VCNL4100 - VISHAY - Datasheet.Live

VCNL4100

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Rev. 1.4, 24-Oct-17 1Document Number: 84319

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High Sensitivity Long Distance Proximity and

Ambient Light Sensor With I2C Interface

DESCRIPTION

VCNL4100 integrates a high sensitivity long distance

proximity sensor (PS), ambient light sensor (ALS), and

940 nm IRED into one small package. It incorporates

photodiodes, amplifiers, and analog to digital converting

circuits into a single chip using a CMOS process. The 16-bit

high resolution ALS offers excellent sensing capabilities

with sufficient selections to fulfill most applications whether

a dark or high transparency lens design. VCNL4100 offers

individual programmable high and low threshold interrupt

features for the best utilization of resources and power

saving on the microcontroller. For the 8-bit proximity

sensing function, VCNL4100 has a built-in intelligent

cancellation scheme that eliminates background light

issues. The persistence feature prevents false judgment of

proximity sensing due to ambient light noise.

The adoption of the patented FiltronTM technology achieves

the closest ambient light spectral sensitivity to real human

eye responses. VCNL4100 provides excellent temperature

compensation capability for keeping the output stable under

changing temperature. ALS and PS functions are easily

operated via the simple command format of I2C (SMBus

compatible) interface protocol. Operating voltage ranges

from 2.5 V to 3.6 V.

PIN DEFINITION

FEATURES

• Package type: surface-mount

• Dimensions (L x W x H in mm): 8.0 x 3.0 x 1.8

• Integrated modules: infrared emitter (IRED),

ambient light sensor (ALS), proximity sensor

(PS), and signal conditioning IC

• Operates ALS and PS in parallel structure

•Filtron

TM technology adoption for robust

background light cancellation

• Supports low transmittance (dark) lens design

• Temperature compensation: -40 °C to +85 °C

• Low power consumption I2C (SMBus compatible)

interface

• Floor life: 168 h, MSL 3, according to J-STD-020

• Output type: I2C bus (ALS / PS)

• Operation voltage: 2.5 V to 3.6 V

• Material categorization: for definitions of compliance

please see www.vishay.com/doc?99912

PROXIMITY FUNCTION

• Immunity to red glow (940 nm IRED)

• Intelligent background light cancellation

• Smart persistence scheme to reduce PS response time

• Proximity distance up to 1 m

AMBIENT LIGHT FUNCTION

• Fluorescent light flicker immunity

• Spectrum close to real human eye responses

• Selectable maximum detection range (655 / 1311 / 2621 /

5243) lux with highest sensitivity 0.01 lux/step

INTERRUPT

• Programmable interrupt function for ALS and PS with

upper and lower thresholds

• Adjustable persistence to prevent false triggers for ALS

and PS

APPLICATIONS

• Presence detection to activate displays in printers,

copiers, and home appliances

• Collision detection in robots and toys

• Proximity sensing and lighting control in offices, corridors

and public buildings

• Vehicle occupancy detection in parking lots

• Proximity detection in lavatory appliances

1GND6LED+

2LED_Cathode7 NC

DD 8INT

4 NC 9 SDAT

5LED-10SCLK

2 1

67 8 10

Top View

VCNL4100

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Note

(1) Maximum allowed current for VCNL4100 internal IRED

Note

(1) MOQ: minimum order quantity

PRODUCT SUMMARY

PART

NUMBER

OPERATING

RANGE

(mm)

OPERATING

VOLTAGE

RANGE

(V)

I2C BUS

VOLTAGE

RANGE

(V)

IRED PULSE

CURRENT

(mA)

AMBIENT

LIGHT

RANGE

(lx)

AMBIENT

LIGHT

RESOLUTION

(lx)

OUTPUT

CODE

ADC RESOLUTION

PROXIMITY /

AMBIENT LIGHT

VCNL4100 0 to 1000 2.5 to 3.6 1.8 to 3.6 800 (1) 0.01 to 5243 0.01 16 bit, I2C 8 bit / 16 bit

ORDERING INFORMATION

ORDERING CODE PACKAGING VOLUME (1) PIN NUMBER REMARKS

VCNL4100 Tape and reel MOQ: 2500 pcs 10 8.0 mm x 3.0 mm x 1.8 mm

ABSOLUTE MAXIMUM RATINGS (Tamb = 25 °C, unless otherwise specified)

PARAMETER TEST CONDITION SYMBOL MIN. MAX. UNIT

Supply voltage VDD -5.0V

Operation temperature range Tamb -40 +85 °C

Storage temperature range Tstg -40 +100 °C

RECOMMENDED OPERATING CONDITIONS (Tamb = 25 °C, unless otherwise specified)

PARAMETER TEST CONDITION SYMBOL MIN. MAX. UNIT

Supply voltage VDD 2.5 3.6 V

Operation temperature range Tamb -40 +85 °C

I2C bus operating frequency f(I2CCLK) 10 400 kHz

PIN DESCRIPTIONS

PIN ASSIGNMENT SYMBOL TYPE FUNCTION

1 GND I Ground

2 LED_CATHODE I IRED cathode connection

DD I Power supply input

4 NC - No connection

5 LED- O IRED cathode

6LED+IIRED anode

7 NC - No connection

8 INT O Interrupt pin

9 SDAT I / O (open drain) I2C data bus data input / output

10 SCLK I I2C digital bus clock input

VCNL4100

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BLOCK DIAGRAM

Notes

(1) Light source: white LED

(2) Maximum detection range to ambient light can be determined by ALS refresh time adjustment. Refer to table 17 “ALS Resolution and

Maximum Detection Range”

(3) Based on IRED on / off duty ratio = 1/5120, 1/640, 1/80, and 1/20. The circuitry should use an external MOSFET as shown with fig.10. Please

see also the Application Note “Designing the VCNL4100 into an Application” (www.vishay.com/doc?84361).

BASIC CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified)

PARAMETER TEST CONDITION SYMBOL MIN. TYP. MAX. UNIT

Supply voltage VDD 2.5 - 3.6 V

Supply voltage for IRED VIRED 3.8 - 5.0 V

Supply current Excluded LED driving IDD - 195 - μA

Shutdown current Light condition = dark, VDD = 3.3 V IDD (SD) - 0.2 - μA

ALS shut down ALS disable, PS enable IALSSD - 180 - μA

PS shut down ALS enable, PS disable IPSSD - 175 - μA

I2C signal input

Logic high VDD = 3.3 V VIH 1.5 - - V

Logic low VIL --0.8

Logic high VDD = 2.6 V VIH 1.4 - - V

Logic low VIL --0.6

Peak sensitivity wavelength of ALS λp- 550 - nm

Peak sensitivity wavelength of PS λpps - 940 - nm

Full ALS counts 16-bit resolution - - 65 535 steps

Full PS counts 8-bit resolution - - 255 steps

Detectable intensity

Minimum IT = 640 ms, VDD = 3.3 V,

1 step (1)(2) -0.01-

Maximum IT = 80 ms, VDD = 3.3 V,

65 535 steps (1)(2) - 5243 -

ALS dark offset IT = 80 ms, VDD = 3.3 V,

normal sensitivity (1) 0-3steps

Operating temperature range Tamb -40 - +85 °C

IRED driving current (3) - - 800 mA

GND

C bus logic

control

ALS

LED driver

buffer

LED_CATHODE

SCLK

SDAT

INT

IRED

PS timing

controller

DSP

Oscillator

Temperature

sensor

Low pass lter

ALS

16-bits

data

buffer

LED-

LED+

VCNL4100

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Fig. 1 - I2C Bus Timing Diagram

I2C BUS TIMING CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified)

PARAMETER SYMBOL STANDARD MODE FAST MODE UNIT

MIN. MAX. MIN. MAX.

Clock frequency f(SMBCLK) 10 100 10 400 kHz

Bus free time between start and stop condition t(BUF) 4.7 - 1.3 - μs

Hold time after (repeated) start condition;

after this period, the first clock is generated t(HDSTA) 4.0 - 0.6 - μs

Repeated start condition setup time t(SUSTA) 4.7 - 0.6 - μs

Stop condition setup time t(SUSTO) 4.0 - 0.6 - μs

Data hold time t(HDDAT) 3450 - 900 ns

Data setup time t(SUDAT) 250 - 100 - ns

I2C clock (SCK) low period t(LOW) 4.7 - 1.3 - μs

I2C clock (SCK) high period t(HIGH) 4.0 - 0.6 - μs

Detect clock / data low timeout t(TIMEOUT) 25 35 - - ms

Clock / data fall time t(F) - 300 - 300 ns

Clock / data rise time t(R) - 1000 - 300 ns

(LOW)

(R)

(HDSTA)

(BUF)

(HDDAT)

(F)

(HIGH)

(SUSTA)

(SUDAT)

(SUSTO)

{{

Stop Condition

Start Condition

{{

(LOSEXT )

(LOWMEXT )

SCLK

ACK

SDA

ACK

Start Stop

(LOWMEXT )

I2C bus

CLOCK

(SCLK)

I2C bus

DATA

(SDAT)

I2C bus

CLOCK

(SCLK)

I2C bus

DATA

(SDAT)

VCNL4100

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PARAMETER TIMING INFORMATION

Fig. 2 - I2C Bus Timing for Sending Word Command Format

Fig. 3 - I2C Bus Timing for Receiving Word Command Format

SA6 SA5 SA4 SA3 SA2 SA1SA7

C Bus Slave Address Byte

Start by

Master

ACK by

SA6 SA5 SA4 SA3 SA2 SA0

SA7

Command Code

SA1

ACK by

SA7 SA6 SA5 SA4 SA3 SA2 SA1 SA0

ACK by

SA7 SA6 SA5 SA4 SA3 SA2 SA1 SA0

Stop by

Master

ACK by

Data Byte Low Data Byte High

I2C BUS

CLOCK

(SCLK)

I2C BUS

DATA

(SDAT)

I2C BUS

CLOCK

(SCLK)

I2C BUS

DATA

(SDAT)

VCNL4100

SA6 SA5 SA4 SA3 SA2 SA1SA7

C Bus Slave Address Byte

Start by

Master

ACK by

SA6 SA5 SA4 SA3 SA2 SA0

SA7

Command Code

SA1

ACK by

SA7 SA6 SA5 SA4 SA3 SA2 SA1 SA0

Stop by

Master

NACK by

Master

Data Byte High

SA6 SA5 SA4 SA3 SA2

C Bus Slave Address Byte

Start by

Master

ACK by

SA6 SA5 SA4 SA3 SA2 SA0

SA7

Data Byte Low

SA1

ACK by

Master

SA1

SA7

VCNL4100

I2C BUS

CLOCK

(SCLK)

I2C BUS

DATA

(SDAT)

I2C BUS

CLOCK

(SCLK)

I2C BUS

DATA

(SDAT)

I2C BUS

CLOCK

(SCLK)

I2C BUS

DATA

(SDAT)

VCNL4100

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TYPICAL PERFORMANCE CHARACTERISTICS (Tamb = 25 °C, unless otherwise specified)

Fig. 4 - Normalized Spectral Response

Fig. 5 - ALS Normalized Output vs. View Angle

Fig. 6 - ALS Refresh Time vs. Maximum Detection Range

Fig. 7 - IDD vs.Temperature

Fig. 8 - Relative Radiant Intensity vs. Angular Displacement

Fig. 9 - Relative Radiant Intensity vs. Angular Displacement

ALS

100

1000

10000

0.1

0.2

0.3

0.4

0.5

0.6

1.1

-90 -60 0 30 90

Axis Title

1st line

2nd line

Relative Radiant Intensity

Normalized Output

View Angle

2nd line

0.9

0.8

0.7

-30 60

1.0

100

1000

10000

10 000

20 000

30 000

40 000

50 000

60 000

70 000

0 2000 4000 6000 10 000

Axis Title

1st line

2nd line

Step

Lux

2nd line

80 ms

160 ms

320 ms

640 ms

8000

100

1000

10000

0.1

0.2

0.3

0.4

0.5

0.6

1.0

-100 -75 0 25 75 100

Axis Title

1st line

2nd line

Relative Radiant Intensity

View Angle

2nd line

0.9

0.8

0.7

-50 -25 50

VCNL4100

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Rev. 1.4, 24-Oct-17 7Document Number: 84319

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APPLICATION INFORMATION

Pin Connection with the Host

VCNL4100 is a cost effective solution of a long distance proximity sensor with I2C interface. The standard serial digital interface

easily accesses “light intensity” by using simple calculations.

Application circuitry below shows the added MOSFET which is driven by the ASIC’s pin 2. A 22 kΩ pull-up resistor needs to be

added here. The RLED defines the current through the IRED. A small 0.1 μF is sufficient at VDD for power supply noise rejection,

but a 2.2 μF should be placed at VIRED to provide the energy for the IRED.

For the I2C bus design, the pull-up voltage refers to the I/O specification of the baseband due to its “open drain” design. The

pull-high resistors for the I2C bus lines are recommended to be ≥ 2.2 kΩ.

Fig. 10 - Application Diagram

Notes

•V

DD range: 2.5 V to 3.6 V and VIRED is recommended 5.0 V

• Power path of VDD and VIRED should be routed separately up to stable power source.

•The R

LED resister value should be evaluated within ready-made application and the current through VCNL4100-internal IRED should not

exceed 800 mA.

Digital Interface

VCNL4100 applies single 7-bit slave address 0x60 (HEX) following I2C protocol. All operations can be controlled by the

command register. The simple command structure helps users easily program the operation setting and latch the light data from

VCNL4100. As fig. 11 shows, VCNL4100’s I2C command format is simple for read and write operations between VCNL4100

and the host. The white sections indicate host activity and the gray sections indicate VCNL4100’s acknowledgement of the host

access activity. Write word and read word protocols are suitable for accessing registers particularly for 16-bit ALS data and

8-bit PS data. Interrupt can be cleared by reading data out from register: INT_Flag.

Fig. 11 - Command Protocol Format

VDD

INT INT

SCLK

VCNL4100

LED

CATHODE

0.1 μF

GND

SCK

SDA

VIRED

2.2 μF

2.2 kΩ

Vpull up

VDD

PMOS

2.7 Ω

RLED

LED+

LED-

2.2 kΩ20 kΩ

MCU

SCLK

SDAT

8.2 kΩ

INT

S Slave Address

A Command Code A Data Byte Low A Data Byte High A

17 811 1 818

Send Byte ɦWrite Command to VCNL4100

Slave Address

A Command Code A S Slave Address

A Data Byte Low A Data Byte High N P

11 8 11711818 11

Receive Byte ɦRead Data from VCNL4100

S = start condition

P = stop condition

A = acknowledge

Shaded area = VCNL4100 acknowledge

VCNL4100

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Function Description

VCNL4100 applies a 16-bit high resolution ALS that provides the best ambient light sensing capability up to 0.011375 lx/step

which works well under a low transmittance lens design (dark lens). A flexible interrupt function of ALS (register: ALS_CONF) is

also supported. The INT signal will not be asserted by VCNL4100 if the ALS value is not over high INT threshold window level,

or lower than low INT threshold window level of ALS. As long as the ALS INT is asserted, the host can read the data from

VCNL4100.

For proximity sensor function, VCNL4100 supports different kinds of mechanical design to achieve the best proximity detection

performance for any color object. The basic PS function settings, such as duty ratio, integration time, interrupt, and PS

enable / disable and persistence, are handled by the register: PS_CONF1. Duty ratio controls the PS response time. Integration

time represents the duration of the energy being received. The interrupt is asserted when the PS detection levels over the high

threshold level setting (register: PS_THDH) or lower than low threshold (register: PS_THDL). If the interrupt function is enabled,

the host reads the PS output data from VCNL4100 that saves host loading from periodically reading PS data. More than that,

INT flag (register: INT_Flag) indicates the behavior of INT triggered under different conditions. PS persistence (PS_PERS) sets

up the PS INT asserted conditions as long as the PS output value continually exceeds the threshold level.

Descriptions of each slave address operation are shown in table 1.

TABLE 1 - COMMAND CODE AND REGISTER DESCRIPTION

COMMAND

CODE

NAME R / W DEFAULT

VALUE FUNCTION DESCRIPTION

00H_L ALS_CONF R / W 00H ALS integration time, persistence, interrupt, and function enable / disable

00H_H Reserved R / W 00H Reserved

01H_L ALS_THDH_L R / W 00H ALS high interrupt threshold LSB byte

01H_H ALS_THDH_M R / W 00H ALS high interrupt threshold MSB byte

02H_L ALS_THDL_L R / W 00H ALS low interrupt threshold LSB byte

02H_H ALS_THDL_M R / W 00H ALS low interrupt threshold MSB byte

03H_L PS_CONF1 R / W 00H PS duty ratio, integration time, persistence, and PS enable / disable

03H_H PS_CONF2 R / W 00H PS gain, ITB, interrupt setting

04H_L PS_CONF3 R / W 00H PS active forced, averaging, background light cancellation setting

04H_H PS_SPO R / W 00H Set initial value to “0xA0” or “0x20”

05H_L Reserved R / W 00H Reserved

05H_H Reserved R / W 00H Reserved

06H_L PS_THDL R / W 00H PS low interrupt threshold setting

06H_H PS_THDH R / W 00H PS high interrupt threshold setting

07H_L Reserved R / W 00H Reserved

07H_H Reserved R / W 00H Reserved

08H_L PS_Data R 00H PS output data

08H_H Reserved R 00H Reserved

09H_L ALS_Data_L R 00H ALS LSB output data

09H_H ALS_Data_M R 00H ALS MSB output data

0AH_L Reserved R 00H Reserved

0AH_H Reserved R 00H Reserved

0BH_L Reserved R 00H Reserved

0BH_H INT_Flag R 00H ALS, PS interrupt flags

VCNL4100

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Command Register Format

VCNL4100 provides an 8-bit command register for ALS and PS controlling independently. The description of each command

format is shown in following tables.

TABLE 2 - REGISTER: ALS_CONF DESCRIPTION

Command Bit76543210

ALS_CONF COMMAND CODE: 00H_L (00H DATA BYTE LOW)

Command Bit Description

ALS_IT 7 : 6 (0 : 0) = 80 ms; (0 : 1) = 160 ms; (1 : 0) = 320 ms; (1 : 1) = 640 ms

ALS integration time setting, longer integration time has higher sensitivity

Reserved 5 : 4 Default = (0 : 0), reserved

ALS_PERS 3 : 2 (0 : 0) = 1, (0 : 1) = 2, (1 : 0) = 4, (1 : 1) = 8

ALS interrupt persistence setting

ALS_INT_EN 1 0 = ALS interrupt disable, 1 = ALS interrupt enable

ALS_SD 0 0 = ALS power on, 1 = ALS shut down

TABLE 3 - REGISTER: RESERVE COMMAND DESCRIPTION

Reserved COMMAND CODE: 00H_H (00H DATA BYTE HIGH)

Command Bit Description

Reserved 7 : 0 Default = 00H

TABLE 4 - REGISTER ALS_THDH_L AND ALS_THDH_M DESCRIPTION

ALS_THDH_L

ALS_THDH_M

COMMAND CODE: 01H_L (01H DATA BYTE LOW)

COMMAND CODE: 01H_H (01H DATA BYTE HIGH)

ALS_THDH_L 7 : 0 00H to FFH, ALS high interrupt threshold LSB byte

ALS_THDH_M 7 : 0 00H to FFH, ALS high interrupt threshold MSB byte

TABLE 5 - REGISTER: ALS_THDL_L AND ALS_THDL_M DESCRIPTION

ALS_THDL_L

ALS_THDL_M

COMMAND CODE: 02H_L (02H DATA BYTE LOW)

COMMAND CODE: 02H_H (02H DATA BYTE HIGH)

ALS_THDL_L 7 : 0 00H to FFH, ALS low interrupt threshold LSB byte

ALS_THDL_M 7 : 0 00H to FFH, ALS low interrupt threshold MSB byte

TABLE 6 - REGISTER: PS_CONF1 DESCRIPTION

PS_CONF1 COMMAND CODE: 03H_L (03H DATA BYTE LOW)

Command Bit Description

PS_Duty 7 : 6 (0 : 0) = 1/5120, (0 : 1) = 1/640, (1 : 0) = 1/80, (1 : 1) = 1/20

PS IRED on / off duty ratio setting

PS_ IT 5 : 4 (0 : 0) = 1T, (0 : 1) = 1.3T, (1 : 0) = 1.6T, (1 : 1) = 2T

PS integration time setting

PS_PERS 3 : 2 (0 : 0) = 1, (0 : 1) = 2, (1 : 0) = 3, (1 : 1) = 4

PS interrupt persistence setting

Reserved 1 Default = 0, reserved

PS_SD 0 0 = PS power on, 1 = PS shut down

VCNL4100

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TABLE 7 - REGISTER: PS_CONF2 DESCRIPTION

PS_CONF2 COMMAND CODE: 03H_H (03H DATA BYTE HIGH)

Command Bit Description

PS_ITB 7 : 6 (0 : 0) = 1/2T, (0 : 1) = 1T, (1 : 0) = 2T, (1 : 1) = 4T

PS IT bank setting

PS_GAIN 5 : 4 (0 : 0) = /4, (0 : 1) = /2, (1 : 0) = 1, (1 : 1) = 2

Reserved 3 Default = 0, reserved

PS_SP_INT_EN 2

0 = disable INT function for PS enter / leave sunlight protection mode

1 = issue INT while PS enter / leave sunlight protection mode. While PS enter sunlight protection mode,

the PS output will keep 0xFF

Reserved 1 Default = 0, reserved

PS_INT_EN 0 0 = PS INT function disable

1 = PS INT function enable

TABLE 8 - REGISTER: PS_CONF3 DESCRIPTION

PS_CONF3 COMMAND CODE: 04H_L (04H DATA BYTE LOW)

Command Bit Description

PS_AV 7 : 6 (0 : 0) = /2, (0 : 1) = /4, (1 : 0) = /8, (1 : 1) = /16

PS_AV_EN 5 0 = PS average function disable, 1 = PS average function enable

Reserved 4 Default = 0, reserved

PS_AF 3 0 = active force mode disable (normal mode), 1 = active force mode enable

PS_TRIG 2

0 = no PS active force mode trigger, 1 = trigger one time cycle

VCNL4100 output one cycle data every time host writes in “1” to sensor. The state returns to “0”

automatically.

PS_MPULSE 1 0 = disable, 1 = enable

PS multi pulse mode setting; PS multi pulse number set by PS_AV [1 : 0]

Reserved 0 Default = 0, reserved

TABLE 9 - REGISTER: PS_MS DESCRIPTION

Reserved COMMAND CODE: 04H_H (04H DATA BYTE HIGH)

Command Bit Description

PS_SPO 7 : 0 Set initial value = 0xA0 (PS_OUT = 0xFF while PS into sunlight protection

Set initial value = 0x20 (PS_OUT = 0x00 while PS into sunlight protection

TABLE 10 - REGISTER RESERVE COMMAND DESCRIPTION

Reserved COMMAND CODE: 05H_L (05H DATA BYTE LOW)

Reserved 7 : 0 Default = 00H

TABLE 11 - REGISTER: RESERVE COMMAND DESCRIPTION

Reserved COMMAND CODE: 05H_H (05H DATA BYTE HIGH)

Reserved 7 : 0 Default = 00H

TABLE 12 - REGISTER: PS_THDL DESCRIPTION

PS_THDL COMMAND CODE: 06H_L (06H DATA BYTE LOW)

PS_THDL 7 : 0 00H to FFH, PS low interrupt threshold setting

VCNL4100

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Adjustable Sampling Time

VCNL4100’s embedded LED driver drives the external IRED with the “LED CATHODE” pin by a pulsed duty cycle. The

IRED on / off duty ratio can be programmable by I2C command at register: PS_Duty is related to the current consumption and

PS response time. The higher the duty ratio selected, the faster response time achieved with higher power consumption.

TABLE 13 - REGISTER: PS_THDH DESCRIPTION

PS_THDH COMMAND CODE: 06H_H (06H DATA BYTE HIGH)

PS_THDH 7 : 0 00H to FFH, PS high interrupt threshold setting

TABLE 14 - REGISTER: RESERVE COMMAND DESCRIPTION

Reserved COMMAND CODE: 07H_L (07H DATA BYTE LOW)

Reserved 7 : 0 Default = 00H

TABLE 15 - REGISTER: RESERVE COMMAND DESCRIPTION

Reserved COMMAND CODE: 07H_H (07H DATA BYTE HIGH)

Reserved 7 : 0 Default = 00H

TABLE 16 - READ OUT REGISTER DESCRIPTION

PS_Data 08H_L (08H data byte low) 7 : 0 00H to FFH, PS output data

Reserved 08H_H (08H data byte high) 7 : 0 Default = 00H

ALS_Data_L 09H_L (09H data byte low) 7 : 0 00H to FFH, ALS LSB output data

ALS_Data_M 09H_H (09H data byte high) 7 : 0 00H to FFH, ALS MSB output data

Reserved 0AH_L (0AH data byte low) 7 : 0

Reserved 0AH_H (0AH data byte high) 7 : 0

Reserved 0BH_L (0BH data byte low) 7 : 0 Default = 00H

INT_Flag 0BH_H (0BH data byte high)

PS_SPF_LEAVE, PS leaving protection mode

PS_SPF_ENTER, PS entering protection mode

ALS_IF_L, ALS crossing low THD INT trigger event

ALS_IF_H, ALS crossing high THD INT trigger event

Default = 0, reserved

PS_IF_CLOSE, PS rise above PS_THDH INT trigger event

PS_IF_AWAY, PS drop below PS_THDL INT trigger event

VCNL4100

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Not for New Designs

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Threshold Window Setting

• ALS Threshold Window Setting (Applying ALS INT)

ALS_THDL_L and ALS_THDL_M define 16-bit ALS low threshold data for LSB byte and MSB byte. As long as ALS INT

function is enabled, INT will be asserted once the ALS data exceeds ALS_THDH or goes below ALS_THDL. To easily define

the threshold range, multiply the value of the resolution (lx/step) by the threshold level (refer table 17).

The following is an example of the application for ALS_IT = 160 ms. If ALS_THDH = 07D0(HEX) and ALS_THDL = 03E8(HEX),

then the ALS INT will not asserted if the ALS value does not exceed 80 lx [07D0(HEX) = 2000 steps x 0.04 lx/step = 80 lx] or

lower than 40 lx [03E8(HEX) = 1000 steps x 0.04 lx/step = 40 lx.

•ALS Persistence

The ALS INT is asserted as long as the ALS value is higher or lower than the threshold window when ALS_PERS

(1 / 2 / 4 / 8 times) is set to one time. If ALS_PERS is set to four times, then the ALS INT will not be asserted if the

ALS value is not over (or lower) than the threshold window for four continued refresh times (integration time).

• Programmable PS Threshold

VCNL4100 provides both high and low thresholds 8-bit data setting for proximity sensor. (register: PS_THDL, PS_THDH) that

fulfills different mechanical designs with the best proximity detection capability for any kind of objects.

•PS Persistence

The PS persistence function (PS_PERS 1 / 2 / 3 / 4) helps to avoid false trigger of the PS INT. For example, if

PS_PERS = 3 times, the PS INT will not be asserted unless the PS value is greater than the PS threshold (PS1_THDH)

value for three periods of time continuously.

Data Access

All VCNL4100 command registers are readable. To access 16-bit high resolution ALS output data, it is suitable to use read word

protocol to read out data by just one command at register: ALS_Data_L and ALS_Data_M. To represent the 16-bit data of ALS,

it has to apply two bytes. One byte is for LSB, and the other byte is for MSB as shown in table 18. In terms of reading out 8-bit

PS data, host just need to access register: PS_Data.

Interrupt (INT)

VCNL4100 has ALS and PS interrupt feature operated by a single pin “INT”. The purpose of the interrupt feature is to actively

inform the host once INT has been asserted. With the interrupt function applied, the host does not need to constantly pull data

from the sensor, but to only read data from the sensor when receiving interrupt request from the sensor. As long as the host

enables ALS interrupt (register: ALS_INT_EN) or PS interrupt (register: PS_INT) function, the level of INT pin (pin 8) is able to be

pulled low once INT asserted. All of registers are accessible even INT is asserted.

ALS INT asserted when ALS value crosses over the value set by register: ALS_THDH or is lower than the value set by

PS INT asserted when PS value crosses over the value set by register: PS_THDH or is lower than the value set by

TABLE 17 - ALS RESOLUTION AND MAXIMUM DETECTION RANGE

ALS_IT SENSITIVITY

(lx/step)

MAXIMUM DETECTION

RANGE

(lx)

ALS_IT

(7 : 6) INTEGRATION TIME

(0, 0) 80 ms 0.08 5243

(0, 1) 160 ms 0.04 2621

(1, 0) 320 ms 0.02 1311

(1, 1) 640 ms 0.01 655

TABLE 18 - 16-BIT ALS DATA FORMAT

VCNL4100

Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0

VCNL4100

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Not for New Designs

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Interrupt Flag

Register: INT_Flag represents all of interrupt trigger status for ALS and PS. Any flag value changes from “0” to “1” state, the

level of INT pin will be pulled low. As long as host reads INT_Flag data, the bit will change from “1” state to “0” state after reading

out. The INT level will be returned to high afterwards.

PROXIMITY DETECTION HYSTERESIS

A PS detection hysteresis is important to keep the PS state in a certain range of detection distance. For example, PS INT asserts

when PS value over PS_THDH. Host switches on panel backlight and then clears INT. When PS value is less than PS_THDL,

host switches off panel backlight. Any PS value lower than PS_THDH or higher than PS_THDL PS INT will not be asserted. Host

keeps the same state.

PACKAGE INFORMATION in millimeters

Fig. 12 - VCNL4100 Package Dimensions

3.0 ± 0.1

8.0 ± 0.1

5.0

1.6.6

Ø 1.7

Ø 2.05

Top View

1.0

1.2 0.8

1.7 1.7

1.0 (10 x)

Bottom View

1.8 ± 0.1

Side View

GND

LED_Cathode

VDD

LED-

LED+

INT

SDAT

SCLK

2.0

1.7

0.8

For Reow Soldering (PCB Footprint)

1.2

Sensor

LED

VCNL4100

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LAYOUT NOTICE AND REFERENCE CIRCUIT

Circuit Layout Reference

Fig. 13 - Suggested VCNL4100 Layout

APPLICATION CIRCUIT BLOCK REFERENCE

Fig. 14 - VCNL4100 Application Circuit

Notes

•V

DD range: 2.5 V to 3.6 V and VIRED is recommended 5.0 V

• Power path of VDD and VIRED should be independent layout

•The R

LED resistor value is reference for test stage, it should be adjusted again for the product usage basing on the power and the lens final

design.

RECOMMENDED STORAGE AND REBAKING CONDITIONS

PARAMETER CONDITIONS MIN. MAX. UNIT

Storage temperature 5 50 °C

Relative humidity - 60 %

Open time - 168 h

Total time From the date code on the aluminized envelope (unopened) - 12 months

Rebaking Tape and reel: 60 °C - 22 h

Tube: 60 °C - 22 h

VDD

INT INT

SCLK

VCNL4100

LED

CATHODE

0.1 μF

GND

SCK

SDA

VIRED

2.2 μF

2.2 kΩ

Vpull up

VDD

PMOS

2.7 Ω

RLED

LED+

LED-

2.2 kΩ20 kΩ

MCU

SCLK

SDAT

8.2 kΩ

INT

VCNL4100

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Not for New Designs

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RECOMMENDED INFRARED REFLOW

Soldering conditions which are based on J-STD-020 C.

Recommend Normal Solder Reflow is 235 °C to 255 °C.

Fig. 15 - VCNL4100 Solder Reflow Profile Chart

RECOMMENDED IRON TIP SOLDERING CONDITION AND WARNING HANDLING

1. Solder the device with the following conditions:

1.1. Soldering temperature: 400 °C (max.)

1.2. Soldering time: 3 s (max.)

2. If the temperature of the method portion rises in addition to the residual stress between the leads, the possibility that an

open or short circuit occurs due to the deformation or destruction of the resin increases.

3. The following methods: VPS and wave soldering, have not been suggested for the component assembly.

4. Cleaning method conditions:

4.1. Solvent: methyl alcohol, ethyl alcohol, isopropyl alcohol

4.2. Solvent temperature < 45 °C (max.)

4.3. Time: 3 minutes (min.)

IR REFLOW PROFILE CONDITION

PARAMETER CONDITIONS TEMPERATURE TIME

Peak temperature 255 °C + 0 °C / - 5 °C (max.: 260 °C) 10 s

Preheat temperature range and timing 150 °C to 200 °C 60 s to 180 s

Timing within 5 °C to peak temperature 10 s to 30 s

Timing maintained above temperature / time 217 °C 60 s to 150 s

Timing from 25 °C to peak temperature 8 min (max.)

Ramp-up rate 3 °C/s (max.)

Ramp-down rate 6 °C/s (max.)

200

150

217

255

Max. Temperature

(260 °C + 0 °C / - 5 °C)/10 s

Soldering Zone

60 s to 150 s

Temperature (°C)

Time (s)

Ramp-Down Rate

6 °C/s (max.)

Pre-Heating Time

t2 - t1 = 60 s to 180 s

Ramp-Up Rate

3 °C/s (max.)

Ramp-Up Rate

3 °C/s (max.)

VCNL4100

www.vishay.com Vishay Semiconductors

Not for New Designs

Rev. 1.4, 24-Oct-17 16 Document Number: 84319

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THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT

ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000

TAPE PACKAGING INFORMATION in millimeters

Fig. 16 - Package Carrier Tape

Fig. 17 - Reel Dimensions

Legal Disclaimer Notice

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Revision: 01-Jan-2021 1Document Number: 91000

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