Electrical characteristics (continued) – Rainbow Electronics MAX6661 User Manual

MAX6661

Remote Temperature-Controlled Fan-Speed

Regulator with SPI-Compatible Interface

_______________________________________________________________________________________

3

ELECTRICAL CHARACTERISTICS (continued)

(V

CC

= 3V to 5.5V, V

FAN

= 12V, T

A

= -40°C to +125°C, unless otherwise specified. Typical values are at V

CC

= 3.3V and T

A

=

+25°C.) (Notes 1 and 2)

Note 1: T

A

= T

J

. This implies zero dissipation in pass transistor (no load, or fan turned off).

Note 2: All parameters are 100% production tested at a single temperature, unless otherwise indicated. Parameter values through

temperature are guaranteed by design.

Note 3: The fan control section of the MAX6661 and temperature comparisons use only 9 bits of the 11-bit temperature measure-

ment with a 0.5°C LSB.

Note 4: Wide-range accuracy is guaranteed by design, not production tested.
Note 5: Guaranteed by design.

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

INTERFACE PINS (SDIN, SC, CS, DOUT, ALERT, OVERT)

Serial Bus Maximum Clock
Frequency (Note 5)

SC

2.5

MHz

V

CC

= 3V

2.2

Logic Input High Voltage

V

CC

= 5.5V

2.4

V

Logic Input Low Voltage

V

CC

= 3V to 5V

0.8

V

Logic Output High-Voltage
DOUT

V

CC

= 3V, I

SOURCE

= 6mA (Note 5)

V

CC

-

0.4V

V

Logic Output Low-Voltage DOUT

V

CC

= 3V, I

SINK

= 6mA (Note 5)

0.4

V

Logic Output Low-Voltage
ALERT, OVERT

V

CC

= 3V, I

SINK

= 6mA (Note 5)

0.4

V

ALERT, OVERT Output
High Leakage Current

ALERT, OVERT forced to 5.5V

1

µA

Logic Input Current

Logic inputs forced to V

CC

or GND

-2

2

µA

SPI AC TIMING (Figure 5)

CS High to DOUT Three-State

t

TR

C

LOAD

= 100pF, R

GS

= 10k

Ω (Note 5)

200

ns

CS to SC Setup Time

t

CSS

(Note 5)

200

ns

SC Fall to DOUT Valid

t

DO

C

LOAD

= 100pF

200

ns

DIN to SC Setup Time

t

DS

200

ns

DIN to SC Hold Time

t

DH

(Note 5)

200

ns

SC Period

t

CP

400

ns

SC High Time

t

CH

200

ns

SC Low Time

t

CL

200

ns

CS High Pulse Width

t

CSW

(Note 5)

400

ns

Output Rise Time

t

R

C

LOAD

= 100pF

10

ns

Output Fall Time

t

F

C

LOAD

= 100pF

10

ns

SC Falling Edge to CS Rising

t

SCS

(Note 5)

200

ns