LTC2941CDCB-1#PBF Linear Technology, LTC2941CDCB-1#PBF Datasheet - Page 10

no-image

LTC2941CDCB-1#PBF

Manufacturer Part Number
LTC2941CDCB-1#PBF
Description
IC, BATTERY FUEL GAUGE LI-ION 5.5V DFN-6
Manufacturer
Linear Technology
Datasheet

Specifications of LTC2941CDCB-1#PBF

Battery Management Function
Fuel Gauge, Charge Controller
Battery Type
Li-Ion
Supply Voltage Range
2.7V To 5.5V
Battery Ic Case Style
DFN
No. Of Pins
6
Rohs Compliant
Yes

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
LTC2941CDCB-1#PBFLTC2941CDCB-1
Manufacturer:
LT
Quantity:
10 000
Company:
Part Number:
LTC2941CDCB-1#PBF/ID
Manufacturer:
LT
Quantity:
55
Company:
Part Number:
LTC2941CDCB-1#PBFLTC2941CDCB-1#TRMP
Manufacturer:
SMSC
Quantity:
7 978
Company:
Part Number:
LTC2941CDCB-1#PBFLTC2941CDCB-1#TRMPBF
Manufacturer:
LINEAR/凌特
Quantity:
20 000
applicaTions inFormaTion
LTC2941
be chosen for a given battery capacity Q
resistor R
M can be set to 1, 2, 4, 8, …128 by programming B[5:3] of
the control register as M = 2
value after power up is M = 128 = 2
In the above example of a 100mAh battery and a R
of 50mΩ, the prescaler should be programmed to M = 4.
The q
corresponds to roughly 37650 q
Note that the internal digital resolution of the coulomb
counter is higher than indicated by q
charge q
typically 299µAs for a 50mΩ sense resistor.
V
The V
the voltage at SENSE
at the SENSE
and bit A[1] in the status register is set. If the alert mode
is enabled by setting B[2] to one, an alert is generated at
the AL/CC pin. The threshold for the V
is selectable according to Table 3.
Accumulated Charge Registers (C, D)
The coulomb counter of the LTC2941 integrates current
through the sense resistor. The 16-bit result of this charge
integration is stored in the accumulated charge registers
C and D. As the LTC2941 does not know the actual battery
status after initial power-up, the accumulated charge is
set to mid-scale (7FFFh). If the host knows the status of
the battery , the accumulated charge registers C[7:0] and
D[7:0] can be either programmed to the correct value via
I
the AL/CC pin high (if charge complete mode is enabled
0
2
BAT
C or it can be set after charging to FFFFh (full) by pulling
M≥128 •
Alert B[7:6]
LSB
BAT
INTERNAL
then becomes 2.656µAh and the battery capacity
SENSE
alert function allows the LTC2941 to monitor
2
16
pin below a preset threshold is detected
as:
• 0.085mAh
is M • 8 smaller than q
Q
BAT
. If enabled, a drop of the voltage
(4 • B[5] + 2 • B[4] + B[3])
R
50mΩ
LSB
SENSE
7
s.
(B[5:3] = 111).
LSB
BAT
LSB
BAT
. The digitized
alert function
. q
and a sense
. The default
INTERNAL
SENSE
is
via bits B[2:1]). Before writing the accumulated charge
registers, the analog section should be shut down by setting
B[0] to 1. In order to avoid a change in the accumulated
charge registers between reading MSBs C[7:0] and LSBs
D[7:0], it is recommended to read them sequentially, as
shown in Figure 8.
Threshold Registers (E, F), (G, H)
For battery charge, the LTC2941 features a high and a
low threshold register. At power-up the high threshold
is set to FFFFh while the low threshold is set to 0000h.
Both thresholds can be programmed to a desired value via
I
threshold or falls below the low threshold, the LTC2941
sets the corresponding flag in the status register and pulls
the AL/CC pin low if alert mode is enabled.
I
The LTC2941 uses an I
drain interface supporting multiple devices and masters on
a single bus. The connected devices can only pull the bus
wires LOW and they never drive the bus HIGH. The bus
wires should be externally connected to a positive sup-
ply voltage via a current source or pull-up resistor. When
the bus is idle, both SDA and SCL are HIGH. Data on the
I
standard mode and up to 400kbit/s in fast mode.
Each device on the I
address stored in that device and can operate as either a
transmitter or receiver, depending on the function of the
device. In addition to transmitters and receivers, devices
can also be classified as masters or slaves when perform-
ing data transfers. A master is the device which initiates a
data transfer on the bus and generates the clock signals to
permit that transfer. At the same time any device addressed
is considered a slave. The LTC2941 always acts as a slave.
Figure 4 shows an overview of the data transmission on
the I
2
2
2
C. As soon as the accumulated charge exceeds the high
C Protocol
C-bus can be transferred at rates of up to 100kbit/s in
2
C bus.
2
C/SMBus is recognized by a unique
2
C/SMBus compatible 2-wire open-
2941fa

Related parts for LTC2941CDCB-1#PBF