ADT7488A Ver la hoja de datos (PDF) - ON Semiconductor
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ADT7488A Datasheet PDF : 12 Pages
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ADT7488A
temperature difference. Unless there are two
thermocouples with a big temperature differential
between them, thermocouple voltages should be much
less than 200 mV.
• Place a 0.1 mF bypass capacitor close to the
ADT7488A.
• If the distance to the remote sensor is more than eight
inches, the use of a twisted pair cable is recommended.
This works for distances of about 6 feet to 12 feet.
• For very long distances (up to 100 feet), use shielded
twisted pair cables, such as Belden #8451 microphone
cables. Connect the twisted pair cable to D+ and D−
and the shield to GND, close to the ADT7488A. Leave
the remote end of the shield unconnected to avoid
ground loops.
Because the measurement technique uses switched
current sources, excessive cable and/or filter capacitance
can affect the measurement. When using long cables, the
filter capacitor can be reduced or removed. Cable resistance
can also introduce errors. A 1 W series resistance introduces
about 0.5°C error.
Temperature Offset
As CPUs run faster, it is more difficult to avoid high
frequency clocks when routing the D+ and D− tracks around
a system board. Even when the recommended layout
guidelines are followed, there may still be temperature
errors, attributed to noise being coupled onto the D+ and D−
lines. High frequency noise generally has the effect of
producing temperature measurements that are consistently
too high by a specific amount. The ADT7488A has
temperature offset command codes of 0xe0 and 0xe1
through which a desired offset can be set. By doing a
one−time calibration of the system, the offset caused by
system board noise can be calculated and nulled by
specifying it in the ADT7488A. The offset is automatically
added to every temperature measurement. The maximum
offset is ±128°C with 0.25°C resolution. The offset format
is the same as the temperature data format; 16−bit, twos
complement notation, as shown in Table 11. The offset
should be programmed in little endian format, that is, LSB
before MSB. The offset value is also returned in little endian
format when read.
Application Schematic
A typical application circuit for the ADT7488A is shown
in Figure 18. The ADT7488A can be used in conjunction
with the ADP3192 controller to monitor the CPU power.
The result is a complete thermal and power monitor for the
CPU.
VCC
2N3905
NPN
ADT7488A
1 VCC
2 GND
3 D1+
4 D1–
5 D2+
SST 10
ADD 9
2.5 V 8
VCCP 7
D2– 6
POWER
MONITORING
VCCP
SST
ADP3192
R = 1k W
IMON
C = 10nF
CPU POWER
CONTROLLER
THERMAL DIODE
CPU
DRIVERS
ADP3120A
Figure 18. ADT7488A Application Schematic: CPU Thermal− and Power−Supply Monitoring
ORDERING INFORMATION
Device Order Number*
Package Type
Package Option
Shipping†
ADT7488AARMZ−RL
ADT7488AARMZ−RL7
10−Lead MSOP
RM−10
3000 Tape & Reel
1000 Tape & Reel
†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging
Specifications Brochure, BRD8011/D.
*These are Pb−Free packages.
http://onsemi.com
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