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Battery chemistry ---- parallel analogue loop
2024-11-13Battery formation is the process of activating a battery and bringing it to an operating state. Battery formation involves the initial charging of the battery cells/units and requires precise control of voltage and current in order to form a solid electrolyte interface (SEI) film on the negative electrode, improving electrode performance and cycle life.
GTIC offers a wide range of analogue products for battery formation test systems, covering battery voltage and current detection, auxiliary power supplies, analogue switches, ADCs and interface chips, providing users with one-stop analogue solutions.
| Product category | Product | Description |
|
High voltage OPA |
Operating voltage 3.3V-32V,GBP 2MHz,Vos Max 50uV, Zero-Drift high precision CMOS OPA |
|
| INA/Current Sense OPA |
GT191* |
Operating voltage 2.7V-40V,GBP 33kHz,Vos 5.3uV,Current Instrumentation amplifier |
|
Analog Switch |
Bandwith 570MHz,Ron 22Ω |
|
|
High Precise OPA |
GT8451* |
Operating voltage 3.3V-36V,GBP 1.2MHz,Vos Max 1uV, Zero-Drift high precision CMOS OPA |
|
LDO |
Operating voltage 3V-40V, Iout 150mA, Vdrop 0.74V@100mA |
|
|
ADC |
GT5818* |
18bit, 8-Channel, Simultaneous Sampling ADC with Bipolar inputs |
| REF |
Low-Noise, Very Low Drift ,Precision Voltage Reference |
|
| RS485 |
3.0V to 5.5V,Data Rate Max250 Kbps ,RS-485 Transceivers |
|
|
Level shifter |
GT74LVC8T245 |
8-Bit Dual-Supply Bus Transceiver with Voltage Translation |
| Logic |
Low Power Consumption,Single 2-Input Positive-OR Gate |
*No. For product information, please consult the relevant personnel of the original manufacturer.
