LM89-1CIM National Semiconductor, LM89-1CIM Datasheet - Page 18
LM89-1CIM
Manufacturer Part Number
LM89-1CIM
Description
IC,TEMPERATURE SENSOR,SOP,8PIN,PLASTIC
Manufacturer
National Semiconductor
Datasheet
1.LM89-1CIM.pdf
(20 pages)
Specifications of LM89-1CIM
Rohs Compliant
NO
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3.0 Applications Hints
3.2 PCB LAYOUT for MINIMIZING NOISE
In a noisy environment, such as a processor mother board,
layout considerations are very critical. Noise induced on
traces running between the remote temperature diode sen-
sor and the LM89 can cause temperature conversion errors.
Keep in mind that the signal level the LM89 is trying to
measure is in microvolts. The following guidelines should be
followed:
1. V
2. A 2.2nF diode bypass capacitor is required to filter high
3. Ideally, the LM89 should be placed within 10cm of the
allel with 100pF. The 100pF capacitor should be placed
as close as possible to the power supply pin. A bulk
capacitance of approximately 10µF needs to be in the
near vicinity of the LM89.
frequency noise. Place the 2.2nF capacitor as close as
possible to the LM89’s D+ and D− pins. Make sure the
traces to the 2.2nF capacitor are matched.
Processor diode pins with the traces being as straight,
short and identical as possible. Trace resistance of 1Ω
can cause as much as 1˚C of error. This error can be
compensated by using the Remote Temperature Offset
Registers, since the value placed in these registers will
automatically be subtracted from or added to the remote
temperature reading.
DD
should be bypassed with a 0.1µF capacitor in par-
FIGURE 11. Ideal Diode Trace Layout
(Continued)
20041517
18
4. Diode traces should be surrounded by a GND guard ring
5. Avoid routing diode traces in close proximity to power
6. Avoid running diode traces close to or parallel to high
7. If it is necessary to cross high speed digital traces, the
8. The ideal place to connect the LM89’s GND pin is as
9. Leakage current between D+ and GND should be kept
Noise coupling into the digital lines greater than 400mVp-p
(typical hysteresis) and undershoot less than 500mV below
GND, may prevent successful SMBus communication with
the LM89. SMBus no acknowledge is the most common
symptom, causing unnecessary traffic on the bus. Although
the SMBus maximum frequency of communication is rather
low (100kHz max), care still needs to be taken to ensure
proper termination within a system with multiple parts on the
bus and long printed circuit board traces. An RC lowpass
filter with a 3db corner frequency of about 40MHz is included
on the LM89’s SMBCLK input. Additional resistance can be
added in series with the SMBData and SMBCLK lines to
further help filter noise and ringing. Minimize noise coupling
by keeping digital traces out of switching power supply areas
as well as ensuring that digital lines containing high speed
data communications cross at right angles to the SMBData
and SMBCLK lines.
to either side, above and below if possible. This GND
guard should not be between the D+ and D− lines. In the
event that noise does couple to the diode lines it would
be ideal if it is coupled common mode. That is equally to
the D+ and D− lines.
supply switching or filtering inductors.
speed digital and bus lines. Diode traces should be kept
at least 2cm apart from the high speed digital traces.
diode traces and the high speed digital traces should
cross at a 90 degree angle.
close as possible to the Processors GND associated
with the sense diode.
to a minimum. One nano-ampere of leakage can cause
as much as 1˚C of error in the diode temperature read-
ing. Keeping the printed circuit board as clean as pos-
sible will minimize leakage current.
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