MLX92232LSE-AAA-003-RE [MELEXIS]

MAGNETIC SWITCH PROG TSOT23-3;


型号：	MLX92232LSE-AAA-003-RE
厂家：	Melexis Microelectronic Systems
描述：	MAGNETIC SWITCH PROG TSOT23-3
文件：	总20页 (文件大小：897K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MLX92232

End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

1 Features and Benefits

2 Application Examples

▪

Programmable parameters in application:

▪ Wide magnetic Latch range: ±0.4mT to ±80mT

▪ Wide magnetic Switch range: ±1.5mT to ±66mT

▪ Programmable Hysteresis: 1mT to 36mT

▪ Programmable Active Pole: North or South

▪ Programmable Output Behaviour: Direct or Inverted

▪ Increased Traceability: 32 bits ID on chip

Built-in Negative TC coefficient: 0 to -2000 ppm/°C

Wide operating voltage range: from 2.7V to 24V

Reverse Supply Voltage Protection

▪

Automotive, Consumer and Industrial

Solid-state switch

3-phase BLDC motor commutation

Wiper motor

Window lifter

Sunroof/Tailgate opener

Seat motor adjuster

Electrical power steering

Brake Light switch

▪

Output Current Limit with Auto-Shutoff

Under-Voltage Lockout Protection

Thermal Protection

Lateral Sensitivity option

Dual die option

3 Ordering Information

Product Code

Temperature Code Package Code

Comment

MLX92232LSE-AAA-000-RE

MLX92232LUA-AAA-000-BU L (-40°C to 150°C)

MLX92232LVA-AAA-000-BU L (-40°C to 150°C)

L (-40°C to 150°C)

SE (TSOT-3L)

UA (TO92-3L)

VA (SIP 4L)

3-wire Switch/Latch, TC=0 ppm/°C

Dual Die 3-wire Switch/Latch, TC=0 ppm/°C

3-wire Switch/Latch, TC=-400 ppm/°C

3-wire Switch/Latch, TC=-1100 ppm/°C

3-wire Switch/Latch, TC=-2000 ppm/°C

3-wire Switch/Latch IMC version, TC=0 ppm/°C

3-wire Switch/Latch IMC version, TC=-400 ppm/°C

3-wire Switch/Latch IMC version, TC=-1100 ppm/°C

3-wire Switch/Latch IMC version, TC=-2000 ppm/°C

3-wire Switch/Latch IMC version, TC=0 ppm/°C

MLX92232LSE-AAA-001-RE

MLX92232LUA-AAA-001-BU L (-40°C to 150°C)

MLX92232LSE-AAA-002-RE L (-40°C to 150°C)

MLX92232LUA-AAA-002-BU L (-40°C to 150°C)

MLX92232LSE-AAA-003-RE L (-40°C to 150°C)

MLX92232LUA-AAA-003-BU L (-40°C to 150°C)

MLX92232LSE-AAA-200-RE

MLX92232LSE-AAA-201-RE

MLX92232LSE-AAA-202-RE

MLX92232LSE-AAA-203-RE

L (-40°C to 150°C)

SE (TSOT-3L)

UA (TO92-3L)

SE (TSOT-3L)

UA (TO92-3L)

SE (TSOT-3L)

UA (TO92-3L)

SE (TSOT-3L)

UA (TO92-3L)

L (-40°C to 150°C)

MLX92232LUA-AAA-200-BU L (-40°C to 150°C)

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MLX92232

End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

4 Functional Diagram

VDD

Voltage Regulator

with Reverse Polarity

Protection

Under-

Voltage

Lockout

Temperature

Compensation

Bop/Brp

reference

Thermal

Protection

OUT

Switched

Hall

Plate

Open Drain

Output

CDS

Amplifier

Current

Limit &

Auto-Shutoff

Control

VDD EoL

Programming

GND

5 General Description

The Melexis MLX92232 is the second generation programmable Hall-effect sensor designed in mixed signal CMOS

technology. The device integrates a voltage regulator, Hall sensor with advanced offset cancellation system and an

open-drain output driver, all in a single package.

With the built-in reverse voltage protection, a serial resistor or diode on the supply line is not required so that even

remote sensors can be specified for low voltage operation down to 2.7V while being reverse voltage tolerant. In the

event of a drop below the minimum supply voltage during operation, the under-voltage lock-out protection will

automatically freeze the device, preventing the electrical perturbation to affect the magnetic measurement circuitry.

The open drain output is fully protected against short-circuit with a built-in current limit. An additional automatic

output shut-off is activated in case of a prolonged short-circuit condition. A self-check is then periodically performed to

switch back to normal operation if the short-circuit condition is released.

The on-chip thermal protection also switches off the output if the junction temperature increases above an abnormally

high threshold. It will automatically recover once the temperature decreases below a safe value.

Furthermore the MLX92232 features a full set of programmable parameters that can be adjusted in the application in order

to achieve the highest possible system accuracy by compensating the mechanical tolerances.

An Integrated Magnetic Concentrator option (IMC) has been added to sense the lateral field component. This is adding more

flexibility in the module design. A dual die option is also available for applications that need a secondary output; these can be

programmed independently from each other.

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End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

Table of Contents

Features and Benefits....................................................................................................................................... 1

Application Examples........................................................................................................................................ 1

Ordering Information........................................................................................................................................ 1

Functional Diagram........................................................................................................................................... 2

General Description.......................................................................................................................................... 2

Glossary of Terms............................................................................................................................................. 4

Absolute Maximum Ratings.............................................................................................................................. 4

General Electrical Specifications ....................................................................................................................... 5

Magnetic Specifications.................................................................................................................................... 6

10 Programming parameters................................................................................................................................. 7

10.1

10.2

Latch Sensor...........................................................................................................................................................................................9

Switch Sensor.......................................................................................................................................................................................10

11 Application Information.................................................................................................................................. 11

11.1

11.2

Typical Three-Wire Application Circuit...............................................................................................................................................11

Automotive and Harsh, Noisy Environments Three-Wire Circuit......................................................................................................12

12 Standard information regarding manufacturability of Melexis products......................................................... 13

13 ESD Precautions.............................................................................................................................................. 13

14 Package Information....................................................................................................................................... 14

14.1

14.2

14.3

TSOT-3L (SE Package)...........................................................................................................................................................................14

TO92-3L (UA Package) .........................................................................................................................................................................16

VA Package...........................................................................................................................................................................................18

15 Contact........................................................................................................................................................... 19

16 Disclaimer....................................................................................................................................................... 20

MLX92232

End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

6 Glossary of Terms

Tesla

IMC

POR

Units for the magnetic flux density, 1 mT = 10 Gauss

Temperature Coefficient in ppm/°C

Integrated Magnetic Concentrator

Power on Reset

7 Absolute Maximum Ratings

Exceeding the absolute maximum ratings may cause permanent damage. Exposure to absolute maximum rated conditions for

extended periods may affect device reliability.

Parameter

Supply Voltage ^{(1, 2)}

Symbol

V_DD

Value

+27

Units

Supply Voltage (Load Dump) ^{(1, 4)}

Supply Current ^{(1, 2, 3)}

Supply Current ^{(1, 3, 4)}

Reverse Supply Voltage ^{(1, 2)}

Reverse Supply Voltage ^{(1, 4)}

Reverse Supply Current ^{(1, 2, 5)}

Reverse Supply Current ^{(1, 4, 5)}

V_DD

+32

I_DD

+20

I_DD

+50

V_DDREV

I_DDREV

V_OUT

I_OUT

V_OUTREV

I_OUTREV

T_J

-24

-30

-20

-50

(1, 2)

Output Voltage

+27

Output Current ^{(1, 2, 5)}

Output Current ^{(1, 4, 6)}

+20

+75

Reverse Output Voltage ⁽¹⁾

Reverse Output Current ^{(1, 2)}

Maximum Junction Temperature ⁽⁷⁾

Storage Temperature Range

ESD Sensitivity – HBM ⁽⁸⁾

ESD Sensitivity – CDM ⁽⁹⁾

Magnetic Flux Density

-0.5

-100

+165

-55 to +165

4000

1000

Unlimited

C

1 The maximum junction temperature should not be exceeded

2 For maximum 1 hour

3 Including current through protection device

4 For maximum 500ms

5 Through protection device

6 For V_OUT≤27V

7 For 1000 hours

8 Human Model according AEC-Q100-002 standard

9 Charged Device Model according AEC-Q100-011 standard

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End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

8 General Electrical Specifications

DC Operating Parameters V_DD= 2.7V to 24V, T_A= -40°C to 150°C (unless otherwise specified)

Parameter

Symbol

V_DD

Test Conditions

Min

2.7

1.5

3.0

-1

Typ⁽¹⁾

Max

Units

Supply Voltage

Operating

Supply Current ⁽²⁾

Supply Current ⁽³⁾

Reverse supply current

Output Saturation Voltage

Output Leakage

I_DD

3.0

6.0

4.5

9.0

I_DD

I_DDREV

V_DSON

I_OFF

V_DD= -16V

V_DD= 3.5 to 24V, I_OUT= 20mA

V_OUT= 12V, V_DD= 12V

0.3

0.5

µA

Output Rise Time ^{(4, 8)}

(R_PUdependent)

R_PU= 1kΩ, V_DD= 12V, V_PU= 5V

C_LOAD= 50pF to GND

R_PU= 1kΩ, V_DD= 12V, V_PU= 5V

C_LOAD= 50pF to GND

V_DD= 5V, dV_DD/dt > 2V/us

t < t_ON

t_R

t_F

0.1

0.3

µs

Output Fall Time ^{(4, 8)}

(On-chip controlled)

0.1

Power-On Time ^(5,6,9)

Power-On Output State

Output Current Limit

t_ON

High (V_PU

µs

)

I_CL

V_DD=3.5 to 24V, V_OUT= 12V

Output ON Time under Current

t_CLON

V_PU= 12V, R_PU= 100Ω

150

240

3.5

µs

Limit conditions⁽¹⁰⁾

Output OFF Time under Current

Limit conditions⁽¹⁰⁾

Chopping Frequency

Refresh Period

t_CLOFF

f_CHOP

t_PER

340

kHz

µs

Over 1000 successive switching events

@10kHz triangle wave magnetic field,

B > ±(B_OPMAX+20mT)

Output Jitter (p-p) ⁽⁴⁾

t_JITTER

±3.2

µs

B > ±3(B_OPMAX+1mT), triangle wave

magnetic field

Maximum Switching Frequency ^{(4, 7)}f_SW

2.7

kHz

Under-voltage Lockout Threshold

V_UVL

Under-voltage Lockout Reaction

time ⁽⁴⁾

t_UVL

µs

Thermal Protection Threshold

Thermal Protection Release

T_PROT

T_REL

Junction temperature

190⁽¹¹⁾

180⁽¹¹⁾

°C

Single layer PCB, JEDEC standard test

boards

Single layer PCB, JEDEC standard test

boards

Single layer PCB, JEDEC standard test

boards

SE Package Thermal Resistance

UA package Thermal Resistance

VA package Thermal Resistance

R_THJA

300

200

105

°C/W

1 Typical values are defined at T_A= +25°C and V_DD= 12V

2 Valid for 92232LSE-AAA-xxx and 92232LUA-AAA-xxx versions

3 Valid for 92232LVA-AAA-xxx version

4 Guaranteed by design and verified by characterization, not production tested

5 The Power-On Time represents the time from reaching V_DD= 2.7V to the first refresh of the output

6 Power-On Slew Rate is not critical for the proper device start-up.

7 Maximum switching frequency corresponds to the maximum frequency of the applied magnetic field which is detected without loss of pulses

8 R_PUand V_PUare respectively the external pull-up resistor and pull-up power supply

9 Activated output with 1 mT overdrive

10 If the Output is in Current Limitation longer than t_CLONthe Output is switched off in high-impedance state. The Output returns back in active state at next

reaching of B_OPor after t_CLOFFtime interval

11 T_PROTand T_RELare the corresponding junction temperature values

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End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

9 Magnetic Specifications

DC Operating Parameters V_DD= 2.7V to 24V, T_A= -40°C to 150°C (unless otherwise specified)

Parameter

Symbol Test Conditions

Min

Typ⁽¹⁾Max Units

Latch Threshold Programming Range^{(2, 3)}

B_LTH

V_DD=12V, T_A=25°C

±0.4

±1.5

±80

Switch Operating Point Programming Range^{(3, 4)}B_OP

Proportional Hysteresis Ratio Programming^{(5, 6)}HYS_RATIOV_DD=12V, T_A=25°C

±66

0.1

0.55

Fixed Hysteresis Value 0^{(7, 8)}

Fixed Hysteresis Value 1^{(7, 8)}

Fixed Hysteresis Value 2^{(7, 8)}

Fixed Hysteresis Value 3^{(7, 8)}

Fixed Hysteresis Value 4^{(7, 8)}

Fixed Hysteresis Value 5^{(7, 8)}

B_FHYS0

B_FHYS1

B_FHYS2

B_FHYS3

B_FHYS4

B_FHYS5

1.2

1.4

1.8

2.2

T_A=25°C

-0.5

-0.9

0.5

0.9

Latch Sensor Magnetic Offset⁽⁹⁾

B_OFFSET

T_A=-40°C to 150°C

Latch with:

-400

-1100

-2000

No IMC: B_OP/B_RP= +- 28mT

IMC: B_OP/B_RP= +- 12mT

Temperature Coefficient⁽¹⁰⁾

ppm/°C

V_DD=12V, T_A=25°C, target

28mT

V_DD=12V, T_A=25°C, target

28mT, HYS_RATIO=0.25

V_DD=12V, T_A=25°C, target

12mT

Factory Programmed B_OP, Switch⁽¹¹⁾

Factory Programmed B_RP, Switch⁽¹¹⁾

Factory Programmed B_OP, Latch⁽¹²⁾

Factory Programmed B_RP, Latch⁽¹²⁾

B_OP

B_RP

B_OP

B_RP

V_DD=12V, T_A=25°C, target

-12mT

-14

-12

-10

1 The typical values are defined at T_A= 25°C and V_DD= 12V.

2 For Latch sensor B_LTH=(B_OP-B_RP)/2. The Latch programming step is typically between 0.7% and 1.5% of the programmed B_LTHvalue for |B_LTH|≥1.2mT and 0.018mT for |B_LTH|≤ 1.2mT.

3 Guaranteed by design and verified by characterization. The programming ranges for BLTH and BOP include some margin for process deviations.

4 For Switch sensor the B_OPprogramming step is typically between 0.7% and 1.5% of the programmed B_OPvalue for |B_OP|≥ 4.8mT and 0.072mT for |B_OP|≤ 4.8mT.

5 For Switch sensor with proportional hysteresis HYS_RATIO=B_HYS/B_OP. The HYS_RATIOprogramming step is 0.05.

6 The given min/max limits are typical values.

7 For Switch sensor with fixed hysteresis value

8 Guaranteed by design and verified by characterization.

9 For Latch sensor offset is defined as B_OFFSET= (B_OP+B_RP)/2.

10 The temperature Coefficient is calculated using following formula:

퐵_{푋푃ꢀ퐴2}− 퐵_{푋푃ꢀ퐴1}

푇퐶 =

∗ ꢁ0⁶, 푝푝푚/°퐶

퐵_푋푃ꢀ25∗ (푇_퐴2− 푇 )

퐴1

where:

T_A1= -40°C, T_A2= 150°C, T₂₅= 25°C

In case of magnetic Latch application: B_XPTA1, B_XPTA2or B_XPT25= B_OP-B_RPat T_A1,T_A2or T₂₅

In case of magnetic Switch application: B_XPTA1, B_XPTA2or B_XPT25= B_OPor B_RPat T_A1,T_A2or T₂₅

11 Valid for 92232Lxx-AAA-0xx

12 Valid for 92232Lxx-AAA-2xx

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End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

10 Programming parameters

Parameter

Symbol

B_OPFINE

B_OPRANGE

B_HYST

Comments

Value

Units

Bit

B_opprogramming resolution

B_opsub-range

Fine programming of the threshold B_op(switch) and B_LTH(Latch)

Selection of the appropriate switch sensor sub-range

Selection of the appropriate latch sensor sub-range

Hysteresis can be fixed or proportional

Bit

B_LTHsub-range

Bit

Programming hysteresis

Active Pole selection

Output polarity selection

Bit

B_POLE

Part can be programmed for south or north magnetic pole active

Selects direct or inverted output polarity

Bit

Pol_OUT

Bit

Switch/Latch function

selection

Selects Latch or Switch sensor function

Bit

A unique fixed ID implemented for device traceability, no

overwriting allowed.

Melexis programmed ID

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End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

South active pole (IMC version)

North active pole (IMC version)

South active pole

North active pole

South active pole

North active pole

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End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

South pole active (VA package)

North pole active (VA package)

10.1 Latch Sensor

North Pole active

South Pole Active

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End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

10.2 Switch Sensor

Direct South Active Pole

Inverted South Active Pole

Direct North Active Pole

Inverted North Active Pole

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End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

11 Application Information

11.1 Typical Three-Wire Application Circuit

11.1.1 92232LSE-AAA-xxx, 92232LUA-AAA-xxx

Notes:

R_PU

1. For proper operation, a 10nF to 100nF bypass capacitor should

be placed as close as possible to the V_DDand ground pin.

2. The pull-up resistor R_PUvalue should be chosen in to limit the

current through the output pin below the maximum allowed

continuous current for the device.

3. A capacitor connected to the output is not needed, because the

output slope is generated internally.

MLX92232

10k

VDD

10nF

V_CC

V_OUT

OUT

GND

11.1.2 92232LVA-AAA-xxx

Notes:

R_PUR_PU

10k 10k

1. For proper operation, a 10nF to 100nF bypass capacitor should

be placed as close as possible to the V_DDand ground pin.

2. The pull-up resistors R_PUvalues should be chosen in to limit the

current through the output pin below the maximum allowed

continuous current for the device.

3. A capacitors connected to the outputs are not needed, because

the output slope is generated internally.

MLX92232

VDD

10nF

V_CC

OUT1

OUT2

V_OUT1

V_OUT2

GND

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End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

11.2 Automotive and Harsh, Noisy Environments Three-Wire Circuit

11.2.1 92232LSE-AAA-xxx, 92232LUA-AAA-xxx

100 Ohms

R_PU

MLX92232

10k

VDD

V_CC

10nF

V_OUT

OUT

GND

4.7nF

Notes:

1. For proper operation, a 10nF to 100nF bypass capacitor should be placed as close as possible to the V_DDand ground pin.

2. The device could tolerate negative voltage down to -24V, so if negative transients over supply line V_PEAK< -30V are expected, usage of the

diode D1 is recommended. Otherwise only R1 is sufficient.

When selecting the resistor R1, three points are important:

- the resistor has to limit I_DD/I_DDREVto 50mA maximum

- the resistor has to withstand the power dissipated in both over voltage conditions (V_R1²/R1)

- the resulting device supply voltage V_DDhas to be higher than V_DDmin (V_DD= V_CC– R1.I_DD

)

3. The device could tolerate positive supply voltage up to +27V (until the maximum power dissipation is not exceeded), so if positive

transients over supply line with V_PEAK> 32V are expected, usage a zener diode Z1 is recommended. The R1-Z1 network should be sized to

limit the voltage over the device below the maximum allowed.

11.2.2 92232LVA-AAA-xxx

100 Ohms

MLX92232

R_PUR_PU

10k 10k

VDD

V_CC

OUT1

V_OUT1

10nF

OUT2

V_OUT2

GND

4.7nF

Notes:

1. For proper operation, a 10nF to 100nF bypass capacitor should be placed as close as possible to the V_DDand ground pin.

2. The device could tolerate negative voltage down to -24V, so if negative transients over supply line V_PEAK< -30V are expected, usage of the

diode D1 is recommended. Otherwise only R1 is sufficient.

When selecting the resistor R1, three points are important:

- the resistor has to limit I_DD/I_DDREVto 50mA maximum

- the resistor has to withstand the power dissipated in both over voltage conditions (V_R1²/R1)

- the resulting device supply voltage V_DDhas to be higher than V_DDmin (V_DD= V_CC– R1.I_DD

)

3. The device could tolerate positive supply voltage up to +27V (until the maximum power dissipation is not exceeded), so if positive

transients over supply line with V_PEAK> 32V are expected, usage a zener diode Z1 is recommended. The R1-Z1 network should be sized to

limit the voltage over the device below the maximum allowed.

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Datasheet

12 Standard information regarding manufacturability of Melexis products

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.

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Datasheet

14 Package Information

14.1 TSOT-3L (SE Package)

14.1.1 TSOT-3L – Package dimensions

14.1.2 TSOT-3L – Sensitive spot

0.28 ± 0.03 mm

1.14 ± 0.15 mm

1.45 ± 0.20 mm

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Datasheet

14.1.3 TSOT-3L – Package marking / Pin definition

Top

Assembly week

1: No IMC version

3: IMC version

3xWW

Fixed character

Bottom

LLL

YLLL

Last 3 digits of lot number

Last digit of year

Name

Type

Function

Supply Voltage pin

Open drain output pin

Ground pin

Pin #

VDD

OUT

GND

Supply

Out

Ground

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Datasheet

14.2 TO92-3L (UA Package)

14.2.1 TO92-3L – Package dimensions

14.2.2 TO92-3L – Sensitive spot

2.05 ± 0.20 mm

0.44 ± 0.03 mm

1.46 ± 0.13 mm

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Datasheet

14.2.3 TO92-3L – Package marking / Pin definition

Top

1: No IMC version

3: IMC version

Fixed character

LLL

Assembly calendar week

3XWW

YLLL

Last 3 digits of lot number

Last digit of year

Name

VDD

GND

OUT

Type

Function

Supply Voltage pin

Ground pin

Pin #

Supply

Ground

Out

Open drain output pin

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Datasheet

14.3 VA Package

14.3.1 VA – Package dimensions

14.3.2 VA – Sensitive Spot

0.34 ± 0.03 mm

1.31 ± 0.15 mm

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Datasheet

14.3.3 VA – Package marking / Pin definition

Top

30_30

LLLLLLL

TTTTTTT

YYWW

30_30

Fixed character

1^stdie lot number

LLLLLLL

TTTTTTT

Calender week number

year

Name

OUT1

VDD

Type

Function

Pin #

Out

Supply

Ground

Out

Open drain output pin

Supply Voltage pin

Ground pin

GND

OUT2

Open drain output pin

15 Contact

For the latest version of this document, go to our website at www.melexis.com.

For additional information, please contact our Direct Sales team and get help for your specific needs:

Europe, Africa

Americas

Asia

Telephone: +32 13 67 04 95

Email : sales_europe@melexis.com

Telephone: +1 603 223 2362

Email : sales_usa@melexis.com

Email : sales_asia@melexis.com

Rev.006 – April 2021

3901092232

Page 19 of 20

MLX92232

End of Line programmable 3-Wire Hall Effect Latch/Switch

Datasheet

16 Disclaimer

The content of this document is believed to be correct and accurate. However, the content of this document is furnished "as is" for informational use only and no representation, nor

warranty is provided by Melexis about its accuracy, nor about the results of its implementation. Melexis assumes no responsibility or liability for any errors or inaccuracies that may

appear in this document. Customer will follow the practices contained in this document under its sole responsibility. This documentation is in fact provided without warranty, term, or

condition of any kind, either implied or expressed, including but not limited to warranties of merchantability, satisfactory quality, non-infringement, and fitness for purpose. Melexis, its

employees and agents and its affiliates' and their employees and agents will not be responsible for any loss, however arising, from the use of, or reliance on this document.

Notwithstanding the foregoing, contractual obligations expressly undertaken in writing by Melexis prevail over this disclaimer.

This document is subject to change without notice, and should not be construed as a commitment by Melexis. Therefore, before placing orders or prior to designing the product into a

system, users or any third party should obtain the latest version of the relevant information.

Users or any third party must determine the suitability of the product described in this document for its application, including the level of reliability required and determine whether it

is fit for a particular purpose.

This document as well as the product here described may be subject to export control regulations. Be aware that export might require a prior authorization from competent

authorities. The product is not designed, authorized or warranted to be suitable in applications requiring extended temperature range and/or unusual environmental requirements.

High reliability applications, such as medical life-support or life-sustaining equipment or avionics application are specifically excluded by Melexis. The product may not be used for the

following applications subject to export control regulations: the development, production, processing, operation, maintenance, storage, recognition or proliferation of:

1. chemical, biological or nuclear weapons, or for the development, production, maintenance or storage of missiles for such weapons;

2. civil firearms, including spare parts or ammunition for such arms;

3. defense related products, or other material for military use or for law enforcement;

4. any applications that, alone or in combination with other goods, substances or organisms could cause serious harm to persons or goods and that can be used as a means of violence

in an armed conflict or any similar violent situation.

No license nor any other right or interest is granted to any of Melexis' or third party's intellectual property rights.

If this document is marked “restricted” or with similar words, or if in any case the content of this document is to be reasonably understood as being confidential, the recipient of this

document shall not communicate, nor disclose to any third party, any part of the document without Melexis’ express written consent. The recipient shall take all necessary measures to

apply and preserve the confidential character of the document. In particular, the recipient shall (i) hold document in confidence with at least the same degree of care by which it

maintains the confidentiality of its own proprietary and confidential information, but no less than reasonable care; (ii) restrict the disclosure of the document solely to its employees for

the purpose for which this document was received, on a strictly need to know basis and providing that such persons to whom the document is disclosed are bound by confidentiality

terms substantially similar to those in this disclaimer; (iii) use the document only in connection with the purpose for which this document was received, and reproduce document only

to the extent necessary for such purposes; (iv) not use the document for commercial purposes or to the detriment of Melexis or its customers. The confidentiality obligations set forth in

this disclaimer will have indefinite duration and in any case they will be effective for no less than 10 years from the receipt of this document.

This disclaimer will be governed by and construed in accordance with Belgian law and any disputes relating to this disclaimer will be subject to the exclusive jurisdiction of the courts of

Brussels, Belgium.

The invalidity or ineffectiveness of any of the provisions of this disclaimer does not affect the validity or effectiveness of the other provisions.

The previous versions of this document are repealed.

IATF 16949 and ISO 14001 Certified

Rev.006 – April 2021

3901092232

Page 20 of 20

MLX92232LSE-AAA-003-RE [MELEXIS]

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