MAX6605MXK+T Maxim Integrated Products, MAX6605MXK+T Datasheet - Page 4

MAX6605MXK+T

Manufacturer Part Number

MAX6605MXK+T

Description

IC TEMP SENSOR ANLG SC70-5

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX6605MXKT.pdf (6 pages)

Specifications of MAX6605MXK+T

Sensing Temperature

-55°C ~ 125°C

Output Type

Voltage

Voltage - Supply

2.7 V ~ 5.5 V

Accuracy

±0.75°C

Package / Case

SC-70-5, SC-88A, SOT-323-5, SOT-353, 5-TSSOP

Mounting Type

Operating Temperature

Function

Sensor Type

Topology

Output Fan

Output Alarm

Full Temp Accuracy

+/- 0.75 C

Gain

11.9 mV / C

Maximum Operating Temperature

+ 125 C

Minimum Operating Temperature

- 55 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

MAX6605MXK+T
MAX6605MXK+TTR

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The MAX6605 analog output temperature sensor’s out-

put voltage is a linear function of its die temperature.

The slope of the output voltage is 11.9mV/°C, and there

is a 744mV offset at 0°C to allow measurement of nega-

tive temperatures. The MAX6605 has three terminals:

10µA, and the supply voltage range is from +2.4V to

+5.5V for the -40°C to +105°C temperature range and

+2.7V to +5.5V for the -55°C to +125°C temperature

range. The temperature error is <1°C at T

<3.8°C from T

= -55°C to +125°C.

The benefit of silicon analog temperature sensors over

thermistors is linearity over extended temperatures. The

nonlinearity of the MAX6605 is typically 0.4°C over the

-20°C to +85°C temperature range.

The temperature-to-voltage transfer function has an

approximately linear positive slope and can be

described by the equation:

where T is the MAX6605’s die temperature in °C.

Therefore:

To account for the small amount of curvature in the

transfer function, use the equation below to obtain a

more accurate temperature reading:

Low-Power Analog Temperature Sensor

in SC70 Package

_______________________________________________________________________________________

, GND, and OUT. The maximum supply current is

T (°C) = (V

OUT

NAME

1.604

GND

OUT

= 0.744V + 0.0119V/°C

= -20°C to +85°C, and <5.8°C from T

= 744mV + (T

OUT

Supply Input. Decouple with a 0.1µF

capacitor to GND.

Must be connected to GND.

Temperature Sensor Output,

Must be connected to V

Ground

Detailed Description

-6

- 744mV) / 11.9mV/°C

≥ 1nF

V/°C

Pin Description

Transfer Function

11.9mV/°C)

FUNCTION

(T(°C))

Nonlinearity

T(°C) +

= +25°C,

Temperature sensor ICs like the MAX6605 that sense

their own die temperatures must be mounted on, or

close to, the object whose temperature they are intend-

ed to measure. Because there is a good thermal path

between the SC70 package’s metal leads and the IC

die, the MAX6605 can accurately measure the temper-

ature of the circuit board to which it is soldered. If the

sensor is intended to measure the temperature of a heat-

generating component on the circuit board, it should be

mounted as close as possible to that component and

should share supply and ground traces (if they are not

noisy) with that component where possible. This will maxi-

mize the heat transfer from the component to the sensor.

The thermal path between the plastic package and the

die is not as good as the path through the leads, so the

MAX6605, like all temperature sensors in plastic pack-

ages, is less sensitive to the temperature of the surround-

ing air than it is to the temperature of its leads. It can be

successfully used to sense ambient temperature if the cir-

cuit board is designed to track the ambient temperature.

As with any IC, the wiring and circuits must be kept insu-

lated and dry to avoid leakage and corrosion, especially if

the part will be operated at cold temperatures where con-

densation can occur.

The thermal resistance junction to ambient (θ

parameter used to calculate the rise of a device junction

temperature (T

MAX6605, use the following equation to calculate the rise

in die temperature:

The MAX6605 is a very-low-power temperature sensor

and is intended to drive very light loads. As a result, the

temperature rise due to power dissipation on the die is

insignificant under normal conditions. For example,

assume that the MAX6605 is operating from a +3V sup-

ply at +21.6°C (V

perature will increase above the ambient by:

Therefore, the error caused by power dissipation will be

negligible.

324°C/W x ((3V x 10µA) + (3V - 1V) x 10µA) = 0.0162°C

OUT

= 10µA). In the 5-pin SC70 package, the die tem-

- T

= T

= θ

+ θ

Applications Information

) due to its power dissipation. For the

OUT

((V

= 1V) and is driving a 100kΩ load

Sensing Circuit Board and

x I

Ambient Temperatures

) + (V

- V

OUT

) I

OUT

) is the

) =

)

MAX6605MXK+T Maxim Integrated Products, MAX6605MXK+T Datasheet - Page 4

MAX6605MXK+T

Specifications of MAX6605MXK+T

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