Melexis MLX92213 Micropower & low-voltage hall effect latch with enable Datasheet

MLX92213
MicroPower & Low-Voltage
Hall Effect Latch with Enable
Features and Benefits
Application Examples
0 Operating Voltage from 1.6 to 3.6V
0 Latching Output Behavior
0 Micropower Consumption
48uA@3V ; [email protected]
0 Advanced Power Manageability
through dedicated “Enable” pin
0 Ultra High Sensitivity Hall Sensor
0 Push-Pull Output
0 Minuature & Ultra Thin CSP
package
(2mm x 1.5mm ; 0.4mm thickness)
0 “Green” and “Pb-Free” Compliant
Package
0 Battery-operated / Handheld Appliances
0 Rotary or Linear Contact-Less Encoders
0 Scroll/Jog Wheel, Trackball (Mobile
Phones,
Portable Media Players, Notebooks,
Computer
Mice, Camcorders, Cameras,…)
0 Home/Industrial Metering Equipment
(Wafer
Flow Meter)
Ordering Code
Product Code
Temperature Code
MLX92213
E
Package Code
LD
Option Code
AAA-000
Legend:
Temperature Code:
Package Code:
Option Code:
Packing Form:
E for Temperature Range -40°C to 85°C
LD for UTQFN6
xxx-000: Standard Version
RE for Reel
Ordering example:
MLX92213ELD-AAA-000-RE
390109221302
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Page 1 of 10
Packing Form Code
RE
Data Sheet
Mar/12
ML
LX92213
MicroPower & Low-Voltage
Hall Effect Latch
atch with Enable
1 Functional Diagram
2 General Description
Voltage Latch
The MLX92213 Micropower Low-V
Hall effect sensor IC is fabricated in mixed signal
CMOS technology. It incorporates
ates advanced
Correlated Double Sampling (CDS) techniques to
provide accurate and stable magne
agnetic switching
points.
In order to save power, the internall Timing Logic
alternates Awake and Sleep modes,
m
thus
significantly reducing the power cons
sumption. The
magnetic flux density is periodica
ally evaluated
against predefined thresholds. If the flux
f
density is
above/below the BOP/BRP thresholds, then the
Output changes its state accordinglly. During the
Sleep mode the Output is latched in
n its previous
390109221302
Rev 003
state. The design has been optimized for
applications requiring extended
nded operating lifetime
in battery-powered systems. The EN pin adds
flexibility by enabling exterrnal control of the
Micropower Period and Duty C
Cycle.
The Push-pull Output of the MLX92213 will be
latched in Low state in the presence of a
sufficiently strong South magn
agnetic field (B > BOP)
facing the marked side of the package. The
Output will be latched in High state in the
presence of a sufficiently strrong North magnetic
field (B < BRP).
Page 2 of 10
Data Sheet
Mar/12
MLX92213
MicroPower & Low-Voltage
Hall Effect Latch with Enable
Table of Contents
1 Functional Diagram ........................................................................................................ 2
2 General Description ........................................................................................................ 2
3 Glossary of Terms .......................................................................................................... 4
4 Absolute Maximum Ratings ........................................................................................... 4
5 Pinout............................................................................................................................... 4
6 Output Behavior vs. Magnetic Pole ............................................................................... 4
7 General Electrical Specifications .................................................................................. 5
8 Magnetic Specifications ................................................................................................. 6
9 Application Section ........................................................................................................ 6
9.1 Application Schematics..............................................................................................................................6
9.2 Recommendation / Comments ..................................................................................................................6
10 Principle of Operation................................................................................................... 6
11 Performance Graphs .................................................................................................... 7
11.1 Magnetic Threshold vs. Temperature ......................................................................................................7
11.2 Magnetic Threshold vs. Supply Voltage ..................................................................................................7
11.3 Average Supply Current vs. Temperature ...............................................................................................7
11.4 Average Supply Current vs. Supply Voltage ...........................................................................................7
11.5 Supply Current vs. Temperature..............................................................................................................7
11.6 Supply Current vs. Supply Voltage ..........................................................................................................7
12 Standard information regarding manufacturability of Melexis products with
different soldering processes........................................................................................... 8
13 ESD Precautions ........................................................................................................... 8
14 LD Package (UTQFN-6L)............................................................................................... 9
15 Disclaimer.................................................................................................................... 10
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Data Sheet
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MLX92213
MicroPower & Low-Voltage
Hall Effect Latch with Enable
3 Glossary of Terms
Gauss, milliTesla (mT),
Units of magnetic flux density :
10 Gauss = 1mT
4 Absolute Maximum Ratings
Parameter
Supply Voltage
Supply Current
EN Input Voltage
EN Input Current
Output Voltage
Output Current
Operating Temperature Range
Storage Temperature Range
Symbol
VDD
IDD
VIN
IIN
VOUT
IOUT
TA
TS
Value
5
±10
5
±10
5
±10
-40 to 85
-50 to 150
Units
V
mA
V
mA
V
mA
°
°
C
Table 1: Absolute maximum ratings
Exceeding the absolute maximum ratings may cause permanent damage. Exposure to absolute-maximumrated conditions for extended periods may affect device reliability.
5 Pinout
Pin Name
VDD
GND
OUT
EN
NC
Function
Power Supply
Ground
Push-Pull Output
Enable (1)
Not Connected
Pin №
3
4, E-pad (2)
1
6
2, 5
Table 2: Pin definitions and descriptions
Note 1: EN has to be connected to VDD when External
Micropower Control is not used
LD Package
Note 2: Exposed Pad on LD package is connected to Ground
6 Output Behavior vs. Magnetic Pole
DC Operating Parameters TA = -40 oC to 85oC, VDD = 1.6V to 3.6V
Parameter
Test Conditions
OUT
South pole
B > BOP
Low
North pole
B < BRP
High
Table 3: Output behavior versus magnetic pole
(3)
Note 3: The magnetic pole is applied facing the package top
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Data Sheet
Mar/12
MLX92213
MicroPower & Low-Voltage
Hall Effect Latch with Enable
7 General Electrical Specifications
o
Operating Parameters: T A = -40 to 85 C, V DD = 1.6V to 3.6V, unless otherwise specified
Parameter
Symbol Test Conditions
Min
Typ
Supply Voltage
VDD
Operating
1.6
EN = VDD, VDD=3V
48
Average Supply Current
IDDav
EN = VDD, VDD=1.8V
36
Awake Supply Current
IDDaw
EN = VDD, IOUT = 0mA
Sleep Supply Current
IDDsl
EN = VDD, IOUT = 0mA
Standby Supply Current
IDDsb
EN = 0
High Level Output Voltage
Low Level Output Voltage
VOH
VOL
(4)
VPO
Power-On Output State
Output Characteristics
B < BRP, IOUT = -1mA
B > BOP, IOUT = 1mA
VDD-0.4
-
VDD-0.2
0.2
Max
3.6
86
70
4
4.5
1
Units
V
µA
µA
mA
µA
µA
0.4
V
V
High
Enable Pin Characteristics
0.1*VDD+1
-1
5
TAW + 0.1
EN Input High Voltage
EN Input Low Voltage
EN Input Current
EN Input Delay
EN Pulse Width
EN Period
VIH
VIL
IIN
tID
TE1
TE2
Enable Transition Time (5)
Disable Transition Time (6)
tET
tDT
Power-On Time (7)
tON
Awake Time
TAW
Period
Response Time (8)
TPER
tRES
Timing Characteristics
Disabled � Enabled
Enabled � Disabled
EN = VDD
EN = VDD, TA=25oC, VDD=3V
EN = VDD
EN = VDD, TA=25oC, VDD=3V
o
EN = VDD, TA=25 C, VDD=1.8V
EN = VDD
EN = VDD
Magnetic Signal Frequency
fB
EN = VDD
0.70
-
-
-
0.1*VDD+0.1
1
5
-
V
V
µA
µs
µs
µs
31
31
27
30
1.30
-
tID + TAW
tID + TAW
80
52
60
40
45
1.90
TPER
µs
µs
µs
µs
µs
µs
µs
ms
ms
1 / [ 2 * TPER ]
Hz
Table 4: Electrical specifications
Note 4: Defined Output state after Power-On Time is High until the first BOP threshold is reached (B > BOP).
Note 5: Enable transition time defined from EN command to the update of the Output driver state (ref. to Diagrams, p.4)
Note 6: Disable transition time defined from EN command to entering Standby (ref. to Diagrams, p.4)
Note 7: Power-On Time represents the time from reaching VDD = 1.6V to the update of the Output driver state
Note 8: Response Time is the time from the magnetic field change to the according update of the Output driver state, guaranteed by
design
390109221302
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Page 5 of 10
Data Sheet
Mar/12
ML
LX92213
MicroPower & Low-Voltage
Hall Effect Latch
atch with Enable
8 Magnetic Specification
ons
DC Operating Parameters: VDD = 1.6V
6V to 3.6V
Parameter
Symbol
Test Conditions
Operating Point
BOP
TA = 25°C
Release Point
BRP
Hysteresis
BHYST
Operating Point
BOP
TA = -40 to 85oC
Release Point
BRP
Hysteresis
BHYST
Min
0.5
-4
1.5
0.1
-5
1.5
Typ
2
-2
4
2
-2
4
Max
4
-0.5
0.5
7
5
-0.1
0.1
7
Units
mT
mT
mT
mT
mT
mT
Table 5: Magnetic specifications
9 Application Section
9.1 Application Schematics
+1.8V / +3.3V
VDD
EN
MCU
Interface
Input
OUT
C2
(optional)
Fig.1 – Enhanced Power Manageme
ent Typical
1.8V or 3.3V application with MCU inter
erface reading
the OUT signal and driving the EN
N signal
C1
10nF
M
MLX92213
GND
anagement
Fig.2 – Standard Power Ma
1.8V or 3.3V application with M
MCU interface
reading the OUT signal with defau
ault “Micropower”
9.2 Recommendation / Comments
Comm
A bypass capacitor C1 of 10nF is recom
mmended to ensure supply voltage stability in application
ion. It should be placed
between the VDD and GND pin, as close as possible to the MLX92213.
The MLX92213 provides a direct push-pu
pull output, hence aiming to reduce external component co
count like output pull-up
resistor or capacitor. The use of the outtput capacitor C2 connected in parallel to the output iss optional. If connected
between OUT and GND in such a push--pull configuration, the current sinked by the charge off the
t
capacitor when the
output switches from “0” to “1” leads to an small increase of the average current consumption of tthe whole module (IC +
capacitor).
n 50pF) would avoid having such small increase of the mo
module average current
Using small capacitor value C2 (less than
consumption.
For enhanced power management, the EN (Enable) signal can be driven by an external MCU.
CU. It basically allows
controlling the state IC and therefore its current
cu
consumption according the application requirementss:
⊕ Standby mode for minimal curren
ent consumption (EN = “0”)
⊕ Default Micropower (EN = “1”)
⊕ Faster or slower sampling rate th
hrough EN signal
For more details on the different mode, please
ple
refer to the Principle of Operation section.
For application where standard power management
manag
is enough (default “Micropower” mode, Standb
andby unused), the EN pin
should be tied to VDD
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Page 6 of 10
Data Sheet
Mar/12
MLX92213
MicroPower & Low-Voltage
Hall Effect Latch with Enable
10 Principle of Operation
Note 9: The diagrams are not-to-scale, for exact values refer to General Electrical Specification
Note 10: The Output is assumed to have only a low capacitive load, which results in fast rise / fall times
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Data Sheet
Mar/12
MLX92213
MicroPower & Low-Voltage
Hall Effect Latch with Enable
11 Performance Graphs
11.1 Magnetic Threshold vs. Temperature
11.2 Magnetic Threshold vs. Supply Voltage
4.0
Magnetic Field Strength [mT]
Magnetic Field Strength [mT]
4.0
2.0
0.0
-2.0
-4.0
2.0
0.0
-2.0
-4.0
-40
-30
-20
-10
0
10
20
30
40
50
60
70
80
1
1.5
2
2.5
TEMP [DegC]
Bop @3V
Bop @25degC
Brp @3V
11.3 Average Supply Current vs. Temperature
3.5
4
Brp @25degC
11.4 Average Supply Current vs. Supply Voltage
60
60
50
50
40
IddAvg [uA]
40
IddAvg [uA]
3
VDD [V]
30
30
20
20
10
10
0
0
-40
-30
-20
-10
0
10
20
30
40
50
60
70
1
80
1.5
2
2.5
3
3.5
4
3.5
4
VDD [V]
TEMP [DegC]
1.8
-40
3
11.5 Supply Current vs. Temperature
25
85
11.6 Supply Current vs. Supply Voltage
5
5
4
4
3
IDD
IDD
3
2
2
1
1
0
0
-40
-30
-20
-10
0
10
20
30
40
50
60
70
80
1
1.5
IDDaw (mA @3V)
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IDDsl (uA @3V)
IDDaw (mA @25degC)
IDDsb (uA @3V)
Page 8 of 11
2
2.5
3
VDD [V]
TEMP [DegC]
IDDsl (uA @25degC)
IDDsb (uA @25degC)
Data Sheet
Mar/12
MLX92213
MicroPower & Low-Voltage
Hall Effect Latch with Enable
12 Standard information regarding manufacturability of Melexis
products with different soldering processes
Our products are classified and qualified regarding soldering technology, solderability and moisture sensitivity
level according to following test methods:
Reflow Soldering SMD’s (Surface Mount Devices)
•
•
IPC/JEDEC J-STD-020
Moisture/Reflow Sensitivity Classification for Nonhermetic Solid State Surface Mount Devices
(classification reflow profiles according to table 5-2)
EIA/JEDEC JESD22-A113
Preconditioning of Nonhermetic Surface Mount Devices Prior to Reliability Testing
(reflow profiles according to table 2)
Wave Soldering SMD’s (Surface Mount Devices) and THD’s (Through Hole Devices)
•
•
EN60749-20
Resistance of plastic- encapsulated SMD’s to combined effect of moisture and soldering heat
EIA/JEDEC JESD22-B106 and EN60749-15
Resistance to soldering temperature for through-hole mounted devices
Iron Soldering THD’s (Through Hole Devices)
•
EN60749-15
Resistance to soldering temperature for through-hole mounted devices
Solderability SMD’s (Surface Mount Devices) and THD’s (Through Hole Devices)
•
EIA/JEDEC JESD22-B102 and EN60749-21
Solderability
For all soldering technologies deviating from above mentioned standard conditions (regarding peak
temperature, temperature gradient, temperature profile etc) additional classification and qualification tests
have to be agreed upon with Melexis.
The application of Wave Soldering for SMD’s is allowed only after consulting Melexis regarding assurance of
adhesive strength between device and board.
Melexis is contributing to global environmental conservation by promoting lead free solutions. For more
information on qualifications of RoHS compliant products (RoHS = European directive on the Restriction Of
the use of certain Hazardous Substances) please visit the quality page on our website:
http://www.melexis.com/quality.aspx
13 ESD Precautions
Electronic semiconductor products are sensitive to Electro Static Discharge (ESD).
Always observe Electro Static Discharge control procedures whenever handling semiconductor products.
390109221302
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Data Sheet
Mar/12
ML
LX92213
MicroPower & Low-Voltage
Hall Effect Latch
atch with Enable
14 LD Package (UTQFN-6
6L)
1.50 BS
SC
0.75 BSC
Notes:
1. All dimensions are in millimeters.
2. The terminal #1 identifier and terminal num
mbering
convention shall conform JEDEC publication
on 95
SPP-002. Details of terminal #1 identifier are
a
optional, but must be located within the zon
ne
indicated. The terminal #1 identifier may be
e
marked feature.
INDEX AREA
see note 2
3. Depopulation is possible in a symmetrical fashion.
4. Pad length applies to metallized terminal and is
measured between 0.15mm and 0.30mm ffrom the
terminal tip. If the terminal has the optionall radius
on the other end of the terminal, the pad le
ength
should not be measured in that radius area
a.
SEATING PLANE
E
Terminal Tip
Marking:
0.550 BSC
1st Line : .13
“.” (dot) - used to show the 1st pin
13 - Name of the device (MLX92213)
R0.20
0.25+/-0.05
2 nd Line : YWW
Y - Year (last digit)
WW - Calendar Week
see note 4
INDEX AREA
see note 2
EXPOSED PAD
see note 3
0.15 MIN
see note 4
0.00
0.05
0.05 MIN
0.30 +/-0.05
0.2 MIN
1.10+/-0..10
390109221302
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Page 10 of 11
Data Sheet
Mar/12
MLX92213
MicroPower & Low-Voltage
Hall Effect Latch with Enable
15 Disclaimer
Devices sold by Melexis are covered by the warranty and patent indemnification provisions appearing in its
Term of Sale. Melexis makes no warranty, express, statutory, implied, or by description regarding the
information set forth herein or regarding the freedom of the described devices from patent infringement.
Melexis reserves the right to change specifications and prices at any time and without notice. Therefore, prior
to designing this product into a system, it is necessary to check with Melexis for current information. This
product is intended for use in normal commercial applications. Applications requiring extended temperature
range, unusual environmental requirements, or high reliability applications, such as military, medical lifesupport or life-sustaining equipment are specifically not recommended without additional processing by
Melexis for each application.
The information furnished by Melexis is believed to be correct and accurate. However, Melexis shall not be
liable to recipient or any third party for any damages, including but not limited to personal injury, property
damage, loss of profits, loss of use, interrupt of business or indirect, special incidental or consequential
damages, of any kind, in connection with or arising out of the furnishing, performance or use of the technical
data herein. No obligation or liability to recipient or any third party shall arise or flow out of Melexis’ rendering
of technical or other services.
© 2012 Melexis NV. All rights reserved.
For the latest version of this document, go to our website at
www.melexis.com
Or for additional information contact Melexis Direct:
Europe, Africa, Asia:
Phone: +32 1367 0495
E-mail: [email protected]
America:
Phone: +1 248 306 5400
E-mail: [email protected]
ISO/TS 16949 and ISO14001 Certified
390109221302
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Data Sheet
Mar/12