Two 1-cell Li-ion battery protection ICs

Nisshinbo Micro Devices releases the NB7123 and NB7130.

Nisshinbo Micro Devices, a specialist in semiconductor products, has released the NB7123 and NB7130. Two high-performing 1-cell Li-ion battery protection ICs in an ultra-small WLCSP package with advanced features and additional safety measures. They are described as being suitable for a wide range of applications, including hearing aids and wearable devices, smartphones, and handheld data terminals.

The NB7123 and NB7130 are said to be high-protection ICs equipped with all standard safety features, such as overcharge/over-discharge voltage, charge/discharge overcurrent and short circuit detection, making the application highly reliable. The additional safety measures are mainly focussed on the detection range and improved accuracy level of these measurements, which is particularly important for small devices worn on the human body to prevent unintentional injuries when the Li-ion battery may fail, such as:

  • High-accuracy overcharge and over-discharge detection (OVP & UVP)

Both support extending battery life as the battery voltage can get nearer to the detection threshold level.

  • High-accuracy overcurrent detection (OCP) and a low current sense voltage.

Resulting in a more accurate overcurrent detection, but also the use of a small (Rsens) current-sense resistor causes lower heat generation at high currents.

  • High-accuracy 0 V Battery Charging Inhibition Voltage.

Charging a deep discharged battery from 0 V can cause an internal short circuit, the inhibition threshold voltage can be set in a 0.001 V step rate from a safety point of view.

  • A TIN pin is available to connect a sensor to monitor the temperature of the battery cell.

A special feature of the NB7123 is said to be the use of high-side MOSFETs which allow the ground of the protection circuit to be connected directly to the battery’s negative terminal. This simplifies the design complexity as all measurement and control signals can be referenced to the same ground potential. While using high-side MOSFETs offers advantages, they typically require a more complex gate control circuitry, as the gate voltage must be higher than the source voltage. Therefore, a dedicated charge pump is integrated, and no additional external components are required. The alternative NB7130 is a similar device but requires low-side MOSFETs to control the charge and discharge process.

Finally, the additional STB input offers a Forced Standby Function to set the product into a standby mode. Current consumption and further battery discharge can be significantly reduced in this way, the IC returns to the normal mode again when a charger is connected.

The NB7123 and NB7130 are available in a space-saving WLCSP-8-ZA2 and WLCSP-8-ZA1 package respectively, suitable for use in small-sized applications and gadgets. For additional technical details, please refer to the datasheet or visit our official website, also view the list of qualified local and online distribution partners for purchasing information.

 NB7123ZA Specifications:

Supply Current

  • Normal mode: Typ. 7.0 μA / Max. 10.0 μA
  • Standby mode: Max. 0.04 μA

Detector Selectable Range and Accuracy

  • Overcharge Detection Voltage (VDET1): 4.3 V to 4.7 V, ±6.5 mV
  • Over-discharge Detection Voltage (VDET2): 2.0 V to 3.0 V, ±17 mV
  • Discharge Overcurrent Detection Voltage (VDET3): 0.0060 V to 0.0400 V, ±1.00 mV
  • Charge Overcurrent Detection Voltage (VDET4): –0.0060 V to –0.0500 V, ±1.00 mV
  • Short Circuit Detection Voltage (VSHORT1): 0.0200 V to 0.1000 V, ±1.00 mV
  • 0 V Battery Charging Inhibition Voltage (VNOCHG): 1.200 V to 2.000 V, ±20.0 mV
  • Overtemperature Detection temperature (TDET): 40°C to 85°C, ±2.0°C

Functions

  • Overcharge Release: Latch
  • Over-discharge Release: Latch
  • Discharge Overcurrent Release selectable: Auto Release / Latch
  • 0 V Battery Charging: Inhibition
  • Temperature Protection: High Temperature
  • Forced Standby selectable: Available / Unavailable
  • Forced Standby Active by STB pin selectable: Active-high / Active-low
  • Forced Standby Release (VSTBREL): VREL3
  • NTC Thermistor selectable: 100 kΩ / 470 kΩ
  • Package NB7123ZA: WLCSP-8-ZA2
  • Datasheet NB7123ZA: Consumer version

NB7130ZA Specifications:

Supply Current

  • Normal mode: Typ. 3.00 μA / Max. 6.00 μA
  • Standby mode: Max. 0.04 μA

Detector Selectable Range and Accuracy

  • Overcharge Detection Voltage (VDET1): 4.3 V to 4.8 V, ±6.5 mV
  • Over-discharge Detection Voltage (VDET2): 2.0 V to 3.0 V, ±17 mV
  • Discharge Overcurrent Detection Voltage (VDET3): 0.0060 V to 0.0500 V, ±0.75 mV
  • Charge Overcurrent Detection Voltage (VDET4): –0.0060 V to –0.0500 V, ±0.75 mV
  • Short Circuit Detection Voltage (VSHORT): 0.0200 V ≤ VSHORT ≤ 0.0800 V, ±1.00 mV

0.0800 V < VSHORT ≤ 0.1250 V, ±2.00 mV

Functions

  • 0 V Battery Charging selectable: Permission/Inhibition
  • 0 V Battery Charging Inhibition Voltage (VNOCHG): 1.200 V to 2.000 V, ±20.0 mV
  • Overtemperature Detection temperature (TDET): 40°C to 85°C, ±2.0°C
  • Over-discharge Release Type selectable: Latch / Latch with Hysteresis
  • Discharge Overcurrent Release Type selectable: Auto Release /Latch
  • Package NB7130ZA: WLCSP-8-ZA1
  • Datasheet NB7130ZA: Consumer version

 

https://www.nisshinbo-microdevices.co.jp/en/