Datasheet
Table Of Contents
- FEATURES
- APPLICATIONS
- DESCRIPTION
- ABSOLUTE MAXIMUM RATINGS
- OPERATING RATINGS
- DC ELECTRICAL CHARACTERISTICS
- OPERATING ELECTRICAL CHARACTERISTICS
- AC ELECTRICAL CHARACTERISTICS
- DIGITAL ELECTRICAL CHARACTERISTICS
- SMBus LOGICAL ELECTRICAL CHARACTERISTICS
- SMBus DIGITAL SWITCHING CHARACTERISTICS
- FUNCTIONAL DESCRIPTION
- LM63 REGISTERS
- APPLICATION NOTES
- Revision History
LM63
SNAS190E –SEPTEMBER 2002–REVISED MAY 2013
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DIODE FAULT DETECTION
The LM63 can detect fault conditions caused by the remote diode. If the D+ pin is detected to be shorted to V
DD
,
or open: (1) the Remote Temperature High Byte (RTHB) register is loaded with 127°C, (2) the Remote
Temperature Low Byte (RTLB) register is loaded with 0, and (3) the OPEN bit (D2) in the status register is set.
Therefore, if the Remote T_CRIT setpoint register (RCS): (1) is set to a value less than +127°C and (2) the
ALERT Mask is disabled, then the ALERT output pin will be pulled low. If the Remote High Setpoint High Byte
(RHSHB) is set to a value less than +127°C and (2) the ALERT Mask is disabled, then the ALERT will be pulled
low. The OPEN bit by itself will not trigger an ALERT.
If the D+ pin is shorted to either ground or D−, then the Remote Temperature High Byte (RTHB) register is
loaded with −128°C (1000 0000) and the OPEN bit in the ALERT Status Register will not be set. A temperature
reading of −128°C indicates that D+ is shorted to either ground or D-. If the value in the Remote Low Setpoint
High Byte (RLSHB) Register is more than −128°C and the ALERT Mask is Disabled, ALERT will be pulled low.
COMMUNICATING WITH THE LM63
Each data register in the LM63 falls into one of four types of user accessibility:
1. Read Only
2. Write Only
3. Read/Write same address
4. Read/Write different address
A Write to the LM63 is comprised of an address byte and a command byte. A write to any register requires one
data byte.
Reading the LM63 Registers can take place after the requisite register setup sequence takes place. See
REQUIRED INITIAL FAN CONTROL REGISTER SEQUENCE.
The data byte has the Most Significant Bit (MSB) first. At the end of a read, the LM63 can accept either
Acknowledge or No-Acknowledge from the Master. Note that the No-Acknowledge is typically used as a signal
for the slave indicating that the Master has read its last byte.
DIGITAL FILTER
The LM63 incorporates a user-configured digital filter to suppress erroneous Remote Temperature readings due
to noise. The filter is accessed in the Remote Diode Temperature Filter and Comparator Mode Register. The
filter can be set according to Table 2.
Level 2 is maximum filtering.
Table 2. Digital Filter Selection Table
D2 D1 FILTER
0 0 No Filter
0 1 Level 1
1 0 Level 1
1 1 Level 2
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