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SPD-A3-ADVV70-T01 is to measure the voltage of battery pack. It works with battery monitoring host,battery sensor and Hall current sensor as a battery monitoring system.
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SPD-A3-ADVV70-T01
Introducing the SPD-A3-ADVV70-T01 DC Voltage Transmitter, a state-of-the-art industrial device crafted exclusively for precise battery pack voltage measurement. As a core component of a fully functional battery monitoring system, this transmitter collaborates seamlessly with battery monitoring hosts, Hall current sensors, and battery sensors to deliver consistent and trustworthy data for mission-critical applications. Whether deployed in industrial facilities, data centers, or renewable energy setups, this DC Voltage Transmitter blends rugged durability with cutting-edge technology to meet the demands of non-stop operation. Its user-centric design and advanced features make it a top-tier choice for businesses aiming to elevate the safety, efficiency, and longevity of their battery-powered equipment. Unlike generic voltage monitoring tools, it is engineered specifically for battery pack applications, ensuring tailored performance that generic devices often lack.
Introducing the SPD-A3-ADVV70-T01 DC Voltage Transmitter, a state-of-the-art industrial device crafted exclusively for precise battery pack voltage measurement. As a core component of a fully functional battery monitoring system, this transmitter collaborates seamlessly with battery monitoring hosts, Hall current sensors, and battery sensors to deliver consistent and trustworthy data for mission-critical applications. Whether deployed in industrial facilities, data centers, or renewable energy setups, this DC Voltage Transmitter blends rugged durability with cutting-edge technology to meet the demands of non-stop operation. Its user-centric design and advanced features make it a top-tier choice for businesses aiming to elevate the safety, efficiency, and longevity of their battery-powered equipment. Unlike generic voltage monitoring tools, it is engineered specifically for battery pack applications, ensuring tailored performance that generic devices often lack.
The DC Voltage Transmitter is rigorously tested to integrate flawlessly with a spectrum of complementary devices, including battery monitoring hosts, Hall current sensors, and battery sensors. This inherent compatibility allows it to fit smoothly into existing monitoring infrastructures or serve as the backbone of a new battery monitoring system, eliminating the need for expensive customizations or hardware overhauls. It adapts to diverse battery configurations, making it a versatile solution across different industries.
A key highlight of this transmitter is its intuitive automatic address encoding function. When connected to a battery monitoring host, the device self-assigns a unique address, requiring users only to specify its physical location and corresponding battery pack association through the host interface. This streamlined setup process drastically reduces installation time and minimizes the potential for human error, getting your monitoring system up and running quickly.
Leveraging SNS bus communication, the transmitter enables efficient and stable serial connectivity with Hall current sensors and single battery acquisition modules. This robust communication protocol ensures uninterrupted data transmission even in harsh industrial environments—where electrical interference or extreme conditions are common—guaranteeing that critical voltage data reaches the monitoring host consistently.
Designed with practicality in mind, the SPD-A3-ADVV70-T01 DC Voltage Transmitter offers flexible mounting solutions, such as 3M adhesive and cable tie attachments. This versatility allows for easy installation in tight spaces, on irregular surfaces, or within equipment enclosures, adapting to the unique constraints of any installation site without sacrificing stability or performance.
Equipped with dual-layer protection for both power and SNS bus interfaces, the transmitter defends against overvoltage, overcurrent, and lightning strikes. These robust safeguards not only extend the device’s operational lifespan but also ensure uninterrupted performance, even when faced with unexpected electrical anomalies or environmental hazards.
The DC Voltage Transmitter is rigorously tested to integrate flawlessly with a spectrum of complementary devices, including battery monitoring hosts, Hall current sensors, and battery sensors. This inherent compatibility allows it to fit smoothly into existing monitoring infrastructures or serve as the backbone of a new battery monitoring system, eliminating the need for expensive customizations or hardware overhauls. It adapts to diverse battery configurations, making it a versatile solution across different industries.
A key highlight of this transmitter is its intuitive automatic address encoding function. When connected to a battery monitoring host, the device self-assigns a unique address, requiring users only to specify its physical location and corresponding battery pack association through the host interface. This streamlined setup process drastically reduces installation time and minimizes the potential for human error, getting your monitoring system up and running quickly.
Leveraging SNS bus communication, the transmitter enables efficient and stable serial connectivity with Hall current sensors and single battery acquisition modules. This robust communication protocol ensures uninterrupted data transmission even in harsh industrial environments—where electrical interference or extreme conditions are common—guaranteeing that critical voltage data reaches the monitoring host consistently.
Designed with practicality in mind, the SPD-A3-ADVV70-T01 DC Voltage Transmitter offers flexible mounting solutions, such as 3M adhesive and cable tie attachments. This versatility allows for easy installation in tight spaces, on irregular surfaces, or within equipment enclosures, adapting to the unique constraints of any installation site without sacrificing stability or performance.
Equipped with dual-layer protection for both power and SNS bus interfaces, the transmitter defends against overvoltage, overcurrent, and lightning strikes. These robust safeguards not only extend the device’s operational lifespan but also ensure uninterrupted performance, even when faced with unexpected electrical anomalies or environmental hazards.
The transmitter operates on a stable DC power supply, optimized to work seamlessly with standard industrial power systems. Its power management design prioritizes efficiency, delivering consistent performance without excessive energy consumption, which helps reduce operational costs over time.
Featuring dedicated SNS bus ports, the device supports reliable serial communication with connected components. The interfaces are built with durability in mind, incorporating ruggedized design elements that resist wear and tear from frequent use, environmental exposure, or accidental handling.
Integrating advanced PPTC and TVS components, the transmitter provides multi-layered protection for both power and communication circuits. This proactive protection strategy defends against electrical fluctuations and surges, ensuring the device remains functional and accurate even in challenging operating conditions.
The device’s compact form factor and open-style hole design facilitate easy integration into various setups. Its lightweight construction and versatile mounting options make it suitable for a wide range of installation scenarios, from wall-mounted configurations in control rooms to equipment-mounted placements in industrial machinery.
Built to withstand extreme temperature ranges and high humidity levels without condensation, the DC Voltage Transmitter thrives in harsh industrial environments. Its ruggedized housing and sealed internal components protect sensitive electronics from dust, moisture, and other environmental contaminants that could compromise performance.
Working voltage | 9-16V DC |
Communication port | 2 x SNS bus ports |
Baud rate | 4800bps |
Dielectric strength | 1500V |
Voltage measuring accuracy | ±0.5% |
Protection | Power: PPTC +TVS SNS bus: PPTC +TVS |
Over voltage / current protection | Power: 18V / 200mA SNS bus: 18V / 200mA |
Hole size | 35mm, open style |
linear range | 100%FS |
Lightning protection | Power / SNS bus: 600W |
Working environmental | -40℃~85℃, 5%~95%RH, no condensing |
Size | 75mm(L) x 46mm (W) x 23.4mm (H) |
The transmitter operates on a stable DC power supply, optimized to work seamlessly with standard industrial power systems. Its power management design prioritizes efficiency, delivering consistent performance without excessive energy consumption, which helps reduce operational costs over time.
Featuring dedicated SNS bus ports, the device supports reliable serial communication with connected components. The interfaces are built with durability in mind, incorporating ruggedized design elements that resist wear and tear from frequent use, environmental exposure, or accidental handling.
Integrating advanced PPTC and TVS components, the transmitter provides multi-layered protection for both power and communication circuits. This proactive protection strategy defends against electrical fluctuations and surges, ensuring the device remains functional and accurate even in challenging operating conditions.
The device’s compact form factor and open-style hole design facilitate easy integration into various setups. Its lightweight construction and versatile mounting options make it suitable for a wide range of installation scenarios, from wall-mounted configurations in control rooms to equipment-mounted placements in industrial machinery.
Built to withstand extreme temperature ranges and high humidity levels without condensation, the DC Voltage Transmitter thrives in harsh industrial environments. Its ruggedized housing and sealed internal components protect sensitive electronics from dust, moisture, and other environmental contaminants that could compromise performance.
Working voltage | 9-16V DC |
Communication port | 2 x SNS bus ports |
Baud rate | 4800bps |
Dielectric strength | 1500V |
Voltage measuring accuracy | ±0.5% |
Protection | Power: PPTC +TVS SNS bus: PPTC +TVS |
Over voltage / current protection | Power: 18V / 200mA SNS bus: 18V / 200mA |
Hole size | 35mm, open style |
linear range | 100%FS |
Lightning protection | Power / SNS bus: 600W |
Working environmental | -40℃~85℃, 5%~95%RH, no condensing |
Size | 75mm(L) x 46mm (W) x 23.4mm (H) |
Ideal for monitoring the voltage of large industrial battery packs used in manufacturing equipment, material handling vehicles, and backup power systems. The transmitter’s precision ensures that battery performance is closely tracked, preventing unexpected failures that could disrupt production or critical operations.
In data centers—where uninterrupted power is non-negotiable—the DC Voltage Transmitter plays a vital role in monitoring backup battery systems. It provides real-time voltage data to battery monitoring hosts, allowing administrators to identify potential issues early and take corrective action before outages occur.
Deployed in solar and wind energy systems, the transmitter monitors the voltage of storage batteries, ensuring efficient energy management. It prevents overcharging or deep discharge that can damage battery cells, maximizing the lifespan and performance of renewable energy storage solutions.
Uninterruptible Power Supply (UPS) systems rely on accurate battery monitoring to deliver reliable backup power during outages. This DC Voltage Transmitter integrates seamlessly with UPS components, providing critical data that helps maintain system reliability and ensures power is available when needed most.
For electric vehicles and EV charging stations, the transmitter monitors battery pack voltage to ensure safe and efficient operation. Its durable design and reliable performance make it suitable for the demanding conditions of automotive applications, where consistency and safety are paramount.
Ideal for monitoring the voltage of large industrial battery packs used in manufacturing equipment, material handling vehicles, and backup power systems. The transmitter’s precision ensures that battery performance is closely tracked, preventing unexpected failures that could disrupt production or critical operations.
In data centers—where uninterrupted power is non-negotiable—the DC Voltage Transmitter plays a vital role in monitoring backup battery systems. It provides real-time voltage data to battery monitoring hosts, allowing administrators to identify potential issues early and take corrective action before outages occur.
Deployed in solar and wind energy systems, the transmitter monitors the voltage of storage batteries, ensuring efficient energy management. It prevents overcharging or deep discharge that can damage battery cells, maximizing the lifespan and performance of renewable energy storage solutions.
Uninterruptible Power Supply (UPS) systems rely on accurate battery monitoring to deliver reliable backup power during outages. This DC Voltage Transmitter integrates seamlessly with UPS components, providing critical data that helps maintain system reliability and ensures power is available when needed most.
For electric vehicles and EV charging stations, the transmitter monitors battery pack voltage to ensure safe and efficient operation. Its durable design and reliable performance make it suitable for the demanding conditions of automotive applications, where consistency and safety are paramount.
The transmitter is designed to work with most standard battery monitoring hosts that support SNS bus communication. For specific compatibility questions, we recommend checking the host’s communication protocol specifications or reaching out to our technical support team for personalized guidance.
Once connected to a battery monitoring host, the transmitter automatically assigns itself a unique address. Users only need to configure the device’s location and battery pack association through the host’s interface, eliminating manual address configuration and reducing setup time significantly.
Yes, the DC Voltage Transmitter is built with environmental adaptability in mind, capable of withstanding extreme temperatures and high humidity. However, we recommend protecting it from direct exposure to heavy rain, snow, or prolonged sunlight for optimal longevity and performance.
Absolutely. Thanks to its SNS bus communication capability, the transmitter can be connected in series with Hall current sensors and single battery acquisition modules, creating a scalable battery monitoring system that can grow with your needs.
The transmitter is designed to work with most standard battery monitoring hosts that support SNS bus communication. For specific compatibility questions, we recommend checking the host’s communication protocol specifications or reaching out to our technical support team for personalized guidance.
Once connected to a battery monitoring host, the transmitter automatically assigns itself a unique address. Users only need to configure the device’s location and battery pack association through the host’s interface, eliminating manual address configuration and reducing setup time significantly.
Yes, the DC Voltage Transmitter is built with environmental adaptability in mind, capable of withstanding extreme temperatures and high humidity. However, we recommend protecting it from direct exposure to heavy rain, snow, or prolonged sunlight for optimal longevity and performance.
Absolutely. Thanks to its SNS bus communication capability, the transmitter can be connected in series with Hall current sensors and single battery acquisition modules, creating a scalable battery monitoring system that can grow with your needs.
