Mr. SAVIN Jean-FrancoisWe have been using Neware benches for testing our primary cells and batteries for several years. We are quite satisfied about the quality of this type of equipment and we find always good and very reactive feedback from their after-sales service to help us in specific case.
Prof. Lv LiWe have been using Neware battery testing system for many years. We are focused on different electrochemical tests of lithium-ion batteries. The Neware machine is easy to be used and the program is easy to set. We have conducted charge-discharge cycling for more than 5000 cycles and the machine showed very good stability, which helped us to obtain
Mr. Frank GroenVarious neware testing systems have been equipped our laboratory for years and serves very good. We use them for many kinds of tests. Easy to handle the tests and data is well organized for our reporting work. The most important thing is the measurement and control are quite accurate and reliable.
1000HZ Lithium Battery Testing Equipment , Neware Battery Testing Device
|Voltage||0 - 5V||Four Current||0.1uA -150uA , 140uA - 5mA , 4.5mA - 150mA , 140mA - 5A|
|Current Response Time||100μS||Time Delta T||1ms Above|
|Voltage Delta U||1mV Above||Current Delta I||100nA Above|
Neware battery testing device,
1000HZ battery testing device,
Neware lithium battery testing equipment
Neware Lithium Ion Material Research Battery Analyzer High Accuracy
The core technologies are improvement on a new height , such as 8channel design , 0.02percent of FS accuracy, 1000Hz data acquisition frequency , multi - range , supporting GSM and CDMA . If you need highly accurate current output range to tell the subtle difference of the battery material , but don’t need many pulse tests , then CT - 9000 - 5V5A - 8CH is the better choice .
Accuracy 0.02percent of FS , 4 auto - switch output ranges , 400us pulse width, 1000Hz data record frequency , characterized above and even more advanced features , Neware BTS9000 is born to be the most advanced battery testing system , it is the best choice for you to find the future battery material .
We designed and shipped our sophisticated series which is characterized with a max . data acquisition frequency of 1000Hz , a minimum pulse width reaching 400us , an accuracy of 0.02percent of FS and auto multi - current ranges enabled .
GSM TEST / PULSE TEST / DCIR TEST
BTS9000 is based on Neware sixth - generation testing system . It's designed for battery material research , high - precision tests, pulse charge/discharge tests , DCIR test , and cycle life test .
As the most cutting - edge equipment for battery material research , BTS9000 comes with extremely high accuracy 0.02 percent of FS , amazing hardware response speed - less than 100μs , wide range of applications , high - speed testing data acquisition and many other industry - proven characteristics , its your ultimate choice for battery material research .
|Data Recording||Record Condition||Time delta T- more than 1ms|
|Voltage delta U - more than 1mV|
|Current delta I - more than 100nA|
|Record Frequency||1000Hz Continuous Charge / Discharge Mode / GSM Pulse Mode;|
Constant Current Charge , Constant Voltage Charge ,
Constant Current and Constant Voltage Charge , Constant Power Charge , Constant Resistance Charge
|End Conditon||Voltage , Current , Relative Time , Capacity , Energy , Power|
|Discharge||Discharge Mode||CCD / CPD / CRD / Pulse Discharge|
|End Condition||Voltage , Current , Relative Time , Capacity|
|Pulse mode||Charge||CC , CP mode|
|Discharge||CC , CP mode|
|Min pulse width||400μs|
|Pulse number||Single pulse working step supports 16 different pulse segments|
|End Condition||Voltage , Relative Time|
|DCIR||Support for the calculation of the point of the DCIR|
|Cycle||Loop Measure Range||65535|
|Max Steps Per Loop||255|
|Nested Loop||Nested loop Function , Max Support 3 Layers|
|Protection||Software Protection||Power - down Data Protection|
|Off - line Testing Function|
|Setting Protection Condition , Setting Parameter - Low Voltage limit , Upper Voltage limit - Low Current limit - Upper Current limit - Delay Time|