ACT8897Q4I11C-T View Datasheet(PDF) - Active-Semi, Inc
Part Name
Description
MFG CO.
'ACT8897Q4I11C-T' PDF : 32 Pages View PDF
ACT8897
Rev 2, 05-Sep-13
FUNCTIONAL DESCRIPTION
I2C Interface
The ACT8897 features an I2C interface that allows
advanced programming capability to enhance overall
system performance. To ensure compatibility with a
wide range of system processors, the I2C interface
supports clock speeds of up to 400kHz (“Fast-Mode”
operation) and uses standard I2C commands. I2C
write-byte commands are used to program the
ACT8897, and I2C read-byte commands are used to
read the ACT8897’s internal registers. The ACT8897
always operates as a slave device, and is addressed
using a 7-bit slave address followed by an eighth bit,
which indicates whether the transaction is a read-
operation or a write-operation, [1011011x].
SDA is a bi-directional data line and SCL is a clock
input. The master device initiates a transaction by
issuing a START condition, defined by SDA
transitioning from high to low while SCL is high. Data
is transferred in 8-bit packets, beginning with the
MSB, and is clocked-in on the rising edge of SCL.
Each packet of data is followed by an “Acknowledge”
(ACK) bit, used to confirm that the data was
transmitted successfully.
For more information regarding the I2C 2-wire serial
interface, go to the NXP website: http://www.nxp.com.
below the SYSLEV[-] voltage threshold:
1) If nSYSMODE[-] = 1 (default case), when system
voltage level interrupt is unmasked
(nSYSLEVMSK[ ]=1) and VVDDREF falls below the
programmable threshold, the ACT8897 asserts
nIRQ, providing a software “under-voltage alarm”.
The response to this interrupt is controlled by the
CPU, but will typically initiate a controlled shutdown
sequence either or alert the user that the battery is
low. In this case the interrupt is cleared when
VVDDREF rises up again above the SYSLEV rising
threshold and nSYSSTAT[-] is read via I2C.
2) If nSYSMODE[-] = 0, when VVDDREF falls below the
programmable threshold the ACT8897 shuts down,
immediately disabling all regulators. This option is
useful for implementing a programmable “under-
voltage lockout” function that forces the system off
when the battery voltage falls below the SYSLEV
threshold voltage. Since this option does not support
a controlled shutdown sequence, it is generally used
as a "fail-safe" to shut the system down when the
battery voltage is too low.
Table 6:
SYSLEV Falling Threshold
Voltage Monitor and Interrupt
Programmable System Voltage Monitor
The ACT8897 features a programmable system-
voltage monitor, which monitors the voltage at
VDDREF and compares it to a programmable
threshold voltage. The programmable voltage
threshold is programmed by SYSLEV[3:0], as shown
in Table 6.
SYSLEV[ ] is set to 3.0V by default. There is a
200mV rising hysteresis on SYSLEV[ ] threshold
such that VVDDREF needs to be 3.2V(typ) or higher in
order to power up the IC.
The nSYSSTAT[-] bit reflects the output of an
internal voltage comparator that monitors VDDREF
relative to the SYSLEV[-] voltage threshold, the
value of nSYSTAT[-] = 1 when VVDDREF is lower than
the SYSLEV[-] voltage threshold, and nSYSTAT[-] =
0 when VVDDREF is higher than the SYSLEV[-] voltage
threshold. Note that the SYSLEV[-] voltage threshold
is defined for falling voltages, and that the
comparator produces about 200mV of hysteresis at
VDDREF. As a result, once VVDDREF falls below the
SYSLEV threshold, its voltage must increase by
more than about 200mV to clear that condition.
After the IC is powered up, the ACT8897 responds in
one of two ways when the voltage at VDDREF falls
SYSLEV[3:0]
SYSLEV Falling Threshold
(Hysteresis = 200mV)
0000
2.3
0001
2.4
0010
2.5
0011
2.6
0100
2.7
0101
2.8
0110
2.9
0111
3.0
1000
3.1
1001
3.2
1010
3.3
1011
3.4
1100
3.5
1101
3.6
1110
3.7
1111
3.8
Thermal Shutdown
The ACT8897 integrates thermal shutdown
protection circuitry to prevent damage resulting from
excessive thermal stress, as may be encountered
under fault conditions. This circuitry disables all
regulators if the ACT8897 die temperature exceeds
160°C, and prevents the regulators from being
enabled until the IC temperature drops by 20°C (typ).
Innovative PowerTM
- 26 -
Active-Semi Proprietary―For Authorized Recipients and Customers
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I2CTM is a trademark of NXP.
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Copyright © 2013 Active-Semi, Inc.
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