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參數(shù)資料
| 型號: | LM63CIMAX |
| 廠商: | NATIONAL SEMICONDUCTOR CORP |
| 元件分類: | 溫度/濕度傳感器 |
| 英文描述: | 【1C/【3C Accurate Remote Diode Digital Temperature Sensor with Integrated Fan Control |
| 中文描述: | DIGITAL TEMP SENSOR-SERIAL, 11BIT(s), 3Cel, RECTANGULAR, SURFACE MOUNT |
| 封裝: | 0.154 INCH, MS-012, SOIC-8 |
| 文件頁數(shù): | 25/28頁 |
| 文件大?。?/td> | 339K |
| 代理商: | LM63CIMAX |
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3.0 Application Notes
(Continued)
3.2 USE OF THE LOOKUP TABLE FOR NON-LINEAR
PWM VALUES VS TEMPERATURE
The Lookup Table, Registers 50 through 5F, can be used to
create a non-linear PWM vs Temperature curve that could be
used to reduce the acoustic noise from processor fan due to
linear or step transfer functions. An example is given below:
EXAMPLE:
In a particular system it was found that the best acoustic fan
noise performance was found to occur when the PWM vs
Temperature transfer function curve was parabolic in shape.
From 25C to 105C the fan is to go from 20% to 100%.
Since there are 8 steps to the Lookup Table we will break up
the Temperature range into 8 separate temperatures. For the
80C over 8-steps = 10C per step. This takes care of the
x-axis.
For the PWM Value, we first select the PWM Frequency. In
this example we will make the PWM Frequency (Register
4C) 20.
For 100% Duty Cycle then, the PWM value is 40. For 20%
the minimum is 40 x (0.2) = 8.
We can then arrange the PWM, Temperature pairs in a
parabolic fashion in the form of y = 0.005
(x 25)
2
+ 8
Temperature
PWM Value
Calculated
8.0
8.5
10.0
12.5
16.0
20.5
26.0
32.5
40.0
Closest PWM
Value
8
9
10
13
16
21
26
33
40
25
35
45
55
65
75
85
95
105
We can then program the Lookup Table with the temperature
and Closest PWM Values required for the curve required in
our example.
3.3 NON-IDEALITY FACTOR AND TEMPERATURE
ACCURACY
The LM63 can be applied to remote diode sensing in the
same way as other integrated-circuit temperature sensors. It
can be soldered to a printed-circuit board, and because the
path of best thermal conductivity is between the die and the
pins, its temperature will effectively be that of the printed-
circuit board lands and traces soldered to its pins. This
presumes that the ambient air temperature is nearly the
same as the surface temperature of the printed-circuit board.
If the air temperature is much higher or lower than the
surface temperature, the actual temperature of the LM63 die
will be an intermediate temperature between the surface and
air temperatures.Again, the primary thermal conduction path
is through the leads, so the circuit board surface temperature
will contribute to the die temperature much more than the air
temperature.
To measure the temperature external to the die use a remote
diode. This diode can be located on the die of the target IC,
such as a CPU processor chip, allowing measurement of the
IC’s temperature, independent of the LM63’s temperature.
The LM63 has been optimized for use with the thermal diode
on the die of an Intel Pentium 4 or a Mobile Pentium 4
Processor-M processor.
A discrete diode can also be used to sense the temperature
of external objects or ambient air. Remember that a discrete
diode’s temperature will be affected, and often dominated by,
the temperature of its leads.
Most silicon diodes do not lend themselves well to this
application. It is recommended that a diode-connected
2N3904 transistor be used. The base of the transistor is
connected to the collector and becomes the anode. The
emitter is the cathode.
A LM63 with a diode-connected 2N3904 transistor approxi-
mates the temperature reading of the LM63 with the Pentium
4 processor by 1C.
T
2N3904
= T
PENTIUM 4
1C
3.3.1 Diode Non_Ideality
When a transistor is connected to a diode the following
relationship holds for V
be
, T, and I
F
:
where
q = 1.6x10
19
Coulombs (the electron charge)
T = Absolute Temperature in Kelvin
k = 1.38x10
23
joules/K (Boltzmann’s constant)
η
is the non-ideality factor of the manufacturing process
used to make the thermal diode
I
s
= Saturation Current and is process dependent
I
f
= Forward Current through the base emitter junction
V
be
= Base Emitter Voltage Drop
In the active region, the 1 term is negligible and may be
eliminated, yielding the following equation
In the above equation,
η
and I
are dependent upon the
process that was used in the fabrication of the particular
diode. By forcing two currents with a very controlled ratio (N)
and measuring the resulting voltage difference, it is possible
to eliminate the I
term. Solving for the forward voltage
difference yields the relationship:
The voltage seen by the LM63 also includes the I
F
xR
S
voltage drop across the internal series resistance of the
L
www.national.com
25
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相關(guān)代理商/技術(shù)參數(shù) |
參數(shù)描述 |
|---|---|
| LM63CIMAX/NOPB | 功能描述:板上安裝溫度傳感器 RoHS:否 制造商:Omron Electronics 輸出類型:Digital 配置: 準(zhǔn)確性:+/- 1.5 C, +/- 3 C 溫度閾值: 數(shù)字輸出 - 總線接口:2-Wire, I2C, SMBus 電源電壓-最大:5.5 V 電源電壓-最小:4.5 V 最大工作溫度:+ 50 C 最小工作溫度:0 C 關(guān)閉: 安裝風(fēng)格: 封裝 / 箱體: 設(shè)備功能:Temperature and Humidity Sensor |
| LM63DIMA | 功能描述:板上安裝溫度傳感器 RoHS:否 制造商:Omron Electronics 輸出類型:Digital 配置: 準(zhǔn)確性:+/- 1.5 C, +/- 3 C 溫度閾值: 數(shù)字輸出 - 總線接口:2-Wire, I2C, SMBus 電源電壓-最大:5.5 V 電源電壓-最小:4.5 V 最大工作溫度:+ 50 C 最小工作溫度:0 C 關(guān)閉: 安裝風(fēng)格: 封裝 / 箱體: 設(shè)備功能:Temperature and Humidity Sensor |
| LM63DIMA/NOPB | 功能描述:板上安裝溫度傳感器 RoHS:否 制造商:Omron Electronics 輸出類型:Digital 配置: 準(zhǔn)確性:+/- 1.5 C, +/- 3 C 溫度閾值: 數(shù)字輸出 - 總線接口:2-Wire, I2C, SMBus 電源電壓-最大:5.5 V 電源電壓-最小:4.5 V 最大工作溫度:+ 50 C 最小工作溫度:0 C 關(guān)閉: 安裝風(fēng)格: 封裝 / 箱體: 設(shè)備功能:Temperature and Humidity Sensor |
| LM63DIMAX | 功能描述:板上安裝溫度傳感器 RoHS:否 制造商:Omron Electronics 輸出類型:Digital 配置: 準(zhǔn)確性:+/- 1.5 C, +/- 3 C 溫度閾值: 數(shù)字輸出 - 總線接口:2-Wire, I2C, SMBus 電源電壓-最大:5.5 V 電源電壓-最小:4.5 V 最大工作溫度:+ 50 C 最小工作溫度:0 C 關(guān)閉: 安裝風(fēng)格: 封裝 / 箱體: 設(shè)備功能:Temperature and Humidity Sensor |
| LM63DIMAX/NOPB | 功能描述:板上安裝溫度傳感器 RoHS:否 制造商:Omron Electronics 輸出類型:Digital 配置: 準(zhǔn)確性:+/- 1.5 C, +/- 3 C 溫度閾值: 數(shù)字輸出 - 總線接口:2-Wire, I2C, SMBus 電源電壓-最大:5.5 V 電源電壓-最小:4.5 V 最大工作溫度:+ 50 C 最小工作溫度:0 C 關(guān)閉: 安裝風(fēng)格: 封裝 / 箱體: 設(shè)備功能:Temperature and Humidity Sensor |
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