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PDF MAX6514 Data sheet ( Hoja de datos )
| Número de pieza | MAX6514 | |
| Descripción | (MAX6514 / MAX6515) Temperature Switches | |
| Fabricantes | Maxim Integrated Products | |
| Logotipo |  |
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19-3147; Rev 0; 1/04
Low-Cost, 2.7V to 5.5V Temperature Switches
in a SOT23
General Description
The MAX6514/MAX6515 low-cost, fully integrated temper-
ature switches assert a logic signal when their die tem-
perature crosses a factory-programmed threshold.
Operating from a 2.7V to 5.5V supply, these devices fea-
ture a fixed voltage reference, an analog temperature
sensor, and a comparator. They are available with facto-
ry-trimmed temperature trip thresholds from -45°C to
+15°C and +35°C to +115°C in 10°C increments, and are
accurate to ±1°C (typ). These devices require no external
components and typically consume 22µA of supply cur-
rent. Hysteresis is pin selectable at 2°C or 10°C.
The MAX6514/MAX6515 are offered with hot-tempera-
ture thresholds (+35°C to +115°C), asserting when the
temperature is above the threshold or with cold-temper-
ature thresholds (-45°C to +15°C), asserting when the
temperature is below the threshold. The MAX6514/
MAX6515 can be used over a -35°C to +125°C range
with a supply voltage of 2.7V to 5.5V. For applications
sensing temperature down to -45°C, a supply voltage
above 4.5V is required.
The MAX6514 has an active-high, push-pull output. The
MAX6515 has an active-low, open-drain output. These
devices are available in a space-saving 5-pin SOT23
package and operate over the -55°C to +125°C tem-
perature range.
Applications
Over/Undertemperature Protection
Fan Control
Test Equipment
Temperature Control
Temperature Alarms
Notebook, Desktop PCs
RAID
Servers
Features
♦ High-Accuracy +1.5°C (max) over -15°C to +65°C
Temperature Range
♦ Low-Power Consumption: 22µA Typical Current
♦ Factory-Programmed Thresholds from -45°C to
+115°C in 10°C Increments
♦ Open-Drain or Push-Pull Outputs
♦ Pin-Selectable 2°C or 10°C Hysteresis
♦ Low Cost
Ordering Information
PART
TEMP RANGE
PIN-
PACKAGE
MAX6514UK_ _ _ _-T*
MAX6515UK_ _ _ _-T*
-55°C to +125°C 5 SOT23-5
-55°C to +125°C 5 SOT23-5
*These parts are offered in 16 standard temperature versions
with a minimum order of 2500 pieces. To complete the suffix
information, add P or N for positive or negative trip temperature,
and select an available trip point in degrees centigrade. For
example, the MAX6514UKP065-T describes a MAX6514 in a
5-pin SOT23 package with a +65°C threshold in tape and reel
(2.5k minimum order). Contact the factory for pricing and avail-
ability.
Typical Operating Circuit
VCC
100kΩ
VCC
TOVER
VCC
INT
Pin Configurations and Functional Diagram appear at end of
data sheet.
0.1µF
MAX6515
GND GND HYST
MICROCONTROLLER
GND
________________________________________________________________ Maxim Integrated Products 1
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
1 page  
Low-Cost, 2.7V to 5.5V Temperature Switches
in a SOT23
Applications Information
Temperature-Window Alarm
The MAX6515 logic output asserts when the die tem-
perature is outside the factory-programmed range.
Combining the outputs of two devices creates an
over/undertemperature alarm. Two MAX6515s are used
to form two complementary pairs, containing one cold
trip-point output and one hot trip-point output. The
assertion of either output alerts the system to an out-of-
range temperature (Figure 1).
The thermal overrange signal can be used to assert a
thermal shutdown, power-up, recalibration, or other
temperature-dependent function.
Low-Cost, Fail-Safe Temperature
In high-performance/high-reliability applications, multi-
ple temperature monitoring is important. The high-level
integration and low cost of the MAX6514/MAX6515
facilitate the use of multiple temperature monitors to
increase system reliability. The Figure 2 application
uses two MAX6514s with different hot-temperature
thresholds to ensure that fault conditions that can over-
heat the monitored device cause no permanent dam-
age. The first temperature monitor activates the fan
when the die temperature exceeds +45°C. The second
MAX6514 triggers a system shutdown if the die temper-
ature reaches +75°C, preventing damage from a wide
variety of destructive fault conditions, including
latchups, short circuits, and cooling-system failures.
Thermal Considerations
The MAX6514/MAX6515 supply current is typically
22µA. When used to drive high-impedance loads, the
devices dissipate negligible power and self-heating
effects are minimized.
Accurate temperature monitoring depends on the ther-
mal resistance between the device being monitored
and the MAX6514/MAX6515 die. Heat flows in and out
of plastic packages, primarily through the leads. Pin 2
of the 5-pin SOT23 package provides the lowest ther-
mal resistance to the die. Short, wide copper traces
between the MAX6514/MAX6515 and the objects
whose temperature is being monitored ensure heat
transfers occur quickly and reliably. The rise in die tem-
perature due to self-heating is given by the following
formula:
∆TJ = PDISSIPATION x θJA
where PDISSIPATION is the power dissipated by the
MAX6514/MAX6515, and θJA is the thermal resistance
of the package.
The typical thermal resistance is +140°C/W for the 5-
pin SOT23 package. To limit the effects of self-heating,
minimize the output current. For example, if the
MAX6514/MAX6515 sink 1mA, the open-drain output
voltage is guaranteed to be less than 0.3V. Therefore,
an additional 0.3mW of power is dissipated within the
IC. This corresponds to a 0.042°C shift in the die tem-
perature in the 5-pin SOT23 package.
+5V
100kΩ
OUT OF RANGE
VCC
TOVER
VCC
TUNDER
MAX6515UKP075
MAX6515UKN005
GND GND HYST
GND GND HYST
Figure 1. Temperature-Window Alarms Using the MAX6515
+5V
VCC SYSTEM
SHUTDOWN
TOVER
MAX6514UKP075
HEAT GND GND HYST
µP
GND
HEAT
VCC
HYST
TOVER
FAN
CONTROL
MAX6514UKP045
GND GND
Figure 2. Low-Power, High-Reliability, Fail-Safe Temperature
Monitor
_______________________________________________________________________________________ 5
5 Page | ||
| Páginas | Total 8 Páginas | |
| PDF Descargar | [ Datasheet MAX6514.PDF ] | |
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