Texas Instruments 1.6 V, LLP-6, Temperature Switch and Temperature Sensor Evaluation Board LM26LVEB/NOPB LM26LVEB/NOPB Datenbogen
Produktcode
LM26LVEB/NOPB
R
pull-up
= V
DD (Max)
±
V
OL
i
T
i
T
= i
L
+ i
sink
OVERTEMP
V
DD
R
Pull-Up
V
OUT
i
L
i
T
i
sink
Digital Input
SNIS144F – JULY 2007 – REVISED FEBRUARY 2013
OVERTEMP and OVERTEMP Digital Outputs
The OVERTEMP Active High, Push-Pull Output and the OVERTEMP Active Low, Open-Drain Output both assert
at the same time whenever the Die Temperature reaches the factory preset Temperature Trip Point. They also
assert simultaneously whenever the TRIP TEST pin is set high. Both outputs de-assert when the die temperature
goes below the Temperature Trip Point - Hysteresis. These two types of digital outputs enable the user the
flexibility to choose the type of output that is most suitable for his design.
at the same time whenever the Die Temperature reaches the factory preset Temperature Trip Point. They also
assert simultaneously whenever the TRIP TEST pin is set high. Both outputs de-assert when the die temperature
goes below the Temperature Trip Point - Hysteresis. These two types of digital outputs enable the user the
flexibility to choose the type of output that is most suitable for his design.
Either the OVERTEMP or the OVERTEMP Digital Output pins can be left open if not used.
OVERTEMP OPEN-DRAIN DIGITAL OUTPUT
The OVERTEMP Active Low, Open-Drain Digital Output, if used, requires a pull-up resistor between this pin and
V
V
DD
. The following section shows how to determine the pull-up resistor value.
Determining the Pull-up Resistor Value
The Pull-up resistor value is calculated at the condition of maximum total current, i
T
, through the resistor. The
total current is:
(7)
where,
i
T
i
T
is the maximum total current through the Pull-up Resistor at V
OL
.
i
L
i
L
is the load current, which is very low for typical digital inputs.
V
OUT
V
OUT
is the Voltage at the OVERTEMP pin. Use V
OL
for calculating the Pull-up resistor.
V
DD(Max)
V
DD(Max)
is the maximum power supply voltage to be used in the customer's system.
The pull-up resistor maximum value can be found by using the following formula:
(8)
EXAMPLE CALCULATION
Suppose we have, for our example, a V
DD
of 3.3 V ± 0.3V, a CMOS digital input as a load, a V
OL
of 0.2 V.
1. We see that for V
OL
of 0.2 V the electrical specification for OVERTEMP shows a maximim i
sink
of 385 µA.
2. Let i
L
= 1 µA, then i
T
is about 386 µA max. If we select 35 µA as the current limit then i
T
for the calculation
becomes 35 µA
3. We notice that V
DD(Max)
is 3.3V + 0.3V = 3.6V and then calculate the pull-up resistor as R
Pull-up
= (3.6
−
0.2)/35 µA = 97k
4. Based on this calculated value, we select the closest resistor value in the tolerance family we are using.
In our example, if we are using 5% resistor values, then the next closest value is 100 k
Ω
.
18
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