LM93CIMT/NOPB National Semiconductor, LM93CIMT/NOPB Datasheet - Page 31

LM93CIMT/NOPB

Manufacturer Part Number

LM93CIMT/NOPB

Description

IC HARDWARE MONITOR 56-TSSOP

Manufacturer

National Semiconductor

Datasheet

1.LM93CIMTNOPB.pdf (92 pages)

Specifications of LM93CIMT/NOPB

Applications

Monitors

Interface

2-Wire SMBus

Voltage - Supply

3 V ~ 3.6 V

Package / Case

56-TSSOP

Mounting Type

Surface Mount

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

*LM93CIMT
*LM93CIMT/NOPB
LM93CIMT

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

LM93CIMT/NOPB

Manufacturer:

Intersil

Quantity:

169

Current page: 31 of 92
Download datasheet (655Kb)

15.0 Using The LM93

Note that since zones 1 and 2 share the same lookup table,

both zones must be operating in the same resolution mode.

The same applies to zones 3 and 4 since they share the

same lookup table.

15.10.3 Zone 1-4 to PWM1-2 Binding

Each zone must be bound to the PWM outputs in order to

have effect on the output’s duty cycle. Any combination of

the zones may be used to drive a PWM output, they are not

limited to the binding described in the previous example. For

instance zones 1, 2 and 4 may be bound to PWM1 while

zones 3 and 4 are bound to PWM2. Note that the duty cycle

levels in the lookup table are dependent on the PWM output

frequency assignment. Therefore, if PWM1 is assigned to a

high frequency and PWM2 is assigned to a low frequency, in

the binding example just mentioned, zone 4 has a different

duty cycle calculated through the lookup table for PWM1

than for PWM2, even though the same Toffset values are

used. This is due to the fact that PWM levels assigned to a

high frequency PWM output are different than the levels

assigned to a low frequency PWM output.

15.10.4 Fan Control Duty Cycles

Several registers in the LM93 use 4-bit values to represent a

duty cycle. All of them use a common mapping that associ-

ates the 4-bit value with a duty cycle. The 4-bit values

correspond also with the 14 steps of the auto fan control

algorithm. The mapping is shown below. This applies for

PWM outputs running at the default 22.5 kHz (high) fre-

quency.

15.10.5 Alternate PWM Frequencies

The PWM output can operate at lower frequencies, instead

of the default 22.5 kHz. The alternate lower frequencies can

be enabled through the PWMx Control 4 registers. When

operating in the lower frequency mode, the mapping be-

tween step numbers and duty cycles changes. This effects

the auto fan control and all LM93 registers that describe a

duty cycle using a 4-bit value.

4-Bit Value

Step

—

22.5 kHz (High Frequency)

Duty Cycle

(Continued)

Reserved

100.00%

25.00%

31.25%

37.50%

43.75%

50.00%

56.25%

62.50%

68.75%

75.00%

81.25%

87.50%

93.75%

0.00%

The low frequency PWM output duty cycle mapping is listed

in the following table:

15.10.6 Fan Control Priorities

The automatic fan control is not the only function that influ-

ences PWM duty cycle. There are several other functions

that influence the PWM duty cycle. All the functions can be

classified into several categories:

The ultimate PWM duty cycle that is chosen can be de-

scribed by the following formula:

If (Manual PWM Override is active)

Else

So in general, categories 1, 2 and 3 are always active. In

addition to that, either category 4 or categories 5 and 6 are

active depending on whether manual override is enabled. In

this sense the manual override, when enabled, replaces

category 5 and 6.

15.10.7 PWM to 100% Conditions

There are several conditions that cause the duty cycles of all

PWM outputs to immediately get set to 100%. They are:

1. Any of the four temperature zones has exceeded the

2. The OVRID bit is set in the LM93 Status/Control.

LM93CIMT/NOPB National Semiconductor, LM93CIMT/NOPB Datasheet - Page 31

LM93CIMT/NOPB

Specifications of LM93CIMT/NOPB

Available stocks

Related parts for LM93CIMT/NOPB