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8 channel 5V 50A Battery Analyzers

Name: 8 channel 5V 50A Battery Analyzers
Brand: WEE SCIENTIFICS
Price: 625000.0 INR
Availability: InStock

Price 625000.0 INR/ Piece

Get a Price/Quote

MOQ : 1 Piece

8 channel 5V 50A Battery Analyzers Specification

Shape
Rectangular

Features
Multi-Channel, Real-time Monitoring, High Precision

Temperature Resistance
0C to 45C

Power Supply
AC 220V, 50Hz

Display Type
Digital LCD Display

Control Type
Microcontroller Based

Accuracy
0.05% FS

Type
8 Channel Battery Analyzer

Dimension (L*W*H)
470mm x 300mm x 170mm

Equipment Type
Battery Analyzer

Equipment Materials
Powder Coated Steel, Industrial Grade Components

Power
AC 220V, 50Hz

Voltage
5V per channel (Max)

Material
Steel, Electronic Components

Application
Battery Testing, R&D, Quality Control

Channels
8 Independent Channels

Sampling Rate
1Hz

Safety Features
Overcurrent, Overvoltage, Short Circuit Protection

Data Interface
USB & RS232 Connectivity

Operating Environment
Humidity: 10%-90% RH (non-condensing)

Supported Battery Types
Li-ion, LiFePO4, NiMH, NiCd, Lead Acid, Custom Chemistries

Cycle Modes
Charge, Discharge, Standby, Rest

Switching Time Between Modes
< 10ms

Data Recording
PC Software Support Included

Current Range per Channel
0.05A to 50A

8 channel 5V 50A Battery Analyzers Trade Information

Minimum Order Quantity
1 Piece

Delivery Time
5-7 Days

About 8 channel 5V 50A Battery Analyzers

BTS4000-5V50A Battery testing system

Input AC AC 220V/110V 10% / 50Hz

Input power 3544 W

Resolution AD:16bit;DA:16bit

Input impendence 1M

Voltage

CV output range 0.025V5V

Min discharge voltage 2.5V

Accuracy 0.1% of FS

Stability 0.1% of FS

Current

Output range/channel 0.25A50A

Accuracy 0.1% of FS

CV cut-off current 0.1A

Stability 0.1% of FS

Power

Output power/channel 250 W

Stability 0.2% of FS

Time

Current rsponse time Max rising time:20ms

Working step time (365*24)h/step Time format-00:00:00.000(hmsms)

Data

Record

Data record

conditions

Min data record interval:100ms

Min voltage change:10mV

Min current change:100mA

Frequency 10Hz

Charge

Charge modes CCCVCCCVCPCCCV forbattery pack

Cut-off condition VoltageCurrentTimeCapacity-V

Discharge

Discharge modes CCCPCR

Cut-off condition VoltageCurrentTimeCapacity-V

Pulse

Charge CCCP

Discharge CCCP

Min pulse width 500ms

Pulse counts Up to 32

Chg and Dischg switch Supported

Cut-off condition VoltageTime

DCIR Supported

CH parallel If output current > 100A, then supported, in parallel mode pulse function is disabled

Cycles

Max cycles 65535

Max steps 254

Nest 3

Protection

Safety protection

Power-off data protection

Off-line operation mode

User-defined protection conditions, such as upper and lower

limited current/voltage, delay time, temperature, etc. Hardware protection Fooproof protection with hardware protection level IP20

Channels feature Independent pairs of closed loop for constant

Channels control mode Independent control

Data acquisition method Kelvin connection

Noise <85dB

Database MySQL

Communication TCP/IP

Data Export EXCELTXTCSVPDFPlot/Graph

Disk space 500GB

Leak current 0.005mA

Operation system Windows 7/8/10 64bit

Communication port Ethernet port

Operation and storage environment requirement

Items Values

Operation environment temperature

0C40C (When the temperature is 2510C, the accuracy error

caused by temperature change is less than 50ppm /C)

Storage environment temperature -10C50C

Operation environment humidity 70% RH(no moisture condensation)

Storage environment humidity 80% RH(no moisture condensation)

High-Precision Multi-Channel Battery Analysis

This analyzer combines cutting-edge microcontroller technology with digital LCD monitoring to deliver precise test data across eight independent channels. Whether for battery development, R&D, or quality assurance, each channel operates autonomously, supporting scalable operations and parallel testing to enhance laboratory and industrial efficiency.

Versatile Testing Modes & Fast Switching

The system accommodates a broad spectrum of battery chemistries and cycle modes-charge, discharge, standby, and rest. Quick switching between modes in under 10 milliseconds facilitates complex test protocols and dynamic cycling, vital for thorough performance evaluation and accelerated life testing.

Robust Safety and Intuitive Interface

Engineered with industrial-grade materials and advanced protection against overcurrent, overvoltage, and short circuits, this device guarantees safety during operation. The integrated digital LCD and user-friendly PC software enable real-time parameter adjustments and comprehensive data recording for streamlined workflows.

FAQ's of 8 channel 5V 50A Battery Analyzers:

Q: How do I connect the Battery Analyzer to my PC for data recording?

A: You can connect the Battery Analyzer to your PC using either the provided USB or RS232 interfaces. The included software enables seamless data logging, real-time monitoring, and control of all channels from your computer.

Q: What types of batteries can be tested with this analyzer?

A: The analyzer supports a wide range of battery chemistries, including Li-ion, LiFePO4, NiMH, NiCd, lead acid, and custom battery types, making it suitable for diverse application needs.

Q: When is it beneficial to use all eight channels simultaneously?

A: Utilizing all eight channels at once is ideal for high-throughput testing, parallel sample analysis, or comparative studies in research and development environments, significantly increasing productivity and data reliability.

Q: Where is this analyzer typically used?

A: This battery analyzer is commonly employed in battery R&D labs, manufacturing quality control departments, and repair facilities where accurate characterization and endurance testing of batteries are required.

Q: What is the typical process for running a battery cycle test?

A: The process involves configuring test parameters via the PC software, connecting the batteries to individual channels, selecting desired cycle modes (charge, discharge, standby, rest), and monitoring progress and results through real-time data display.

Q: How does the analyzer ensure safe operation during testing?

A: It incorporates automatic safety mechanisms, including overcurrent, overvoltage, and short circuit protection, which monitor and respond instantly to abnormal conditions, thereby safeguarding both the device and the connected batteries.

Q: What are the main benefits of using this analyzer for battery testing?

A: Key benefits include high testing precision, support for multiple battery chemistries and cycles, fast operation, real-time monitoring, robust data capture, and strong safety protections-all contributing to more accurate and efficient battery evaluation.

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