ADM1034ARQZ-R7 ON Semiconductor, ADM1034ARQZ-R7 Datasheet - Page 16

ADM1034ARQZ-R7

Manufacturer Part Number

ADM1034ARQZ-R7

Description

IC THERM/FAN SPEED CTLR 16-QSOP

Manufacturer

ON Semiconductor

Datasheet

1.ADM1034ARQZ-REEL.pdf (39 pages)

Specifications of ADM1034ARQZ-R7

Function

Fan Control, Temp Monitor

Topology

ADC, Comparator, Multiplexer, Register Bank

Sensor Type

External & Internal

Sensing Temperature

-40°C ~ 125°C, External Sensor

Output Type

SMBus™

Output Alarm

Yes

Output Fan

Yes

Voltage - Supply

3 V ~ 5.5 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

16-QSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Layout Considerations

to protect the analog inputs from noise, particularly when

measuring the very small voltages from a remote diode

sensor. Take the following precautions:

•

Table 9. Offset Registers

Table 10. Offset Register Values

Digital boards can be electrically noisy environments. Try

Place the ADM1034 as close as possible to the remote

sensing diode. A distance of 4 inches to 8 inches is

adequate, provided that the worst noise sources such as

clock generators, data/address buses, and CRTs are

avoided.

Route the D+ and D− tracks close together, in parallel,

with grounded guard tracks on each side. Provide a

ground plane under the tracks if possible.

Use wide tracks to minimize inductance and reduce

noise pickup. At least 5 mil track width and spacing are

recommended.

Try to minimize the number of copper/solder joints,

because they can cause thermocouple effects. Where

copper/solder joints are used, make sure that they are in

both the D+ and D− paths and at the same temperature.

Thermocouple effects are not a major problem because

1°C corresponds to approximately 200 mV, and

thermocouple voltages are approximately 3 mV/°C of

Registration

GND

0 0000 000

0 0000 001

1 0000 000

0 0000 111

0 0001 111

1 1111 000

0 0111 111

0 1111 111

D+

D–

Figure 28. Arrangement of Signal Tracks

0x16

0x17

0x18

Code

Local Offset

Remote 1 Offset

Remote 2 Offset

Description

0°C (Default Value)

Offset Value

15.875°C

−0.875°C

0.125°C

0.875°C

1.875°C

7.875°C

−16°C

5MIL

Default

0x00

http://onsemi.com

•

current sources, excessive cable and/or filter capacitance

can affect the measurement. When using long cables, the

filter capacitor C1 may be reduced or removed. In any case,

the total shunt capacitance should never exceed 1000 pF.

Noise Filtering

common practice is to place a capacitor across the D+ and

D− pins to help combat the effects of noise. However, large

capacitances affect the accuracy of the temperature

measurement, leading to a recommended maximum

capacitor value of 1000 pF. While this capacitor reduces the

noise, it does not eliminate it, making it difficult to use the

sensor in a very noisy environment.

when it comes to eliminating the effects of noise on the

external sensor. The series resistance cancellation feature

allows a filter to be constructed between the external

temperature sensor and the part. The effect of any filter

resistance seen in series with the remote sensor is

automatically cancelled from the temperature.

remote temperature sensor to operate in noisy environments.

Figure 29 shows a low−pass R−C−R filter with the following

values: R = 100 W and C = 1 nF. This filtering reduces both

common−mode noise and differential noise.

Limits, Status Registers, and Interrupts

channel on the ADM1034. These can form the basis of system

status monitoring. A status bit can be set for any out−of−limit

condition and detected by polling the device. Alternatively,

SMBusALERTs can be generated to flag a processor or

microcontroller of an out−of−limit condition.

Because the measurement technique uses switched

For temperature sensors operating in noisy environments,

The ADM1034 has a major advantage over other devices

The construction of a filter allows the ADM1034 and the

High and low limits are associated with each measurement

temperature difference. Unless there are two

thermocouples with a big temperature differential

between them, the voltages should be much less than

200 mV.

Place a 0.1 mF bypass capacitor close to the ADM1034.

If the distance to the remote sensor is more than 8

inches, twisted pair cable is recommended. This works

up to about 6 feet to 12 feet.

For very long distances (up to 100 feet), use shielded

twisted pair such as Belden #8451 microphone cable.

Connect the twisted pair to D+ and D− and the shield to

GND, close to the ADM1034. Leave the remote end of

the shield unconnected to avoid ground loops.

Figure 29. Filter between Remote Sensor and

TEMPERATURE

REMOTE

SENSOR

ADM1034

100 Ω

1nF

D+

D–

ADM1034ARQZ-R7 ON Semiconductor, ADM1034ARQZ-R7 Datasheet - Page 16

ADM1034ARQZ-R7

Specifications of ADM1034ARQZ-R7

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