LTC4150IMS#PBF Linear Technology, LTC4150IMS#PBF Datasheet - Page 9
LTC4150IMS#PBF
Manufacturer Part Number
LTC4150IMS#PBF
Description
IC COUNTER/GAUGE GAS/BATT 10MSOP
Manufacturer
Linear Technology
Datasheet
1.LTC4150CMS.pdf
(14 pages)
Specifications of LTC4150IMS#PBF
Function
Fuel, Gas Gauge/Monitor
Battery Type
Li-Ion, NiCd, NiMH
Voltage - Supply
2.7 V ~ 8.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
10-TFSOP, 10-MSOP (0.118", 3.00mm Width)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
APPLICATIONS INFORMATION
INT, POL and CLR
INT asserts low each time the LTC4150 measures a unit
of charge. At the same time, POL is latched to indicate
the polarity of the charge unit. The integrator and counter
continue running, so the microcontroller must service and
clear the interrupt before another unit of charge accumu-
lates. Otherwise, one measurement will be lost. The time
available between interrupts is the reciprocal of
Equation 2:
At 50mV full scale, the minimum time available is 596ms.
To be conservative and accommodate for small, unex-
pected excursions above the 50mV sense voltage limit, the
microcontroller should process the interrupt and polarity
information and clear INT within 500ms.
Toggling CLR low for at least 20μs resets INT high and
unlatches POL. Since the LTC4150’s integrator and counter
operate independently of the INT and POL latches, no
charge information is lost during the latched period or
while CLR is low. Charge/discharge information contin-
ues to accumulate during those intervals and accuracy
is unaffected.
Once cleared, INT idles in a high state and POL indicates
real-time polarity of the battery current. POL high indicates
charge fl owing into the battery and low indicates charge
fl owing out. Indication of a polarity change requires at
least:
where V
before and after the polarity change.
Open-drain outputs POL and INT can sink I
at V
pins should be:
where V
an issue, pull-up resistors of 10k or higher are adequate.
R
Time per INT Assertion =
t
POL
OL
L
> (V
= 0.5V. The minimum pull-up resistance for these
CC
=
SENSE
CC
G
is the logic supply voltage. Because speed isn’t
VF
– 0.5)/1.6mA
•
is the smallest sense voltage magnitude
1024
2
•⏐
V
SENSE
G
⏐
VF
•⏐V
1
SENSE
⏐
OL
= 1.6mA
(10)
(11)
(9)
Interfacing to INT, POL, CLR and SHDN
The LTC4150 operates directly from the battery, while in
most cases the microcontroller supply comes from some
separate, regulated source. This poses no problem for INT
and POL because they are open-drain outputs and can
be pulled up to any voltage 9V or less, regardless of the
voltage applied to the LTC4150’s V
CLR and SHDN inputs require special attention. To drive
them, the microcontroller or external logic must generate
a minimum logic high level of 1.9V. The maximum input
level for these pins is V
supply is more than this, resistive dividers must be used
on CLR and SHDN. The schematic in Figure 6 shows an
application with INT driving CLR and microcontroller V
> V
voltages at these pins within the LTC4150’s V
Choose R2 and R1 so that:
Equation 13 also applies to the selection of R3 and R4.
The minimum V
when the battery powering it is at its lowest discharged
voltage.
When the battery is removed in any application, the CLR
and SHDN inputs are unpredictable. INT and POL outputs
may be erratic and should be ignored until after the bat-
tery is replaced.
If desired, the simple logic of Figure 4 may be used to
derive separate charge and discharge pulse trains from
INT and POL.
(R1 + R2) ≥ 50R
1 9
DD
.
. The resistive dividers on CLR and SHDN keep the
V
≤
LTC4150
R
Figure 4. Unravelling Polarity—
Separate Charge and Discharge Outputs
1
R
+
1
R
CLR
POL
INT
DD
2
V
L
is the lowest supply to the LTC4150
CC
DD
≤
V
+ 0.3V. If the microcontroller’s
DD
(
Minimum
DD
.
LTC4150
)
CHARGE
DISCHARGE
4150 F04
DD
range.
(12)
(13)
4150fc
9
CC
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