LM87CIMTX National Semiconductor, LM87CIMTX Datasheet - Page 13

LM87CIMTX

Manufacturer Part Number

LM87CIMTX

Description

IC,Data Acquisition System,8-CHANNEL,8-BIT,TSSOP,24PIN,PLASTIC

Manufacturer

National Semiconductor

Datasheets

1.LM87CIMTX.pdf (32 pages)

2.LM87CIMTX.pdf (32 pages)

Specifications of LM87CIMTX

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Functional Description

power up. If ADD is tied to ground the value for XY is 10. If

ADD is tied to Vcc XY will be set to 01. If ADD is not

connected, XY will be 00. XY = 11 is not a possible combi-

nation.

All of these communications are depicted in the Serial Bus

Interface Timing Diagrams as shown in Figure 5. The ex-

ample shown corresponds to the ADD pin tied to Vcc, so

XY=01 and the resulting LM87 address is 0101101.

Serial Bus Timeout can be initiated by holding the SMBCLK

line low for greater than t

Timeout resets the serial bus interface circuitry to the idle

state and readies the LM87 for a new serial bus communi-

cation.

3.0 USING THE LM87

3.1 Power On

When power is first applied, the LM87 performs a “power on

reset” on several of its registers. The power on condition of

the LM87’s registers is shown in Table 1. The internal regis-

ters and their corresponding internal LM87 addresses are as

follows: Registers whose power on values are not shown

have power on conditions that are indeterminate (this in-

cludes the value RAM ,exclusive of the DAC data, and

WATCHDOG limits). When power is first applied the ADC is

inactive. In most applications, the first action after power on

is to write WATCHDOG limits into the Value RAM.

3.2 Resets

All register values, except the Programmed DAC Output can

be returned to their "power on" default values by taking the

RESET # input low for at least TBD ns or by performing a

Configuration Register INITIALIZATION. The Value RAM

conversion results, and Value RAM WATCHDOG limits are

not Reset and will be indeterminate immediately after power

on. If the Value RAM contains valid conversion results and/or

Value RAM WATCHDOG limits have been previously set,

they will not be affected by a Configuration Register INITIAL-

IZATION. The Power On Reset, RESET# input, and Configu-

ration Register INITIALIZATION, clear or initialize the follow-

ing registers (the initialized values are shown on Table I).

Power On Reset also sets the Programmed DAC Output to

full scale (FFh) Hardware High Limit registers 13h, and 14h

will only be returned to default values if the "Write Once" bits

in Configuration Register 2 have not been set:

Configuration Register INITIALIZATION is accomplished by

setting Bit 7 of Configuration Register 1 high. This bit auto-

matically clears after being set.

• Configuration Registers 1 and 2

• Channel Mode Register

• Hardware High Limit Registers

• Interrupt Status Register 1

• Interrupt Status Register 2

• Interrupt Status Mirror Register 1

• Interrupt Status Mirror Register 2

• Interrupt Mask Register 1

• Interrupt Mask Register 2

• Chassis Intrusion Clear Register

• VID/Fan Divisor Register

• VID4 Register

• Extended Mode Register

TIMEOUT

(35 ms max). Serial Bus

(Continued)

3.3 Configuration Registers and Channel Mode

The Configuration Registers and Channel Mode Register

control the LM87 operation. At power on, the ADC is stopped

and INT_Clear is asserted, clearing the INT # hardwire out-

put. These registers start and stop the LM87, enable and

disable interrupt output, configure the operation of dual func-

tion inputs, and provide the Reset functions described in

Section 3.2.

Bit 0 of Configuration Register 1 controls the monitoring loop

of the LM87. Setting Bit 0 low stops the LM87 monitoring

loop and puts the LM87 in shutdown mode, reducing power

consumption. Serial Bus communication can take place with

any register in the LM87 although activity on the SMBData

and SMBCLK lines will increase shutdown current, up to as

much as maximum rated supply current, while the activity

takes place. Taking Bit 0 high starts the monitoring loop,

described in more detail subsequently.

Bit 1 of Configuration Register 1 enables the INT # Interrupt

output when this bit is taken high.

Bit 2 of Configuration Register 1 enables the THERM # Inter-

rupt output when this bit is taken high.

Bit 3 of Configuration Register 1 clears the INT# output when

set high, without affecting the contents of the Interrupt Status

Registers. The LM87 will stop monitoring. It will resume upon

clearing of this bit.

Bit 4 of Configuration Register 1 provides an active low 20

ms (minimum) pulse at the RESET # output when set high.

Bit 6 of Configuration Register 1 clears the THERM# output

when set high, without affecting the contents of the Interrupt

Status Registers.

Bit 7 of Configuration Register 1 (the INITIALIZATION bit)

resets the internal registers of the LM87 as described in

Section 3.2.

Bit 7 of the CI_Clear Register provides an active low 20 ms

(minimum) pulse at the CI # output pin when set high. This is

intended for resetting the Chassis Intrusion circuitry.

Bit 0 of Configuration Register 2 enables the INT # Interrupt

output for THERM# events when set low. When this bit is set

high, THERM# error events will not affect the INT# output.

Bit 1 of Configuration Register 2 locks the value set in the

Internal Temperature high limit register at 13h. The value

cannot be changed until a Power On Reset is performed.

Bit 2 of Configuration Register 2 locks the value set in the

External Temperature high limit register at 14h. The value

cannot be changed until a Power On Reset is performed.

Bit 3 of Configuration Register 2 sets the THERM# output

mode. When set to 0, the THERM# output functions in

default mode, when set to 1, THERM# operates in ACPI

mode.

Bit 6 of Configuration Register 2, when set to 1, enables pin

21 as an active high (IRQ3) interrupt input. When set to 0,

this input is disabled as an IRQ interrupt.

Bit 7 of Configuration Register 2, when set to 1, enables pin

20 as an active high (IRQ4) interrupt input. When set to 0,

this input is disabled as an IRQ interrupt.

Bit 0 of the Channel Mode Register, when set to 1, config-

ures pin 5 as AIN1. When set to 0, pin 5 is configured as the

FAN1 input.

Bit 1 of the Channel Mode Register, when set to 1, config-

ures pin 6 as AIN2. When set to 0, pin 6 is configured as the

FAN2 input.

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LM87CIMTX National Semiconductor, LM87CIMTX Datasheet - Page 13

LM87CIMTX

Specifications of LM87CIMTX

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