Note 5), Note 4), Note 6) – Rainbow Electronics LM96000 User Manual

Pin

#

Pin

Name

Circuit

All Input Circuits

1

SMBDAT

A

Circuit A

2

SMBCLK

3

GND

B

4

3.3V

5

VID0

A

Circuit B

6

VID1

7

VID2

8

VID3

9

TACH3

10

PWM2

Circuit C

11

TACH1

12

TACH2

13

PWM3/AddEnable

14

TACH4/AddSel

15

REMOTE2−

C

Circuit D

16

REMOTE2+

D

17

REMOTE1−

C

18

REMOTE1+

D

19

VID4

A

20

5V

E

Circuit E

21

12V

22

2.5V

23

VCCP_IN

24

PWM1/xTEXTOUT

A

Note 4: Human body model, 100pF discharged through a 1.5k

Ω resistor. Machine model, 200pF discharged directly into each pin.

Note 5: Thermal resistance junction-to-ambient when attached to a double-sided printed circuit board with 1 oz. foil is 113 ˚C/W.

Note 6: Reflow temperature profiles are different for packages containing lead (Pb) than for those that do not.

Note 7: Typicals are at T

A

= 25˚C and represent most likely parametric norm.

Note 8: Limits are guaranteed to National’s AOQL (Average Outgoing Quality Level).

Note 9: The average current can be calculated from the peak current using the following equation:

Quiescent current will not increase substantially with an SMBus transaction.

Note 10: The accuracy of the LM96000CIMT is guaranteed when using the thermal diode of Intel Pentium 4 90nm processors or any thermal diode with a
non-ideality of 1.011 and series resistance of 3.33

Ω. When using a 2N3904 type transistor as a thermal diode the error band will be typically shifted by -?˚C.

Note 11: Local temperature accuracy does not include the effects of self-heating. The rise in temperature due to self-heating is the product of the internal power
dissipation of the LM96000 and the thermal resistance. See (Note 5) for the thermal resistance to be used in the self-heating calculation.

Note 12: TUE , total unadjusted error, includes ADC gain, offset, linearity and reference errors. TUE is defined as the "actual Vin" to achieve a given code transition
minus the "theoretical Vin" for the same code. Therefore, a positive error indicates that the input voltage is greater than the theoretical input voltage for a given code.
If the theoretical input voltage was applied to an LM96000 that has positive error, the LM96000’s reading would be less than the theoretical.

Note 13: This specification is provided only to indicate how often temperature and voltage data is updated. The LM96000 can be read at any time without regard
to conversion state (and will yield last conversion result).

LM96000

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