and what range and signal stability can be expected in various industrial environments?
The wireless communication technology used in a 24 Bit Wireless Level Sensor allows it to transmit data without physical wiring. The specific technology can vary, but commonly used wireless communication methods include Wi-Fi, Bluetooth, LoRa (Long Range), Zigbee, or other proprietary protocols.
How Wireless Communication Works:
Data Transmission: The wireless level sensor collects level measurements and other data. It then converts this data into a digital signal.
Wireless Transmitter: The sensor is equipped with a wireless transmitter that modulates the digital data into radiofrequency (RF) signals suitable for wireless transmission.
Transmission to Gateway/Receiver: These RF signals are sent to a designated receiver or gateway, which is typically located within range of the sensor.
Gateway/Receiver: The receiver demodulates the RF signals, extracts the digital data, and forwards it to a monitoring system or controller. This receiver is either wired to the system or connects wirelessly to a central network or cloud.
Range and Signal Stability:
The range and signal stability of a wireless level sensor can vary based on several factors, including the chosen wireless technology, the presence of obstacles, and the specific industrial environment.
Wireless Technology:
The range and signal stability depend on the chosen wireless technology. For example, Wi-Fi and Bluetooth typically have shorter ranges but provide high data transfer rates. LoRa offers longer range but at lower data rates.
Obstacles and Interference:
Physical obstacles like walls, metal structures, and other machinery can attenuate wireless signals and reduce range. In industrial environments with high levels of electromagnetic interference, signal stability can be affected.
Frequency Bands:
The frequency band used by the wireless technology can impact range and stability. Lower frequencies (e.g., sub-GHz bands) tend to offer better penetration through obstacles and longer range compared to higher frequencies.
Signal Strength and Antennas:
The signal strength of the sensor and the receiver, as well as the quality of the antennas used, can influence range and signal stability.
Environmental Factors:
Environmental conditions such as temperature, humidity, and the presence of liquids (e.g., in a chemical processing plant) can affect the performance and longevity of wireless sensors.
What are the typical industrial applications and use cases for the 24 Bit Wireless Level Sensor?
24 Bit Wireless Level Sensors find application in a wide range of industrial settings where precise and remote monitoring of fluid or material levels is required. These sensors are versatile and adaptable to various use cases.
Tank Level Monitoring:
Monitoring the levels of liquids or bulk materials in tanks or silos, commonly used in industries like oil and gas, chemicals, agriculture, and water treatment.
Environmental Monitoring:
Tracking water levels in reservoirs, rivers, and dams for flood prediction, environmental studies, and water resource management.
Wastewater Management:
Measuring wastewater levels in treatment facilities to ensure proper functioning and optimize processing.
Industrial Process Control:
Controlling and maintaining specific levels of fluids or materials in industrial processes, such as mixing, blending, and filling operations.
Chemical and Petrochemical:
Monitoring chemical tanks and storage vessels for inventory management and safety compliance.
Pharmaceuticals:
Ensuring precise liquid levels in pharmaceutical production processes to maintain quality and consistency.
Agriculture and Irrigation:
Managing irrigation systems to optimize water usage in agriculture and horticulture.
Food and Beverage:
Controlling ingredient levels in food and beverage production, as well as monitoring tanks and vessels for storage and processing.
Mining and Mineral Processing:
Measuring levels of materials in mining operations and mineral processing plants to optimize production and prevent overflows.
Oil and Gas:
Monitoring fluid levels in storage tanks, drilling operations, and pipelines to ensure efficient and safe processes.
Facility Management:
Monitoring and managing liquid levels in commercial or industrial buildings, such as water tanks and HVAC systems.
Remote Monitoring Stations:
Enabling remote monitoring in areas where access is limited, such as remote weather stations or natural resource monitoring locations.
Brand Name: | CSPPM |
Model Number: | PPM-T9204 |
MOQ: | 1 PCS |
Packaging Details: | Standard export packing, including instructions and certificate |
Payment Terms: | L/C, T/T, Western Union, MoneyGram |
24 Bit High Resolution ADC Acquisition PPM-T9204 Explosion Proof Wireless Level Transmitter
Description
PPM-T9204 intelligent wireless liquid level transmitter is a high energy lithium battery powered, intelligent instrument for liquid level detection with wireless communication function. the instrument uses silicon piezoresistance with stainless steel isolation film as the pressure signal measuring element, pressure and temperature signals are collected by 24-bit high-precision ADC, the zero point and temperature performance compensation of the transmitter in a wide temperature range are realized. support a variety of wireless, 433,LORA,LORAWAN,GPRS,LTE,NB-IOT,WIFI etc. . the man-machine interface uses a 1.3-inch low-power LCD screen, operation display is convenient for application. the field of application is liquid level monitoring in the field or in the situation where the supporting power supply environment is inconvenient, such as fire tanks, pools, wells, etc. , by means of wireless communication, for long-distance wireless transmission of signals, this simplifies the installation, it saves the wiring cost of the customers, really achieve the goal of energy conservation and environmental protection.
Standard Range
Range | Unit |
0 ~ 1 | mH2O |
0 ~ 2 | mH2O |
0 ~ 5 | mH2O |
0 ~ 10 | mH2O |
0 ~ 20 | mH2O |
0 ~ 50 | mH2O |
0 ~ 100 |
mH2O |
Performance Specifications
PARAMETERS | VALUES |
Accuracy (combined non linearity, hysteresis, and repeatability) | 0.25% |
Zero temperature drift | ±0.03%FS/℃ |
Full range temperature drift | ±0.03%FS/℃ |
Long term stability (1 year) | ±0.25%Span |
Pressure Overload | 1.5 full scale |
Burst Pressure | 5x full range |
Compensated Temperature | 0 ~ 55℃ |
Operating Temperature | -40 ~ 60℃ |
Storage temperature | -40 ~ 85℃ |
Protection level | IP65 |
Power supply | 3.6 v High Energy Lithium Ion battery |
Display screen | OLED 1.3 inch ultra low power display |
Transmit interval | 1MIN ~ 99999MINcan be set |
Ordering Information
The selection code of the example is as follows:
MODEL | [0-X] | H | G | CO | B6 | V4 | G |
PPM-T9204 | Pressure range | Units | Output | Pressure Port | Connection | Power Supply | Type |
[0-X] |
H=mH2O
|
G=GPRS L20=LORA(20dB) L30=LORA(30dB) M=433MHZ W=WIFI T=LTE N=NB-IOT A=LORAWAN |
C1=M20X1.5 end face C6=G3/8 external thread C7=G1/2 external thread CX=Customized C0=none
|
B6= external antenna B8= external sucker antenna
|
V3= external adapter V4=built-in battery |
G=gage A=absolute pressure
|
Example:PPM-T9204-[0-5]H-G-C0-B6-V3-G(PPM-T9204 Explosion proof wireless level transmitter,Measuring 5 meters of water, Output: GPRS,Interface level probe,Connection: external antenna,Power Supply: built-in battery,gage)
3,Special requirements, please consult with us, and indicate it in the order form.
Installation Guide
PPM-T9204 intelligent wireless level transmitter probe can be installed with flange bracket, the display can be installed with a sheet metal bracket. when removing the instrument, do not apply force to instrument case.regular replacement of pressure seal ring is recommended, to make sure the transmitter works properly.
Tags: wireless pressure sensor
What are the key features and specifications of the 24 Bit Wireless Level Sensor, and how does it compare to traditional wired level sensors in terms of accuracy and reliability?
Key Features and Specifications:
High Resolution: A 24-bit sensor offers high resolution in measuring the level of liquids or materials. This allows for precise and detailed monitoring of changes in level.
Wireless Connectivity: These sensors are equipped with wireless communication technology, such as Wi-Fi, Bluetooth, or LoRa, to transmit data to a monitoring system without the need for physical wiring.
Battery-Powered: Many wireless sensors are battery-powered, providing mobility and enabling their use in remote or hard-to-reach locations.
Remote Monitoring: The wireless nature of the sensor allows for real-time remote monitoring of level data, accessible through computers, smartphones, or dedicated monitoring systems.
Environmental Compatibility: Some sensors are designed to operate in harsh environments, with features like waterproof or explosion-proof casings to withstand challenging conditions.
Data Logging: Data can be logged and stored for historical analysis and trend monitoring. The capacity and method of data storage can vary between sensor models.
Alarm and Notification: Wireless level sensors often provide alerting and notification functions, sending warnings when levels reach certain thresholds or when anomalies are detected.
Compatibility: They can be integrated with existing industrial control systems, SCADA (Supervisory Control and Data Acquisition) systems, or IoT platforms.
Comparison to Traditional Wired Level Sensors:
How does the wireless communication technology used in the sensor work, and what range and signal stability can be expected in various industrial environments?
The wireless communication technology used in a 24 Bit Wireless Level Sensor allows it to transmit data without physical wiring. The specific technology can vary, but commonly used wireless communication methods include Wi-Fi, Bluetooth, LoRa (Long Range), Zigbee, or other proprietary protocols.
How Wireless Communication Works:
Data Transmission: The wireless level sensor collects level measurements and other data. It then converts this data into a digital signal.
Wireless Transmitter: The sensor is equipped with a wireless transmitter that modulates the digital data into radiofrequency (RF) signals suitable for wireless transmission.
Transmission to Gateway/Receiver: These RF signals are sent to a designated receiver or gateway, which is typically located within range of the sensor.
Gateway/Receiver: The receiver demodulates the RF signals, extracts the digital data, and forwards it to a monitoring system or controller. This receiver is either wired to the system or connects wirelessly to a central network or cloud.
Range and Signal Stability:
The range and signal stability of a wireless level sensor can vary based on several factors, including the chosen wireless technology, the presence of obstacles, and the specific industrial environment.
Wireless Technology:
The range and signal stability depend on the chosen wireless technology. For example, Wi-Fi and Bluetooth typically have shorter ranges but provide high data transfer rates. LoRa offers longer range but at lower data rates.
Obstacles and Interference:
Physical obstacles like walls, metal structures, and other machinery can attenuate wireless signals and reduce range. In industrial environments with high levels of electromagnetic interference, signal stability can be affected.
Frequency Bands:
The frequency band used by the wireless technology can impact range and stability. Lower frequencies (e.g., sub-GHz bands) tend to offer better penetration through obstacles and longer range compared to higher frequencies.
Signal Strength and Antennas:
The signal strength of the sensor and the receiver, as well as the quality of the antennas used, can influence range and signal stability.
Environmental Factors:
Environmental conditions such as temperature, humidity, and the presence of liquids (e.g., in a chemical processing plant) can affect the performance and longevity of wireless sensors.
What are the typical industrial applications and use cases for the 24 Bit Wireless Level Sensor?
24 Bit Wireless Level Sensors find application in a wide range of industrial settings where precise and remote monitoring of fluid or material levels is required. These sensors are versatile and adaptable to various use cases.
Tank Level Monitoring:
Monitoring the levels of liquids or bulk materials in tanks or silos, commonly used in industries like oil and gas, chemicals, agriculture, and water treatment.
Environmental Monitoring:
Tracking water levels in reservoirs, rivers, and dams for flood prediction, environmental studies, and water resource management.
Wastewater Management:
Measuring wastewater levels in treatment facilities to ensure proper functioning and optimize processing.
Industrial Process Control:
Controlling and maintaining specific levels of fluids or materials in industrial processes, such as mixing, blending, and filling operations.
Chemical and Petrochemical:
Monitoring chemical tanks and storage vessels for inventory management and safety compliance.
Pharmaceuticals:
Ensuring precise liquid levels in pharmaceutical production processes to maintain quality and consistency.
Agriculture and Irrigation:
Managing irrigation systems to optimize water usage in agriculture and horticulture.
Food and Beverage:
Controlling ingredient levels in food and beverage production, as well as monitoring tanks and vessels for storage and processing.
Mining and Mineral Processing:
Measuring levels of materials in mining operations and mineral processing plants to optimize production and prevent overflows.
Oil and Gas:
Monitoring fluid levels in storage tanks, drilling operations, and pipelines to ensure efficient and safe processes.
Facility Management:
Monitoring and managing liquid levels in commercial or industrial buildings, such as water tanks and HVAC systems.
Remote Monitoring Stations:
Enabling remote monitoring in areas where access is limited, such as remote weather stations or natural resource monitoring locations.