Bit plus sign temperature sensors with smbus/i, C-compatible serial interface, Applications information – Rainbow Electronics MAX6635 User Manual

MAX6633/MAX6634/MAX6635

and the serial interface. Enter shutdown by program-
ming the shutdown bit of the Configuration register
high. While in shutdown, the Temperature register
retains the last conversion result and can be read at
any time. The ADC is turned off, reducing the device
current draw to 30µA (max). The outputs of

ALERT and

OVERT are latched upon entering shutdown, and the
fault queue is held in reset. After coming out of shut-
down, the Temperature register continues to read the
last converted temperature, until the next conversion
result is available.

Thermal Considerations

The MAX6633/MAX6634/MAX6635 supply current is
typically 200µA when the serial interface is inactive.
When used to drive high-impedance loads, the devices
dissipate negligible power; therefore, the die tempera-
ture is essentially the same as the package tempera-
ture. The key to accurate temperature monitoring is
good thermal contact between the MAX6633/MAX6634/
MAX6635 package and the monitored device or circuit.
Heat flows in and out of plastic packages primarily
through the leads. Short, wide copper traces leading to
the temperature monitor ensure that heat transfers
quickly and reliably. The rise in die temperature due to
self-heating is given by the following formula:

∆T

J

= P

DISSIPATION

x

θ

JA

where P

DISSIPATION

is the power dissipated by the

MAX6633/MAX6634/MAX6635, and

θ

JA

is the pack-

age’s thermal resistance.

The typical thermal resistance is 170°C/W for the 8-pin
SO package. To limit the effects of self-heating, mini-
mize the output currents. For example, if the
MAX6634/MAX6635 sink 4mA with the maximum

ALERT V

L

specification of 0.8V, an additional 3.2mW of

power is dissipated within the IC. This corresponds to a
0.54°C rise in the die temperature.

Applications Information

Figure 10 shows the MAX6634 used as a simple thermo-
stat to control a heating element. Figure 11 shows the
MAX6635 used as a temperature-triggered fan controller.

Chip Information

TRANSISTOR COUNT: 12,085

PROCESS: BiCMOS

12-Bit Plus Sign Temperature Sensors with
SMBus/I

2

C-Compatible Serial Interface

12

______________________________________________________________________________________

MAX6633

A3

A2

A1

A0

ADDRESS

GND

GND

GND

GND

1000 000

GND

GND

GND

V

CC

1000 001

GND

GND

V

CC

GND

1000 010

GND

GND

V

CC

V

CC

1000 011

GND

V

CC

GND

GND

1000 100

GND

V

CC

GND

V

CC

1000 101

GND

V

CC

V

CC

GND

1000 110

GND

V

CC

V

CC

V

CC

1000 111

V

CC

GND

GND

GND

1001 000

V

CC

GND

GND

V

CC

1001 001

V

CC

GND

V

CC

GND

1001 010

V

CC

GND

V

CC

V

CC

1001 011

V

CC

V

CC

GND

GND

1001 100

V

CC

V

CC

GND

V

CC

1001 101

V

CC

V

CC

V

CC

GND

1001 110

V

CC

V

CC

V

CC

V

CC

1001 111

MAX6634

A2

A1

A0

ADDRESS

GND

GND

GND

1001 000

GND

GND

V

CC

1001 001

GND

V

CC

GND

1001 010

GND

V

CC

V

CC

1001 011

V

CC

GND

GND

1001 100

V

CC

GND

V

CC

1001 101

V

CC

V

CC

GND

1001 110

V

CC

V

CC

V

CC

1001 111

MAX6635

A1

A0

ADDRESS

GND

GND

1001 000

GND

V

CC

1001 001

V

CC

GND

1001 010

V

CC

V

CC

1001 011

Table 1. Address Selection