|Working Voltage||0.05 – 18.5VDC|
|Voltage Resolution||± 1mV|
|Post Temperature Resolution||± 1ºC|
|Cell Resistance Resolution||± 7μΩ|
|Strap Resistance Resolution||At 100μΩ strap r: ± 2μΩ|
|Float Current Resolution||At 100μΩ strap r: ± 1mA|
|Charge/Discharge Current||Max 800μΩ strap r: ± 0.1%|
Max 400μΩ strap r: ± 0.1%
|Electrical Supply (from DC supply)||36 – 72VDC, 90 – 300VDC, 280 – 580VDC|
|Other Power Options||24V mains supply|
|System Internal Power||via comms system|
|Operating Power (from charger)||@ 60 cells: 25W|
|Operating Temp Range||-4 – 70 ºC (25 – 158ºF)|
|Isolation I/P to O/P||1000VDC|
|Test current @ 2.5V||20A|
|Memory Capacity||20 years of battery data average, expandable for larger systems|
|Local Data Download||Via USB port|
|External Protocols||Modbus TCP/IP, DNP3|
|Network Interface||RJ45 Ethernet|
|Dimensions (L x W x H)||Sensor: 50 x 50 x 25 mm (2 x 2 x 1 in.)|
Monitor: 242 x 200 x 65 mm (9.5 x 8 x 2.6 in)
Vigilant is a distributed battery management system, does it have any parasitic effect on the cells?
No. Although each sensor in the Vigilant system is connected to the terminals of a cell, unlike other distributed sensor systems the power for the sensors is supplied from the system manager. No power for the sensors comes from the cells. The only power drawn from the cell is a momentary test current, once a day.
How does the Vigilant system test for cell and strap resistance? Is it safe for the cell? Is the discharging of the cell during the test significant?
Each sensor draws a high test current for a very short time from each cell, this results in a very small momentary change in the terminal voltage. The waveshape and parameters of the change in the terminal voltage are analysed, and from this the Vigilant machine learning algorithms can determine not only the cell and strap resistance, but also the state of health of the cell.
The sensors analyse the cell energy and automatically optimise the test current to maintain a safe level of test. The actual energy drawn from the cell during the test is insignificant to the battery and is not detrimental to the cell in any way.
Does the Vigilant system use Hall-effect sensors to monitor charge and discharge currents?
No, in most battery systems the Vigilant system measures all currents, float, charge and discharge using its Advanced Multi-Function (AMF) sensors. The high accuracy measuring circuit within each sensor can measure most charge and discharge currents, depending on the battery architecture. Except for very high current measurement, purchasing additional Hall-effect transducers is normally not necessary; Vigilant can do this for multiple strings.
I don’t have any mains power available in the battery room, can the Vigilant be powered from the battery DC, or do I have to make other arrangements?
Three models of Vigilant system monitor/manager are available, which can be supplied by batteries ranging from 48volts (24 volts by special request) up to 600volts DC. Also, if preferred, any Vigilant system can be powered from a standard mains power supply at 24VDC.
Do I need long runs of cable in wiring looms to install the Vigilant system?
No, one of the advantages of a distributed system is that long runs of multiple cables (wiring looms) are not required. A significant disadvantage of long cable runs is that they act as aerials for system noise. The first distributed battery monitoring system was designed in 1997 by Vigilant company personnel, and the advantages of modern distributed BM systems mean that they have since become the ‘go to’ system of choice. Pre-terminated serial cable is simple, low noise, inexpensive and quick to install, and links the sensor modules to the monitor/manager. Connection in a loop system means that even if the cable is cut, all the sensor modules will still operate correctly.
Does the Vigilant system require to be connected to a computer, a network or the internet in order to function?
No, the Vigilant BMS is designed to be an autonomous system and does not require any external connections in order to function. It will scan, store and interpret data for the life of the system, even if never connected to any computer or network. Of course, a computer can be connected directly for viewing the data in a web browser if needed. And if required, the two volt-free relay contacts can be used as its only connection to any external system.
If you would like product specific training, please contact Eagle Eye directly. We offer complimentary training over the phone. Quotes can be provided for on site product-training. For more information call 1-877-805-3377 or email us at email@example.com. We provide timely support for all inquiries.
EEU Training Courses
Eagle Eye University (EEU) provides scheduled courses tailored to specific aspects of the critical power industry. All courses are also available at your location. The following courses are applicable to Vigilant Next Generation Battery Monitoring.
March 2, 2020 - March 3, 2020
A comprehensive overview of battery types and how they are used in Standby Power applications
Battery Data Analysis
September 16, 2020 - September 17, 2020
An in-depth look at the measurable battery parameters and their value in providing information with respect reliability