參數(shù)資料
型號(hào): LM76
廠商: National Semiconductor Corporation
元件分類: 溫度/濕度傳感器
英文描述: 【0.5∑C, 【1∑C, 12-Bit Sign Digital Temperature Sensor and Thermal Window Comparator with Two-Wire Interface
中文描述: 【0.5ΣC,【1ΣC,12位注冊(cè)數(shù)字溫度傳感器和熱窗口比較器的兩線接口
文件頁(yè)數(shù): 7/15頁(yè)
文件大?。?/td> 311K
代理商: LM76
1.0 Functional Description
(Continued)
True
”:
those respective bits. A “true” for T
LOW
is temperature below
T
LOW
.
False
”:
Assuming temperature has previously crossed
above T
or T_CRIT, then the temperature must drop be-
low the points corresponding T
(T
T
or
T_CRIT T
) in order for the condition to be false. For
T
LOW
, assuming temperature has previously crossed below
T
LOW
, a “false” occurs when temperature goes above T
LOW
+ T
HYST
.
The Status bits are not affected by reads or any other ac-
tions, and always represent the state of temperature vs. set-
points.
Temperature above a T
HIGH
or T_CRIT is “true” for
1.1.2 HARDWIRE OUTPUTS
The T_CRIT_A hardwire output mirrors the T_CRIT_A flag,
when the flag is true, the T_CRIT_A output is asserted at all
times regardless of mode. Reading the LM76 has no effect
on the T_CRIT_A output, although the internal conversion is
restarted.
The behavior of the INT hardwire output is as follows:
Comparator Interrupt Mode
(Default):
resets output until next measurement completes. If condition
is still true, output is set again at end of next conversion
cycle. For example, if a user never reads the part, and tem-
perature goes below T
then INT becomes active. It
would stay that way until temperature goes above T
+
T
. However if the user reads the part, the output would
be reset. At the end of the next conversion cycle, if the con-
dition is true, it is set again. If not, it remains reset.
Event Interrupt Mode
:
User reading part resets output un-
til next condition
event
occurs (in other words, output is
only set once for a true condition, if reset by a read, it re-
mains reset until the next triggering threshold has been
crossed). Conversely, if a user never read the part, the out-
put would stay set indefinitely after the first event that set the
output. An “event” for Event Interrupt Mode is defined as:
1.
Transitioning upward across a setpoint, or
2.
Transitioning downward across a setpoint’s correspond-
ing hysteresis (after having exceeded that setpoint).
For example, if a user never read the part, and temperature
went below T
then INT would become active. It would
stay that way forever if a user never read the part.
However if the user read the part, the output would be reset.
Even if the condition is true, it will remain reset. The tem-
perature must cross above T
LOW
+ T
HYST
to set the output
again.
In either mode, reading any register in the LM76 restarts the
conversion. This allows a designer to know exactly when the
LM76 begins a comparison. This prevents unnecessary In-
terrupts just after reprogramming setpoints. Typically, sys-
tem Interrupt inputs are masked prior to reprogramming trip
points. By doing a read just after resetting trip points, but
prior to unmasking, unexpected Interrupts are prevented.
User reading part
Avoid programming setpoints so close that their hysteresis
values overlap.An example would be that with a T
value
of 2C then setting T
and T
to within 4C of each
other will violate this restriction. To be more specific, with
T
set to 2C assume T
set to 64C. If T
is set
equal to, or higher than 60C this restriction is violated.
1.2 DEFAULT SETTINGS
The LM76 always powers up in a known state. LM76 power
up default conditions are:
1.
Comparator Interrupt Mode
2.
T
LOW
set to 10C
3.
T
HIGH
set to 64C
4.
T_CRIT set to 80C
5.
T
HYST
set to 2C
6.
INT and T_CRIT_A active low
7.
Pointer set to “00”; Temperature Register
The LM76 registers will always reset to these default values
when the power supply voltage is brought up from zero volts
as the supply crosses the voltage level plotted in the follow-
ing curve. The LM76 registers will reset again when the
power supply drops below the voltage plotted in this curve.
1.3 SERIAL BUS INTERFACE
The LM76 operates as a slave on the Serial Bus, so the SCL
line is an input (no clock is generated by the LM76) and the
SDA line is a bi-directional serial data line. According to Se-
rial Bus specifications, the LM76 has a 7-bit slave address.
The five most significant bits of the slave address are hard
wired inside the LM76 and are “10010”. The two least signifi-
cant bits of the address are assigned to pins A1–A0, and are
set by connecting these pins to ground for a low, (0); or to
+V
S
for a high, (1).
Therefore, the complete slave address is:
1
0
0
1
0
A1
A0
LSB
MSB
Average Power on Reset Voltage
vs Temperature
DS101015-18
L
www.national.com
7
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