MAX6661AEE Maxim Integrated Products, MAX6661AEE Datasheet - Page 13
MAX6661AEE
Manufacturer Part Number
MAX6661AEE
Description
Board Mount Temperature Sensors
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX6661AEE.pdf
(19 pages)
Specifications of MAX6661AEE
Full Temp Accuracy
+/- 5 C
Package / Case
QSOP-16
Digital Output - Bus Interface
Serial (SPI)
Digital Output - Number Of Bits
10 bit + Sign
Maximum Operating Temperature
+ 125 C
Minimum Operating Temperature
- 40 C
Output Type
Digital
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
on the amount of time between status read operations.
In these circumstances, it is best not to rely on the sta-
tus bits to indicate reversals in long-term temperature
changes. Instead, use a current temperature reading to
establish the trend direction.
Two ROM registers provide manufacturer and device
ID codes. Reading the manufacturer ID returns 4D,
which is the ASCII code M (for Maxim). Reading the
device ID returns 09h, indicating the MAX6661 device.
The MAX6661 has a volatile memory. To prevent unreli-
able power-supply conditions from corrupting the data
in memory and causing erratic behavior, a POR voltage
detector monitors V
falls below 1.91V (see Electrical Characteristics). When
power is first applied and V
the logic blocks begin operating, although reads and
writes at V
A second V
prevents the ADC from converting until there is suffi-
cient headroom (V
The software POR (SPOR) command can force a
power-on reset of the MAX6661 registers through the
serial interface. This can be done by writing F8h to the
MAX6661.
Power-up defaults include:
• Interrupt latch is cleared.
• ADC begins autoconverting.
• Command register is set to 00h to facilitate quick-
• T
• T
The fan-control function can be divided into the thermal
loop, the fan-speed-regulation loop (fan loop), and the
fan-failure sensor. The thermal loop sets the desired fan
speed based on temperature while the fan-speed-regu-
lation loop uses an internally divided down reference
oscillator to regulate the fan speed. The fan-speed-reg-
ulation loop includes the fan driver and the tachometer
sensor. The fan-failure sensor provides a FAN FAIL
alarm that signals when the value in the fan tachometer
period register is greater than the fan tachometer peri-
od limit register value, which corresponds to a fan
going slower than the limit. The fan driver is an N-chan-
nel, 4Ω MOSFET with a 13.5V maximum V
internal Receive Byte queries.
-55°C, respectively.
respectively.
HIGH
HYST
and T
and T
CC
Manufacturer and Device ID Codes
Remote Temperature-Controlled Fan-Speed
CC
levels below 3.0V are not recommended.
comparator, the ADC UVLO comparator
LOW
MAX
Regulator with SPI-Compatible Interface
______________________________________________________________________________________
CC
CC
= 2.89V typ).
registers are set to +127°C and
are set to +95°C and +100°C,
and clears the memory if V
CC
rises above 2.0V (typ),
POR and UVLO
Fan Control
DS
whose
CC
drain terminal connects to the low side of the fan. The
tachometer sensor (TACH IN) of the MAX6661 is driven
from the tachometer output of the fan and provides the
feedback signal to the fan-speed regulation loop for
controlling the fan speed. For fans without tachometer
outputs, the MAX6661 can generate its own tachometer
pulses by monitoring the commutating current pulses
(see the Commutating Current Pulses section).
The MAX6661 can be operated in a complete closed-
loop mode, with both the thermal and fan loops closed,
where the remote-diode sensor temperature directly
controls fan speed. Setting bit 3 of the configuration
register to zero places the MAX6661 in thermal closed
loop (Figure 6). The remote-diode temperature sensor
is updated every 500ms. The value is stored in a tem-
porary register (TEMPDATA) and compared to the pro-
grammed temperature values in the T
T
outputs OVERT and ALERT.
The fan conversion rate (FCR) register (Table 6) can be
programmed to update the TEMPDATA register every
0.5s to 32s. This enables control over timing of the ther-
mal feedback loop to optimize stability.
The fan threshold (TFAN) register value is subtracted
from the UPDATE register value. If UPDATE exceeds
T
register (Table 7), stores the excess temperature in the
form of a 7-bit word with an LSB of 0.5°C. If the differ-
ence between the T
er than 32°C, then bits 6-0 are set to 1. In thermal
closed loop, the FSC register is READ ONLY.
The fan gain (FG) register (Table 8) determines the
number of bits used in the fan-speed control register.
This gain can be set to 4, 5, or 6. If bits 6 and 5 are set
to 10, all 6 bits of TEMPDATA are used directly to pro-
gram the speed of the fan so that the thermal loop has
a control range of 32°C with 64 temperature steps from
fan off to full fan speed. If bits 6 and 5 are set to 01, the
thermal control loop has a control range of 16°C with 32
temperature steps from fan off to full fan speed. If bits 6
and 5 are set to 00, the thermal control loop has a con-
trol range of 8°C with 16 temperature steps from fan off
to full fan speed.
Setting bit 3 of the configuration register (Table 4) to 1
places the MAX6661 in thermal open loop. In thermal
open-loop mode, the FSC register is read/write.
HYST
FAN
, T
temperature, then the fan-speed control (FSC)
MAX
, and T
FAN
FAN
and UPDATE registers is high-
registers to produce the error
Thermal Closed Loop
Thermal Open Loop
Thermal Loop
HIGH
, T
LOW
13
,
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