SC900841JVKR2 Freescale Semiconductor, SC900841JVKR2 Datasheet - Page 161
SC900841JVKR2
Manufacturer Part Number
SC900841JVKR2
Description
IC POWER MGT 338-MAPBGA
Manufacturer
Freescale Semiconductor
Specifications of SC900841JVKR2
Applications
PC's, PDA's
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
338-TBGA
Input Voltage
2.8 V to 4.4 V
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Supply
-
Voltage - Supply
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
SC900841JVKR2
Manufacturer:
Freescale Semiconductor
Quantity:
10 000
Table 103. Charger Input Voltage Reading Coding
Table 101. Battery Voltage Reading Coding
BATTERY VOLTAGE
The battery voltage is first scaled by subtracting 2.40 V in
order to fit the input range of the ADC.
BATTERY CURRENT
via the ADC by monitoring the voltage drop across the sense
resistor between the VBAT and ISNSBATN pins. The battery
CHARGER INPUT VOLTAGE
measured at the RAWCHG pin at Channel 8. The charger
voltage is first scaled in order to fit the input range of the ADC.
BATTERY THERMISTOR
The thermistor will have to be biased with an external pull-up
to a voltage rail greater than the ADC input range. In order to
save current when the thermistor reading is not required, the
thermistor is biased from VCORE through a cutoff switch
connected to VNTC pin. A resistor divider network should
assure the resulting voltage falls within the ADC input range.
GENERAL PURPOSE ANALOG INPUTS
that can be measured through the ADIN10-ADIN21 pins. Two
voltage scaling (gain) settings can be selected to
accommodate a wider range of inputs through the
ADCCNTL3 and ADCCNTL4 registers. A gain of 0 sets a
Table 102. Battery Current Reading Coding
Analog Integrated Circuit Device Data
Freescale Semiconductor
Conversion Code
Conversion Code
The battery voltage is read at the VBAT pin at channel 6.
The current flowing out of and into the battery can be read
One of the spare options is to read the charger voltage
Channel 9 is used to read out the battery pack thermistor.
There are twelve general purpose analog input channels
1 101 010 100
0 000 000 000
1 111 111 111
1 000 010 100
0 000 000 000
Conversion Code
0 111 111 111
0 000 000 001
0 000 000 000
1 111 111 111
1 000 000 000
Voltage at ADC input
Voltage at ADC input
2.000 V
0.000 V
2.400 V
1.250 V
0.000 V
Voltage at ADC input ADC
-2.346 mV
-1200 mV
2.346 mV
0.000 mV
1200 mV
Voltage at VBAT
Voltage at VBAT
20.000 V
4.800 V
2.500 V
0.000 V
0.000 V
V
BAT
-60.000 mV
60.000 mV
-0.117 mV
0.117 mV
0.000 mV
Table 104. General Purpose Analog Inputs Reading
-V
terminal voltage at VBAT and the voltage difference between
VBAT and ISNSBATN are sampled simultaneously, but
converted one after the other. This is done to efficiently
perform the voltage and current reading at the same time.
first amplified to fit the ADC input range as V(VBAT -
VISNSBATN)*20. Since battery current can flow in both
directions, the conversion is read out in 2's complement
format. Positive readings correspond to the current flow out
of the battery, and negative readings to the current flowing
into the battery.
accuracy of the result as well as the available conversion
range. Note that excessively high values can impact the
operating life of the system, due to extra voltage drop across
the sense resistor.
corresponding scaling factor of 1 (for an input range of 2.0 V)
and a gain of 1 sets a corresponding scaling factor of 10 (for
an input range of 200 mV).
APPLICATION SUPPLY (IF USED)
voltage at the VPWR pin. This can be enabled by setting the
VPWRCON bit in the FSLADCCNTL register high. The
battery voltage is first scaled as VPWR/2 in order to fit the
input range of the ADC.
Conversion Code
ISNSBAT
1 111 111 111
1 011 111 111
0 011 111 111
0 000 000 000
1 111 111 111
1 011 111 111
0 011 111 111
0 000 000 000
The voltage difference between VBAT and ISNSBATN is
The value of the sense resistor used, determines the
Channel 22 can be used to read the application supply
Coding
Current Through 20 m
Voltage at ADC
0.0059 A
0.0059 A
3.000 A
0.000 A
3.000 A
2.400
1.800
0.600
0.000
2.400
1.800
0.600
0.000
input
FUNCTIONAL DEVICE OPERATION
Voltage at ADINx
Input
0.200
0.150
0.050
0.000
2.000
1.500
0.500
0.000
ADC SUBSYSTEM
Current Flow
From Battery
From Battery
To Battery
To Battery
-
900841
GAIN
161
1
0
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