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Data Sheet
27622.61‡
3212
MICROPOWER, ULTRA-SENSITIVE
HALL-EFFECT SWITCH
Package Suffix ‘LH’ Pinning
(SOT23W)
X
3
V
DD
OUTPUT
2
GROUND
SUPPLY
1
Dwg. PH-016-1
Pinning is shown viewed from branded side.
ABSOLUTE MAXIMUM RATINGS
at TA = +25°C
Supply Voltage, VDD ............................. 5 V
Magnetic Flux Density, B .......... Unlimited
Output Off Voltage, VOUT ..................... 5 V
The A3212 integrated circuit is an ultra-sensitive, pole independent Halleffect switch with a latched digital output. This sensor is especially suited for
operation in battery-operated, hand-held equipment such as cellular and
cordless telephones, pagers, and palmtop computers. A 2.5 volt to 3.5 volt
operation and a unique clocking scheme reduce the average operating power
requirements – to less than 15 µW with a 2.75 volt supply.
Unlike other Hall-effect switches, either a north or south pole of sufficient
strength will turn the output on; in the absence of a magnetic field, the output is
off. The polarity independence and minimal power requirement allow these
devices to easily replace reed switches for superior reliability and ease of
manufacturing, while eliminating the requirement for signal conditioning.
Improved stability is made possible through chopper stabilization (dynamic
offset cancellation), which reduces the residual offset voltage normally caused
by device overmolding, temperature dependencies, and thermal stress.
This device includes on a single silicon chip a Hall-voltage generator,
small-signal amplifier, chopper stabilization, a latch, and a MOSFET output.
Advanced BiCMOS processing is used to take advantage of low-voltage and
low-power requirements, component matching, very low input-offset errors,
and small component geometries.
Two package styles provide a magnetically optimized package for most
applications. Suffix ‘LH’ is a miniature low-profile surface-mount package
while suffix ‘UA’ is a three-lead ultra-mini-SIP for through-hole or surface
mounting.
FEATURES
s
s
s
s
Output Current, IOUT .......................... 1 mA
Junction Temperature, TJ ............... +170°C
Operating Temperature Range, TA
Suffix 'E' ..................... -40°C to +85°C
Suffix 'L' ................... -40°C to +150°C
s
s
s
s
Micropower Operation
Operation With North or South Pole
2.5 V to 3.5 V Battery Operation
Chopper Stabilized
Superior Temperature Stability
Extremely Low Switch-Point Drift
Insensitive to Physical Stress
ESD Protected to 5 kV
Solid-State Reliability
Small Size
Easily Manufacturable With Magnet Pole Independence
Storage Temperature Range,
TS .............................. -65°C to +170°C
Caution: These CMOS devices have input
static protection (Class 3) but are still
susceptible to damage if exposed to
extremely high static electrical charges.
Always order by complete part number: the prefix ‘A’ + the basic four-digit
part number + the suffix ‘E’ or 'L' to indicate operating temperature range + a
suffix to indicate package style, e.g., A3212ELH .
This datasheet has been downloaded from http://www.digchip.com at this page
�3212
MICROPOWER,
ULTRA-SENSITIVE
HALL-EFFECT SWITCHES
FUNCTIONAL BLOCK DIAGRAM
SUPPLY
SWITCH
OUTPUT
LATCH
SAMPLE
& HOLD
X
DYNAMIC
OFFSET CANCELLATION
TIMING
LOGIC
GROUND
Dwg. FH-020-5
Package Suffix ‘UA’ Pinning
(ultra-mini-SIP)
X
700
Suffix " UA "
RθJA = 165°C/W
600
500
V
DD
Suffix " LH "
RθJA = 228°C/W
1
2
GROUND
400
SUPPLY
200
100
0
Dwg. PH-016
20
40
60
100
80
120
AMBIENT TEMPERATURE in °C
140
160
180
Dwg. GH-046-3B
2
3
300
OUTPUT
ALLOWABLE PACKAGE POWER DISSIPATION in MILLIWATTS
800
Pinning is shown viewed from branded side.
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
Copyright © 2002 Allegro MicroSystems, Inc.
�3212
MICROPOWER,
ULTRA-SENSITIVE
HALL-EFFECT SWITCHES
ELECTRICAL CHARACTERISTICS over operating voltage and temperature range (unless
otherwise specified).
Limits
Characteristic
Symbol
Test Conditions
Min.
Typ.
Max.
Units
2.5
2.75
3.5
V
Supply Voltage Range
VDD
Operating1
Output Leakage Current
IOFF
VOUT = 3.5 V, BRPN & lt; B & lt; BRPS
–
& lt; 1.0
1.0
µA
Output On Voltage
VOUT
IOUT = 1 mA, VDD = 2.75 V
–
100
300
mV
Awake Time
tawake
–
45
90
µs
Period
tperiod
–
45
90
ms
d.c.
–
0.1
–
%
fC
–
340
–
kHz
Duty Cycle
Chopping Frequency
Supply Current
IDD(EN)
Chip awake (enabled)
–
–
2.0
mA
IDD(DIS)
Chip asleep (disabled)
–
–
8.0
µA
IDD(AVG)
VDD = 2.75 V
–
5.1
10
µA
VDD = 3.5 V
–
6.7
10
µA
NOTES: 1. Operate and release points will vary with supply voltage.
2. BOPx = operate point (output turns on); BRPx = release point (output turns off).
3. Typical Data is at TA = +25°C and VDD = 2.75 V and is for design information only.
MAGNETIC CHARACTERISTICS over operating voltage and temperature range (unless
otherwise specified).
Limits
Characteristic
Symbol
Operate Points
BOPS
Typ.
Max.
Units
South pole to branded side
–
37
55
G
North pole to branded side
-55
-40
–
G
BRPS
South pole to branded side
10
31
–
G
BRPN
Hysteresis
Min.
BOPN
Release Points
Test Conditions
North pole to branded side
–
-34
-10
G
Bhys
|BOPx - BRPx|
–
5.9
–
G
NOTES: 1. As used here, negative flux densities are defined as less than zero (algebraic convention) and -50 G is less than +10 G.
2. Typical Data is at TA = +25°C and VDD = 2.75 V and is for design information only.
www.allegromicro.com
3
�3212
MICROPOWER,
ULTRA-SENSITIVE
HALL-EFFECT SWITCHES
TYPICAL OPERATING CHARACTERISTICS
SWITCH POINTS
60
60
BOPS
BOPS
40
SWITCH POINTS IN GAUSS
SWITCH POINTS IN GAUSS
40
BRPS
20
VDD = 2.75 V
0
-20
BRPN
-40
BRPS
20
TA = 25°C
0
-20
BRPN
-40
BOPN
BOPN
-60
-50
-25
0
25
50
75
100
AMBIENT TEMPERATURE IN °C
125
-60
2.4
150
2.6
2.8
3.0
3.2
3.4
SUPPLY VOLTAGE IN VOLTS
Dwg. GH-027-3
3.6
Dwg. GH-057-2
SUPPLY CURRENT
7.0
6.0
VDD =3.5 V
VDD =2.75 V
5.0
VDD =2.5 V
4.0
3.0
-50
-25
0
25
50
75
AMBIENT TEMPERATURE IN ° C
4
AVERAGE SUPPLY CURRENT IN µA
AVERAGE SUPPLY CURRENT IN µA
7.0
100
125
150
Dwg. GH-028-11
6.0
5.0
4.0
3.0
2.4
TA = 25°C
2.6
2.8
3.0
3.2
SUPPLY VOLTAGE IN VOLTS
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
3.4
3.6
Dwg. GH-058-7
�3212
MICROPOWER,
ULTRA-SENSITIVE
HALL-EFFECT SWITCHES
CRITERIA FOR DEVICE QUALIFICATION
All Allegro sensors are subjected to stringent qualification requirements prior to being released to production.
To become qualified, except for the destructive ESD tests, no failures are permitted.
Qualification Test
Test Method and Test Conditions
Test Length
Samples
Biased Humidity (HAST)
TA = 130°C, RH = 85%
50 hrs
77
VDD = VOUT = 3 V
High-Temperature
Operating Life (HTOL)
JESD22-A108,
TA = 150°C, TJ ≤ 165°C
408 hrs
77
VDD = VOUT = 3 V
Accelerated HTOL
TA = 175°C, TJ ≤ 190°C
504 hrs
77
VDD = VOUT = 3 V
Autoclave, Unbiased
JESD22-A102, Condition C,
TA = 121°C, 15 psig
96 hrs
77
High-Temperature
(Bake) Storage Life
MIL-STD-883, Method 1008,
TA = 170°C
1000 hrs
77
Temperature Cycle
MIL-STD-883, Method 1010,
-65°C to +150°C
500 cycles
77
Latch-Up
—
Pre/Post
Reading
6
Electro-Thermally
Induced Gate Leakage
—
Pre/Post
Reading
6
ESD,
Human Body Model
CDF-AEC-Q100-002
Pre/Post
Reading
3 per
test
Test to failure,
All leads & gt; 5 kV
ESD,
Machine Model
JESD22-A115
Pre/Post
Reading
3 per
test
Test to failure,
All leads & gt; 350 V
Electrical Distributions
Per Specification
—
30
www.allegromicro.com
Comments
5
�3212
MICROPOWER,
ULTRA-SENSITIVE
HALL-EFFECT SWITCHES
FUNCTIONAL DESCRIPTION
Low Average Power. Internal timing circuitry activates the
sensor for 45 µs and deactivates it for the remainder of the
period (45 ms). A short " awake " time allows for stabilization
prior to the sensor sampling and data latching on the falling
edge of the timing pulse. The output during the " sleep " time is
latched in the last sampled state. The supply current is not
affected by the output state.
SAMPLE
& HOLD
+V
X
PERIOD
" AWAKE "
IDD(EN)
" SLEEP "
SAMPLE &
OUTPUT LATCHED
Dwg. EH-012-1
IDD(DIS)
0
Dwg. WH-017-2
B
+V
Chopper-Stabilized Technique. The Hall element can be
considered as a resistor array similar to a Wheatstone bridge. A
large portion of the offset is a result of the mismatching of these
resistors. These devices use a proprietary dynamic offset
cancellation technique, with an internal high-frequency clock to
reduce the residual offset voltage of the Hall element that is
normally caused by device overmolding, temperature dependencies, and thermal stress. The chopper-stabilizing technique
cancels the mismatching of the resistor circuit by changing the
direction of the current flowing through the Hall plate using
CMOS switches and Hall voltage measurement taps, while
maintaing the Hall-voltage signal that is induced by the external
magnetic flux. The signal is then captured by a sample-andhold circuit and further processed using low-offset bipolar
circuitry. This technique produces devices that have an
extremely stable quiescent Hall output voltage, are immune to
thermal stress, and have precise recoverability after temperature
cycling. A relatively high sampling frequency is used for faster
signal processing capability can be processed.
More detailed descriptions of the circuit operation can be
found in: Technical Paper STP 97-10, Monolithic Magnetic
Hall Sensor Using Dynamic Quadrature Offset Cancellation
and Technical Paper STP 99-1, Chopper-Stabilized Amplifiers
With A Track-and-Hold Signal Demodulator.
6
—
HALL
VOLTAGE
+
Dwg. AH-011-2
Operation. The output of this device switches low (turns on)
when a magnetic field perpendicular to the Hall sensor exceeds
the operate point BOPS (or is less than BOPN). After turn-on, the
output is capable of sinking up to 1 mA and the output voltage
is VOUT(ON). When the magnetic field is reduced below the
release point BRPS (or increased above BRPN), the device output
switches high (turns off). The difference in the magnetic
operate and release points is the hysteresis (Bhys) of the device.
This built-in hysteresis allows clean switching of the output
even in the presence of external mechanical vibration and
electrical noise.
As used here, negative flux densities are defined as less
than zero (algebraic convention) and -50 G is less than +10 G.
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
�3212
MICROPOWER,
ULTRA-SENSITIVE
HALL-EFFECT SWITCHES
SENSOR LOCATIONS
(±0.005” [0.13 mm] die placement)
OUTPUT OFF
5V
MAX
B OPS
OUTPUT VOLTAGE
B OPN
Package Designator ‘LH’
ACTIVE AREA DEPTH
0.011 "
0.28 mm
NOM
OUTPUT ON
0
0
-B
3
0.038 "
0.96 mm
BRPS
BRPN
0.059 "
1.49 mm
A
+B
MAGNETIC FLUX
1
Dwg. GH-043-1
Applications. Allegro's pole-independent sensing technique
allows for operation with either a north pole or south pole
magnet orientation, enhancing the manufacturability of the
device. The state-of-the-art technology provides the same
output polarity for either pole face.
It is strongly recommended that an external bypass capacitor be connected (in close proximity to the Hall sensor) between
the supply and ground of the device to reduce both external
noise and noise generated by the chopper-stabilization technique. This is especially true due to the relatively high impedance of battery supplies.
The simplest form of magnet that will operate these devices
is a bar magnet with either pole near the branded surface of the
device. Many other methods of operation are possible. Extensive applications information on magnets and Hall-effect
sensors is also available in the Allegro Electronic Data Book
AMS-702 or Application Note 27701, or at
2
Dwg. MH-025
Package Designators ‘UA’, UA-LC', and ‘UA-TL’
ACTIVE AREA DEPTH
0.0195 "
0.50 mm
NOM
0.081 "
2.06 mm
0.057 "
1.45 mm
A
BRANDED
SURFACE
1
2
3
www.allegromicro.com
Dwg. MH-011-11A
2
OUTPUT
SUPPLY
(3 V BATTERY)
1
X
V
DD
3
50 kΩ
10 pF
0.1 µF
www.allegromicro.com
Although sensor location is accurate to three sigma for a
particular design, product improvements may result in small
changes to sensor location.
Dwg. EH-013-2
Allegro
7
�3212
MICROPOWER,
ULTRA-SENSITIVE
HALL-EFFECT SWITCHES
PACKAGE DESIGNATOR ‘LH’
(fits SC-74A solder-pad layout)
Dimensions in Inches
(for reference only)
Dimensions in Millimeters
(controlling dimensions)
3.10
2.90
0.122
0.114
0.50
0.30
0.020
0.012
0.083
0.073
3
1
2
0.118
0.106
2.10
1.85
0.020
BSC
3
1
2
3.00
2.70
SEATING PLANE
REF
0° TO 8°
0.037
0.006
0.000
SEATING PLANE
0.55
0.020
REF
0.045
0.032
0° TO 8°
0.95
MIN
BSC
BSC
GAUGE PLANE
GAUGE PLANE
0.022
0.25
MIN
BSC
0.0079
0.0050
0.15
0.00
0.20
0.127
1.13
0.87
Dwg. MA-010-3C in
Dwg. MA-010-3C mm
0.028
0.70
3
3
1.00
0.039
2.40
0.094
1
1
2
2
0.95
0.037
Dwg. MA-011-3 mm
Dwg. MA-011-3 in
NOTES: 1. Tolerances on package height and width represent allowable mold offsets. Dimensions given are
measured at the widest point (parting line).
2. Exact body and lead configuration at vendor’s option within limits shown.
3. Height does not include mold gate flash.
4. Where no tolerance is specified, dimension is nominal.
8
0.25
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
�3212
MICROPOWER,
ULTRA-SENSITIVE
HALL-EFFECT SWITCHES
PACKAGE DESIGNATOR ‘UA’
Dimensions in Millimeters
(for reference only)
Dimensions in Inches
(controlling dimensions)
0.164
0.159
4.17
4.04
0.062
0.058
45°
1.57
1.47
45°
0.122
0.117
3.10
2.97
45°
45°
0.085
1
2
3
0.031
2.16
1
2
0.79
3
MAX
MAX
0.640
0.600
16.26
15.24
0.0173
0.0138
0.0189
0.0142
SEE NOTE
0.44
0.35
0.48
0.36
SEE NOTE
1.27
0.050
BSC
BSC
Dwg. MH-014E in
Dwg. MH-014E mm
Radial Lead Form (order A3212xUA-LC)
NOTES: 1. Tolerances on package height and width represent
allowable mold offsets. Dimensions given are
measured at the widest point (parting line).
2. Exact body and lead configuration at vendor’s option
within limits shown.
3. Height does not include mold gate flash.
4. Recommended minimum PWB hole diameter to clear
transition area is 0.035 " (0.89 mm).
5. Where no tolerance is specified, dimension is nominal.
6. Supplied in bulk pack (500 pieces per bag).
1
2
3
0.108 "
(2.74 mm)
0.620 "
0.500 "
(15.7 mm
12.7 mm)
0.100 "
(2.5 mm)
Dwg. MH-026
NOTE: Lead-form dimensions are the nominals produced on the
forming equipment. No dimensional tolerance is implied or
guaranteed for bulk packaging (500 pieces per bag).
www.allegromicro.com
9
�3212
MICROPOWER,
ULTRA-SENSITIVE
HALL-EFFECT SWITCHES
The products described herein are manufactured under one or
more of the following U.S. patents: 5,045,920; 5,264,783; 5,442,283;
5,389,889; 5,581,179; 5,517,112; 5,619,137; 5,621,319; 5,650,719;
5,686,894; 5,694,038; 5,729,130; 5,917,320; and other patents
pending.
Allegro MicroSystems, Inc. reserves the right to make, from time to
time, such departures from the detail specifications as may be
required to permit improvements in the performance, reliability, or
manufacturability of its products. Before placing an order, the user is
cautioned to verify that the information being relied upon is current.
Allegro products are not authorized for use as critical components
in life-support appliances, devices, or systems without express written
approval.
The information included herein is believed to be accurate and
reliable. However, Allegro MicroSystems, Inc. assumes no responsibility for its use; nor for any infringements of patents or other rights of
third parties that may result from its use.
10
115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000
�
