Maxim MAX1669EEE Datasheet

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General Description
The MAX1669 fan controller includes a precise digital thermometer that reports the temperature of a remote sensor. The remote sensor is a diode-connected transis­tor—typically a low-cost, easily mounted 2N3906 PNP type—replacing conventional thermistors or thermocou­ples. Remote accuracy is ±3°C for transistors from multi­ple manufacturers, with no calibration needed. The MAX1669 has an independent fan controller with a low­current logic output requiring external power compo­nents to interface to a DC brushless fan. The fan controller has two modes of operation: a low-frequency (20Hz to 160Hz) PWM mode intended for driving the fan motor, or a high-impedance DAC output that generates a variable DC control voltage. In PWM mode, the FAN frequency can be synchronized to an external clock.
Other key features include general-purpose inputs/out­puts (GPIOs) for fan presence detection and a thermo­stat output intended as a fan override signal in case the host system loses the ability to communicate. The inter­nal ADC has a wide input voltage range and gives overrange readings when too large an input voltage is applied. Other error-checking includes temperature out-of-range indication and diode open/short faults.
The MAX1669 is available in a space-saving 16-pin QSOP package that allows it to fit adjacent to the SLOT1 connector.
Applications
Pentium®CPU Cooling
Desktop Computers
Notebook Computers
Servers
Workstations
Features
Measures Remote CPU Temperature
No Calibration Required
20Hz to 160Hz PWM Output for Fan
PWM Frequency Sync Input (260kHz)
Flexible Fan Interface: Linear or PWM
SMBus 2-Wire Serial Interface
Programmable Under/Overtemperature AlarmsALERT Latched Interrupt OutputOVERT Thermostat Output
Two GPIO Pins
Write-Once Configuration Protection
Supports SMBus Alert Response
±3°C Temperature Accuracy (-40°C to +125°C,
remote)
3µA Standby Supply Current
+3V to +5.5V Supply Range
Small 16-Pin QSOP Package
MAX1669
Fan Controller and Remote Temperature Sensor
with SMBus Serial Interface
________________________________________________________________ Maxim Integrated Products 1
19-1574; Rev 0; 1/00
PART
MAX1669EEE
-40°C to +85°C
TEMP. RANGE PIN-PACKAGE
16 QSOP
Pentium is a registered trademark of Intel Corp.
Pin Configuration
Ordering Information
Typical Operating Circuit appears at end of data sheet.
TOP VIEW
1
I/O1 OVERT
I/O2
2
ADD0
3
MAX1669
4
ADD1
ADD2
5
AGND
6
DXN
7
DXP
8
16
15
14
13
12
11
10
9
ALERT
SMBDATA
SMBCLK
PGND
FAN
SYNC
V
CC
QSOP
MAX1669
Fan Controller and Remote Temperature Sensor with SMBus Serial Interface
2 _______________________________________________________________________________________
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS
(VCC= +3.3V, TA= 0°C to +85°C, unless otherwise noted. Typical values are at TA= +25°C.)
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
VCCto AGND...........................................................-0.3V to +6V
DXP, ADD_ to AGND.................................-0.3V to (V
CC
+ 0.3V)
DXN to AGND.......................................................-0.3V to +0.8V
SMBCLK, SMBDATA, ALERT, SYNC,
I/O1, I/O2, OVERT, FAN to AGND ......................-0.3V to +6V
FAN to PGND ............................................-0.3V to (V
CC
+ 0.3V)
PGND to AGND ....................................................-0.3V to +0.3V
PWM Current....................................................-50mA to +50mA
SMBDATA Current .............................................-1mA to +50mA
I/O1, I/O2 Current...............................................-1mA to +25mA
DXN Current ......................................................................±1mA
ESD Protection (all pins, Human Body Model) .................2000V
Continuous Power Dissipation (T
A
= +70°C)
16-Pin QSOP (derate 8.30mW/°C above +70°C).......667mW
Operating Temperature Range (extended)......-55°C to +125°C
Junction Temperature.....................................................+150°C
Storage Temperature Range ............................-65°C to +150°C
Lead Temperature (soldering, 10s) ................................+300°C
FAN output set to DAC mode
FAN output set to 150Hz mode
TR= 0°C to +100°C, diode ideality factor = 1.013
High level
PWM mode, V
FAN
forced to 0.4V
PWM mode, V
FAN
forced to 2.9V
Monotonicity guaranteed
V
DXP
forced to V
DXN
+ 0.65V
SMBus static
Autoconvert mode
From stop bit to conversion complete
VCC, falling edge
VCCinput, disables A/D conversion, rising edge
Autoconvert mode, average measured over 1s
CONDITIONS
mA
-10
FAN Output Sink Current
mA
10
FAN Output Source Current
V
0.7
DXN Source Voltage
80 100 120
µARemote-Diode Source Current
Hz
1.6 2 2.4
Conversion Rate
ms
47 62 78
Conversion Time
µA
360
µA
75 150
Average Operating Supply Current
°CTemperature Error, Remote Diode (Note 2)
Bits
8
Resolution (Note 1)
310
µAStandby Supply Current
mV
50
POR Threshold Hysteresis
V
1 1.9 2.5
Power-On Reset Threshold
-3 3
V
3 5.5
Supply Voltage Range
V
2.6 2.8 2.95
Undervoltage Lockout Threshold
mV
50
Undervoltage Lockout Hysteresis
UNITSMIN TYP MAXPARAMETER
SMBCLK at 10kHz
3
Low level
81012
ADC AND POWER SUPPLY
FAN OUTPUT
MAX1669
Fan Controller and Remote Temperature Sensor
with SMBus Serial Interface
_______________________________________________________________________________________ 3
ELECTRICAL CHARACTERISTICS (continued)
(VCC= +3.3V, TA= 0°C to +85°C, unless otherwise noted. Typical values are at TA= +25°C.)
Logic Input High Voltage
PARAMETER MIN TYP MAX UNITS
FAN PWM Frequency Error
-20 +20
%
FAN Total Unadjusted Error
-4 4
%FS
FAN Output Voltage High
2.96 3.06
V
CONDITIONS
PWM mode, any setting
DAC mode, any setting, RL= 10kto GND
DAC mode, FAN duty factor = 1111b, I
OUT
= 5mA
SYNC Input Low Period
500
ns
SYNC Input High Period
500
ns
SYNC Capture Range
140 260 400
kHz
2.1
V
Logic Input Low Voltage
0.8
V
SMBDATA, ALERT, OVERT, I/O1, I/O2 Output Low Sink Current
6
mA
FAN Output Voltage Low
0.05 0.2
V
ALERT, OVERT, I/O1, I/O2 Output High Leakage Current
1
µA
Logic Input Current
-1 1
µA
SMBus Input Capacitance
5
pF
SMBus Clock Frequency
DC 100
kHz
SMBCLK Clock Low Time (t
LOW
)
4.7
µs
SMBCLK Clock High Time (t
HIGH
)
4
µs
SMBus Rise Time
1
µs
SMBus Fall Time
300
ns
SMBus Start Condition Setup Time
4.7
µs
SMBus Repeated Start Condition Setup Time (t
SU:STA
)
500
ns
SMBus Start Condition Hold Time (t
HD:STA
)
4
µs
SMBus Stop Condition Setup Time (t
SU:STO
)
4
µs
SMBus Data Valid to SMBCLK Rising-Edge Time (t
SU:DAT
)
250
ns
Pin forced to 5.5V
Logic inputs forced to VCCor GND
ADD_, I/O1, I/O2, SYNC, SMBCLK, SMBDATA; VCC= 3V to 5.5V
ADD_, I/O1, I/O2, SYNC, SMBCLK, SMBDATA; VCC= 3V to 5.5V
SMBCLK, SMBDATA
(Note 3)
Pin forced to 0.4V
10% to 10% points
90% to 90% points
SMBCLK, SMBDATA, 10% to 90% points
SMBCLK, SMBDATA, 90% to 10% points
90% to 90% points
DAC mode, FAN duty factor = 0000b, I
OUT
= -5mA
10% of SMBDATA to 90% of SMBCLK
90% of SMBCLK to 10% of SMBDATA
10% or 90% of SMBDATA to 10% of SMBCLK
SMBus Data-Hold Time (t
HD:DAT
)
0
µs
SMBus Bus-Free Time (t
BUF
)
4.7
µs
SMBCLK Falling Edge to SMBus Data-Valid Time
1
µs
(Note 4)
Between start/stop conditions
Master clocking-in data
SMBus INTERFACE (Figures 7, 8)
Note 1: Guaranteed but not 100% tested. Note 2: T
R
is the junction temperature of the remote diode. The temperature error specification is optimized to and guaranteed for a diode-connected 2N3906 transistor with ideality factor = 1.013. Variations in the ideality factor “m” of the actual transistor used will increase the temperature error by *. See the Temperature Error vs. Remote Diode Temperature graph in the
Typical Operating Characteristics for typical temperature errors using several random 2N3906s. See Remote Diode Selection for remote diode forward-voltage requirements.
Note 3: The SMBus logic block is a static design that works with clock frequencies down to DC. While slow operation is possible, it
violates the 10kHz minimum clock frequency and SMBus specifications, and may monopolize the bus.
Note 4: Note that a transition must internally provide at least a hold time in order to bridge the undefined region (300ns max) of
SMBCLK’s falling edge.
Note 5: Specifications to -40°C are guaranteed by design and not production tested.
MAX1669
Fan Controller and Remote Temperature Sensor with SMBus Serial Interface
4 _______________________________________________________________________________________
ELECTRICAL CHARACTERISTICS
(VCC= +3.3V, TA= -40°C to +85°C, unless otherwise noted.) (Note 5)
Pin forced to 0.4V
ADD_, I/O1, I/O2, SYNC, SMBCLK, SMBDATA; VCC= 3V to 5.5V
ADD_, I/O1, I/O2, SYNC, SMBCLK, SMBDATA; V
CC
= 3V to 5.5V
Logic inputs forced to VCCor GND
Pin forced to 5.5V
µA
-1 1
Logic Input Current
µA
1
ALERT, OVERT, I/O1, I/O2 Output High Leakage Current
V
0.2
FAN Output Voltage Low
mA
6
SMBDATA, ALERT, OVERT, I/O1, I/O2 Output Low Sink Current
V
0.8
Logic Input Low Voltage
V
2.1
Logic Input High Voltage
DAC mode, FAN duty factor = 1111b, I
OUT
= 5mA
DAC mode, any setting, RL= 10kto GND
PWM mode, any setting
PWM mode, V
FAN
forced to 0.4V
PWM mode, V
FAN
forced to 2.9V
Monotonicity guaranteed
Autoconvert mode
From stop bit to conversion complete
TR= -55°C to +125°C, diode ideality factor = 1.013
Autoconvert mode, average measured over 1sec, FAN output set to 150Hz mode
CONDITIONS
V
2.94
FAN Output Voltage High
%FS
-5 5
FAN Total Unadjusted Error
%
-25 +25
FAN PWM Frequency Error
mA
-10
FAN Output Sink Current
mA
10
FAN Output Source Current
Hz
1.6 2.4
Conversion Rate
ms
47
Conversion Time
µA
100
Average Operating Supply Current
Bits
8
Temperature Resolution (Note 1)
°C
-5 5
Temperature Error, Remote Diode (Note 2)
UNITSMIN MAXPARAMETER
DAC mode, FAN duty factor = 0000b, I
OUT
= -5mA
V
3 5.5
Supply Voltage Range
ADC AND POWER SUPPLY
FAN OUTPUT
SMBus INTERFACE
1 013
*
.
=−
m
1 273 15
. ∆T
()
kT C
+
°
()
R
MAX1669
Fan Controller and Remote Temperature Sensor
with SMBus Serial Interface
_______________________________________________________________________________________ 5
Typical Operating Characteristics
(Temperature error = measured - actual, TA= +25°C, unless otherwise noted.)
TEMPERATURE ERROR
vs. LEAKAGE RESISTANCE
40
30
20
10
-10
-20
TEMPERATURE ERROR (°C)
-30
-40
PATH = DXP TO GND; CONFIG = 02h
0
PATH = DXP TO V
1 10 100
LEAKAGE RESISTANCE (MΩ)
(5V); CONFIG = 02h
CC
TEMPERATURE ERROR vs.
COMMON-MODE NOISE FREQUENCY
8
VIN = 50mVp-p AC-COUPLED TO DXN
7
C = DXN - DXP CAPACITANCE
6
5
4
3
2
1
TEMPERATURE ERROR (°C)
0
-1
-2 1M 1G100M10M
C = 2200pF
C = 27nF
FREQUENCY (Hz)
MAX1669-01
MAX1669-04
2.0
1.5
1.0
0.5
0
-0.5
TEMPERATURE ERROR (°C)
-1.0
-1.5
-2.0
2
0
-2
-4
-6
-8
-10
TEMPERATURE ERROR (°C)
-12
-14
-16
TEMPERATURE ERROR
vs. REMOTE DIODE TEMPERATURE
RANDOM 2N3906s FROM DIFFERENT MANUFACTURERS
-60 20-20 60 100-40 400 80 120 140 TEMPERATURE (°C)
TEMPERATURE ERROR
vs. DXP - DXN CAPACITANCE
V
= 5V
CC
02010 30 40 50
DXP-DXN CAPACITANCE (nF)
MAX1669-02
MAX1669-05
TEMPERATURE ERROR vs.
POWER-SUPPLY NOISE FREQUENCY
18
VIN = SQUARE WAVE APPLIED TO
16
14
12
10
TEMPERATURE ERROR (°C)
-2
WITH NO 0.1µF VCC CAPACITOR
V
CC
VIN = 250mVp-p
8
6
4
2
0
1K 10K 100K 1M 10M 100M
VIN = 100mVp-p
PSNF (Hz)
STANDBY SUPPLY CURRENT
vs. SUPPLY VOLTAGE
7
6
5
4
3
2
STANDBY SUPPLY CURRENT (µA)
1
0
3.0 4.03.5 4.5 5.0 5.5 SUPPLY VOLTAGE (V)
MAX1669-03
MAX1669-06
RESPONSE TO THERMAL SHOCK
120
100
80
60
TEMPERATURE (°C)
40
20
0
-2 2 406810
CMPT3906 IMMERSED IN +115°C FLUORINERT BATH
TIME (sec)
MAX1669-07
PWM FREQUENCY vs. CODE (F3F2F1F0)
180
160
140
120
100
80
60
PWM FREQUENCY (Hz)
40
20
0
042 5 7 8 10 123169111314
V
= +5V
CC
CODE (F3F2F1F0)
V
CC
= +3.3V
MAX1669-08
MAX1669
Fan Controller and Remote Temperature Sensor with SMBus Serial Interface
6 _______________________________________________________________________________________
Typical Operating Characteristics (continued)
(Temperature error = measured - actual, TA= +25°C, unless otherwise noted.)
Pin Description
NAME FUNCTION
1
I/O1
General-Purpose Open-Drain Logic Input/Output 1. I/O1 is intended for driving LEDs, driving power-plane switching MOSFETs, or detecting fan presence or chassis intrusion.
2 I/O2
General-Purpose Open-Drain Logic Input/Output 2. I/O2 is intended for driving LEDs, driving power-plane switching MOSFETs, or detecting fan presence or chassis intrusion.
PIN
3 ADD0 SMBus Address Select Pin 0. See Table 11.
4 ADD1 SMBus Address Select Pin 1. See Table 11.
8 DXP
Combined Current Source and ADC Positive Input from Remote Diode. Place a 2200pF capacitor between DXP and DXN for noise filtering.
7 DXN
Combined Current Sink and ADC Negative Input from Remote Diode. DXN is normally biased to a diode voltage above ground.
6 AGND Analog Ground
5 ADD2 SMBus Address Select Pin 2. See Table 11.
13 SMBCLK SMBus Serial-Clock Input
12 PGND Power Ground
11 FAN
Fan-Control Logic Output. Swings from PGND to VCCin PWM mode, or PGND to 0.94 · VCCin DAC mode.
10 SYNC
Oscillator Synchronization Input. Connect to AGND to use internal clock. Capture range is 140kHz to 400kHz. The synchronization signal is internally applied to the FAN PWM clock. See Table 5 for synchro­nized frequencies.
9 V
CC
Supply Voltage Input, +3V to +5.5V. Bypass to AGND with a 0.1µF capacitor.
16
OVERT
Active-Low, Open-Drain Thermostat Output. Activated by T
CRIT
threshold
15
ALERT
Active-Low, Open-Drain SMBus Alert (interrupt) Output
14 SMBDATA Open-Drain SMBus Serial-Data Input/Output
PWM DUTY FACTOR vs. CODE (D3D2D1D0)
100
V
= +3.3V OR +5V
CC
80
60
40
DUTY FACTOR (%)
20
0
042 5 7 8 10 1231 6 9 11 131415
CODE (D3D2D1D0)
MAX1669-09
DAC OUTPUT vs. CODE (D3D2D1D0)
5.0 I
= +10mA TO -10mA
LOAD
4.5
= +5V
V
CC
4.0
3.5
3.0
2.5
2.0
DAC OUTPUT (V)
1.5
1.0
0.5
0
042 5 7 8 10 1231691114
CODE (D3D2D1D0)
13
MAX1669-10
15
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