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參數(shù)資料

型號：	LM88
廠商：	National Semiconductor Corporation
英文描述：	Factory Programmable Dual Remote-Diode Thermostat
中文描述：	工廠可編程雙通道遠程二極管溫控器
文件頁數(shù)：	7/9頁
文件大?。?/td>	196K
代理商：	LM88

第1頁第2頁第3頁第4頁第5頁第6頁當前第7頁第8頁第9頁

2.0 Application Hints

(Continued)

of the LM88’s temperature. The LM88 has been optimized to

measure the remote diode of a Pentium type processor as

shown in Figure 3 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 af-

fected, and often dominated, by the temperature of its leads.

As with any IC, the LM88 and accompanying wiring and

circuits must be kept insulated and dry, to avoid leakage and

corrosion. This is especially true if the circuit may operate at

cold

temperatures

where

Printed-circuit coatings and varnishes such as Humiseal and

epoxy paints or dips are often used to ensure that moisture

cannot corrode the LM88 or its connections. Moisture may

also cause leakage on the diode wiring and therefore affect

the accuracy of the temperature set-points.

condensation

can

occur.

Most silicon diodes do not lend themselves well to this

application. It is recommended that a 2N3904 transistor

base emitter junction be used with the collector tied to the

base.

A diode connected 2N3904 approximates the junction avail-

able on a Pentium III microprocessor for temperature mea-

surement. Therefore, the LM88 can sense the temperature

of this diode effectively.

2.3 EFFECTS OF THE DIODE NON-IDEALITY FACTOR

ON ACCURACY

The technique used in today’s remote temperature sensors

is to measure the change in V

at two different operating

points of a diode. For a bias current ratio of N:1, this differ-

ence is given as:

where:

—

is the non-ideality factor of the process the diode is

manufactured on,

— q is the electron charge,

— k is the Boltzmann’s constant,

— N is the current ratio,

— T is the absolute temperature in K.

The temperature sensor then measures

and converts

to IT digital data. In this equation, k and q are well defined

universal constants, and N is a parameter controlled by the

temperature sensor. The only other parameter is

, which

depends on the diode that is used for measurement. Since

is proportional to both

and T, the variations in

cannot be distinguished from variations in temperature.

Since the non-ideality factor is not controlled by the tempera-

ture sensor, it will directly add to the inaccuracy of the

sensor. For the Pentium II, Intel specifies a

1% variation in

from part to part. As an example, assume a temperature

sensor has an accuracy specification of

3 C at room

temperature of 25 C and the process used to manufacture

the diode has a non-ideality variation of

1%. The resulting

accuracy of the temperature sensor at room temperature will

be:

ACC

3C + (

1% of 298 K) =

The additional inaccuracy in the temperature measurement

caused by

can be eliminated if each temperature sensor is

calibrated with the remote diode that it will be paired with.

2.4 PCB LAYOUT to MINIMIZE NOISE

In a noisy environment, such as a processor motherboard,

layout considerations are very critical. Noise induced on

traces running between the remote temperature diode sen-

sor and the LM88 can cause temperature conversion errors.

The following guidelines should be followed:

Place a 0.1 μF power supply bypass capacitor as close

as possible to the V

pin and the recommended 2.2 nF

capacitor as close as possible to the D+ and D pins.

Make sure the traces to the two 2.2nF capacitor are

matched.

The recommended 2.2nF diode bypass capacitor actu-

ally has a range of 200pF to 3.3nF. The average tem-

perature accuracy will not change over that capacitance

range. Increasing the capacitance will lower the corner

frequency where differential noise error will start to affect

the temperature reading thus producing a reading that is

more stable. Conversely, lowering the capacitance will

increase the corner frequency where differential noise

error starts to affect the temperature reading thus pro-

ducing a reading that is less stable.

Ideally, the LM88 should be placed within 10cm of the

remote diode pins with the traces being as straight, short

and identical as possible. Trace resistance of 1

can

cause as much as 1C of error. This error can be com-

pensated by using the Remote Temperature Offset Reg-

isters, since the value placed in these registers will

automatically be subtracted or added to the remote tem-

perature reading.

Diode traces should be surrounded by a GND guard ring

to either side, above and below if possible. This GND

guard should not go between the D+ and D lines so

that in the event that noise does couple to the diode

lines, it would be coupled common mode and rejected-

.(See Figure 4)

Avoid routing diode traces in close proximity to power

supply switching or filtering inductors.

Avoid running diode traces close to or parallel to high

speed digital and bus lines. Diode traces should be kept

at least 2cm apart from the high speed digital traces.

If it is necessary to cross high speed digital traces, the

diode traces and the high speed digital traces should

cross at a 90 degree angle.

10132615

FIGURE 3. Pentium or 3904 Temperature vs LM88

Temperature Set-point

www.national.com

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