ADC101C021CIMKX/NOPB National Semiconductor, ADC101C021CIMKX/NOPB Datasheet - Page 28
ADC101C021CIMKX/NOPB
Manufacturer Part Number
ADC101C021CIMKX/NOPB
Description
IC ADC 10BIT SAR I2C TSOT-23-6
Manufacturer
National Semiconductor
Datasheet
1.ADC101C021CIMMNOPB.pdf
(30 pages)
Specifications of ADC101C021CIMKX/NOPB
Number Of Bits
10
Sampling Rate (per Second)
188.9k
Data Interface
I²C, Serial
Number Of Converters
1
Power Dissipation (max)
780µW
Voltage Supply Source
Single Supply
Operating Temperature
-40°C ~ 105°C
Mounting Type
Surface Mount
Package / Case
SOT-23-6 Thin, TSOT-23-6
For Use With
ADC101C02XEB - BOARD EVALUATION FOR ADC101C02X
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
ADC101C021CIMKX
www.national.com
2.3 INTELLIGENT BATTERY MONITOR
The ADC101C021 is easily used as an intelligent battery
monitor. The simple circuit shown in Figure 20, uses the
ADC101C021, the LP2980 fixed reference, and a resistor di-
vider to implement an intelligent battery monitor with a window
supervisory feature. The window supervisory feature is im-
plemented by the "out of range" alert function. When the
battery is recharging, the Over Range Alert will indicate that
the charging cycle is complete (see Figure 21). When the
battery is nearing depletion, the Under Range Alert will indi-
cate that the battery is low (see Figure 22).
In addition to the window supervisory feature, the
ADC101C021 will allow the controller to read the battery volt-
age at any time during operation.
FIGURE 20. Intelligent Battery Monitor Circuit
FIGURE 22. Discharge Cycle
FIGURE 21. Recharge Cycle
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28
The accurate voltage reading and the alert feature will allow
a controller to improve the efficiency of a battery-powered
device. During the discharge cycle, the controller can switch
to a low-battery mode, safely suspend operation, or report a
precise battery level to the user. During the recharge cycle,
the controller can implement an intelligent recharge cycle,
decreasing the charge rate when the battery charge nears
capacity.
2.3.1 Trickle Charge Controller
While a battery is discharging, the ADC101C021 can be used
to control a trickle charge to keep the battery near full capacity
(see Figure 23). When the alert output is active, the battery
will recharge. An intelligent recharge cycle will prevent over-
charging and damaging the battery. With a trickle charge, the
battery powered device can be disconnected from the charger
at any time with a full charge.
2.4 LAYOUT, GROUNDING, AND BYPASSING
For best accuracy and minimum noise, the printed circuit
board containing the ADC101C021 should have separate
analog and digital areas. The areas are defined by the loca-
tions of the analog and digital power planes. Both of these
planes should be located on the same board layer. A single,
solid ground plane is preferred if digital return current does
not flow through the analog ground area. Frequently a single
ground plane design will utilize a "fencing" technique to pre-
vent the mixing of analog and digital ground currents. Sepa-
rate ground planes should only be utilized when the fencing
technique is inadequate. The separate ground planes must
be connected in one place, preferably near the ADC121C021.
Special care is required to guarantee that signals do not pass
over power plane boundaries. Return currents must always
have a continuous return path below their traces.
The ADC101C021 power supply should be bypassed with a
4.7µF and a 0.1µF capacitor as close as possible to the device
with the 0.1µF right at the device supply pin. The 4.7µF ca-
pacitor should be a tantalum type and the 0.1µF capacitor
should be a low ESL type. The power supply for the
ADC101C021 should only be used for analog circuits.
Avoid crossover of analog and digital signals and keep the
clock and data lines on the component side of the board. The
clock and data lines should have controlled impedances.
FIGURE 23. Trickle Charge
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