Datasheet
Table Of Contents
- FEATURES
- Applications
- Key Specifications
- DESCRIPTION
- Absolute Maximum Ratings
- Operating Ratings
- Temperature-to-Digital Converter Characteristics
- Logic Electrical Characteristics
- SMBus DIGITAL SWITCHING CHARACTERISTICS
- Functional Description
- CONVERSION SEQUENCE
- THE ALERT OUTPUT
- T_CRIT_A OUTPUT and T_CRIT LIMIT
- POWER ON RESET DEFAULT STATES
- SMBus INTERFACE
- TEMPERATURE DATA FORMAT
- OPEN-DRAIN OUTPUTS
- DIODE FAULT DETECTION
- COMMUNICATING with the LM90
- SERIAL INTERFACE RESET
- DIGITAL FILTER
- Fault Queue
- One-Shot Register
- LM90 REGISTERS
- COMMAND REGISTER
- LOCAL and REMOTE TEMPERATURE REGISTERS (LT, RTHB, RTLB)
- STATUS REGISTER (SR)
- CONFIGURATION REGISTER
- CONVERSION RATE REGISTER
- LOCAL and REMOTE HIGH SETPOINT REGISTERS (LHS, RHSHB, and RHSLB)
- LOCAL and REMOTE LOW SETPOINT REGISTERS (LLS, RLSHB, and RLSLB)
- REMOTE TEMPERATURE OFFSET REGISTERS (RTOHB and RTOLB)
- LOCAL and REMOTE T_CRIT REGISTERS (RCS and LCS)
- T_CRIT HYSTERESIS REGISTER (TH)
- FILTER and ALERT CONFIGURE REGISTER
- MANUFACTURERS ID REGISTER
- DIE REVISION CODE REGISTER
- Application Hints
- Revision History
LM90
SNIS126A –MAY 2004–REVISED MARCH 2013
www.ti.com
FUNCTIONAL DESCRIPTION
The LM90 temperature sensor incorporates a delta V
BE
based temperature sensor using a Local or Remote and
a 10-bit plus sign ADC (Delta-Sigma Analog-to-Digital Converter). The LM90 is compatible with the serial SMBus
version 2.0 two-wire interface. Digital comparators compare the measured Local Temperature (LT) to the Local
High (LHS), Local Low (LLS) and Local T_CRIT (LCS) user-programmable temperature limit registers. The
measured Remote Temperature (RT) is digitally compared to the Remote High (RHS), Remote Low (RLS) and
Remote T_CRIT (RCS) user-programmable temperature limit registers. Activation of the ALERT output indicates
that a comparison is greater than the limit preset in a T_CRIT or HIGH limit register or less than the limit preset
in a LOW limit register. The T_CRIT_A output responds as a true comparator with built in hysteresis. The
hysteresis is set by the value placed in the Hysteresis register (TH). Activation of T_CRIT_A occurs when the
temperature is above the T_CRIT setpoint. T_CRIT_A remains activated until the temperature goes below the
setpoint calculated by T_CRIT − TH. The hysteresis register impacts both the remote temperature and local
temperature readings.
The LM90 may be placed in a low power consumption (Shutdown) mode by setting the RUN/STOP bit found in
the Configuration register. In the Shutdown mode, the LM90's SMBus interface remains while all circuitry not
required is turned off.
The Local temperature reading and setpoint data registers are 8-bits wide. The format of the 11-bit remote
temperature data is a 16-bit left justified word. Two 8-bit registers, high and low bytes, are provided for each
setpoint as well as the temperature reading. Two offset registers (RTOLB and RTOHB) can be used to
compensate for non_ideality error, discussed further in DIODE NON-IDEALITY. The remote temperature reading
reported is adjusted by subtracting from or adding to the actual temperature reading the value placed in the
offset registers.
CONVERSION SEQUENCE
The LM90 takes approximately 31.25 ms to convert the Local Temperature (LT), Remote Temperature (RT), and
to update all of its registers. Only during the conversion process the busy bit (D7) in the Status register (02h) is
high. These conversions are addressed in a round robin sequence. The conversion rate may be modified by the
Conversion Rate Register (04h). When the conversion rate is modified a delay is inserted between conversions,
the actual conversion time remains at 31.25ms. Different conversion rates will cause the LM90 to draw different
amounts of supply current as shown in Figure 3.
Figure 3. Conversion Rate Effect on Power Supply Current
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