MIC184BMM Micrel Inc, MIC184BMM Datasheet - Page 7

MIC184BMM

Manufacturer Part Number

MIC184BMM

Description

IC SUPERVISOR LOCAL/REMOTE 8MSOP

Manufacturer

Micrel Inc

Datasheet

1.MIC184YM.pdf (20 pages)

Specifications of MIC184BMM

Function

Temp Monitoring System (Sensor)

Topology

ADC (Sigma Delta), Register Bank

Sensor Type

External & Internal

Sensing Temperature

-55°C ~ 125°C, External Sensor

Output Type

I²C™/SMBus™

Output Alarm

Yes

Output Fan

Voltage - Supply

2.7 V ~ 5.5 V

Operating Temperature

-55°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-MSOP, Micro8™, 8-uMAX, 8-uSOP,

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

MIC184BMM

Manufacturer:

MICREL/麦瑞

Quantity:

20 000

Current page: 7 of 20
Download datasheet (484Kb)

Temperature Measurement

The temperature-to-digital converter for both internal and

external temperature data is built around a switched current

source and a 9-bit analog-to-digital converter. The tem-

perature is calculated by measuring the forward voltage of a

diode junction at two different bias current levels. An internal

multiplexer directs the current source’s output to either an

internal or external diode junction.

The MIC184 uses two’s-complement data to represent

temperatures. If the MSB of a temperature value is 0, the

temperature is ≥ 0°C. If the MSB is 1, the temperature is <

0°. More detail on this is given in “Temperature Data For-

mat” below. A temperature event results if the value in the

temperature result register (TEMP) is greater than the value

in the overtemperature setpoint register (T_SET), or if it is

less than the value in the temperature hysteresis register

(T_HYST).

The value of the ZONE bit in the conﬁguration register deter-

mines whether readings are taken from the on-chip sensor

or from the A2/T1 input. At power-up, the ZONE bit of the

conﬁguration register is set to zero. The MIC184 therefore

monitors its internal temperature and compares the result

May 2006

MIC184

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T /

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Table 1. MIC184 Slave Address Settings

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v a

Table 2. MIC184 Register Addresses

e t

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F 4

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against the contents of T_SET and T_HYST. Setting the ZONE

bit in CONFIG will result in the MIC184 acquiring temperature

data from an external diode connected to the A2/T1 pin. This

diode may be embedded in an integrated circuit (such as a

CPU, ASIC, or graphics processor), or it may be a diode-con-

nected discrete transistor. Once the new value is written to

CONFIG, the A/D converter will begin a new conversion and

return temperature data from the external zone. This data

will be compared against T_SET, T_HYST, and the state of

the Fault_Queue (described below). The internal status bit

(STS) and the INT output will then be updated accordingly.

See “Applications Information” for more details on switching

between zones.

Diode Faults

The MIC184 is designed to respond in a fail-safe manner to

hardware faults in the external sensing circuitry. If the con-

nection to the external diode is lost, or the sense line (A2/T1)

is shorted to V

by the A/D converter will be forced to its full-scale value

(+127.5°C). This will cause an overtemperature event to oc-

cur whenever T_SET ≤ +127.0°C (0 1111 1110

will be generated if so enabled. The temperature reported for

the external zone will remain 0 1111 1111

the fault condition is cleared. This fault detection requires

that the MIC184 complete the number of conversion cycles

speciﬁed by Fault_Queue. The MIC184 may therefore require

one or more conversion cycles following power-on or a transi-

tion from shutdown to normal operation before reporting an

external diode fault.

Serial Port Operation

The MIC184 uses standard SMBus WRITE_BYTE, READ_

BYTE, WRITE_WORD, and READ_WORD operations for

communication with its host. The SMBus WRITE_BYTE and

WRITE_WORD operations involve sending the device’s slave

address (with the R/W bit low to signal a write operation),

followed by a command byte and one or two data bytes. The

SMBus READ_BYTE operation is similar, but is a composite

write and read operation: the host ﬁrst sends the device’s

slave address followed by the command byte, as in a write

operation. A new “start” bit must then be sent to the MIC184,

followed by a repeat of the slave address with the R/W bit

(LSB) set to the high (read) state. The data to be read from

a e

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o c

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f n

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i g

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a r

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t s

a r

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or ground, the temperature data reported

e r

a r

o i

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t s

u t

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p t

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= +127.5°C until

). An interrupt

MIC184

Micrel

MIC184BMM Micrel Inc, MIC184BMM Datasheet - Page 7

MIC184BMM

Specifications of MIC184BMM

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