EMC6D100-DK SMSC [SMSC Corporation], EMC6D100-DK Datasheet - Page 26

EMC6D100-DK

Manufacturer Part Number

EMC6D100-DK

Description

ENVIRONMENTAL MONITORING AND CONTROL DEVICE WITH AUTOMATIC FAN CAPABILITY

Manufacturer

SMSC [SMSC Corporation]

Datasheet

1.EMC6D100-DK.pdf (75 pages)

Current page: 26 of 75
Download datasheet (593Kb)

6.6.2

6.7

6.8

6.9

6.9.1

SMSC EMC6D100/EMC6D101

Min Value (Corresponds

to A/D output 00000000)

Max Value (Corresponds

to A/D output 11111111)

INPUT VOLTAGE

This is a low power mode in which bias currents are ‘off’ and the Hardware Monitor Block is not operating.

In this mode, the A/D converter and monitoring cycle will be turned off. Serial bus communication is still

possible with any register in the Hardware Monitor Block while in this low-power mode.

Analog Voltage Measurement

The Hardware Monitor Block contains inputs for directly monitoring the power supplies (+12 V, +5 V,

+3.3V, +2.5V, +1.8V, +1.5V, +Vccp and VCC). These inputs are scaled internally to a internal reference

source, converted via an 8 bit successive approximation register ADC or a Delta-Sigma ADC (Analog-to-

Digital Converter), and scaled such that the correct value refers to 3/4 scale or 192 decimal (except the

Vccp input). This removes the need for external resistor dividers and allows for a more accurate means of

measurement since the voltages are referenced to a known value. Since any of these inputs can be above

VCC or below Ground, they are not diode protected to the power rails. The measured values are stored in

the Reading registers and compared with the Limit registers. The status bits in the Interrupt Status

The Vccp voltage input measures the processor voltage, which will lie in the range of 0V to 3.0V.

The following table shows the values of the analog inputs that correspond to the min and max output

codes of the A/D converter. For a complete list of the ADC conversions see Appendix B.

Voltage ID

VID0-VID4 digital inputs are used to store processor Voltage ID codes (for processor operating voltage) in

the VID0-4 register (43h). These VIDs can be read out by the management system using the SMBus

interface.

Temperature Measurement

Temperatures are measured internally by bandgap temperature sensor and externally using two sets of

diode sensor pins (for measuring two external temperatures). See subsections below.

Note: The temperature sensing circuitry for the two remote diode sensors is calibrated for a Pentium

diode.

INTERNAL TEMPERATURE MEASUREMENT

Internal temperature can be measured by bandgap temperature sensor. The measurement is converted

into digital format by internal ADC. This data is converted in two’s complement format since both negative

and positive temperature can be measured. This value is stored in Internal (Zone 2) Temperature Reading

SHUTDOWN MODE

EMC6D101 monitors power supplies +2.5V, +5V, +12V, Vccp, and VCC

EMC6D100 monitors additional power supplies +3.3V, +1.5V, +1.8V

<0.062

>15.938

+12V

<0.026

>6.640

DATASHEET

+5V

<0.017

>4.383

Page 26

/3.3V

<0.013

>3.320

+2.5V

<0.009

>2.391

Environmental Monitoring and Control Device

+1.8V

<0.008

>1.992

+1.5V

<0.012

>2.988

Rev. 09-09-04

Datasheet

CCP

EMC6D100-DK SMSC [SMSC Corporation], EMC6D100-DK Datasheet - Page 26

EMC6D100-DK

Related parts for EMC6D100-DK