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BQ27010 Datasheet(PDF) 8 Page - Texas Instruments |
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BQ27010 Datasheet(HTML) 8 Page - Texas Instruments |
8 / 35 page www.ti.com UDG−04096 + PACK− PACK+ HDQ ESDProtection D2 5.6V R7 100 Ω R8 100 Ω R1 1kΩ C1 0.1 µF R2 1kΩ RS 0.02 Ω R4 10kΩ C2 0.1 µF C3 0.1 µF C4 0.1 µF C3 0.1 µF R3 1kΩ Li-IonProtector Li-Ion or Li-Pol PGM TP 1 2 3 4 9 8 7 6 GPIO SRP SRN BAT RBI VCC VSS D/C bq27010DRK 5 HDQ 10 PGM 11 Measurements Charge and Discharge Coulometric and Current Measurements bq27010, bq27210 SLUS707B – APRIL 2006 – REVISED JANUARY 2007 FUNCTIONAL DESCRIPTION (continued) Figure 3 shows a typical application circuit. Differential sense of the voltage across the current sense resistor, R S, improves device performance, leading to an improvement in reported time-to-empty accuracy. An internal 3-µA pull-down on the HDQ or SDA and SCL lines ensures that the device detects a logic 0 on the communication lines and allows the device to automatically enter the low-power sleep mode when the system power is switched off or the pack is removed. A 100 k Ω pullup to V CC can be added to the communication lines if this feature needs to be disabled. The bqJUNIOR can operate directly from a single Li-Ion or Li-Pol cell. Figure 3. Typical Application Circuit (bq27010) As shown in the functional block diagram, the bqJUNIOR uses a dedicated fully differential Delta-Sigma Coulomb Counter (DSCC) for charge and discharge current and coulometric measurements and an analog-to-digital converter (ADC) for battery voltage and temperature measurements. Both DSCC and ADC are automatically compensated for offset. No user calibration or compensation is required. An EEPROM offset value can be programmed to compensate for contributions to the DSCC offset due to the PCB layout. The bqJUNIOR uses a DSCC to perform a continuous integration of the voltage waveform across a small value sense resistor in the negative lead of the battery, as shown in Figure 3. The integration of the voltage across the sense resistor is the charge added or removed from the battery. Because the DSCC does a direct integration of the waveform, the shape of the current waveform through the sense resistor does not have any effect on the coulometric measurement accuracy. The low-pass filter that feeds the sense resistor voltage to the bqJUNIOR SRP and SRN inputs filters out system noise and does not affect the coulometric measurement accuracy, because the low-pass filter does not change the integrated value of the waveform. The bqJUNIOR also uses the DSCC to measure current. The reported current is determined by the average voltage across the sense resistor over a 5.12 second interval. 8 Submit Documentation Feedback |
Similar Part No. - BQ27010_13 |
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Similar Description - BQ27010_13 |
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