LTC2942-1
29421f
applicaTions inFormaTion
transitioning SDA from low to high while SCL is high. The
bus is then free for another transmission. When the bus is
in use, it stays busy if a repeated START (Sr) is generated
instead of a STOP condition. The repeated START (Sr)
conditions are functionally identical to the START (S).
Data Transmission
After a START condition, the I2C bus is considered busy
and data transfer begins between a master and a slave. As
data is transferred over I2C in groups of nine bits (eight
data bits followed by an acknowledge bit), each group
takes nine SCL cycles. The transmitter releases the SDA
line during the acknowledge clock pulse and the receiver
issues an acknowledge (ACK) by pulling SDA low or leaves
SDA high to indicate a not acknowledge (NAK) condition.
Change of data state can only happen while SCL is low.
Write Protocol
The master begins a write operation with a START condi-
tion followed by the seven bit slave address 1100100
and the R/W bit set to zero, as shown in Figure 4. The
LTC2942-1acknowledgesthisbypullingSDAlowandthen
the master sends a command byte which indicates which
internal register the master is to write. The LTC2942-1
acknowledges and latches the command byte into its
internal register address pointer. The master delivers the
data byte, the LTC2942-1 acknowledges once more and
latches the data into the desired register. The transmission
is ended when the master sends a STOP condition. If the
master continues by sending a second data byte instead
of a stop, the LTC2942-1 acknowledges again, increments
its address pointer and latches the second data byte in the
following register, as shown in Figure 5.
Read Protocol
ThemasterbeginsareadoperationwithaSTARTcondition
followed by the seven bit slave address 1100100 and the
R/W bit set to zero, as shown in Figure 6. The LTC2942-1
acknowledges and then the master sends a command byte
which indicates which internal register the master is to
read. The LTC2942-1 acknowledges and then latches the
commandbyteintoitsinternalregisteraddresspointer.The
master then sends a repeated START condition followed
by the same seven bit address with the R/W bit now set
to one. The LTC2942-1 acknowledges and sends the con-
tents of the requested register. The transmission is ended
when the master sends a STOP condition. If the master
acknowledges the transmitted data byte, the LTC2942-1
increments its address pointer and sends the contents of
the following register as depicted in Figure 7.
Alert Response Protocol
In a system where several slaves share a common inter-
rupt line, the master can use the alert response address
(ARA) to determine which device initiated the interrupt
(Figure 8).
The master initiates the ARA procedure with a START con-
dition and the special 7-bit ARA bus address (0001100)
followed by the read bit (R) = 1. If the LTC2942-1 is as-
serting the AL/CC pin in alert mode, it acknowledges and
responds by sending its 7-bit bus address (1100100) and
a 1. While it is sending its address, it monitors the SDA pin
to see if another device is sending an address at the same
time using standard I2C bus arbitration. If the LTC2942-1
is sending a 1 and reads a 0 on the SDA pin on the rising
edge of SCL, it assumes another device with a lower ad-
dress is sending and the LTC2942-1 immediately aborts
its transfer and waits for the next ARA cycle to try again.
If transfer is successfully completed, the LTC2942-1 will
stop pulling down the AL/CC pin and will not respond to
further ARA requests until a new Alert event occurs.
Internal Sense Resistor
The internal sense resistor uses proprietary* tempera-
ture compensation techniques to reduce the effective
temperature coefficient to less than ±50 ppm/K typically.
The effective sense resistance as seen by the coulomb
counter is factory trimmed to 50m. Both measures,
and the lack of thermocouple effects in the sense resis-
tor connections, contribute to the LTC2942-1’s superior
charge measurement accuracy compared to competing
solutions employing a common 1% tolerance, 50ppm/K
tempco discrete current sense resistor.
Like all sense resistors, the integrated sense resistor in
the LTC2942-1 will exhibit minor long-term resistance
shift. The resistance typically drops less than –0.1% per
*Patent pending.