Sensors & MEMS

Sensors & MEMS
Hall ICs… …………………………………………………………
Function Lineup
Omnipolar Detection Hall ICs
 BU52054GWZ 
Detects S- or N-pole magnetic
fields and turns the output ON (active Low).
 BU52055GWZ 
 BU52001GUL 
 BU52011HFV 
 BU52021HFV 
 BU52015GUL 

 BU52056NVX 
 BU52053NVX 
 BU52061NVX 
 BD7411G
　
 BU52025G
Omnipolar Detection Hall ICs with Polarity Discrimination
(Polarity detection for both S and N features dual outputs)
Features 2 outputs
to discriminate between N- and S-pole detection.
 BU52004GUL 　
 BU52014HFV 
Unipolar Detection Hall ICs
 BU52002GUL 
Detects either N- or S-pole
 BU52003GUL 
 BU52012NVX 
 BU52012HFV 
 BU52013HFV 
Bipolar Latch Hall ICs
Detects turn of pole (S N or N S)
N-pole S-pole : Out put High Low
S-pole N-pole : Out put Low High
Symbol
key



Built-in 2
sensors
Ultra-compact CSP for
high-density mounting
86
 BU52742GUL 


Both S- and
N-pole detection
 BU52040HFV 
Both S- and N-pole detection
with polarity discrimination output
Small
mount type

Ultra-compact
mount type


S-pole
detection only
Wide pin pitch for
easy mounting www.rohm.com



N-pole
detection only
N-pole, S-pole
Bipolar Latch


Power supply
voltage
Both S-and
N-pole outputs
Magnetic field
detection output
Sensors & MEMS
Hall ICs… …………………………………………………………
Specification Lineup
Omnipolar Detection Hall ICs
Part No.
Operate Point (mT)
S-pole
N-pole
Supply Voltage
(V)
Hysteresis
(mT)
Period
(mS)
Supply Current (Avg.)
(µA)　Output
Package
(mm)
BU52054GWZ
1.65 to 3.6
＋ 6.3
− 6.3
0.9
50
5
CMOS
UCSP35L1
BU52055GWZ
1.65 to 3.6
＋ 4.1
− 4.1
0.8
50
5
CMOS
UCSP35L1
BU52001GUL
2.4 to 3.3
＋3.7
−3.7
0.8
50
8
CMOS
VCSP50L1
BU52011HFV
1.65 to 3.3
＋3.0
−3.0
0.9
50
5
CMOS
HVSOF5
BU52021HFV
2.4 to 3.6
＋3.7
−3.7
0.8
50
8
CMOS
HVSOF5
BU52015GUL
1.65 to 3.3
＋3.0
−3.0
0.9
50
5
CMOS
VCSP50L1
2.4 to 3.6
＋3.7
−3.7
0.8
50
8
CMOS
SSOP5
BU52056NVX
1.65 to 3.6
＋ 4.6
− 4.6
0.8
50
5
CMOS
SSON004X1216
BU52053NVX
1.65 to 3.6
＋3.0
−3.0
0.9
50
5
CMOS
SSON004X1216
BU52061NVX
1.65 to 3.6
＋3.3
−3.3
0.9
50
4
CMOS
SSON004X1216
4.5 to 5.5
＋3.4
−3.4
0.4
−
2.0(mA)
CMOS
SSOP5
BD7411G
(1.1 × 1.1)H ＝ 0.5
Omnipolar Detection Hall ICs with Polarity Discrimination (Polarity detection for both S and N features dual outputs)
Part No.
Operate Point(mT)
S-pole
N-pole
Supply Voltage
(V)
Hysteresis
(mT)
Period
(mS)
Supply Current (Avg.)
(µA)　Output
Package
(mm)
BU52004GUL
2.4 to 3.3
＋3.7
−3.7
0.8
50
8
CMOS
VCSP50L1
BU52014HFV
1.65 to 3.3
＋3.0
−3.0
0.9
50
5
CMOS
HVSOF5
Hysteresis
(mT)
Period
(mS)
Supply Current (Avg.)
(µA)　Output
(1.1 × 1.1)H ＝ 0.5
Unipolar Detection Hall ICs
Part No.
Operate Point(mT)
S-pole
N-pole
Supply Voltage
(V)
Package
(mm)
BU52002GUL
2.4 to 3.3
＋3.7
−
0.8
50
6.5
CMOS
VCSP50L1
BU52003GUL
2.4 to 3.3
−
−3.7
0.8
50
6.5
CMOS
VCSP50L1
BU52012NVX
1.65 to 3.6
＋3.0
−
0.9
50
3.5
CMOS
SSON004X1216
BU52012HFV
1.65 to 3.3
＋3.0
−
0.9
50
3.5
CMOS
HVSOF5
BU52013HFV
1.65 to 3.3
−
−3.0
0.9
50
3.5
CMOS
HVSOF5
(1.1 × 1.1)H ＝ 0.5
(1.1 × 1.1)H ＝ 0.5
Bipolar Latch Hall ICs
Part No.
Operate Point(mT)
S-pole
N-pole
Supply Voltage
(V)
Hysteresis
(mT)
Period
(mS)
Freguency
(kHz)
Supply Current (Avg.)
(µA)　Output
Package
(mm)
BU52040HFV
1.65 to 3.3
＋3.0
−3.0
6
0.5
−
200
CMOS
HVSOF5
BU52742GUL
2.4 to 3.6
＋10
−10
20
−
250
7.5(mA)
CMOS
VCSP50L1(6Pin)
High accurate
sensitivity




Magnetic field detection
output (with reverse output)
Operating
temperature range


Latch
output
CMOS
output


Low current
consumption
Low
sensitivity
High seed
operation


Medium
sensitivity

High
sensitivity

Intermittent operation for
low power consumption

(1.0 × 1.5)　H ＝ 0.5
ESD
resistance
Polarity
discrimination output
www.rohm.com
87
Sensors & MEMS
BU52025G
(1.1 × 1.1)H ＝ 0.5
Sensors & MEMS
Ambient Light Sensor………………………………………
Function Lineup
Analog Current Output Type Ambient Light Sensor ICs
�
BH1600FVC 
���
BH1603FVC ��
��
BH1620FVC ��
�
BH1621FVC ��
�
BH1680FVC ��
Digital 16bit Serial Output Type Ambient Light Sensor ICs
　�
BH1710FVC 
　�
BH1715FVC 
　
BH1721FVC 
　�
BH1750FVI 
　�
BH1751FVI �
　�
BH1780GLI �
　� BH1730FVC �
Optical Proximity Sensor with Integrated Ambient Light Sensor
　　　 BH1772GLC ��
Optical Proximity Sensor… ………………………………
Function Lineup
Optical Proximity Sensors with Integrated Ambient Light Sensor
　　　 BH1772GLC ��
Symbol
key


Direct connection to
ROHM LED Driver
Clear type
package
88


Sensor
analog output
Infrared cut
resin package



Sensor
serial output
Small
mount type

High
Precision
Current
source type


High
sensitivity

2-gain
switch

3-gain
switch
www.rohm.com



Interrupt signal output
to micro controller
Proximity sensor
serial output


Ambient light
sensor serial output
Supply
voltage range
IrCUT
filter
Standby
current 0μA
Sensors & MEMS
Ambient Light Sensor………………………………………
Specification Lineup
Analog Current Output Type Ambient Light Sensor ICs
Output Type
Supply Voltage
(V)
Sensitivity Variations
(%)
Output Sensitivity Gain
Illuminance Measurement
Range (lx)
Temperature Operating
Range (°C)
BH1600FVC
Current(Source)
2.4 to 3.6
± 35
2 step
0 to 50,000
−30 to ＋85
WSOF6
BH1603FVC
Current(Source)
2.4 to 5.5
± 15
3 step
0 to 100,000
−40 to ＋85
WSOF6
BH1620FVC
Current(Source)
2.4 to 5.5
± 15
3 step
0 to 100,000
−40 to ＋85
WSOF5
BH1621FVC
Current(Source)
2.4 to 5.5
± 15
2 step
0 to 50,000
−40 to ＋85
WSOF5
BH1680FVC
Current(Source)
2.4 to 5.5
± 15
3 step
0 to 50,000
−40 to ＋85
WSOF5
Part No.
Package
Sensors & MEMS
Digital 16bit Serial Output Type Ambient Light Sensor ICs
Output Type
Supply Voltage
(V)
Sensitivity Variations
(%)
I/O Voltage
(V)
Illuminance Measurement
Range (lx)
Temperature Operating
Range (°C)
BH1710FVC
I2C I/F
2.4 to 3.6
± 38
1.65 to Vcc
0 to 65,000
−30 to ＋85
WSOF6
BH1715FVC
I2C I/F
2.4 to 3.6
± 15
1.65 to Vcc
0 to 65,000
−40 to ＋85
WSOF6
BH1721FVC
I2C I/F
2.4 to 3.6
± 15
1.65 to Vcc
0 to 65,000
−40 to ＋85
WSOF5
BH1750FVI
I2C I/F
2.4 to 3.6
± 20
1.65 to Vcc
0 to 65,000
−40 to ＋85
WSOF6I
BH1751FVI
I2C I/F
2.4 to 3.6
± 20
1.65 to Vcc
0 to 65,000
−40 to ＋85
WSOF6I
BH1780GLI
I2C I/F
2.3 to 3.0
± 20
−
0 to 65,000
−40 to ＋85
WLGA04IW02
BH1730FVC
I2C I/F
2.4 to 3.6
± 15
1.65 to Vcc
0 to 65,000
（1/128 lx step）
−40 to ＋70
WSOF6
Part No.
Package
Optical Proximity Sensor with Integrated Ambient Light Sensor
Part No.
BH1772GLC
Output I/F
Supply voltage
(V)
ALS Sensitivity Variations
(%)
Illuminance measurement range
(lx)
Proximity detection range
(μW/cm2)
Operating temperature
(°C)
I2C
2.3 to 3.6
± 15
0 to 65,000
1 to 100,000
−40 to ＋85
Optical Proximity Sensor… ………………………………
Package
WLGA010V28
Specification Lineup
Optical Proximity Sensors with Integrated Ambient Light Sensor
Part No.
BH1772GLC

Wide
dynamicrange

Output I/F
Supply voltage
(V)
ALS Sensitivity Variations
(%)
Illuminance measurement range
(lx)
Proximity detection range
(μW/cm2)
Operating temperature
(°C)
I2C
2.3 to 3.6
± 15
0 to 65,000
1 to 100,000
−40 to ＋85
Dispersion characteristics
close to the visible range

Correspond to
dark optical window

I/F Voltage
1.8V

I2C BUS
Interface
www.rohm.com

16bit AD
converter

Operating
temperature range
Package
WLGA010V28

Internal power
on reset
89
Sensors & MEMS
Temperature Sensor…………………………………………
Function Lineup
Analog Output Temperature Sensor IC

BD1020HFV

Thermostat Output Temperature ICs with Variable Detection Temperature
BDExxx0Gseries


Low Power Thermostat Output Temperature Sensor ICs
 BDJxxx1HFVseries 
 BDJxxx0HFVseries 
Amplifier for Human Body Detector… ………………
Function Lineup
Pyroelectric Infrared Sensor Amplifier
BD9251FV


Capacitive Switch Controller… …………………………
Function Lineup
Capacitive Switch Controller ICs
BU21072MUV
BU21078MUV
BU21079F
BU21077MUV






　
　　Touch Screen Controller… ………………………………
Symbol
key
Capacitive type

BU21101MWX �
Resistive type

�
�



�
BU21021GUL
BU21029GUL
BU21029MUV
BU21024FV-M
BU21023GUL
BU21023MUV
BU21025GUL



Ultra-compact
mount type
Ultra Low Power
Consumption
Integrated RAM
for CPU Program
90
Function Lineup



Small
mount type
With power
down switch



4Wire resistive
screen
Power supply
voltage
Built-in regulator
of 2.3V output


Ultra-compact CSP for
high-density mounting

�
�
�
�
�
���









Detect temperature
changeable range
Switch
circuits
Detect temperature
changeable step
MCU
integrate
Low current
consumption
www.rohm.com
Open drain
output
Number of
sensor ports
High
accuracy
ESD
resistance
Active
High
Sensor
channel number


Active
Low
Low current
intermittent mode
Sensors & MEMS
Temperature Sensor…………………………………………
Specification Lineup
Analog Output Temperature Sensor IC
Part No.
BD1020HFV
Supply voltage
(V)
Supply current
(µA)
Temperature
sensitivity(mV/ ˚C)
2.4 to 5.5
4.0
−8.2
Output voltage（V）
（Ta=30˚C, VDD =3V）
Temperature accuracy (˚C)
Ta=30˚C
Ta=−30, 100˚C
±1.5
±2.5
Package
1.3
HVSOF5
Thermostat Output Temperature ICs with Variable Detection Temperature
BDExxx0Gseries
Output type
Detect temperature
(˚C)
Detect temperature
changeable step (˚C)
Type
Active
Supply voltage
(V)
Supply current
(µA)
Detect temperature
accuracy (˚C)
60, 70, 80, 90, 100, 110
±5
Open Drain
L
2.9 to 5.5
16
±4.0
Part No.
Package
SSOP5
＊ Detection temperature (xxx : 060, 070, 080, 090, 100, 110) is applied in the BDExxx0G of part No.
Low Power Thermostat Output Temperature Sensor ICs
Output type
BDJxxx1HFVseries
Type
60, 70, 75, 80, 85, 90
BDJxxx0HFV
H
Open Drain
55, 60, 65, 70, 80
series
Supply voltage
(V)
Active
Supply current (Operation/ Detect temperature
Power down)(µA)
accuracy (˚C)
2.4 to 5.5
7.5/0.3
±2.5
Package
HVSOF5
L
＊ Detection temperature (xxx : 055, 060, 065, 070, 080) is applied in the BDJxxx0HFV of part No. Detection temperature (xxx : 060, 070, 075, 080, 085, 090) is applied in the BDJxxx1HFV of part No.
Amplifier for Human Body Detector… ………………
Specification Lineup
Pyroelectric Infrared Sensor Amplifier
Part No.
BD9251FV
Supply Voltage
(V)
DRAIN Voltage
(V)
AMP1/AMP2 Gain
(dB)
Logic Output
2.97 to 6.00
2.3
Max. 46
CMOS
Package
SSOP-B14
Capacitive Switch Controller… …………………………
Specification Lineup
Capacitive Switch Controller ICs
Supply voltage
(V)
Cap switch
LED_Driver
LED_PWM control
Matrix control
Interface
Program memory
Intermittent motion
Package
BU21072MUV
3.0 to 5.5
10ch
6ch
○
4×4
I C
ROM
−
VQFN024V4040
BU21078MUV
3.0 to 5.5
12ch
8ch
○
6×6
I C
ROM
−
VQFN028V5050
BU21079F
3.0 to 5.5
8ch
−
−
4×4
I C
ROM
○
SOP16
BU21077MUV
2.7 to 5.5
8ch
−
−
Adjustable
I2C
RAM
○
VQFN020V4040
Part No.
2
2
2
Touch Screen Controller… ………………………………
Specification Lineup
Capacitive type
Part No.
BU21101MWX
Supply voltage
(V)
MCU
Touch detection
Host I/F
Channel No
Sencing type
Panel size
(inch)
Package
2.7 to 3.6
32bit
5 point
I C
32
mutual
to 5 inch
UQFN040X5050M
2
Resistive type
Supply voltage
(V)
Part No.
MCU
Resolution
Touch detection
Stand-by current
(µA)
Active current
Host I/F
Operating temperature
(°C)
Package
(mm)
2.7 to 3.6
32bit
4096 × 4096
2 point/Single
60
4.0〔mA〕
I2C/SPI
−20 to ＋85
VCSP50L2
☆ BU21029GUL
1.65 to 3.6
−
4096 × 4096
2 point/Single
100
0.8〔mA〕
I C
−20 to ＋85
VCSP50L2
☆ BU21029MUV
1.65 to 3.6
−
4096 × 4096
2 point/Single
100
0.8〔mA〕
I2C
−20 to ＋85
VQFN020V4040
BU21024FV-M
2.7 to 3.6
8bit
1024 × 1024
2 point/Single
60
4.0〔mA〕
I2C/SPI
−40 to ＋85
SSOP-B28
BU21023GUL
2.7 to 3.6
8bit
1024 × 1024
2 point/Single
60
4.0〔mA〕
I C/SPI
−20 to ＋85
VCSP50L2
BU21023MUV
2.7 to 3.6
8bit
1024 × 1024
2 point/Single
60
4.0〔mA〕
I2C/SPI
−20 to ＋85
VQFN028V5050
BU21025GUL
1.65 to 3.6
−
4096 × 4096
Single
0.8
120〔µA〕
I2C
−30 to ＋85
VCSP50L2
BU21021GUL
2
2
2.65 × 2.70, t=0.55
2.0 × 2.0, t=0.55
2.6 × 2.6, t=0.55
2.0 × 1.5, t=0.55
☆：Under Development



High-R panel
available



Operating
temperature range
High speed
sensing
2point
gesture
Supply
voltage range

Thin package
(height 6mm)

Analog
output

Comparator
output
SPI
Interface


Capacitive
Switch
Generate to
coordinate data
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Part No.
Notes
1) The information contained in this document is provided as of 1st. October, 2013.
2) The information contained herein is subject to change without notice. Before you use our Products,
please contact our sales representative (as listed below) and verify the latest specifications.
3) Although ROHM is continuously working to improve product reliability and quality, semiconductors
can break down and malfunction due to various factors. Therefore, in order to prevent personal
injury or fire arising from failure, please take safety measures such as complying with the derating
characteristics, implementing redundant and fire prevention designs, and utilizing backups and
fail-safe procedures. ROHM shall have no responsibility for any damages arising out of the use
of our Products beyond the rating specified by ROHM.
4) Examples of application circuits, circuit constants and any other information contained herein are
provided only to illustrate the standard usage and operations of the Products.The peripheral
conditions must be taken into account when designing circuits for mass production.
5) The technical information specified herein is intended only to show the typical functions of and
examples of application circuits for the Products. ROHM does not grant you, explicitly or implicitly,
any license to use or exercise intellectual property or other rights held by ROHM or any other
parties. ROHM shall have no responsibility whatsoever for any dispute arising out of the use of
such technical information.
6) The Products are intended for use in general electronic equipment (i.e. AV/OA devices, communication, consumer systems, gaming/entertainment sets) as well as the applications indicated in this
document.
7) The Products specified in this document are not designed to be radiation tolerant.
8) For use of our Products in applications requiring a high degree of reliability (as exemplified below),
please contact and consult with a ROHM representative: transportation equipment (i.e. cars, ships,
trains), primary communication equipment, traffic lights, fire/crime prevention, safety equipment,
medical systems, servers, solar cells, and power transmission systems.
9) Do not use our Products in applications requiring extremely high reliability, such as aerospace
equipment, nuclear power control systems, and submarine repeaters.
10) ROHM shall have no responsibility for any damages or injury arising from non-compliance with the
recommended usage conditions and specifications contained herein.
11) ROHM has used reasonable care to ensure the accuracy of the information contained in this
document. However, ROHM does not warrant that such information is error-free and ROHM shall
have no responsibility for any damages arising from any inaccuracy or misprint of such information.
12) Please use the Products in accordance with any applicable environmental laws and regulations,
such as the RoHS Directive. For more details, including RoHS compatibility, please contact a
ROHM sales office as listed below. ROHM shall have no responsibility for any damages or losses
resulting non-compliance with any applicable laws or regulations.
13) When providing our Products and technologies contained in this document to other countries, you
must abide by the procedures and provisions stipulated in all applicable export laws and
regulations, including without limitation the US Export Administration Regulations and the Foreign
Exchange and Foreign Trade Act.
14) This document, in part or in whole, may not be reprinted or reproduced without prior consent of
ROHM.