Products Catalog (Built-in Sensors)(2817KB)

2016.5
http://industrial.panasonic.com/ww/
Built-in Sensor
Built-in sensor contributes to energy savings, safety, and comfort.
Providing sensors for various aspects of our lives.
ON/OFF of exterior lighting
ON/OFF of bicycles light
NaPiCa (Brightness detection)
NaPiCa (Brightness detection)
Increased visibility of LCD TVs and
personal computers.
Air
conditioner
NaPiCa (Brightness detection)
Grid-EYE
(Human detection)
Sphygmomanomater
Backlight dims
when the room
gets dark.
Regular
screen
Pressure Sensor
(Pressure detection)
ON/OFF of door light
Brightness
detection of
an electric
wave clock
Grid-EYE (Human detection)
NaPiCa (Brightness detection)
NaPiCa
(Brightness
detection)
Light turns off Dim lighting
when surround- when it gets dark.
ings are bright.
TICK
When it gets light,
the clock will set
the correct time
by reception of
radio waves.
ON/OFF of blinds
NaPiCa
(Brightness detection)
Illumination at
100% when
Grid-EYE
detects a
person nearby.
Security camera
Returns to
dim lighting
when person
is gone.
Grid-EYE
(Human detection)
ON/OFF of
corridor light
ON/OFF of garage light
NaPiCa
(Brightness detection)
Grid-EYE
(Human detection)
Grid-EYE
(Human detection)
NaPiCa
(Brightness detection)
Car navigation
1-axis Acceleration Sensor
(Inclination detection)
Occupancy detection,
door opening/closing
Water level detection
for washing machine
MA Motion Sensor
(Position detection)
PS-A Pressure Sensor
(Low pressure type)
Acceleration
Microwave oven
Grid-EYE (Temperature measurement)
Brightness
Acceleration Sensors
2-axis GS2
1-axis GS1
1-axis GF1
Light Sensors
Through-hole type
Human
・
Heat
Infrared Array Sensor
Grid-EYE
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Built-in Sensor
Occupancy sensor
Automatic
ventilation fan
MA Motion Sensor
(Position detection)
Automatic door
MA Motion Sensor
(Position detection)
Grid-EYE
(Human detection)
Air bed
Sphygmomanomater
Pressure Sensor
(Pressure detection)
Automatic lighting
in conference room
Pressure Sensor
(Pressure detection)
Automatic ticket gate
Grid-EYE (Human detection)
NaPiCa (Brightness detection)
MA Motion Sensor
(Position detection)
Trapezoidal compensation
of LCD projectors
1-axis Acceleration
Sensor
(Inclination detection)
Motion detection
for ticket vending
machine
MA Motion Sensor
(Position detection)
Customer detection
for automated teller
machine
MA Motion Sensor
(Position detection)
Automatic toilet seat
opening/closing
Security for parking lot
Grid-EYE (Human detection)
NaPiCa (Brightness detection)
MA Motion Sensor (Position detection)
Construction machinery
(inclination detection)
Color mode screen
in the day.
1-axis Acceleration Sensor
Non-contact switch
MA Motion Sensor (Position detection)
Motion detection for
instant photography machine
Running machine
Grid-EYE (Human detection)
MA Motion Sensor
(Position detection)
Automatic lighting
for vending machine
ON/OFF of lighting
Grid-EYE (Human detection)
ON/OFF of street light
NaPiCa (Brightness detection)
NaPiCa
(Brightness detection)
Screen switches to
night vision mode
when it gets dark.
Permit dispenser for parking lot
MA Motion Sensor (Position detection)
Motion
Pressure
Motion Sensors
Thin short type
(V type)
Pressure Sensors
Short type
(H type)
PS
PS-A
Middle type
(H type)
Long type
(H type)
Long type
(V type)
PS-A
(Low pressure type)
PF
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Built-in Sensor Selector Chart
Equipment sensors for improved comfort and convenience, safety and energy conservation
Acceleration
Sensors
Made possible by leading-edge MEMS technology, this acceleration sensor is ideal for automotive and mobile devices.
Acceleration Sensor
Accel
Acceleeratiratioonn
Product name
±2g
±1.5g
z High precision and high sensitivity
z High reliability: Detection errors due to
temperature fluctuation reduced to a
minimum.
z Product lineup covers range of operating
voltage and acceleration detection.
1-axis GS1
1-axis GF1
z Fast response, high reliability
z Compact size
±0.5g
±1.2g
Bracket
Making us more comfortable with energy efficient devices...Environmentally friendly, cadmium-free
Light Sensor
Light
Sensors
Characteristics
2-axis GS2
Direct mount
BriBrigghtness
htness
Acceleration detection range
Product name
Peak sensitivity wave length
Characteristics
z Cadmium-free
z Built-in optical filter for spectral response
similar to that of the human eye.
z Photocurrent is proportional to
illumination. (linear output)
Light Sensor
580nm
Through-hole type
Motion
Motion
Motion sensors that always detect your slightest movement
Product name
MA Motion Sensor
Motion Sensor
Area reflective type
Motion
Sensors
Thin short Short type
type (V type) (H type)
Middle type
(H type)
Detection method
Characteristics
z The sensors are ready for immediate
use by simply connecting to a DC
power supply.
Detection
Built-in
The built-in oscillation circuit removes
distance
oscillation
Detecting the
5 cm to 200 cm
the need to input a start signal.
circuit
presence of the
1.969 inch to z Can be used with a number of
type
human body (or
78.74 inch
different supply voltages.
another object) by the
1) 5 V.DC type (4.5 V.DC to 5.5 V.DC)
reflected beam of
2) Free-ranging type (5.5 V.DC to 27 V.DC)
LED light from the
sensor itself.
Sensor
Long type (H type) Long type (V type)
Type
z These sensors can be used in
adjacent positions and can save
Detection
energy.
External
distance
z Can be used with a number of
trigger
5 cm to 200 cm
different supply voltages.
type
1.969 inch to
1) 5 V.DC type (4.5 V.DC to 5.5 V.DC)
78.74 inch
2) Free-ranging type (5.5 V.DC to 27 V.DC)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Built-in Sensor Selector Chart
Pressure
Pressure
Detection method
Product name
Type
Characteristics
z Temperature detection achieved
on a two dimensional area with
8 × 8 (64) pixels.
z Digital output
z Miniature SMD package
Grid-EYE
Detecting the heat
(infrared rays) of the
human body and
other objects.
Thermopile type
Infrared
Array
Sensor
High Precision Infrared Array Sensor based on Advanced MEMS Technology
Infrared Array Sensors
+XPDQ
+XPDQ
Heat
Heat
Operating
voltage
3.3 V.DC
5.0 V.DC
Sensor
Amplification
factor
High gain
Low gain
A wide range of rated pressure, including minute pressures
Product name
Pressure
medium
3mm
í
200, 500, 1,000 *40kPa
Pressure Sensors
Terminal Pressure inlet
direction hole length
Rated pressure
PS-A Pressure
Sensor
Pressure
Sensors
Type (*Without glass base type)
Opposite the
pressure inlet
direction
5mm
Characteristics
z Compact pressure sensor
with built-in amplification
and temperature
compensation circuit
Air
5mm
3mm dia.
<Low pressure type>
（SMD terminal）
6kPa
13.5mm
5.45mm dia.
Rated pressure Bridge resistance
PS Pressure Sensor
PF Pressure Sensor
4.9, 34.3, 49.0,
98.1, 196.1,
343.2, 490.3,
833.6, 980.7 kPa
Opposite the
pressure inlet
direction
N
Air
（SMD terminal）
*40 kPa
98.1, 980.7kPa
N
z Low pressure type ideal
for water level detection
applications added to
lineup.
z Ultra-miniature Base area
7.2 (W) x 7.2 (D) mm
.283 (W) x .283 (D) inch
z A wide range of rated
pressure, including a
minute pressure.
Pressure inlet
direction
(PS only)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS2 Sensor (AGS2)
High-precision MEMS
2-axis acceleration sensor
GS2 SENSOR
Y-axis
X-axis
: Direction of acceleration detection
Features
● High precision, high reliability : offset temperature characteristics ±38 mg (Typ.)
● High sensitivity
: 1 to 1.333 V/g(5 V.DC)
● Line-up for various operating power supply voltages and acceleration detection
● RoHS compliant
ranges.
Typical Applications
● Car Electronics
● Ships and special
● Other
: Car navigation systems, Car security, Drive recorders
vehicles : Marine equipment, construction/agricultural machines and welfare vehicles
: Theft prevention for faculty equipment, Measuring devices
(levels, measuring instruments)
Ordering Information
AGS 2 1
1
Package type/Size
1 : Ceramic package/6.2 × 8.5 mm
Number of detectable axis (Method)
2 : 2-axis Acceleration Sensor
(Electrostatic capacitance type)
Detection sensitivity
1 : 1 V/g
3 : 1.333 V/g
6 : 0.6 V/g
8 : 0.8 V/g
Operation power supply
voltage/Output type
3 : 3 V.DC/Analog output
5 : 5 V.DC/Analog output
Type
1 : Built-in ASIC
Types
Standard packing : Carton : 1,000 pcs.
Product name
Operation power
supply voltage
3 V.DC
2-axis
Acceleration sensor GS2
Acceleration
detection range
±2 g
5 V.DC
Detection sensitivity
Part number
0.6V/g
AGS21631
±1.5 g
0.8V/g
AGS21831
±2 g
1V/g
AGS21151
±1.5 g
1.333V/g
AGS21351
Absolute Maximum Ratings
Name
Unit
Max. applied voltage
V
Absolute maximum ratings
Min.
Typ.
Max.
–0.3
−
7
Storage temperature range
°C °F
–40 –40
−
85 185
Operation temperature range
°C °F
–40 –40
−
85 185
Anti-shock characteristic
g
−
−
5,000
Remarks
Ta=25 °C 77 °F
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS2 Sensor (AGS2)
Electrical Characteristics
Item
Acceleration detection range ✽1
Operation power supply
voltage
Current consumption
Sensitivity
Offset voltage (0 g)
Temperature sensitivity
characteristic
Offset voltage temperature
characteristic
Other axis sensitivity ✽2
Non-linearity ✽3
Performance
Min.
Typ.
Max.
Unit
AGS AGS AGS AGS AGS AGS AGS AGS AGS AGS AGS AGS
21151 21351 21631 21831 21151 21351 21631 21831 21151 21351 21631 21831
g
−2 −1.5 −2 −1.5
−
2
1.5
2
1.5
V.DC
4.75
2.85
mA
−
−
V/g 0.975 1.3 0.585 0.78
V 2.44 2.42 1.464 1.452
%
−2
mg
−55
%
%FS
−5
−1
Turn-on time ✽4
ms
−
Frequency response
Hz
DC
Remarks
−40 °C to +85 °C
–40 °F to +185 °F
2
1.8
5
5
0g, Ta=25 °C 77 °F
1 1.333 0.6 0.8 1.025 1.366 0.615 0.82 Ta=25 °C 77 °F
2.5
1.5
2.56 2.58 1.536 1.548 Ta=25 °C 77 °F
−40 °C to +85 °C
−
2
–40 °F to +185 °F
−40 °C to +85 °C
−
55
–40 °F to +185 °F
−
5
Ta=25 °C 77 °F
−
1
Ta=25 °C 77 °F
0g, Ta=25 °C 77 °F
10
−
C1=220 nF, C2, C3=27 nF
−3 dB point,
−
60
C2=27 nF
5
3
5.25
3.15
2
Notes : ✽1 The acceleration unit “g” means 9.8 m/s .
✽2 VDD typical value of each part number when nothing is speciﬁed.
✽3 Maximum error from linear output that connects +2 g and –2 g output. (AGS21151, AGS21631)
Maximum error from linear output that connects +1.5 g and –1.5 g output. (AGS21351, AGS21831)
✽4 “C1” is a ceramic capacitor installed between the VDD and GND terminals. “C2” is a ceramic capacitor installed between the Vout (X) and Ext-Cap (X) terminals.
“C3” is a ceramic capacitor installed between the Vout (Y) and Ext-Cap (Y) terminals.
✽5 The frequency characteristics can be changed depending on the C2 and C3 capacitance value. Please refer to “Recommended circuit diagram” on the following
page. Note that the maximum frequency response is 60 Hz
Reference Data
4.0
Output voltage (V)
Output voltage (V)
4.0
3.5
3.0
2.5
2.0
1.5
−0.5
0.0
0.5
Acceleration (g)
2.5
2.0
1.0
−100 −80 −60 −40 −20 0 20 40 60 80 100
Inclination angle ( °)
1.0
3.-2 Sensitivity temperature
characteristics Y-axis (5 V.DC)
Sensitivity change (measured value) (%)
3.0
1.5
5
4
3
2
1
0
−1
−2
−3
−4
−5
−40 −20 0
20 40 60 80 100
−40 −4 +32 +68 +104 +140 +176 +212
Temperature (°C °F)
4.-1 Offset voltage temperature
characteristics X-axis (5 V.DC)
Offset voltage change (measured value) (mg)
1.0
−1.0
3.5
3.-1 Sensitivity temperature
characteristics X-axis (5 V.DC)
Sensitivity change (measured value) (%)
2. Inclination angle - Output voltage
characteristics (AGS21151)
100
80
60
40
20
0
−20
−40
−60
−80
−100
−40 −20 0
20 40 60 80 100
−40 −4 +32 +68 +104 +140 +176 +212
Temperature (°C °F)
5
4
3
2
1
0
−1
−2
−3
−4
−5
−40 −20 0
20 40 60 80 100
−40 −4 +32 +68 +104 +140 +176 +212
Temperature (°C °F)
4.-2 Offset voltage temperature
characteristics Y-axis (5 V.DC)
Offset voltage change (measured value) (mg)
1. Output characteristics
(AGS21151)
100
80
60
40
20
0
−20
−40
−60
−80
−100
−40 −20 0
20 40 60 80 100
−40 −4 +32 +68 +104 +140 +176 +212
Temperature (°C °F)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS2 Sensor (AGS2)
5. Frequency characteristics
(C2,C3=27 nF)
0.00
Gain (dB)
−1.00
−2.00
−3.00
−4.00
−5.00
Note : The frequency characteristics can be changed
depending on the C2,C3 capacitance value.
Please refer to “Recommended circuit diagram”
on the following page.
−6.00
−7.00
1
10
Frequency (Hz)
60 100
Dimensions
14
mark can be downloaded from: http://industrial.panasonic.com/
Number Terminal Name
NC
1
GND
2
NC
3
Vout(X)
4
5 Ext-Cap(X)
GND
6
NC
7
6.2±0.2
0.244±0.008
8
AGS21151
Part
number
141001
1
7
Lot number
1.6±0.2
0.063±0.008
8.5±0.2
0.335±0.008
4-0.08
4-0.003 1
4-0.42
4-0.017
Number Terminal Name
NC
8
VDD
9
J Ext-Cap(Y)
Vout(Y)
K
NC
L
NC
M
NC
N
Leave terminal “NC (No. 1, 3, 7, 8 and 12 to 14)”
unconnected.
The No. 2 and No. 6 terminals are connected internally.
10-0.5
7 10-0.020
Recommended
PC board pad
0.8
0.031 0.7
0.028
0.8
0.031
0.9
0.035
6.9
0.272
The CAD data of the products with a
P1.27±0.05×4=5.08
P0.050±0.002×4=0.200
8.1±0.05
0.319±0.002
1.2
0.047
General tolerance : ±0.1 ±0.04
unit : mm inch
14
P1.27×4
P0.500×4
8
General tolerance : ±0.1 ±0.04
Recommended Circuit Diagram
5 V.DC
VDD
C1:
220 nF
Min.
Vout(X)
Ext-Cap(X)
Vout(Y)
GND
Ext-Cap(Y)
C2 :
27 nF
C3 :
27 nF
Sensor
Output(X)
Sensor
Output(Y)
The frequency characteristics value can be changed
depending on the C2 and C3 capacitance value.
−3dB bandwidth is expressed in the formula below.
1
f-3dB=
2π×(100 kΩ)×(C2 or C3)
Packing Format (Tape And Reel)
17.4±1
0.685±0.039
13.4±1
80±1 dia.
3.150±0.039 dia. 0.528±0.039
0.3±0.05
0.012±0.002
Top cover tape
Embossed carrier tape
1.5±0.1 dia.
0.059+0.004 dia.
4.0±0.1
0.157±.004
12.0±0.1
0.472±.004
1.5+0.1
0 dia.
0.059+0.004
dia.
0
2.0±0.05
0.079±0.002
141001
AGS21151
Direction of picking
9.0±0.1
0.354±0.004
141001
AGS21151
6.7±0.1
0.264±0.004
1.75±0.1
0.069±0.004
Dimensions of tape reel
2.0±0.5
0.079±0.020
21±0.8 dia. 0.827±0.031 dia.
13±0.2 dia. 0.512±0.008 dia.
80±1 dia.
3.150±0.039 dia.
254±2 dia.
10.000±0.079 dia.
Tape dimensions
12.0±0.2
0.472±0.008
5.5±0.05
0.217±0.002
unit : mm inch
1.95±0.2
0.077±0.008
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS2 Sensor (AGS2)
NOTES
■ Before use, carefully check theperformance and
quality under actualuse conditions to enhance stability.
T1 = 150 to 180 °C
302 to 356 °F
T2 = 230 °C 446 °F
T3 = Below 250 °C 482 °F
t1 = 60 to 120 sec.
t2 = Less than 30 sec.
T3
T2
T1
■ Mounting
• Use the land of the printed-circuit boardon which
the sensor is securely fixed.
• A large noise on the power supply may cause
malfunction. Place the recommended capacitor near
the sensor (within 20 mm 0.787 inch of the wiring
pattern length) between sensor input terminals
(VDD-GND) to secure power superimposed noise
resistance. Test with the actual machine and reselect the capacitor with optimal capacitance.
• Prevent the metal par t of other electronic
components from contacting with the sensor
body as the upper face (where part numbers are
imprinted) of the sensor is GND.
■ Soldering
• When soldering, avoid the external thermal
influence. Heat deformation may damage the
sensor or deteriorate its performance.
• Use the non-corrosive rosin flux.
1) Manual soldering
• Raise the temperature of the soldering tip
between 350 and 400 °C 662 and 752 °F
(30 and 60W) and solder within 3 seconds.
• The sensor output may vary if the load is
applied on the terminal during soldering.
• Keep the soldering tip clean.
2) Reflow soldering
Below are recommended temperature profiles/
conditions of reflow.
• When printing cream solder, the screen
printing method is recommended.
• For the foot pattern, see the recommended
diagram of the printed-circuit board.
• Carefully align the terminal with the pattern
as self-alignment may not be reliable.
• The temperature of the profile is the value
measured near the terminal on the printedcircuit board.
• After reflowing, when performing reflow
soldering on the back surface of the circuit
board, use an adhesive to fix the board.
3) Rework soldering
• Complete rework at a time.
• Use a flattened soldering tip when
performing rework on the solder bridge.
Do not add the flux.
• Keep the soldering tip below the temperature
described in the specifications.
4) After soldering, do not apply stress on the soldered
part when cutting or bending the circuit board.
5) Prevent human hands or metal pieces from
contacting with the sensor terminal. Such
contact may cause anomalous outlets as the
terminal is exposed to the atmosphere.
6) After soldering, prevent chemical agents
from adhering to the sensor when applying
coating to avoid insulation deterioration of the
circuit board.3. Maximum applied pressure
The maximum pressure that can be applied
to the pressure sensor, after which, when
the pressure is returned to below the rated
pressure range, the specifications of the
pressure sensor are guaranteed.
t1
t2
■ Wire connection
• Correctly wire as in the connection diagram.
Reverse connection may damage the product and
degrade the performance.
• Do not connect wires with NC terminals. Such
connection may damage the sensor.
■ Cleaning
Avoid ultrasonic cleaning as this maycause
disconnection of the wire.
■ Environment
• Avoid use and storage in the corrosive gas (organic
solvent, sulfurous acid and hydrogen sulfide gases)
which negatively affects the product.
• When installing the sensor, also install the
capacitor as in the connection diagram.
• Use surge absorbers as applying the external
surge voltage may damage the internal circuit.
• Malfunction may occur near electric noises from
static electricity, lightning, broadcast or amateur
radio stations and mobile phones.
• Avoid use in a place where these products come
in contact with water.
• Avoid use in an environment where these products
cause dew condensation. When water attached to
the sensor chip freezes, the sensor output may be
fluctuated or damaged.
• Do not apply high-frequency oscillation, such as
ultrasonic waves, to the product.
■ Other precautions
These specifications are for individual components.
Before use, carefully checkthe performance and quality
under actual use conditions to enhance stability.
• Once the individual sensor is dropped, do not
use. Drop may cause functional disorders.
• Misconnection and the wrong acceleration sensing
range may invite the risk of accidents.
• Ensure that using acceleration is within the rated range.
Use beyond the range may damage the product.
• Follow the instructions below as static electricity
may damage the product.
(1) For storage and transportation, avoid plastic
containers which are easily electrified.
(2) When storing and transporting the sensor,
choose the environment where static electricity
is hardly generated (e.g., humidity between 45
and 60 %) and protect the product by using
electroconductive packaging materials.
(3) Once unpacked, perform antistatic countermeasures.
• Operators handling sensors must wear antistatic
cloths and human body grounding devices.
• Cover the surface of workbench by electroconductive plates and ground measuring
instruments and jigs.
• Use the soldering iron which has a small
leakage current or ground the soldering tip.
• Ground the assembling equipment.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS2 Sensor (AGS2)
(4) Use surge absorbers as applying the external
surge voltage may damage the internal circuit.
(surge resistance: power supply voltage as in
the absolute maximum rating)
■ Special notes
We exert maximum efforts for quality control of the
product, Please mind also about the following.
1) To p r e v e n t o c c u r r e n c e o f u n e x p e c t e d
circumstances, please infor m us of the
specifications of your product, customers,
use conditions and details of the attachment
position.
2) Have sufficient margin values of driving/
performance guarantee described in the
specifications and apply safety measures with
double circuits, if serious effects on human
lives or property are predicted due to a quality
failure of the product. Those countermeasures
are also for the product liability.
3) A warranty period is one year after the delivery
to your company. Quality assurance is limited
to the items and the scopes described
in the specifications. If a defect is found
after the delivery, we will promptly provide
a replacement or change/repair the defect
part at the place of delivery in good faith.
Exceptions are below.
• Damages by a failure or a defect which
arose after the delivery.
• A f t e r t h e d e l i v e r y, w h e n s t o r i n g a n d
transporting, if conditions other than
conditions in the specifications are applied to
the product.
• Damages by unforeseen phenomenon which
cannot be predicted with the technologies
available at the time of delivery.
• Damages by natural and anthropogenic
disasters, such as earthquake, flood, fire
and war, which are beyond our reasonable
control.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS1 Sensor (AGS1)
High-precision MEMS
1-axis acceleration sensor
GS1 SENSOR
X-axis
: Direction of acceleration detection
Features
● High precision, high
● High sensitivity
● RoHS compliant
reliability : Offset temperature characteristics ±47 mg (Typ.)
: 1 to 1.333 V/g (5 V.DC)
Typical Applications
● Car navigation systems
● Projectors (trapezoidal distortion correction)
● Elevators, welfare equipment (inclination detection)
Ordering Information
AGS 1 1
5 1
Detection sensitivity
1 : 1 V/g
3 : 1.333 V/g
Package type/Size
1 : Ceramic package/6.2 × 8.5 mm
Number of detectable axis (Method)
1 : 1-axis Acceleration Sensor
(Electrostatic capacitance type)
Operation power supply
voltage/Output type
5 : 5 V.DC/Analog output
Type
1 : Built-in ASIC
Types
Standard packing : Carton : 1,000 pcs.
Product name
Operation power
supply voltage
1-axis
Acceleration sensor GS1
5 V.DC
Acceleration
detection range
±2 g
±1.5 g
Detection sensitivity
Part number
1 V/g
AGS11151
1.333 V/g
AGS11351
Absolute Maximum Ratings
Name
Unit
Absolute maximum ratings
Min.
Typ.
Max.
Max. applied voltage
V
–0.3
−
7
Storage temperature range
°C ° F
–40 –40
−
85 185
Operation temperature range
°C ° F
–40 –40
−
85 185
Anti-shock characteristic
g
−
−
5,000
Remarks
Ta=25 °C 77 ° F
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS1 Sensor (AGS1)
Electrical Characteristics
g
Min.
AGS21151 AGS21351
−2
−1.5
Performance
Typ.
AGS21151 AGS21351
−
Max.
AGS21151 AGS21351
2
1.5
V.DC
4.75
5
5.25
Item
Unit
Acceleration detection range ✽1
Operation power supply
voltage
Current consumption
Sensitivity
Offset voltage (0 g)
Temperature sensitivity
characteristic
Offset voltage temperature
characteristic
Other axis sensitivity ✽2
Non-linearity ✽3
mA
V/g
V
−
0.97
2
1.293
1
5
1.333
1.03
1.373
2.4
2.5
2.6
%
−4
−
4
mg
−70
−
70
%
%FS
−5
−1
−
−
5
1
Turn-on time ✽4
ms
−
10
−
Frequency response ✽5
Hz
DC
60
−
Remarks
−40 °C to +85 °C
–40 °F to +185 °F
0g, Ta=25 °C 77 °F
Ta=25 °C 77 °F
Ta=25 °C 77 °F
−40 °C to +85 °C
–40 °F to +185 °F
−40 °C to +85 °C
–40 °F to +185 °F
Ta=25 °C 77 °F
Ta=25 °C 77 °F
0g, Ta=25 °C 77 °F
C1=220 nF, C2=27 nF
−3 dB point,
C2=27 nF
Notes : ✽1 The acceleration unit “g” means 9.8 m/s2.
✽2 VDD=5 V when there is no indication.
✽3 Maximum error from linear output that connects +2 g and –2 g output. (AGS11151)
Maximum error from linear output that connects +1.5 g and –1.5 g output. (AGS11351)
✽4 “C1” is a ceramic capacitor installed between the VDD and GND terminals. “C2” is a ceramic capacitor installed between the Vout and Ext-Cap terminals.
✽5 The frequency characteristics can be changed depending on the C2 capacitance value. Please refer to “Recommended circuit diagram” on the
following page. Note that the maximum frequency response is 200 Hz.
Reference Data
1. Output characteristics
(AGS11151)
2. Inclination angle - Output voltage
characteristics (AGS11151)
3.5
3.0
2.5
2.0
1.5
−0.5
0.0
0.5
Acceleration (g)
3.0
2.5
2.0
1.0
−100 −80 −60 −40 −20 0 20 40 60 80 100
Inclination angle ( °)
1.0
4. Offset voltage temperature
characteristics (5 V.DC)
100
80
60
40
20
0
−20
−40
−60
−80
−100
−40 −20 0
20 40 60 80 100
−40 −4 +32 +68 +104 +140 +176 +212
Temperature (°C °F)
Offset voltage change (measured value) (mg)
3.5
1.5
5
4
3
2
1
0
−1
−2
−3
−4
−5
−40 −20 0
20 40 60 80 100
−40 −4 +32 +68 +104 +140 +176 +212
Temperature (°C °F)
5. Frequency characteristics
0.00
(C2=27 nF)
−1.00
Gain (dB)
1.0
−1.0
Sensitivity change (measured value) (%)
4.0
Output voltage (V)
Output voltage (V)
4.0
3. Sensitivity temperature
characteristics (5 V.DC)
−2.00
−3.00
−4.00
−5.00
−6.00
−7.00
1
10
Frequency (Hz)
60 100
Note : The frequency characteristics can be
changed depending on the C2 capacitance
value. Please refer to “Recommended circuit
diagram” on the following page.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS1 Sensor (AGS1)
Dimensions
The CAD data of the products with a
AGS11151
7
Lot number
1.6±0.2
0.063±0.008
8.5±0.2
0.335±0.008
Number Terminal Name
NC
1
GND
2
NC
3
Vout
4
Ext-Cap
5
GND
6
NC
7
Part
number
141001
1
Recommended
PC board pad
8
4-0.42
4-0.017
10-0.5
7 10-0.020
0.8
0.031 0.7
0.028
0.8
0.031
P1.27±0.05×4=5.08
P0.050±0.002×4=0.200
8.1±0.05
0.319±0.002
Leave terminal “NC (No. 1, 3, 7, 8 and 10 to 14)”
unconnected.
The No. 2 and No. 6 terminals are connected internally.
1.2
0.047
4-0.08
4-0.003 1
Number Terminal Name
NC
8
VDD
9
NC
J
NC
K
NC
L
NC
M
NC
N
0.9
0.035
6.9
0.272
6.2±0.2
0.244±0.008
14
mark can be downloaded from: http://industrial.panasonic.com/
General tolerance : ±0.1 ±0.04
General tolerance : ±0.1 ±0.04
14
8
P1.27×4
P0.500×4
unit : mm inch
Recommended Circuit Diagram
5 V.DC
Sensor
Output
C1:
220 nF
Min.
VDD
Vout
GND
Ext
-Cap
The frequency characteristics value can be changed
depending on the C2 capacitance value.
-3dB bandwidth is expressed in the formula below.
C2:
27 nF
f-3dB=
1
2π×(100 kΩ)×C2
Packing Format (Tape And Reel)
12.0±0.2
0.472±0.008
5.5±0.05
0.217±0.002
Dimensions of tape reel
1.75±0.1
0.069±0.004
17.4±1
0.685±0.039
13.4±1
80±1 dia.
3.150±0.039 dia. 0.528±0.039
0.3±0.05
0.012±0.002
141001
Embossed carrier tape
1.5±0.1 dia.
0.059±0.004 dia.
4.0±0.1
0.157±0.004
12.0±0.1
0.472±0.004
AGS11151
6.7±0.1
0.264±0.004
2.0±0.05
0.079±0.002
141001
AGS11151
Direction of picking
9.0±0.1
0.354±0.004
Top cover tape
1.5+0.1
0 dia.
0.59+0.004
dia.
0
2.0±0.5
0.079±0.020
21±0.8 dia. 0.827±0.031 dia.
13±0.2 dia. 0.512±0.008 dia.
80±1 dia.
3.150±0.039 dia.
254±2 dia.
10.000±0.079 dia.
Tape dimensions
unit : mm inch
1.95±0.2
0.077±0.008
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS1 Sensor (AGS1)
NOTES
■ Before use, carefully check the performance and
quality under actual use conditions to enhance stability.
■ Mounting
• Use the land of the printed-circuit board on which
the sensor is securely fixed.
• A large noise on the power supply may cause
malfunction. Place the recommended capacitor
near the sensor (within 20 mm 0.787 inch
of the wiring patternlength) between sensor
input terminals (VDD-GND) to secure power
superimposed noise resistance. Test with the
actual machine and re-select the capacitor with
optimal capacitance.
• Prevent the metal par t of other electronic
components from contacting with the sensor
body as the upper face (where part numbers are
imprinted) of the sensor is GND.
■ Soldering
• When soldering, avoid the external thermal
influence. Heat deformation may damage the
sensor or deteriorate its performance.
• Use the non-corrosive rosin flux.
1) Manual soldering
• Raise the temperature of the soldering tip
between 350 and 400 °C 662 and 752 °F
(30 and 60 W) and solder within 3 seconds.
• The sensor output may vary if the load is
applied on the terminal during soldering.
• Keep the soldering tip clean.
2) Reflow soldering
Below are recommended temperature profiles/
conditions of reflow.
• When printing cream solder, the screen
printing method is recommended.
• For the foot pattern, see the recommended
diagram of the printed-circuit board.
• Carefully align the terminal with the pattern
as self-alignment may not be reliable.
• The temperature of the profile is the value
measured near the terminal on the printedcircuit board.
• After reflowing, when performing reflow
soldering on the back surface of the circuit
board, use an adhesive to fix the board.
3) Rework soldering
• Complete rework at a time.
• Use a flattened soldering tip when
performing rework on the solder bridge.
Do not add the flux.
• Keep the soldering tip below the temperature
described in the specifications.
4) After soldering, do not apply stress on the
soldered part when cutting or bending the
circuit board.
5) Prevent human hands or metal pieces from
contacting with the sensor terminal. Such
contact may cause anomalous outlets as the
terminal is exposed to the atmosphere.
6) After soldering, prevent chemical agents from
adhering to the sensor when applying coating
to avoid insulation deterioration of the circuit
board.
T1 = 150 to 180 °C
302 to 356 °F
T2 = 230 °C 446 °F
T3 = Below 250 °C 482 °F
t1 = 60 to 120 sec.
t2 = Less than 30 sec.
T3
T2
T1
t1
t2
■ Wire connection
• Correctly wire as in the connection diagram.
Reverse connection may damage the product and
degrade the performance.
• Do not connect wires with NC terminals. Such
connection may damage the sensor.
■ Cleaning
Avoid ultrasonic cleaning as this may cause
disconnection of the wire.
■ Environment
• Avoid use and storage in the corrosive gas
(organic solvent, sulfurous acid and hydrogen
sulfide gases) which negatively affects the product.
• When installing the sensor, also install the
capacitor as in the connection diagram.
• Use surge absorbers as applying the external
surge voltage may damage the internal circuit.
• Malfunction may occur near electric noises from
static electricity, lightning, broadcast or amateur
radio stations and mobile phones.
• Avoid use in a place where these products come
in contact with water.
• Avoid use in an environment where these products
cause dew condensation. When water attached to
the sensor chip freezes, the sensor output may be
fluctuated or damaged.
• Do not apply high-frequency oscillation, such as
ultrasonic waves, to the product.
■ Other precautions
These specifications are for individual components.
Before use, carefully check the performance and quality
under actual use conditions to enhance stability.
• Once the individual sensor is dropped, do not
use. Drop may cause functional disorders.
• Misconnection and the wrong acceleration sensing
range may invite the risk of accidents.
• Ensure that using acceleration is within the rated range.
Use beyond the range may damage the product.
• Follow the instructions below as static electricity
may damage the product.
(1) For storage and transportation, avoid plastic
containers which are easily electrified.
(2) When storing and transporting the sensor,
choose the environment where static electricity
is hardly generated (e.g., humidity between 45
and 60 %) and protect the product by using
electroconductive packaging materials.
(3) Once unpacked, perform antistatic countermeasures.
• Operators handling sensors must wear
antistatic cloths and human body grounding
devices.
• Cover the surface of workbench by electroconductive plates and ground measuring
instruments and jigs.
• Use the soldering iron which has a small
leakage current or ground the soldering tip.
• Ground the assembling equipment.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
GS1 Sensor (AGS1)
(4) Use surge absorbers as applying the external
surge voltage may damage the internal circuit.
(surge resistance: power supply voltage as in
the absolute maximum rating)
■ Special notes
We exert maximum efforts for quality control of the
product, Please mind also about the following.
1) To p r e v e n t o c c u r r e n c e o f u n e x p e c t e d
circumstances, please infor m us of the
specifications of your product, customers,
use conditions and details of the attachment
position.
2) Have sufficient margin values of driving/
performance guarantee described in the
specifications and apply safety measures with
double circuits, if serious effects on human
lives or property are predicted due to a quality
failure of the product. Those countermeasures
are also for the product liability.
3) A warranty period is one year after the
delivery to your company. Quality assurance is
limited to the items and the scopes described
in the specifications. If a defect is found
after the delivery, we will promptly provide
a replacement or change/repair the defect
part at the place of delivery in good faith.
Exceptions are below.
• Damages by a failure or a defect which
arose after the delivery.
• A f t e r t h e d e l i v e r y, w h e n s t o r i n g a n d
transporting, if conditions other than
conditions in the specifications are applied to
the product.
• Damages by unforeseen phenomenon which
cannot be predicted with the technologies
available at the time of delivery.
• Damages by natural and anthropogenic
disasters, such as earthquake, flood, fire
and war, which are beyond our reasonable
control.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
AGF1
Electrostatic capacitance detection sensor
1-axis acceleration sensor
GF1
Direct mount
Bracket
Features
● High precision, High
● High sensitivity
● Compact size
● RoHS compliant
reliability : Superior offset voltage temperature characteristics (±33 mg (Typ.))
: 1.333 to 3.0 V/g
: 58×36.5×33 mm 2.283×1.437×1.299 inch (Direct-mount type)
Typical Applications
● Automobiles
● Special vehicles
: 4WD-ABS control, neutral control, idling stop system and suspension control
: Inclination detection (for enhanced safety and operating efﬁciency) of agricultural
machine, construction machine and welfare vehicles
● Photovoltaic generation : Sun tracking panels
Ordering Information
AGF 1
1
Installation type
0 : Direct mount
1 : Bracket
Detection sensitivity
3 : 0.136 V/(m/s2) (1.333 V/g)
7 : 0.306 V/(m/s2) (3.0 V/g)
Operation power supply voltage
1 : 5 V.DC
2 : 12 V.DC
3 : 24 V.DC
Number of detectable axis (Method)
1 : 1-axis accleration sensor
(Electrostatic capacitance type)
Installation direction type
1 : Horizontal type
Product Types
Carton : 80 pcs. (Bracket), 150 pcs. (Direct mount)
Operation power Acceleration detection
Detection sensitivity
supply voltage
range
±11.76 m/s2 (±1.2 g) 0.136 V/(m/s2) (1.333 V/g)
5 V.DC
0.306 V/(m/s2) (3.0 V/g)
±4.9 m/s2 (±0.5g)
Product name
1-axis
accleration sensor
GF1
12 V.DC
Part number
AGF11311
Direct mount
AGF10711
±11.76 m/s2 (±1.2 g)
0.136 V/(m/s2) (1.333 V/g)
Direct mount
AGF10321
2
0.306 V/(m/s2) (3.0 V/g)
Direct mount
AGF10721
±11.76 m/s (±1.2 g)
2
0.136 V/(m/s ) (1.333 V/g)
Direct mount
AGF10331
±4.9 m/s2 (±0.5g)
0.306 V/(m/s2) (3.0 V/g)
Direct mount
AGF10731
±4.9 m/s (±0.5g)
2
24 V.DC
Installation
type
Bracket
Absolute Maximum Ratings
Product name
Maximum allowable voltage
Maximum applied
acceleration
AGF1□3□1
AGF1□7□1
Absolute maximum ratings
Remarks
AGF1□□21
AGF1□□31
AGF1□□11
(Power supply: 5 V.DC type) (Power supply: 12 V.DC type) (Power supply: 24 V.DC type)
V.DC
7
16
30
Max. Ta=25 °C 68 °F
Unit
g
15
Max.
5
Max.
Storage temperature range
°C °F
−30 to 85 –22 to 185
Operation temperature range
°C °F
−30 to 85 –22 to 185
g
5,000
Anti-shock characteristic
Grade of protection
✽
Max.
IP67
Note : ✽ Performance when matching connector is connected.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
AGF1
Electrical Characteristics
● AGF1□3□1
(Sensitivity : 1.333 V/g type)
Item
Unit
Operation power supply voltage V.DC
Performance
AGF1□□21
AGF1□□31
AGF1□□11
(Power supply: 5 V.DC type) (Power supply: 12 V.DC type) (Power supply: 24 V.DC type)
5 V.DC±5 %
Acceleration detection range ✽1 g (°)
12 V.DC±10 %
24 V.DC±10 %
Remarks
−30 °C to +85 °C
–22 °F to +185 °F
±1.2 (90)
Current consumption
mA
Sensitivity
V/g
1.333±3 %
V
2.5±0.1
0g, Ta=20 °C 68 °F, Max.
−30 °C to +85 °C
–22 °F to +185 °F
Ta=20 °C 68 °F
V
±0.093
−30 °C to +85 °C
–22 °F to +185 °F
Offset voltage (0g)
Offset voltage temperature
characteristic
Other axis sensitivity
Non-linearity ✽2
Frequency response
10
15
%
±5
Ta=20 °C 68 °F
%FS
±1
Ta=20 °C 68 °F
Hz
10 to 15
–3 dB point
Clamping voltage VH ✽3
V
4.5
−
−
Typ.
✽3
V
0.5
−
−
Typ.
Clamping voltage VL
● AGF1□7□1
(Sensitivity : 3.0 V/g type)
Item
Unit
Operation power supply voltage V.DC
Performance
AGF1□□21
AGF1□□31
AGF1□□11
(Power supply: 5 V.DC type) (Power supply: 12 V.DC type) (Power supply: 24 V.DC type)
5 V.DC±5 %
Acceleration detection range ✽1 g (°)
12 V.DC±10 %
24 V.DC±10 %
Remarks
−30 °C to +85 °C
–22 °F to +185 °F
±0.5 (30)
Current consumption
mA
Sensitivity
V/g
3.0±3 %
V
2.5±0.1
0g, Ta=20 °C 68 °F, Max.
−30 °C to +85 °C
–22 °F to +185 °F
Ta=20 °C 68 °F
V
±0.21
−30 °C to +85 °C
–22 °F to +185 °F
%
±5
Ta=20 °C 68 °F
%FS
±1
Ta=20 °C 68 °F
Hz
10 to 15
–3 dB point
Offset voltage (0g)
Offset voltage temperature
characteristic
Other axis sensitivity
Non-linearity
✽2
Frequency response
10
15
✽3
V
4.5
−
−
Typ.
Clamping voltage VL ✽3
V
0.5
−
−
Typ.
Clamping voltage VH
Note : ✽1 The acceleration unit “g” means 9.8 m/s .
✽2 Maximum error from linear output that connects +1.2 g and –1.2 g output. (AGF1□3□1)
Maximum error from linear output that connects +0.5 g and –0.5 g output. (AGF1□7□1)
✽3 The 12 V and 24 V.DC operating power supply voltage types can also be compatible with the clamping voltage. Please consult us.
2
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
AGF1
Reference Data
1. Output characteristics
2. Inclination angle - Output voltage
characteristics
4.0
3.5
3.0
2.5
2.0
3.5
3.0
2.5
2.0
1.5
1.0
1.0
0.5
0.0
−2.0 −1.5 −1.0 −0.5 0.0 0.5 1.0 1.5 2.0
Acceleration (G)
0.5
0.0
−100−80 −60 −40 −20 0 20 40 60 80 100
Inclination angle ( °)
0
75
−2
−25
−50
−75
−100
−40 −20 0
20 40 60 80 100
−40 −4 +32 +68 +104 +140 +176 +212
Temperature (°C °F)
4
3
2
1
0
−1
−2
−3
−4
−5
−40 −20 0
20 40 60 80 100
−40 −4 +32 +68 +104 +140 +176 +212
Temperature (°C °F)
−4
50
0
5
5. Frequency characteristics
100
25
AGF11311
AGF10711
4.0
1.5
4. Offset voltage temperature
characteristics
Offset voltage change (measured value) (mg)
4.5
Output voltage (V)
AGF11311
AGF10711
Gain (dB)
Output voltage (V)
4.5
Sensitivity change (measured value) (%)
5.0
5.0
3. Sensitivity temperature
characteristics
−6
−8
−10
−12
−14
−16
−18
−20
1
10
Frequency (Hz)
60 100
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
AGF1
Dimensions
The CAD data of the products with a
mount (AGF10□□1)
2-7 dia.
2-0.275 dia.
36.5
1.437
58
2.283
44±0.5
1.732±0.020
Detection axis
● Direct
mark can be downloaded from: http://industrial.panasonic.com/
33
1.299
28
1.102
6
0.236
Matching connector:
Manufacturing company : Yazaki Corporation
Housing : 7283-8730-30
GND
VDD
Vout
unit : mm inch
(AGF11□□1)
a. .
di dia
5
6. .256
0
85
3.346
61.8
2.433
40
1.575
100610
JAPAN
AGF11311
Detection axis
● Bracket
Part No.
Lot No.
37
1.457
28
1.102
Matching connector :
Manufacturing company : Yazaki Corporation
Housing: 7283-8730-30
VDD
GND
Vout
unit : mm inch
Wiring Diagram
VDD
VDD
Sensor
Output
Vout
RL
GND
RL=Load resistance (Min.50 kΩ)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
AGF1
NOTES
■ Before using the products, carefully check the
quality under actual use conditions to enhance
stability.
■ Wire connection
Correctly wire as in the connection diagram.
Reverse connection may damage the product and
degrade the performance.
■ Cleaning
Avoid ultrasonic cleaning as this may cause
disconnection of the wire.
■ Environment
• Avoid use and storage in the corrosive gas
(organic solvent, sulfurous acid and hydrogen
sulfide gases) which negatively affects the
product.
• Use surge absorbers as applying the external
surge voltage may damage the internal circuit.
• Malfunction may occur near electric noises from
static electricity, lightning, broadcast or amateur
radio stations and mobile phones.
• Avoid use in an environment where these products
cause dew condensation. When water attached to
the sensor chip freezes, the sensor output may be
fluctuated or damaged.
• Do not apply high-frequency oscillation, such as
ultrasonic waves, to the product.
• Do not use in direct sunlight or other comparable
light.
■ Other precautions
These specifications are for individual components.
Before use, carefully check the performance and
quality under actual use conditions to enhance
stability.
• Misconnection and the wrong range of
acceleration detection may invite the risk of
accidents.
• Avoid use beyond the specified acceleration
range, as such use may damage the product.
• Carefully handle as static electricity may damage
the product.
■ Special notes
We exert maximum efforts for quality control of the
product, Please mind also about the following.
1) To p r e v e n t o c c u r r e n c e o f u n e x p e c t e d
circumstances, please infor m us of the
specifications of your product, customers,
use conditions and details of the attachment
position.
2) Have sufficient margin values of driving/
performance guarantee described in the
specifications and apply safety measures with
double circuits, if serious effects on human
lives or property are predicted due to a quality
failure of the product. Those countermeasures
are also for the product liability.
3) A warranty period is one year after the delivery
to your company. Quality assurance is limited
to the items and the scopes described in the
specifications.
If a defect is found after the delivery, we will
promptly provide a replacement or change/
repair the defect part at the place of delivery
in good faith. Exceptions are below.
• Damages by a failure or a defect which
arose after the delivery.
• A f t e r t h e d e l i v e r y, w h e n s t o r i n g a n d
transporting, if conditions other than
conditions in the specifications are applied to
the product.
• Damages by unforeseen phenomenon which
cannot be predicted with the technologies
available at the time of delivery.
• Damages by natural and anthropogenic
disasters, such as earthquake, flood, fire
and war, which are beyond our reasonable
control.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Light Sensor (AMS3)
Photo IC type
high sensitive light sensor
Through-hole type
Features
● Built-in optical ﬁlter : visibility characteristics
● Liner photocurrent output proportionating to
● Environmentally-friendly silicon chip
● RoHS compliant
close to human visibility
the brightness of surrounding environment
Typical Applications
● Automatic lighting of lighting apparatus (domestic lighting, security
● Day and night power saving operation of domestic appliances
● Brightness detection of wall clocks (radio clocks)
light)
Types
Standard packing : Tape and reel package Through-hole type : Carton : 2,000 pcs.; Case: 2,000 pcs.
Baggage package Through-hole type :
Carton : 500 pcs.; Case: 1,000 pcs.
Part No.
Photocurrent
Type (shape)
Tape and reel package
Baggage package
AMS302T
AMS302
✽
Through-hole type
260 μA
Note: ✽Ev = 100 lx (Ev : Brightness, Fluorescent lamp is used as light source)
Ratings
● Absolute
maximum ratings (Measuring condition: ambient temperature: 25 °C 77 °F)
Symbol
Absolute maximum ratings
Reverse voltage
V
−0.5 V.DC to 8 V.DC
−
Photocurrent
IL
5 mA
−
Item
R
Power dissipation
Remarks
P
40 mW
−
Operating temperature
Topr
−30 °C to 85 °C –22 °F to +185 °F
Non-condensing at low temperatures
Storage temperature
Tstg
−40 °C to 100 °C –40 °F to +212 °F
Non-condensing at low temperatures
● Recommended
operating condition
Symbol
Item
Reverse voltage
Minimum
Maximum
VR
AMS302
Remarks
1.5 V.DC
−
6 V.DC
−
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Light Sensor (AMS3)
● Electrical
and optical characteristics (Measuring condition: ambient temperature: 25 °C 77 °F)
Item
Peak sensitivity wavelength
−
Minimum
Photocurrent 1
Typical
Maximum
Minimum
Photocurrent 2
Typical
Maximum
Photocurrent 3
Typical
Dark current
Maximum
Rise time Typical
Switching
time
Fall time Typical
Symbol
lp
AMS302
580 nm
9.1 μA
13 μA
16.9 μA
182 μA
260 μA
338 μA
500 μA
0.3 μA
8.5 ms
8.5 ms
IL1
IL2
IL3
ID
tr
tf
Condition
−
VR=5 V.DC, Ev=5 lx ✽1
VR=5 V.DC, Ev=100 lx ✽2
VR=5 V.DC, Ev=100 lx ✽2
VR=5 V.DC, Ev=0 lx
Vcc=5.0 V.DC, V0=2.5 V.DC, RL=5 kΩ
Note : ✽1 Fluorescent lamp is used as light source. Ev = Brightness
✽2 CIE standard illuminant ‘A’ is used as light source.
[Measuring method for switching time]
Cathode
White LED
IF
IF
AMS✽✽✽
VR
Anode
V CC
AMS302 : 2.5 V
90 %
VO
10 %
RL
VO
tr
tf
Reference Data
1. Power dissipation vs. ambient temperature
characteristics
2. Relative sensitivity vs. wavelength
characteristics
Reverse voltage : 5 V.DC
Ambient temperature : 25 °C 77 °F
Relative sensitivity
35
30
25
20
0.8
0.7
0.6
0.5
0.4
15
0.3
10
0.2
5
0.1
20
40
60
80
Ambient temperature (°C)
800 900 1000 1100
Wavelength (nm)
4. Photocurrent vs. brightness characteristics
Light source : Fluorescent lamp
Reverse voltage : 5 V.DC
Ambient temperature : 25 °C 77 °F
5. Relative photocurrent vs. ambient
temperature characteristics
Light source : Fluorescent lamp, Brightness : 100 lx
Reverse voltage : 5 V.DC
Relative photocurrent
1000
100
10
AMS302
40
60
80
100
+104
+140
+176
+212
Ambient temperature (°C °F)
5. Relative photocurrent vs. reverse voltage
characteristics
Light source : Fluorescent lamp, Brightness : 100 lx
Ambient temperature : 25 °C 77 °F
1.2
1.2
1.0
0.8
AMS302
0.0001
20
+68
1.4
10000
0.1
0.001
0
300 400 500 600 700
100
1
0.01
Relative photocurrent
Power dissipation (mW)
40
0
10
AMS302
human visibility
0.9
Dark current (μA)
AMS302
45
Photocurrent (μA)
Reverse voltage : 5 V.DC
1.0
50
0
3. Dark current vs. ambient temperature
characteristics
AMS302
1
1.0
0.8
0.6
0.4
AMS302
0.2
0.1
1
10
100
1000
Brightness (lx)
10000
0.6
−40 −20 0
20 40
60 80 100
−40 −4 +32 +68 +104 +140 +176 +212
Ambient temperature (°C °F)
0
0
1
2
3
4
5
6
7
8
Reverse voltage (V.DC)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Light Sensor (AMS3)
7. Switching time vs. resistive load
characteristics
Light source : White LED
Power voltage : 5 V.DC
Resistive load voltage : 2.5 V.DC
Ambient temperature : 25 °C 77 °F
Switching time (ms)
100
10
1
AMS302 tr
AMS302 tf
0.1
0.1
1
10
100
1000
Resistive load (kΩ)
Dimensions
mark can be downloaded from: http://industrial.panasonic.com/
(0.17)
(0.007)
The CAD data of the products with a
1 Anode : −
2 Cathode : +
DETECTION AREA
AMP
2
+
34±3
1.339±0.118
1
−
5.8 dia.
0.228 dia.
Max.1.5
Max.0.059
1.0
0.039 9.1
0.358
(1.0)
(0.039)
4.3±0.2
0.169±0.008
(1.0)
(.039)
5.0±0.2 dia.
0.197±.008 dia.
Max. 1.0
Max.0.039
1Anode
2Cathode
1
2-□0.5
2-□0.020
(2.54)
(0.100)
(0.098)
(2.5)
2
General tolerance : ±0.5 ±0.020
unit : mm inch
Safety Precautions
Follow the instructions to prevent injuries and
accidents.
• Avoid use beyond the specifications.
Such use may generate abnormal heat, smoke and fire.
• Correctly connect terminals according to the pin
arrangement in the specifications. Misconnection
may invite unexpected malfunction, abnormal heat,
smoke and fire.
• For safety-sensitive use, arrange appropriate
protective circuits and protection devices.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Light Sensor (AMS3)
CAUTIONS FOR USE
■ Applying stress beyond absolute maximum rating
When voltage and current values of each terminal
exceed absolute maximum rating, overvoltage and
overcurrent may deteriorate the internal element. In
extreme cases, such excess may melt wires or damage
the silicon P/N junction. Design the product not to
exceed the absolute maximum rating even momentarily.
■ Recommended soldering conditions
<Through-hole type>
1) Recommended conditions
(1) Double-wave soldering method
T2
T1 =
T2 =
t2 =
t2+t3
T1
■ Deterioration and damage by static electricity discharge
The phenomenon, deteriorating the internal element, is
generally called electrostatic breakdown. It is caused by
discharge of static electricity, arisen from multiple factors,
to each terminal. Once unpacked, perform antistatic
countermeasures and follow the instructions below.
1) Operators must wear antistatic cloths and human
body grounding devices, and have the protective
resistance of between 500 kΩ and 1 MΩ.
2) Cover the surface of workbench by electroconductive metal plates and ground measuring
instruments and jigs.
3) Use the soldering iron which has a small
leakage current or ground the soldering
tip. (The soldering iron for a low voltage is
recommended)
4) Ground the assembling equipment.
5) When packing printed-circuit boards and
devices, avoid polymeric materials, which
have electrification characteristics, such as
expanded polystyrene and plastic.
6) When storing and transporting the sensor,
choose the environment where static electricity
is hardly generated (e.g., humidity between 45
and 60 %) and protect the product by using
electroconductive packaging materials.
■ When the power is supplied, the current flowing into the
sensor varies in order to stabilize the internal circuit.
■ Storage
The sensor is in the transparent resin package. Due to
its sensitivity to humidity, the package is moisture-proof.
When storing the sensor, follow the instructions below.
1) Promptly use after opening. (within a week,
below 30 °C 86 °F/60 % R.H.)
2) Once unpacked, preserving in a moisture-proof
manner, such as keeping in a moisture-proof
bag with silica gels, is recommended for longterm storage. (use within 3 months)
3) E x t re m e l y b a d s t o r a g e c o n d i t i o n s m a y
deteriorate solderability or characteristics,
and defect the appearance. Recommended
conditions of the storage place are below.
• Temperature : 0 to 30 °C 32 to 86 °F
• Humidity : Below 60% R.H. (Avoid freezing
and dew condensation)
• Atmosphere: Low-dust and free from noxious
chemicals such as sulfurous acid gas
✽ During soldering, when adding thermal stress
in a moisture absorbing state, moisture
evaporates, swells and generates stress to
the internal package. To avoid swellings and
cracks in the surface of the package, follow
soldering conditions below.
t1
t2
120 °C 248 °F
Below 260 °C 500 °F
Less than 120 sec.
= Less than 6 sec.
t3
(2) Soldering method
Tip temperature : 350 to 400 °C 662 to 752 °F
Wattage
: 30 to 60 W
Soldering time : Less than 3 sec.
2) Keep the soldering part at a distance of 3 mm
0.118 inch or more from the root of the lead.
■ Mounting
1) When various packages are on one circuit board,
temperature rise of the lead largely depends
on the package size. Keep temperature of the
soldered terminals of the products below the
previously mentioned specifications. Before use,
check the performance with actual equipment.
2) I f m o u n t i n g c o n d i t i o n s a re b e y o n d t h e
specifications above, such use may decrease the
resin strength, increase mismatching in the thermal
expansion coefficient of each component material,
generate cracks in the package and break the
bonding wire. Please consult us before use.
■ Cleaning
For flux cleaning, immersion cleaning by ASAHIKLIN
AK-225 is recommended. If using ultrasonic cleaning for
unavoidable reasons, implementation conditions should
not be beyond the specifications below. Before use,
check and ensure that there is no defect.
• Frequency
: 27 to 29 kHz
• Ultrasonic outlet : Below 0.25W/cm2 ✽
• Cleaning time
: Less than 30 sec.
• Cleaning solvent : ASAHIKLIN AK-225
• Others
: I n o rd e r t o p re v e n t t h e
printedcircuit board and
elements from contacting with
ultrasonic oscillator, clean
the flux while the sensor is
suspended in the solution.
✽ Ultrasonic outlet per unit area (bottom area) of
cleaning tank
■ Transportation
Excessive vibration during transport may deform the
lead or damage the sensor. Carefully handle the
exterior and interior boxes.
■ Avoid use in the highly-humid or dusty environment,
the corrosive gas, an environment where organic
solvent can be adhered.
■ Lead-forming and cuttings
1) Before soldering, perform lead forming at
normal temperature.
2) When forming or cutting the lead, keep the spot at
a distance of 3 mm 0.118 inch or more from the
root of the lead.
3) When forming and cutting, fix the root of the lead.
4) Avoid mounting which may cause stress on the
root of the lead.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Light Sensor (AMS3)
● The
following shows the packaging format
Through-hole type tape and reel (mm inch)
Type
Tape dimensions
Anode side
Cathode side
P
H
W1
W0
W
L
Light sensor
NaPiCa
Through-hole type
AMS302T
Δh
Δp
W2
P2
F
Note : Zigzag tape style is used.
D0
P0
Item
Symbol Dimensions
Remarks
Feed hole
12.7±0.3
P0
pitch
0.500±0.012
Product interval
12.7±1.0
P
pitch
0.500±0.039
Product
6.35±1.3
P2
distance
0.250±0.051
Product bottom
20.5±1.0
H
distance
0.807±0.039
2.54±0.5
Lead interval
F
0.100±0.020
0±1.0
Product slant Δh
0±0.039
0±1.0
Product tilt
Δp
0±0.039
18.0+1.0
−0.5
Tape width
W
+0.039
0.709−0.020
Holding tape
13.0±0.3
W0
width
0.512±0.012
+0.75
Feed hole
9.0−0.50
W1
+0.030
position
0.354−0.020
Holding tape
0 to 0.5
W2
distance
0 to 0.020
Feed hole
3.8±0.2
D0
diameter
0.150±0.008
Tape
0.5±0.2 Included holding
t
thickness
0.020±0.008 tape thickness
Defective product
Max:11.0
L
cutoff position
Max:0.433
Light Sensor NaPiCa terminology
Term
Symbol
Reverse voltage
VR
The applied voltage between the cathode and anode.
Explanation
Photocurrent
IL
The current that ﬂows between the cathode and anode when light is applied.
Power dissipation
P
Operating temperature
Topr
Storage temperature
Tstg
Peak sensitivity wavelength
lp
Dark current
ID
Rise time
tr
The electric power loss that occurs between the cathode and anode.
The workable ambient temperature range at which normal operation is possible
under the condition of a prescribed allowable loss.
The ambient temperature range at which the sensor can be left or stored without
applying voltage.
The wavelength of light at which sensitivity is at its maximum.
The current between the cathode and anode when reverse voltage is applied during
darkness.
Time required for the output waveform to rise from 10 % to 90 % when light is applied.
Fall time
tf
Time required for the output waveform to fall from 90 % to 10 % when light is cut.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
MA Motion Sensor (AMA1, AMBA1, 2, 3)
Active infrared
(area reflective)
human detection sensor
MA MOTION SENSOR
Thin short type
(Mounting direction : V type)
Short type
(Mounting direction : H type)
Long type
(Mounting direction : H type)
Middle type
(Mounting direction : H type)
Long type
(Mounting direction : V type)
Features
● Reliable detection hardly inﬂuenced by reﬂectivity of targeted objects
● Ready-to-use with DC power source (built-in oscillation circuit type)
● Capability to adjoin sensors
● RoHS compliant
Typical Applications
● Equipment around water: automatic lighting of wash-units, toilets, automatic ﬂush
● Stores and ﬁnancial markets: automatic doors, lighting, ATM, visitor sensors
● Amusement equipment: seating detection for pachinko machines, game displays
● Medical equipment markets: noncontact switches
Ordering Information
AM
A : Thin short type
MA Motion sensor
BA : MA Motion sensor
Detection distance type
(shape)
1 : Short type
2 : Middle type
3 : Long type
Triggering function
1 : External triggering
type
4 : Built-in oscillation
circuit type
(Internal trigger)
Classification by
output method & mounting direction
0 : NPN open collector/H type
5 : NPN open collector/V type
6 : PNP open collector/V type
Operating voltage
2 : Free-ranging power type
(5.5 V.DC to 27 V.DC)
9 : 5V.DC type
(4.5 V.DC to 5.5 V.DC)
Rated detection distance
Unit : cm inch
08
Part No.
02
Type
Thin short
type
Short type
Middle type
Long type
03
04
05
06
07
(Middle type
does not
need 08)
10
09
(Short type
does not
need 10)
20
11
12
13
14
15
16
17
18
19
(Long type
does not
need 20)
5
10
15
–
–
– 3.937
–
–
–
– 5.906
–
–
–
–
–
1.969 –
6
7
8
9
10
5
–
–
–
–
–
–
–
–
–
–
–
– 1.969
2.362 2.756 3.150 3.543 3.937 –
20 30 40 50 60 70 80
–
–
–
–
–
–
–
–
–
–
–
7.874 11.811 15.748 19.685 23.622 27.559 31.496 –
30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200
– 11.811
15.748 19.685 23.622 27.559 31.496 35.443 39.37 43.307 47.244 51.181 55.118 59.055 62.992 66.929 70.866 74.803 78.74
–
–
–
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
Product Types
● Detection
distance type (distance limited)
1) Thin short type (V type)
Standard packing: Carton: 20 pcs.; Case: 200 pcs.
Operating voltage
Output method
NPN open
collector output
4.5 V.DC to 5.5 V.DC
PNP open
collector output
Rated detection
distance
5 cm 1.969 inch
10 cm 3.937 inch
15 cm 5.906 inch
5 cm 1.969 inch
10 cm 3.937 inch
15 cm 5.906 inch
Built-in oscillation circuit type
Part No.
AMA145905
AMA1459
AMA145915
AMA146905
AMA1469
AMA146915
External triggering type
Part No.
AMA115905
AMA1159
AMA115915
AMA116905
AMA1169
AMA116915
Note: If using multiple sensors adjacently or reducing power consumption, contact us for the optimal external trigger type.
2) Short type (H type)
Standard packing: Carton: 20 pcs.; Case: 200 pcs.
Rated operating
voltage
4.5 V.DC to 5.5 V.DC
5.5 V.DC to 27 V.DC
Rated detection
distance
5 cm 1.969 inch
6 cm 2.362 inch
7 cm 2.756 inch
8 cm 3.150 inch
9 cm 3.543 inch
10 cm 3.937 inch
5 cm 1.969 inch
6 cm 2.362 inch
7 cm 2.756 inch
8 cm 3.150 inch
9 cm 3.543 inch
10 cm 3.937 inch
Mounting direction : H type
Short type
Built-in oscillation circuit type
External triggering type
Part No.
Part No.
AMBA140905
AMBA110905
AMBA140906
AMBA110906
AMBA140907
AMBA110907
AMBA140908
AMBA110908
AMBA140909
AMBA110909
AMBA1409
AMBA1109
AMBA140205
AMBA110205
AMBA140206
AMBA110206
AMBA140207
AMBA110207
AMBA140208
AMBA110208
AMBA140209
AMBA110209
AMBA1402
AMBA1102
Note: If using multiple sensors adjacently or reducing power consumption, contact us for the optimal external trigger type.
3) Middle type (H type)
Standard packing: Carton: 20 pcs.; Case: 200 pcs.
Rated operating
voltage
4.5 V.DC to 5.5 V.DC
5.5 V.DC to 27 V.DC
Rated detection
distance
20 cm 7.874 inch
30 cm 11.811 inch
40 cm 15.748 inch
50 cm 19.685 inch
60 cm 23.622 inch
70 cm 27.559 inch
80 cm 31.496 inch
20 cm 7.874 inch
30 cm 11.811 inch
40 cm 15.748 inch
50 cm 19.685 inch
60 cm 23.622 inch
70 cm 27.559 inch
80 cm 31.496 inch
Mounting direction : H type
Middle type
Built-in oscillation circuit type
External triggering type
Part No.
Part No.
AMBA240902
AMBA210902
AMBA240903
AMBA210903
AMBA240904
AMBA210904
AMBA240905
AMBA210905
AMBA240906
AMBA210906
AMBA240907
AMBA210907
AMBA2409
AMBA2109
AMBA240202
AMBA210202
AMBA240203
AMBA210203
AMBA240204
AMBA210204
AMBA240205
AMBA210205
AMBA240206
AMBA210206
AMBA240207
AMBA210207
AMBA2402
AMBA2102
Note: If using multiple sensors adjacently or reducing power consumption, contact us for the optimal external trigger type.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
4) Long type
Standard packing: Carton: 20 pcs.; Case: 200 pcs.
Mounting direction : H type
Rated operating
voltage
Rated detection
distance
30 cm 11.811 inch
40 cm 15.748 inch
50 cm 19.685 inch
60 cm 23.622 inch
70 cm 27.559 inch
80 cm 31.496 inch
90 cm 35.433 inch
100 cm 39.370 inch
110 cm 43.307 inch
4.5 V.DC to 5.5 V.DC
120 cm 47.244 inch
130 cm 51.181 inch
140 cm 55.118 inch
150 cm 59.055 inch
160 cm 62.992 inch
170 cm 66.929 inch
180 cm 70.866 inch
190 cm 74.803 inch
200 cm 78.740 inch
30 cm 11.811 inch
40 cm 15.748 inch
50 cm 19.685 inch
60 cm 23.622 inch
70 cm 27.559 inch
80 cm 31.496 inch
90 cm 35.433 inch
100 cm 39.370 inch
110 cm 43.307 inch
5.5 V.DC to 27 V.DC
120 cm 47.244 inch
130 cm 51.181 inch
140 cm 55.118 inch
150 cm 59.055 inch
160 cm 62.992 inch
170 cm 66.929 inch
180 cm 70.866 inch
190 cm 74.803 inch
200 cm 78.740 inch
Mounting direction: V type
Long type
Built-in oscillation External triggering Built-in oscillation External triggering
circuit type
type
circuit type
type
Part No.
Part No.
Part No.
Part No.
AMBA340903
AMBA310903
AMBA345903
AMBA315903
AMBA340904
AMBA310904
AMBA345904
AMBA315904
AMBA340905
AMBA310905
AMBA345905
AMBA315905
AMBA340906
AMBA310906
AMBA345906
AMBA315906
AMBA340907
AMBA310907
AMBA345907
AMBA315907
AMBA340908
AMBA310908
AMBA345908
AMBA315908
AMBA340909
AMBA310909
AMBA345909
AMBA315909
AMBA340910
AMBA310910
AMBA345910
AMBA315910
AMBA340911
AMBA310911
AMBA345911
AMBA315911
AMBA340912
AMBA310912
AMBA345912
AMBA315912
AMBA340913
AMBA310913
AMBA345913
AMBA315913
AMBA340914
AMBA310914
AMBA345914
AMBA315914
AMBA340915
AMBA310915
AMBA345915
AMBA315915
AMBA340916
AMBA310916
AMBA345916
AMBA315916
AMBA340917
AMBA310917
AMBA345917
AMBA315917
AMBA340918
AMBA310918
AMBA345918
AMBA315918
AMBA340919
AMBA310919
AMBA345919
AMBA315919
AMBA3409
AMBA3109
AMBA3459
AMBA3159
AMBA340203
AMBA310203
AMBA345203
AMBA315203
AMBA340204
AMBA310204
AMBA345204
AMBA315204
AMBA340205
AMBA310205
AMBA345205
AMBA315205
AMBA340206
AMBA310206
AMBA345206
AMBA315206
AMBA340207
AMBA310207
AMBA345207
AMBA315207
AMBA340208
AMBA310208
AMBA345208
AMBA315208
AMBA340209
AMBA310209
AMBA345209
AMBA315209
AMBA340210
AMBA310210
AMBA345210
AMBA315210
AMBA340211
AMBA310211
AMBA345211
AMBA315211
AMBA340212
AMBA310212
AMBA345212
AMBA315212
AMBA340213
AMBA310213
AMBA345213
AMBA315213
AMBA340214
AMBA310214
AMBA345214
AMBA315214
AMBA340215
AMBA310215
AMBA345215
AMBA315215
AMBA340216
AMBA310216
AMBA345216
AMBA315216
AMBA340217
AMBA310217
AMBA345217
AMBA315217
AMBA340218
AMBA310218
AMBA345218
AMBA315218
AMBA340219
AMBA310219
AMBA345219
AMBA315219
AMBA3402
AMBA3102
AMBA3452
AMBA3152
Note: If using multiple sensors adjacently or reducing power consumption, contact us for the optimal external trigger type.
Rating
● Detection
performance
1) Thin short type (Measuring conditions: ambient temp. : 25 °C 77 °F; operating voltage : 5 V.DC)
Unit
cm inch
Items
Rated detection distance
Minimum
Typical
mm inch
Maximum
Typical
%
Measuring tolerance
Usable ambient Brightness of
Maximum
sensor surface
brightness
(Resistance to
Brightness of
ambient light) ✽2 reﬂection surface Maximum
5 1.969
45 1.772
50 1.969
55 2.165
10
Thin short type
10 3.937
90 3.543
100 3.937
110 4.331
25
30,000
lx
24,000
15 3.937
135 5.315
150 5.906
165 6.496
35
Measured
conditions
with a standard
reﬂection board ✽1
Reﬂection rate: 90 % to 18 %
See the drawing (Fig. 1) on
the Brightness next page.
Notes : ✽1. Ambient brightness: 500 lx
✽2. Prevent direct light (within 30 ° against the optical axis of the sensor) from entering into the sensor.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
2) Short type (Measuring conditions : ambient temp.: 25 °C 77 °F; operating voltage: 5 V.DC type 5 V.DC, Free-ranging power type 24 V.DC)
Unit
cm
inch
Items
Minimum
Rated detection distance
Typical
mm
inch
Maximum
Measuring tolerance
Typical
Usable ambient Brightness of Maximum
sensor surface
brightness
(Resistance to
Brightness of
ambient light) ✽2 reﬂection surface Maximum
5
1.969
45
1.772
50
1.969
55
2.165
%
6
2.362
54
2.126
60
2.362
66
2.598
10
Short type ✽1
7
8
9
2.756 3.150 3.543
63
72
81
2.480 2.835 3.189
70
80
90
2.756 3.150 3.543
77
88
99
3.031 3.465 3.898
15
20
Measured
10
conditions
3.937
90
3.543
100 with a standard
3.937 reﬂection board
110
4.331
25
Reﬂection rate: 90 % to 18 %
30,000
See the drawing
(Fig. 1) on the
next page.
lx
24,000
Notes : ✽1. After the order receipt, the average rated detecting distance can be increased to max 15 cm 5.906 inch. Please consult us.
✽2. Prevent direct light (within 30 ° against the optical axis of the sensor) from entering into the sensor.
3) Middle type (Measuring conditions: ambient temp.: 25 °C 77 °F; operating voltage: 5 V.DC type 5 V.DC, Free-ranging power type 24 V.DC)
Unit
cm
inch
Items
Minimum
Rated detection distance
Typical
mm
inch
Maximum
Measuring tolerance
Typical
Usable ambient Brightness of Maximum
sensor surface
brightness
(Resistance to
Brightness of
✽2
ambient light)
reﬂection surface Maximum
20
7.874
190
7.480
200
7.874
210
8.268
%
Middle type ✽1
Measured
30
40
50
60
70
80
conditions
11.811 15.748 19.685 23.622 27.559 31.496
285
380
475
570
665
760
11.220 14.961 18.701 22.441 26.181 29.921
300
400
500
600
700
800 with a standard
11.811 15.748 19.685 23.622 27.559 31.496 reﬂection board
315
420
525
630
735
840
12.402 16.535 20.669 24.803 28.937 33.071
3
5
10
Reﬂection rate: 90 % to 18 %
30,000
See the drawing
(Fig. 1) on the
next page.
lx
24,000
Notes : ✽1. After the order receipt, the average rated detecting distance can be increased to max 110 cm 43.307 inch. Please consult us.
✽2. Prevent direct light (within 30 ° against the optical axis of the sensor) from entering into the sensor.
4) Long type (Measuring conditions: ambient temp.: 25 °C 77 °F; operating voltage: 5 V.DC type 5 V.DC, Free-ranging power type 24 V.DC)
Items
Rated detection distance
Unit
30
cm
inch 11.811
285
Minimum
11.220
mm 300
Typical
inch 11.811
315
Maximum
12.402
Typical
%
Measuring tolerance
Usable ambient Brightness of Maximum
sensor surface
brightness
(Resistance to
Brightness of
ambient light) ✽ reﬂection surface Maximum
Items
Rated detection distance
40
15.748
380
14.961
400
15.748
420
16.535
90
34.433
855
33.661
900
34.433
945
37.205
100
39.370
950
37.402
1000
39.370
1050
41.339
5
30,000
24,000
Long type
140 150 160 170
55.118 59.055 62.992 66.929
1330 1425 1520 1615
52.362 56.102 59.842 63.583
1400 1500 1600 1700
55.118 59.055 62.992 66.929
1470 1575 1680 1785
57.874 62.008 66.142 70.275
10
Measured
110
conditions
43.307
1045
41.142
1100 with a standard
43.307 reﬂection board
1155
45.472
Reﬂection rate: 90 % to 18 %
See the drawing
(Fig. 1) on the
next page.
lx
Unit
cm 120 130
inch 47.244 51.181
1140 1235
Minimum
44.882 48.622
mm 1200 1300
Typical
inch 47.244 51.181
1260 1365
Maximum
49.606 53.740
Typical
%
5
Measuring tolerance
Usable ambient Brightness of Maximum
sensor surface
brightness
(Resistance to
Brightness of
ambient light) ✽ reﬂection surface Maximum
Long type
50
60
70
80
19.685 23.622 27.559 31.496
475 570 665 760
18.701 22.441 26.181 29.921
500 600 700 800
19.685 23.622 27.559 31.496
525 630 735 840
20.669 24.803 28.937 33.071
3
180 190
70.866 74.803
1710 1805
67.323 71.063
1800 1900
70.866 74.803
1890 1995
74.409 78.543
15
30,000
lx
24,000
Measured
200
conditions
78.740
1900
74.803
2000 with a standard
78.740 reﬂection board
2100
82.677
Reﬂection rate: 90 % to 18 %
See the drawing
(Fig. 1) on the
next page.
Notes : ✽ Prevent direct light (within 30 ° against the optical axis of the sensor) from entering into the sensor.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
• For thin short type:
Standard reflection board : 150 mm 5.906 inch
90% reflection rate.
• For short type:
Standard reflection board: 100 mm 3.937 inch
90% reflection rate.
• For middle type:
Standard reflection board: 200 mm 7.874 inch
90% reflection rate.
• For long type:
Standard reflection board: 500 mm 19.685 inch
90% reflection rate.
square area,
Notes : 1. Detecting an object within the maximum preset detection distance.
square area,
2. Distance deviation =
(
square area,
a–b
a × 100 (%)
a: detection distance of detection target with reflectance of 90 %.
b: detection distance of standard detection target with reflectance of 18 %.
)
square area,
<Fig. 1>
[Brightness of sensor surface]
[Brightness of reflection surface]
(q1, q1´)> 15 °
Sensor
q1
30°
q1´
30 ° < (q2, q2´) < 45 °
Sensor
✽Area for prohibit
direct light
q2
q2´
Light meter
Light meter
Reﬂection
board
Notes : If sunlight or strobe/inverter light (including the regular reﬂection light from
glasses and mirrors) directly enters from the inhibition area, those lights
may cause malfunction of the sensor.sensor) from entering into the sensor.
Rated detection distance
Absolute maximum rating
● Measuring
condition: ambient temp.: 25 °C 77 °F
Absolute maximum rating
Items
Built-in oscillation circuit type
Items
5 V.DC type
Power supply voltage
External triggering type
Free-ranging power type
5 V.DC type
Free-ranging power type
−0.3 V.DC to 6 V.DC −0.3 V.DC to 30 V.DC −0.3 V.DC to 6 V.DC
−0.3 V.DC to 30 V.DC
Output dielectric strength
30 V.DC
30 V.DC
Output ﬂow current
100 mA
10 mA✽
–25 °C to +75 °C +5 °F to +131 °F (No freezing)
–25 °C to +75 °C +5 °F to +131 °F (No freezing)
–30 °C to +85 °C –4 °F to +176 °F
–30 °C to +85 °C –4 °F to +176 °F
Usable ambient temperature
Storage temperature
Notes : ✽ Thin short type is only: 100 mA
Electrical characteristics
● Measuring conditions : ambient temp.: 25 °C 77 °F, operating voltage: 5 V.DC type, free-ranging power type 24 V.DC
1) Built-in oscillation circuit type
Thin short type✽
Items
Rated operating voltage
No detection
Average current
consumption
(Iout=0 mA)
Detection
Measuring cycle
Output
characteristics
Measured
Short type Middle type Long type conditions
NPN
PNP
output type output type
5 V.DC type : 4.5V.DC / Free-ranging power type : 5.5 V.DC
Minimum
Typical VDD
–
5 V.DC type : 5.5 V.DC /Free-ranging power type : 27 V.DC
Maximum
–
Minimum
5 V.DC type : 4.5 mA
Typical
4.5 mA
It
Free-ranging power type : 5.6 mA
5 V.DC type : 6.2 mA
Maximum
6.2 mA
Free-ranging power type : 7.8 mA
–
Minimum
5 V.DC type : 7.0 mA
Typical
7.0 mA
11.0 mA Free-ranging
It
power type : 9.1 mA
5
V.DC
type
mA
Maximum
11.2 mA
15.2 mA Free-ranging power: 11.2
type : 14.2 mA
Symbol
Typical
T
Remain voltage Maximum
Vr
Leakage current Maximum
II
8 ms/cycle
1 V.DC
1.2 V.DC
5 μA
1 V.DC
It=100 mA
3 μA
V=30 V.DC
Notes : ✽ The thin short type is only available for 5 V.DC.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
2) External triggering type (trigger conditions: trigger pulse width = 20 μs and trigger synchronization = 5 ms)
Thin short type✽1
Measured
Short type
Middle type
Long type
NPN
PNP
conditions
output type output type
Minimum
5 V.DC type : 4.5 V.DC / Free-ranging type : 5.5 V.DC
Rated operating voltage Typical VDD
–
Maximum
5 V.DC type : 5.5 V.DC / Free-ranging type : 27 V.DC
Minimum
–
Output Typical
Ib
0.1
mA
5
V.DC
type:
0.1 mA/Free-ranging type: 1.0 mA
✽2 ✤b
Without OFF Maximum
0.3 mA
5 V.DC type: 0.3 mA/Free-ranging type: 1.8 mA
trigger
Minimum
–
input
Output Typical
Id
2.6
mA
6.7
mA
5
V.DC
type:
0.5 mA/Free-ranging type: 1.4 mA
✽2 ✤d
ON
Average
Maximum
6.6 mA
9.6 mA 5 V.DC type: 3.4 mA/Free-ranging type: 4.5 mA
current
Minimum
–
consumption
Output Typical
Ia
2.2
mA
5
V.DC
type:
2.2 mA/Free-ranging type: 3.1 mA
✽2 ✤a
OFF
With
Maximum
6.2 mA
5 V.DC type: 6.2 mA/Free-ranging type: 7.2 mA
trigger
Minimum
–
input
Output Typical
Ic
4.2
mA
8.5
mA
5
V.DC
type:
2.4 mA/Free-ranging type: 3.3 mA
✽2 ✤c
ON
Maximum
8.2 mA
12.5 mA 5 V.DC type: 8.2 mA/Free-ranging type: 9.3 mA
Measuring cycle (Trigger interval)
Typical
Tt
5 ms/cycle
Minimum
20 μs
Tw
Pulse width
Half off the distance
Maximum
1/2 Tt
External
period
trigger
Minimum VTL
0.8 V
Level
Maximum VTH
3V
✽3
Response performance:
time from trigger pulse fall to Typical
Tr
5 ms
detection output
Remain voltage Minimum Vr
1 V.DC
1.2 V.DC
1 V.DC
It=10 mA
Output
characteristics Leakage current Maximum II
5 μA
3 μA
V=30 V.DC
Items
Symbol
Notes : ✽1. The thin short type is only available for 5 V.DC.
✽2. The ratio between the 4 operating modes (✤a to ✤d) depends
on the external trigger period and detector time, and the
current consumption corresponds with this varying ratio.
✽4. The output transistor is open collector.
The output transistor is turned ON by the sensor detection
status and turned OFF by its non-detection status.
GND
Trigger input
✤a
✤b
✤c
✤d
Operation
Stand by
Internal sensor
OFF 2 ms
2 ms
2 ms
2 ms
operation
(approx.)
(approx.)
(approx.)
(approx.)
(With trigger input) (With trigger input) (With trigger input) (With trigger input)
OFF
Output transistor
ON
Non-detection statusinput
Detection status
(The output is latched
by the previous trigger.)
(The output is latched
by the previous trigger.)
✽3. A high level is established in the open state due to pull-up by
the internal circuit. (Refer to the connector wiring diagram.)
Detection status:
output transistor ON
Output
Output
transistor
Non-detection status:
output transistor OFF
GND
(NPN output types of the AMA series and all of AMBA series)
GND
Detection status:
output transistor ON
Non-detection status:
output transistor OFF
Output
transistor
Output
(PNP output types of the AMA series)
Timing Chart
● Built-in
oscillation circuit type
(PNP output types of the AMA series)
(NPN output types of the AMA series and all of AMBA series)
ON
ON
Power supply
Power supply
OFF
Output transistor
(open collector)
OFF
OFF
Output transistor
(open collector)
ON
ON
OFF
Circuit
stability Non-detection
time
status
Detection
status
Non-detection
status
Circuit
stability Non-detection
time
status
Detection
status
Non-detection
status
Notes : ✽1. Circuit stability time : Max. 12 ms
✽2. During the time taken for the circuit to stabilize after the power is turned on, the ON/OFF status of the output transistor is not determined by
whether the sensor is in the detection status or non-detection status.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
● External
triggering type
ON
Tt : Min. 5 ms
Power supply
Tr : Max. 5 ms
OFF
V TH
V TH
External trigger
External trigger
V TL
V TL
Output transistor OFF
(open collector)
t NPN output types ON
of the AMA series
t AMBA series
Tw
Change
(ON to OFF or
OFF to ON)
Output
Circuit
stability Non-detection
time
status
Detection
status
Non-detection
status
Circuit
stability Non-detection
time
status
Detection
status
Non-detection
status
Notes : The sensor recognizes at the VTH → VTL edge of an external trigger
that the external trigger has been input.
ON
Output transistor
t PNP output types
of the AMA series
OFF
Notes : ✽1. Circuit stability time: Max. 12 ms
✽2. During the time taken for the circuit to stabilize after the
power is turned on, the ON/OFF status of the output transistor
is not determined by whether the sensor is in the detection
status or non-detection status.is not determined by whether
the sensor is in the detection status or non-detection status.
How To Use
● Wiring
diagram of connector
Built-in oscillation circuit type
+
Power supply
Min.
33 μF
✽3
External triggering type
+
Min.
33 μF
✽3
+
Power supply
2
+
2
Output
NPN
output type
4 ✽1
1
N.C.
(No connection)
Tr
3
3
GND
GND
+
Power supply
PNP
output type
Output
4 ✽1
External trigger
input
1
✽2
Min.
33 μF
✽3
+
+
2
Power supply
Min.
33 μF
✽3
+
2
Output
✽1
1
Tr
N.C.
(No connection)
Output
External trigger
input
1
✽2
✽1
4
4
3
GND
3
GND
Notes: ✽1. The output transistor has an open collector structure.
• Detection status: Output transistor ON (connected to GND)
• Non-detection status: Output transistor OFF (open state)
✽2. The status of the external trigger input is as follows:
• Open at the high level
• GND (less than 0.8 V) at the low level
Do not apply a high voltage.
✽3. Install capacitor (of 33 μF or over) on the power input terminal of the sensor in order to secure power superimposed noise resistance and
stabilize the power supply voltage.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
Reference Data
● Operating
region characteristics
How to interpret the graph
Detection distance L (mm inch)
Example: Operating area of the Short Type
with rated detection distance of
8 cm 3.150 inch.
Operating area within the dotted lines
100
3.937
90
3.543
80
3.150
70
2.756
60
2.362
50
1.969
40
1.575
30
1.181
20
0.787
10
0.394
0
Objects that enter the entire area are detected.
Object
Operating region for
rated detection
distance of 8 cm
3.150 inch
Operating area
within the dotted lines
Note: If only part of the object is in the detection area, it is not
detected.
Operating area within the solid lines
Objects that even partially enter the area are detected.
Object
Operating area
within the solid lines
20
0
20
10 0.787
0.787 10
0.394 0.394
Detection width W (mm inch)
Operating region for
rated detection distance
of 10 cm 3.937 inch
9 cm 3.534 inch
800
31.496
8 cm 3.150 inch
700
27.559
7 cm 2.756 inch
Reﬂection board
200 × 200 mm
7.874 × 7.874 inch
(reﬂectivity: 90%)
6 cm 2.362 inch
5 cm 1.969 inch
Y
Reﬂection
board
600
23.622
500
19.685
Operating region for
rated detection distance
of 80 cm 31.496 inch
70 cm
27.559 inch
60 cm
23.622 inch
Reﬂection board
200 × 200 mm
7.874 × 7.874 inch
(reﬂectivity: 90%)
400
15.748
Y
X
40 cm
15.748 inch
30 cm
11.811 inch
300
11.811
200
7.874
50 cm
19.685 inch
20 cm
7.874 inch
Reﬂection
board
X
100
3.937
1.-(3) Long type (AMBA3□□□□□)
Detection distance L (mm inch)
100
3.937
90
3.543
80
3.150
70
2.756
60
2.362
50
1.969
40
1.575
30
1.181
20
0.787
10
0.394
0
1.-(2) Middle type (AMBA2□□□□□)
Detection distance L (mm inch)
Detection distance L (mm inch)
1.-(1) Thin short type (AMA1□□□□□)
Short type (AMBA1□□□□□)
Operating region for
rated detection distance
of 200 cm 78.74 inch
2000
78.74
1750
68.898
150 cm
59.055 inch
1500
59.055
Reﬂection board
500 × 500 mm
1250 19.685 × 19.685 inch
49.213 (reﬂectivity: 90%)
1000
39.37
750
29.528
500
19.685
50 cm
19.685 inch
Reﬂection
board
X
250
9.843
0
0
40
20
0
20
40
10 0.787 30 1.575
1.575 30 0.787 10
1.181
0.394 0.394
1.181
Detection width W (mm inch)
20
0
20
10 0.787
0.787 10
0.394 0.394
Detection width W (mm inch)
100 cm
39.37 inch
Y
40
20
0
20
40
10 0.787 30 1.575
1.575 30 0.787 10
1.181
0.394 0.394
1.181
Detection width W (mm inch)
Dimensions
The CAD data of the products with a
mark can be downloaded from: http://industrial.panasonic.com/
(Common to the Built-in oscillation circuit type and External triggering type)
● Thin
● Short
short type (V type)
5
3.2 8
2-RR0.12
2-
16
0.630
6.5
0.256
10 Connector surface
0.394
(Front lens surface)
6
11
Optical surface 0.236
0.433
12.7
0.500
6.6
0.260
11.0
0.433
✽ Rear side connector protrusion: Max. 0.4mm
Receiver
Projector
4
0.157
20
0.787
22.5
0.886
type (H type)
22
0.866
f2.5
f0.098
16.25
0.640
Stamped side
(one side only)
10.0
0.394
29.0
1.142
20.0
0.787
● Middle
type (H type)
19.5
0.768
f3.1
f0.122
Connector surface
(Front lens surface)
Optical surface
19.35
0.762
Receiver
31.2
1.228
Projector
5
0.197
14
0.551
29.5
1.161
23.1
0.909 0.4
0.016
unit : mm inch
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
(Common to the Built-in oscillation circuit type and External triggering type)
● Long
● Long
type (H type)
33
1.299
type (V type)
f4.2
f.165
10
0.394
24.7 Connector surface
0.972 (Front lens surface)
Optical surface
20
0.787
10
0.394
Optical
surface
f4.2
f0.165
7
0.276 Connector
surface
Receiver
46
1.811
Projector
7
0.276
55
2.165
46
65
1.811 2.559
Projector
Receiver
20
0.787
43
1.693
29.7
1.169 Max. 1
0.039
29.7
1.169
MAX. 1
0.039
unit : mm inch
Wiring Diagram (Connector Surface View)
● Short
short type (V type)
4321
● Thin
● Long
BM04B-SRSS
(J.S.T. Mfg. Co., Ltd.)
1: Output
2: GND
3: Power source
4. Built-in oscillation circuit type: N.C.
External triggering type:
external trigger input
4
3
2
1
DF13-4P-1.25DS(20)
(HIROSE ELECTRIC CO., LTD.)
4: Output
3: GND
2: Power source
1. Built-in oscillation circuit type: N.C.
External triggering type:
external trigger input
4
3
2
1
● Long
type (H type)
DF13-4P-1.25DSA
(HIROSE ELECTRIC CO., LTD.)
4: Output
3: GND
2: Power source
1. Built-in oscillation circuit type: N.C.
External triggering type:
external trigger input
● Middle
type (H type)
4
3
2
1
4
3
2
1
type (H type)
DF13-4P-1.25DSA
(HIROSE ELECTRIC CO., LTD.)
4: Output
3: GND
2: Power source
1. Built-in oscillation circuit type: N.C.
External triggering type:
external trigger input
type (V type)
DF13-4P-1.25DSA
(HIROSE ELECTRIC CO., LTD.)
4: Output
3: GND
2: Power source
1. Built-in oscillation circuit type: N.C.
External triggering type:
external trigger input
Options
● Connector
with cable
(for Short, Middle and Long type)
AMV9003
Lead wires AWG 28
4
0.157
1. Built-in oscillation circuit type: N.C.
External triggering type: external trigger input (Purple)
2. Power source (Brown)
3. GND (Blue)
4.5±1
4. Output (Black)
0.177±.039
6.65
0.262
150±5
5.906±0.197
The edge is soldered
Socket housing DF13-4S-1.25C
(HIROSE ELECTRIC CO., LTD.)
● Connector
with cable
(for Thin short type)
AMV9002
unit : mm inch
1. Output (Black)
2. GND (Blue)
3. Power source (Brown)
4. Start signal input (Purple)
Lead wires UL 10368, AWG 30
5
0.197
5
0.197
Solder coated
4.5±2
0.177±0.079
150±5
5.906±0.197
Socket housing SHR-04V-S
unit : mm inch
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
NOTES
■ Use environment
1) Avoid use in the steamy or dusty environment,
the corrosive gas, an environment where organic
solvent can be adhered.
2) When using in a high-noise environment, perform
countermeasures such as installing capacitor (of
33 μF or over) on the power input terminal of the
sensor. Before use, check the performance under
actual use conditions.
■ Wire connection
1) Before the power is supplied, recheck wiring as
misconnection may damage the internal circuit.
(ensure to avoid reverse connection)
2) Use wires shorter than 3 m 9.842 ft to protect
the internal circuit. Before use, check under
actual use conditions if there is no influence by
surrounding environments.
3) Do not repeatedly attach/detach the connector.
■ Detecting part
1) Keep the detecting surface clean. The detecting
surface is resistant to trash/ dust, however, if an
excessive amount of trash/dust adhere to the surface,
it may reduce the margin of detecting distance.
2) Dew condensation on the detecting surface may
cause malfunction.
3) The sensor aims to detect human bodies. If the targeted
object has extremely low reflectivity (e.g., objects frosted
by black rubbers) or extremely high reflectivity (e.g.,
objects which regularly reflect: mirrors, glasses or glossy
papers), the sensor may not be able to detect or the
detecting distance may become unstable.
4) The front face of the lense and the case are
polycarbonate-based. Generally they are stable
against water, alcohol, oil, salt and weak acids.
However, avoid alkalis, aromatic hydrocarbons and
halogenated hydrocarbons as those substances
may expand or melt the lense and the case.
5) If placing filters (covers) in front of the sensor and
perform detection through the filters, following may
occur: detection of the filters (covers), changes of
the detecting distance or unstable operations.
6) If sensors are in facing positions, light from the
opposing sensor may cause mutual interferences and
malfunction. Before use, check the installation conditions.
7) When arranging multiple sensors in parallel, keep
the interval of neighboring sensors as below or over.
Before use, ensure that there is no mutual interference.
Part No.
AMBA1 series
AMA1 series
AMBA2 series
AMBA3 series
Sensor interval
5 cm 1.969 inch
8 cm 3.150 inch
10 cm 3.937 inch
20 cm 7.874 inch
■ Recommended mounting direction
As below, install the sensor for the X and Z advancing
directions of the targeted object.
Y
Z
Advancing
direction
X
Object
Advancing direction
Advancing
Object
direction
Object
When advancing from the Y direction, the
detecting distance may become unstable.
■ Ambient operating conditions
1) Temperature: Refer to the absolute maximum ratings
for the temperature of each individual sensor.
2) Humidity : 15 % to 85 % RH
(No freezing nor condensation at low temperature)
3) Atmospheric pressure: 86 to 106 kPa
4) Because the humidity range differs depending
on the ambient temperature, the humidity range
indicated below should be used. Continuous
operation of the switch is possible within this
range, but continuous use near the limit of the
range should be avoided. This humidity range
does not guarantee permanent performance.
<MA Motion Sensor>
Humidity (%RH)
85
Tolerance range
(Avoid freezing when
used at temperatures
lower than 0 °C 32 °F)
15
−25
−13
(Avoid
condensation
when used at
temperatures
higher than 0 °C
32 °F)
0
+32
75
+167
Temperature (°C, °F)
In general, degradation of electronic devices
accelerates when they are operated under
conditions of high temperature or high humidity.
Before use, confirm the reliability of the sensors
under the expected operating conditions.
5) The sensors do not have a water-proof or dust-proof
construction. Depending on the ambient operating
conditions, some means of providing protection
from water and dust and preventing the formation
of ice and condensation must be provided prior
to using the sensors. If a sensor is used with a
cover installed, the initial detection performance
specifications may not be able to be met. Confirm
the operation under the actual operating conditions.
6) Take care to avoid exposing the sensors to heat,
vibration or impact since malfunctioning may result.
■ Concerning external surge voltages
Since the internal circuitry may be destroyed if an
external surge voltages is supplied, provide an
element which will absorb the surges.
■ Concerning power supplysuperimposed noise
1) Use a regulated power supply as the power
supply. Otherwise, power supplysuperimposed
noise may cause the sensors to malfunction.
2) To maintain the power supply noise performance,
be certain to connect a capacitor (33 μF or more)
to the sensor power supply input terminal in order
to stabilize the power supply voltage.
■ Drop damage
If the sensor is dropped, damage can occur resulting in
incorrect operation. If dropped, be sure to do a visual
check of the exterior for noticeable damage and check
the operation characteristics for faulty operation.
■ Concerning the circuit sides
Since the circuit sides given in this catalog are not
protected in terms of circuit design, check out the
performance and reliability of the circuits prior to
using the sensors.
For general precautions, see “General precautions for
motion sensors” in the next page.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01
Jan. 2016
MA Motion Sensor (AMA1, AMBA1, 2, 3)
Safety Precautions
Head the following precautions to prevent injury
or accidents.
• Do not use these sensors under any circumstances
in which the range of their ratings, environment
conditions or other specifications are exceeded.
Using the sensors in any way which causes their
specifications to be exceeded may generate
abnormally high levels of heat, emit smoke, etc.,
resulting in damage to the circuitry and possibly
causing an accident.
• Do not use any motion sensor which has been
disassembled or remodeled.
• Protection circuit recommended The possible
failure mode is either open or short of the output
transistor. An excess heat is the cause for short
mode failure. For any important and serious
application in terms of safety, add protection
circuit or any other protection method.
• Before connecting a connector, check the pin
layout by referring to the connector wiring
diagram, specifications diagram, etc., and make
sure that the connector is connected properly.
Take note that mistakes made in connection may
cause unforeseen problems in operation, generate
abnormally high levels of heat, emit smoke, etc.,
resulting in damage to the circuitry.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Infrared Array Sensor Grid-EYE (AMG88)
Infrared Array Sensor
Grid-EYE
High Precision Infrared Array Sensor based on Advanced MEMS Technology
Features
● Temperature detection of two-dimensional area: 8 × 8 (64
● Digital output (capability of temperature value output)
● Compact SMD package (adaptively to reﬂow mounting)
● RoHS compliant
pixels)
Typical Applications
● High function home appliances (microwaves and air-conditioners)
● Energy saving at ofﬁce (air-conditioning/lighting control)
● Digital signage
● Automatic doors/elevators
Ordering Information
AMG 8 8
Vertical pixel
8 : 8 pixels
Horizontal pixel
8 : 8 pixels
Applied voltage
3 : 3.3 V.DC
5 : 5 V.DC
Applied voltage
1 : High gain
2 : Low gain
3 : High performance type High gain
4 : High performance type Low gain
Types
Tape and reel package : 1,000 pcs.
Product name
Number of pixel
Operating voltage
Ampliﬁcation factor
Part number
High gain
AMG8831
Low gain
AMG8832
High gain
AMG8851
Low gain
High performance type
High gain
High performance type
Low gain
High performance type
High gain
High performance type
Low gain
AMG8852
3.3 V.DC
Infrared array sensor
Grid-EYE
5.0 V.DC
Infrared array sensor
Grid-EYE
High performance
type
64
(Vertical 8 × Horizontal 8 Matrix)
3.3 V.DC
5.0 V.DC
AMG8833
AMG8834
AMG8853
AMG8854
Rating
Item
Applied voltage
Performance
High gain
Low gain
3.3 V.DC±0.3 V.DC or 5.0 V.DC±0.5 V.DC
Temperature range of measuring object
0 °C to 80 °C +32 °F to +176 °F
−20 °C to 100 °C –4 °F to +212 °F
Operating temperature range
0 °C to 80 °C +32 °F to +176 °F
−20 °C to 80 °C –4 °F to +176 °F
Storage temperature range
−20 °C to 80 °C –4 °F to +176 °F
−20 °C to 80 °C –4 °F to +176 °F
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01 May. 2016
Infrared Array Sensor Grid-EYE (AMG88)
Absolute Maximum Ratings
Item
Applied voltage
Input voltage
Output sink current
Static electricity (Human body model)
Static electricity (Machine model)
Absolute maximum ratings
−0.3 V.DC to 6.5 V.DC
−0.3 V.DC to VDD +0.3 V.DC
−10 mA to 10 mA
1 kV
200 V
Terminal
VDD
SCL, SDA, AD_SELECT
INT, SDA
All terminals
All terminals
Characteristics
Performance
High performance type High performance type
High gain
Low gain
High gain
Low gain
Typical ±2.5 °C ±4.5 °F Typical ±3.0 °C ±5.4 °F Typical ±2.5 °C ±4.5 °F Typical ±3.0 °C ±5.4 °F
5 m or less (reference value) 16.404 ft 7 m or less (reference value) 22.966 ft
Typ. 0.08 °C 32.144 °F 1 Hz
Typ. 0.05 °C 32.900 °F 1 Hz
Typ. 0.26 °C 32.468 °F 10 Hz
Typ. 0.16 °C 32.288 °F 10 Hz
Typical 60 °
Within Typical ±5.6 °
Typical 4.5 mA (normal mode)
Typical 0.2 mA (sleep mode)
Typical 0.8 mA (stand-by mode)
Typical 50 ms (Time to enable communication after setup)
Typical 15 s (Time to stabilize output after setup)
Item
Temperature accuracy
Human detection distance ✽1
NETD ✽2
Viewing angle
Optical axis gap
Current consumption
Setup time
Note: ✽1 To have more than 4 °C 7.2 °F of temperature difference from background
Detection object size: 700 × 250 mm 27.559 × 9.843 inch (Assumable human body size)
✽2 It is calculated from 4 pixels of centers.
Performance
Item
Number of pixel
External interface
Frame rate
Performance
64 (Vertical 8 × Horizontal 8 Matrix)
I2C (fast mode)
Typical 10 frames/sec or 1 frame/sec
Normal
Sleep
Stand-by (10 sec or 60 sec intermittence)
Temperature output
No moving average or Twice moving average
0.25 °C 32.45 °F
2 (I2C slave address)
−20 °C to 80 °C –4 °F to +176 °F
0.0625 °C 32.1125 °F
Operating mode ✽1
Output mode
Calculate mode
Temperature output resolution
Number of sensor address
Thermistor output temperature range
Thermistor output resolution
Note: ✽1 Normal Mode : normal operation mode; Sleep Mode: detection is off (output and data reading not possible); Standby Mode: 1 frame measuring
intermittently every 10 or 60 sec.
Internal Circuit
3.3 V.DC or 5 V.DC
Infrared array sensor
Sensor chip
2
VDD
SDA
ROM
9
I2C I/F
3
SCL
Selector
Control
Capacitor
10 μF
5
Gain
amp
GND
ADC
4
6
AD_SELECT
INT
Thermistor
GND
✽ INT terminal 4 normally has same voltage as VDD. When interrupting, same as GND (0V)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
01 May. 2016
Infrared Array Sensor Grid-EYE (AMG88)
Pixel Array And Viewing Field
(2) Viewing field
Sensor viewing field (typical) is shown below.
(1) Pixel array
Pixel array from 1 to 64 is shown below.
64 63 62 61 60 59 58 57
56 55 54 53 52 51 50 49
48 47 46 45 44 43 42 41
40 39 38 37 36 35 34 33
Horizontal viewing angle 60°
Vertical viewing angle 60°
32 31 30 29 28 27 26 25
24 23 22 21 20 19 18 17
16 15 14 13 12 11 10
9
8
1
7
6
5
4
3
2
Optical Properties
(1) Each pixel’s viewing central angle
Sensor’s optical center (the origin of graph below)
gap: within ±5.6 ° (Typical) (Both horizontal and
vertical directions)
(2) Each pixel’s viewing angle (half angle)
Central 4 pixels (Pixel No. 28, 29, 36, 37) viewing
angle (half angle): horizontal direction 7.7 ° (Typical)
vertical direction 8 ° (Typical)
Vertical viewing central angle (° )
30
20
10
−40
−30
−20
−10
0
0
10
20
30
40
20
Each pixel’s vertical viewing angle (°)
Each pixel’s horizontall viewing angle (°)
40
15
10
5
0
1
−10
5
9
13 17 21 25 29 33 37 41 45 49 53 57 61
20
15
10
5
0
1
5
9
13 17 21 25 29 33 37 41 45 49 53 57 61
Pixel number
Pixel number
−20
−30
−40
Horizontal viewing central angle (° )
Dimensions
External dimensions
1
Part No.
(AMG88 is omitted)
5.3
0.209
8.0
0.315
P
51
11.6
0.457
7
Lot No.
8.9
0.350
Number Terminal Name
NC
8
VDD
9
AVDD-PC
J
NC
K
DVDD-PC
L
VPP
M
NC
N
4.3
0.169
1.5
0.059
Note : Leave terminal “NC (No.1,7,8,K and N)”
unconnected.
Make electrical potential of terminals 9 and
M the same.
11.0±0.05
0.433±0.002
10-0.7
10-0.028
3.5
0.138
8.7
0.343
8
Number Terminal Name
NC
1
SDA
2
SCL
3
INT
4
5 AD_SELECT
GND
6
NC
7
(0.75)
(0.030)
Lens
□2.6 0.102
3.6
0.142
N
2.0
0.079
Recommended
PC board pad
✽Four corners
4-0.8
4-0.031
P1.27±0.05×4=5.08
P0.050±0.002×4=0.200
14-0.5
14-0.0207
7.8
0.307 3.0
0.118
1
13-2.0
13-0.079
N
P1.27×4
P0.050×4
10.9
0.429
8
General tolerance : ±0.2 ±0.08
unit : mm inch
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Infrared Array Sensor Grid-EYE (AMG88)
External Circuit
(1) In case of setting I2C slave address of the sensor 1101000
✽ Connect terminal 5 (AD_SELECT) to GND.
(2) In case of setting I2C slave address of the sensor 1101001
✽ Connect terminal 5 (AD_SELECT) to VDD.
VDD
10 μF±20%
GND
1 μF±10%
20 Ω±5%
JAVDD-PC
9VDD
10 kΩ±5%
10 kΩ±5%
2SDA
3SCL
4INT
5AD_SELECT
6GND
MVPP
LDVDD-PC
JAVDD-PC
9VDD
1.5 μF±10%
10 μF±20%
GND
1 μF±10%
To microcomputer etc.
To microcomputer etc.
To microcomputer etc.
20 Ω±5%
MVPP
LDVDD-PC
2SDA
3SCL
4INT
5AD_SELECT
6GND
To microcomputer etc.
To microcomputer etc.
To microcomputer etc.
10 kΩ±5%
10 kΩ±5%
10 kΩ±5%
10 kΩ±5%
10 kΩ±5%
VDD
1.5 μF±10%
This circuit is an example to drive infrared array sensor “Grid-EYE”, so that we will not take any responsibility of loss
which is due to this circuit.
Packing Format (Tape and Reel)
0.35±0.05
0.014±0.020
Top cover tape
Embossed carrier tape
2.0±0.1
0.079±0.004
1.5 +0.1
0 dia.
0.059 +0.004
dia.
0
4.0±0.1
0.157±0.004
16.0±0.1
0.630±0.004
Direction of picking
12.6±0.1
0.496±0.004
.
+0.1 dia
.
0
1.5 9+00.004 dia
0.05
9.0±0.1
0.354±0.004
17.5±1.0
0.689±0.039
4.7±0.1
0.185±0.004
21.5±1.0
0.846±0.039
380.0±2.0 dia.
14.961±0.079 dia.
1.75±0.1
0.069±0.004
Dimensions of tape reel
80±0.1 dia.
3.150±.039 dia.
Tape dimensions
16.0±0.3
0.630±0.012
7.5±0.1
0.295±0.004
13±0.2 dia.
0.512±0.08 dia.
unit : mm inch
Packing Format (Tape and Reel)
■ Precaution for fundamental structure of sensor
Infrared Array Sensor is a thermopile type infrared
sensor which detects the amount of infrared rays. Below
conditions generally degrade the temperature accuracy.
Carefully check the performance and stability under
actual use conditions, and perform temperature
corrections when necessary.
• When heating elements exist near the mounting
position of the sensor.
• When the sensor is exposed to cold or hot air.
• When the temperature of the sensor body rapidly
changes.
• When substances (e.g., glasses, acrylics or steams),
which hardly transmit a far infrared ray, exist
between the sensor and the detected object.
• When substances (e.g., foreign substances or
water), which hardly transmit a far infrared ray,
adhere to the lense of the sensor.
■ Use environment
1) Temperature: See the specifications
2) Humidity: Between 15% and 85% R.H. (Avoid
freezing and dew condensation)
3) Atmospheric pressure: Between 86 and 106 kPa
4) Vibrations and shocks may damage the sensor, and
cause malfunction and performance deterioration.
If loads and shocks are applied on the lense,
the damaged sensor may cause malfunction and
performance deterioration.
5) The product is not water/splash-proof. Perform
water/dust-proofing and dew condensation/
freezing countermeasures in accordance with use
environment. When dew condensation occurs,
responsiveness of heat source detection may delay
for several seconds.
6) Avoid use and storage in the corrosive gas (organic
solvent, sulfurous acid and hydrogen sulfide gases)
to avoid malfunction and performance deterioration.
7) Use surge absorbers as applying the external surge
voltage may damage the internal circuit.
8) Malfunction may occur near electric noises from
static electricity, lightning, broadcast or amateur radio
stations and mobile phones.
9) The sensor can continuously operate within the
range of using ambient temperature (using ambient
humidity). However, ensure that humidity is within the
range described in the following page as humidity
varies according to temperature. Avoid the continuous
operation near the operational limit. The temperature
range does not guarantee the durability.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Infrared Array Sensor Grid-EYE (AMG88)
■ Other precautions
■ Mounting
These specifications are for individual components.
Before use, carefully check the performance and quality
under actual use conditions to enhance stability.
1) Once the individual sensor is dropped, do not
use. Drop may cause functional disorders.
2) Writing to the unspecified register/with the
unspecified bit may cause malfunction and
performance deterioration. (please consult us)
3) Misconnection and use beyond the specified
temperature range may damage the product.
4) Once below shocks are applied, do not
use the product as applying highfrequency
oscillation to the sensor body may damage the
product.
• Contact with metal objects
• Contact with other sensors
5) F o l l o w t h e i n s t r u c t i o n s b e l o w a s s t a t i c
electricity may damage the product.
• For storage and transportation, avoid plastic
containers which are easily electrified.
• When storing and transporting the sensor,
c h o o s e t h e e n v i ro n m e n t w h e re s t a t i c
electricity is hardly generated (e.g., humidity
between 45 and 60 %) and protect
the product by using electroconductive
packaging materials.
• Once unpacked, perform antistatic
countermeasures.
(1) Operators handling sensors must wear
antistatic cloths and human body
grounding devices.
(2) Cover the surface of workbench by
electro-conductive plates and ground
measuring instruments and jigs.
(3) Use the soldering iron which has a small
leakage current or ground the soldering
tip.
(4) Ground the assembling equipment.
• Use a stabilized power supply. A power
superimposed noise may cause malfunction.
Use the land of the printed-circuit boardon which
the sensor is securely fixed. The recommended
printed-circuit board is FR4 (thickness 1.6 mm 0.063
inch). When mounting on the deprecated circuit
board, carefully check the performance and quality
under actual use conditions before use.
• A large noise on the power supply may cause
malfunction. Place the recommended capacitor near
the sensor (within 20 mm 0.787 inch of the wiring
pattern length) between sensor input terminals
(VDD-GND) to secure power superimposed noise
resistance. Test with the actual machine and reselect the capacitor with optimal capacitance.
• Prevent the metal part of other electronic
components from contacting with the sensor
body as the upper face (where part numbers are
imprinted) of the sensor is GND.
■ Soldering
When soldering, avoid the external thermal influence.
Heat deformation may damage the sensor or deteriorate
its performance. Use the non-corrosive rosin flux.
1) Manual soldering
• Raise the temperature of the soldering tip
between 350 and 400 °C 662 and 752 °F
(30 and 60 W) and solder within 3 seconds.
• The sensor output may vary if the load is
applied on the terminal during soldering.
• Keep the soldering tip clean.
2) Reflow soldering
Below are recommended temperature profiles/
conditions of reflow.
• When printing cream solder, the screen
printing method is recommended.
• For the foot pattern, see the recommended
diagram of the printed-circuit board.
• Carefully align the terminal with the pattern
as self-alignment may not be reliable.
• The temperature of the profile is the value
measured near the terminal on the printedcircuit board.
• After reflowing, when performing reflow
soldering on the back surface of the circuit
board, use an adhesive to fix the board.
■ Range of using ambient temperature (using
ambient humidity)
The sensor can continuously operate within the range
of using ambient temperature (using ambient humidity).
However, ensure that humidity is within the range below
as humidity varies according to temperature. Avoid the
continuous operation near the operational limit. Before
use, check the stability under the usage environment
as high humidity or high temperatures generally
accelerates deterioration of the electronic component.
• The temperature range does not guarantee the
durability
High gain type
Low gain type
Humidity (%RH)
85
85
Tolerance range
(Avoid freezing
at 0 °C 32 °F
or below)
Tolerance range
(Avoid freezing
at 0 °C 32 °F
or below)
(Avoid dew
condensation)
15
−20
0
−4 +32
Humidity (%RH)
(Avoid dew
condensation at
0 °C 32 °F or below)
15
80
+176
Temperature (°C, °F)
−20
0
−4 +32
80
+176
Temperature (°C, °F)
T3
T2
T1
t1
t2
T1 = 150 to 180 °C
302 °F to 356 °F
T2 = 230 °C 446 °F
T3 = Below 250 °C 482 °F
t1 = 60 to 120 sec.
t2 = Less than 30sec.
3) After soldering, do not apply stress on the
soldered part when cutting or bending the
circuit board.
4) Rework soldering
• Complete rework at a time.
• Use a flattened soldering tip when performing
rework on the solder bridge. Do not add the flux.
• Keep the soldering tip below the temperature
described in the specifications.
5) Prevent human hands or metal pieces from
contacting with the sensor terminal. Such
contact may cause anomalous outlets as the
terminal is exposed to the atmosphere.
6) After soldering, prevent chemical agents from
adhering to the sensor when applying coating to
avoid insulation deterioration of the circuit board.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Infrared Array Sensor Grid-EYE (AMG88)
■ Wire connection
1) Correctly wire as in the connection diagram.
Reverse connection may damage the product
and degrade the performance.
2) Do not use idle terminals. Such use may damage
the sensor.
3) For cable wiring, use shield wires with possibly short
wiring lengths to prevent the influence of the noise.
■ Cleaning
Avoid ultrasonic cleaning as this may cause
disconnection of the wire.
■ Storage and transportation
1) Excessive vibrations and shocks during transport
may damage the product. Carefully handle the
exterior box and the reel.
2) Extremely bad storage conditions may deteriorate
solderability or characteristics, and defect the
appearance. Recommended conditions of the
storage place are below.
• Temperature: 0 to 45 °C 32 to 113 °F
• Humidity: Below 70 % R.H.
• Atmosphere: Low-dust and free from noxious
chemicals such as sulfurous acid gas
2) The package is moisture-proof due to its
sensitivity to humidity. When storing the sensor,
follow the instructions below.
• Promptly use after opening. (within a week,
below 30 °C 86 °F/60 % R.H.)
• Once unpacked, preserving in a moisturep ro o f m a n n e r, s u c h a s k e e p i n g i n a
moisture-proof bag with silica gels, is
recommended for long-term storage. (use
within 3 months)
✽ During soldering, when adding thermal stress
in a moisture absorbing state, moisture
evaporates, swells and generates stress to
the internal package. To avoid swellings and
cracks in the surface of the package, follow
the soldering conditions.
■ Special notes
We exert maximum efforts for quality control of the
product, however :
1) To p r e v e n t o c c u r r e n c e o f u n e x p e c t e d
circumstances, please infor m us of the
specifications of your product, customers, use
conditions and details of the attachment position.
2) Have sufficient margin values of driving/
performance guarantee described in the
specifications and apply safety measures with
double circuits, if serious effects on human
lives or property are predicted due to a quality
failure of the product. Those countermeasures
are also for the product liability.
3) A warranty period is one year after the delivery
to your company. Quality assurance is limited
to the items and the scopes described in the
specifications.
If a defect is found after the delivery, we will
promptly provide a replacement or change/
repair the defect part at the place of delivery
in good faith. Exceptions are below.
• Damages by a failure or a defect which
arose after the delivery.
• A f t e r t h e d e l i v e r y, w h e n s t o r i n g a n d
transporting, if conditions other than
conditions in the specifications are applied to
the product.
• Damages by unforeseen phenomenon which
cannot be predicted with the technologies
available at the time of delivery.
• Damages by natural and anthropogenic
disasters, such as earthquake, flood, fire
and war, which are beyond our reasonable
control.
■ Export control
[Customers within Japan]
This product is subject to the Foreign Exchange
and Foreign Trade Act enacted by the Japanese
government. When exporting the product from Japan or
taking the product out of Japan, export permission
from the Japanese government is required. (as of Aug
2015). Do not use the product for other purposes.
When disposing surplus stock or inventory, prevent
unauthorized reuse and do not sell the products to the
third party.
[Customers outside Japan]
This product is subject to the laws concerning security
export control (the Foreign Exchange and Foreign Trade
Act) enacted by the Japanese government. We obtain
export permission by the Japanese government in order
to resale/provide the products. Do not use the product
for other purposes. If exporting the product from your
country, laws or regulations of the country may restrict
the export. When disposing surplus stock or inventory,
prevent unauthorized reuse and do not sell the products
to the third party.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
Pressure Sensor
PS-A
Pressure sensor
Built-in ampliﬁer and compensating circuit
Features
● Built-in ampliﬁer and temperature compensation circuit, no need for circuit design and characteristic adjustment
● High accuracy and reliability : overall accuracy ±1.25% FS (Standard), ±2.5% FS (Low-pressure type)
● Compact size, space-saving : compatible size for PS type (Standard/Economy, S and M packages)
● RoHS compliant
Typical Applications
● Industrial use : pressure switches and pneumatic components, compressed air pressure measuring devices
● Medical use : blood pressure meters, oxygen generator and airbeds
● Others : pressure sensing devices for air pressure mediums
Low-pressure type
● Water level detection for domestic appliances: washing machines and dishwashers
● Air pressure control : cleanrooms and smoking rooms
● Medical applications : breathing pressure measuring devices
Ordering Information
ADP5
Terminal profile
1 : DIP terminal
2 : SMD terminal
Rated pressure
Package/Pressure inlet hole
Base type
0 : S Package
Nil : With glass base (Standard type)
0 : ±100 kPa
length : 3 mm 0.118 inch, diameter : 3 mm 0.118 inch
1 : −100 kPa
Low pressure type
25 kPa
1 : M Package
1 : Without glass base
2 :
50 kPa
length : 5 mm 0.197 inch, diameter : 3 mm 0.118 inch
3 :
(Economy type)
2 : L Package (Only low pressure type)
4 : 100 kPa
length : 13.5 mm 0.531 inch, diameter : 5.45 mm 0.215 inch
5 : 200 kPa
3 : P Package (Only low pressure type)
6 : 500 kPa
length : 15.6 mm 0.615 inch, diameter : 5.45 mm 0.215 inch
7 : 1,000 kPa
40 kPa
A :
6 kPa (Low pressure type)
B6 :
Note : Some part numbers may not be available
depending on the combination.
Please refer to the Table of PRODUCT TYPES
on the next page.
Product Types
Package
(Pressure inlet
hole length)
Terminal
Pressure
Standard
type
(with glass
base)
Economy type
(without glass base)
Low pressure type
±100 kPa
−100 kPa
25 kPa
50 kPa
100 kPa
200 kPa
500 kPa
1, 000 kPa
Standard type
S Package
(3 mm 0.118 inch)
DIP
terminal
SMD
terminal
Part No.
Standard/Economy type
Low pressure type
L Package
P Package
M Package
M Package
(5 mm 0.118 inch)
(5 mm 0.197 inch) (13.5 mm 0.531 inch) (15.6 mm 0.614 inch)
DIP
terminal
SMD
terminal
DIP
terminal
DIP
terminal
DIP
terminal
ADP5100
ADP5110
ADP5120
ADP5130
ADP5140
ADP5150
ADP5160
ADP5170
ADP5200
ADP5210
–
–
ADP5240
ADP5250
ADP5260
ADP5270
ADP5101
ADP5111
ADP5121
ADP5131
ADP5141
ADP5151
ADP5161
ADP5171
ADP5201
ADP5211
–
–
ADP5241
ADP5251
ADP5261
ADP5271
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
–
40 kPa
–
–
ADP51A11
–
–
–
–
6 kPa
–
–
–
–
ADP51B61
ADP51B62
ADP51B63
Standard packing : Carton : 100 pcs.; Case : 1,000 pcs.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
Rating
● Standard
type
Item
Type of pressure
Pressure medium
Rated pressure (kPa)
Max. applied pressure
Ambient temperature
Storage temperature
Drive voltage
Temperature compensation range
Offset voltage
Rated output voltage
Overall accuracy
Current consumption
Output impedance
Source current
Sink current
±100
−100
Standard type (with glass base)
Gauge pressure
Air
25
50
100
200
Remarks
✽1
500
Twice of the rated pressure
1,000
1.5 times
the rated
pressure
−10 °C to +60 °C 14 °F to +140 °F (no freezing or condensation)
−20 °C to +85 °C −4 °F to +185 °F (no freezing or condensation)
5±0.25 V.DC
0 °C to 50 °C 32 °F to 122 °F
2.5±0.05
0.5±0.05 V
4.5±0.05
(+when
4.5±0.05 V
+100kPa)
±1.25 %FS
Max. 10 mA
15 Ω (Typical)
Max. 0.2 mA
Max. 2 mA
✽2, 3, 5
✽2, 3, 5
✽3, 4, 5
✽2, 3
✽2
✽2, 3
✽2, 3
Notes : ✽1 Please consult us for pressure media other than air.
✽2 Indicates output when temperature is 25 °C 77 °F.
✽3 Indicates output when drive voltage is 5 V. Although output ﬂuctuates due to ﬂuctuations in the drive voltage, this is not included.
✽4 Overall accuracy indicates the accuracy of the offset voltage and rated output voltage at a temperature compensation range of 0 to 50 °C 32 to 122 °F.
✽5 Accuracy is the value at the time of our shipping. Please set Zero-point calibration function on your products in order to safely use if the offset voltage is shifted.
● Economy
type
Item
Type of pressure
Pressure medium
Rated pressure (kPa)
Max. applied pressure
Ambient temperature
Storage temperature
Drive voltage
Temperature compensation range
Offset voltage
Span voltage
Offset voltage temperature
characteristics
Sensitivity temperature
characteristics
Current consumption
Output impedance
Source current
Sink current
Economy type (without glass base)
Gauge pressure
Air
40
Twice of the rated pressure
−5 °C to +50 °C 23 °F to +122 °F (no freezing or condensation)
−20 °C to +70 °C −4 °F to +158 °F (no freezing or condensation)
3±0.15 V.DC
5 °C to 45 °C 41 °F to 113 °F
0.3±0.09 V
2.4±0.03 V
Remarks
✽1
✽2, 3, 5
✽2, 3, 5
±4.0 %FS
✽3, 4, 5
1.3 %FS
✽3, 4, 5
Max. 3 mA
20 Ω (Typical)
Max. 0.15 mA
Max. 1.5 mA
✽2
✽2, 3
✽2, 3
✽2, 3
Notes : ✽1 Please consult us for pressure media other than air.
✽2 Indicates output when temperature is 25 °C 77 °F.
✽3 Indicates output when drive voltage is 3 V. Although output ﬂuctuates due to ﬂuctuations in the drive voltage, this is not included.
✽4 Indicates from output value at 25 °C 77 °F and the change of output at 5 and 45 °C 41 to 113 °F.
✽5 Accuracy is the value at the time of our shipping. Please set Zero-point calibration function on your products in order to safely use if the offset voltage is shifted.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
● Low
pressure type
Item
Type of pressure
Pressure medium
Rated pressure (kPa)
Max. applied pressure
Ambient temperature
Storage temperature
Drive voltage
Temperature compensation range
Offset voltage
Span voltage
Overall accuracy
Current consumption
Output impedance
Source current
Sink current
Economy type (without glass base)
Gauge pressure
Air
6
Twice of the rated pressure
0 °C to +70 °C 32 °F to +158 °F (no freezing or condensation)
−30 °C to +100 °C −22 °F to +212 °F (no freezing or condensation)
5±0.25 V.DC
0 °C to 70 °C 32 °F to 158 °F
0.5 V (Typical)
4.0 V (Typical)
±2.5 %FS
Max. 10 mA
50 Ω (Typical)
Max. 0.2 mA
Max. 2.0 mA
Remarks
✽1
✽2
✽2
✽2, 3, 4
Notes : ✽1 Please consult us for pressure media other than air.
✽2 Indicates output when drive voltage is 5 V. Although output ﬂuctuates due to ﬂuctuations in the drive voltage, this is not included.
✽3 Overall accuracy indicates the accuracy of the offset voltage and span voltage at temperatures between 0 to 70 °C 32 to 158 °F (FS=4V)
✽4 The initial offset voltage error is not included in the overall accuracy.
Reference Data
● Standard
type
1.-(1) Output voltage
1.-(3) Overall accuracy (Rated output voltage)
ADP5170
Drive voltage : 5 V.DC
Temperature : 0 to 50 °C 32 to 122 °F
Applied pressure : 0 kPa
ADP5170
Drive voltage : 5 V.DC
Temperature : 0 to 50 °C 32 to 122 °F
Applied pressure : +1,000 kPa
1.25
1.00
4
0.75
0.75
0.50
0.50
3
Accuracy (%FS)
1.25
1.00
0.25
0.00
500
Pressure (kPa)
1000
0.00
−0.50
−0.50
0
0
0.25
−0.25
−0.25
2
1
−0.75
−0.75
−1.00
−1.00
−1.25
0 32
2.-(1) Output voltage
ADP5100
Drive voltage : 5 V.DC
Temperature : 25 °C 77 °F
Applied pressure : −100 to +100 kPa
25 77
Temperature (°C °F)
50 122
−1.25
0 32
2.-(3) Overall accuracy (Rated output voltage)
ADP5100
Drive voltage : 5 V.DC
Temperature : 0 to 50 °C 32 to 122 °F
Applied pressure : +100 kPa
4
0.75
0.75
0.50
0.50
Accuracy (%FS)
1.25
1.00
0.25
0.00
−0.25
2
0
–100
0
Pressure (kPa)
100
0.25
0.00
−0.25
−0.50
1
50 122
ADP5100
Drive voltage : 5 V.DC
Temperature : 0 to 50 °C 32 to 122 °F
Applied pressure : 0 kPa
1.25
1.00
3
25 77
Temperature (°C °F)
2.-(2) Overall accuracy (Offset voltage)
5
Accuracy (%FS)
Output voltage (V)
1.-(2) Overall accuracy (Offset voltage)
5
Accuracy (%FS)
Output voltage (V)
ADP5170
Drive voltage : 5 V.DC
Temperature : 25 °C 77 °F
Applied pressure : 0 to +1,000 kPa
−0.50
−0.75
−0.75
−1.00
−1.00
−1.25
0 32
−1.25
25 77
Temperature (°C °F)
50 122
0 32
25 77
Temperature (°C °F)
50 122
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
● Low
pressure type
1 Output voltage
2 THB (high temperature high humidity bias test)
ADP51B61
Within 85 °C 185 °F and 85% RH
5 V applied between No.2 (Vdd) and No.3 (GND)
Applied pressure : 0 kPa
1.00
4.5
4.0
0.80
4.3
3.0
2.0
1.0
Span voltage (V)
5.0
Offset voltage (V)
Output voltage (V)
ADP51B61
Drive voltage : 5 V.DC
Temperature : 25 °C 77 °F
Applied pressure : 0 to 6 kPa
0.60
0.40
0.20
0.0
0.0
3.0
Applied pressure (kPa)
3.9
3.7
0.00
6.0
4.1
intial
100h
500h
3.5
intial
100h
500h
3 Ambient temperature characteristics
1.00
4.50
0.80
4.30
Span voltage (V)
Offset voltage (V)
Ambient temperature : 25 °C 77 °F → 0 °C 32 °F→ 10 °C 50 °F → 60 °C 140 °F → 70 °C 158 °F
0.60
0.40
4.10
3.90
0.20
3.70
0.00
25 77
3.50
0 32
10 50 60 140 70 158
Temperature (°C °F)
25 77
0 32
10 50 60 140 70 158
Temperature (°C °F)
4 Shock test
1.00
4.50
0.80
4.30
Span voltage (V)
Offset voltage (V)
ADP51B61
Shock applied : 981 m/s2, 3 times in x, y and z directions
Applied pressure : 0 kPa
0.60
0.40
0.20
4.10
3.90
3.70
0.00
intial
after test
3.50
intial
after test
5 Vibration test
1.00
4.50
0.80
4.30
Span voltage (V)
Offset voltage (V)
ADP51B61
Vibration applied : 10 to 55 Hz, amplitude : 1.5mm, x, y and z directions, 2 hrs each
Applied pressure : 0 kPa
0.60
0.40
0.20
0.00
4.10
3.90
3.70
intial
after test
3.50
intial
after test
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
1 cycle (24h)
Temp. 65 °C 149 °F
25 °C
77 °F
Time
□□□
2.5h
3h
65 °C
149 °F −10 °C
14 °F
2.5h
2.5h
3h
25 °C
77 °F
2.5h 1.5h 3.5h
3h
0% RH
95% RH
1.00
4.50
0.80
4.30
Span voltage (V)
ADP51B61
Exposed to 10 cycles in the temperature
and humidity conditions given below.
Applied pressure : 0kPa
Offset voltage (V)
6 Temperature/humidity cycle test
0.60
0.40
3.90
3.70
0.20
0.00
4.10
3.50
intial
10 cyc
intial
10 cyc
Evaluation Test
Classiﬁcation
Tested item
Tested condition
Result
Storage at high temperature Temperature : Left in a 85 °C 185 °F constant temperature bath; Time : 100 hrs. Passed
Environmental
characteristics
Endurance
characteristics
Mechanical
characteristics
Storage at low temperature Temperature : Left in a –20 °C –4 °F constant temperature bath; Time : 100 hrs. Passed
Humidity resistance
Temperature/humidity : Left at 40 °C 104 °F, 90 % RH; Time : 100 hrs.
Passed
Temperature cycle
Temperature : –20 °C to 85 °C –4 °F to 185 °F; 1 cycle : 30 min.; Times of cycle : 100
Passed
High temperature/
high humidity operation
Temperature/humidity : 40 °C 104 °F, 90% RH;
Operation times : 106, rated voltage applied
Passed
Vibration resistance
Double amplitude : 1.5 mm 0.059 inch; Vibration : 10 to 55 Hz;
Applied vibration direction : X, Y, Z 3 directions; Times : 2 hrs each
Passed
Dropping resistance
Dropping height : 75 cm 29.528 inch; Times : 2 times
Passed
Terminal strength
Pulling strength : 9.8 N {1 kgf}, 10 sec.;
Bending strength : 4.9 N {0.5 kgf}, left and right 90 ° 1 time
Passed
Temperature : 230 °C 446 °F; Time : 5 sec.
Passed
Temperature : 260 °C 500 °F; Time : 10 sec.
Passed
Solderbility
Soldering
Characteristics Heat resistance (DIP)
Items
Offset voltage
Rated Output Voltage
Criteria
Variation amount
within ±2.5%FS of value
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
Dimensions
The CAD data of the products with a
mark can be downloaded from: http://industrial.panasonic.com/
● Standard
Vcc NU Vout
Pressure
inlet hole
f2.2
f0.087
Recommended PC board pattern
7.2Max.
0.283Max.
7.0Max.
0.276Max.
type S Package (Terminal direction : DIP terminal Pressure inlet hole length : 3 mm 0.118 inch)
ADP51□0
Terminal connection
diagram
6-f0.9
6-f0.035
7.5
0.295
.7 8
R0 02
4- -R0.
4
GND NU NU
f3.0
f0.118
C
.2
R0 .08
R0
1.8
0.071
GND
6.5
0.256
654
3.0
0.118
2.5
0.98
0.5
0.020
2.5
0.98
2.5
0.98
2.5
0.98
unit : mm inch
General tolerance : ±0.3 ±0.012
9.5
0.374
0.25
0.010
GND NU NU
Terminal No.
1
2
3
4
5
6
7.2
0.283
Atmospheric
pressure
inlet hole
123
Vcc（DC 5V） Vout
JAPAN
Vcc NU Vout
7.0
0.276
Name
Vcc (Power supply [+])
NU (Not usable)
Vout (Output)
NU (Not usable)
NU (Not usable)
GND (Ground)
● Standard
Vcc NU Vout
Pressure
inlet hole
f2.2
f0.087
Recommended PC board pattern
7.2Max.
0.283Max.
7.0Max.
0.276Max.
type S Package (Terminal direction : SMD terminal Pressure inlet hole length : 3 mm 0.118 inch)
ADP52□0
1.1
0.043
f3.0
f0.118
123
Vcc（DC 5V） Vout
9.5
0.374
1.9
0.075
.7 8
R0 .02
4- -R0
4
GND NU NU
Terminal connection
diagram
C
GND
.2
R0 .008
R0
0.15
0.059
6.5
0.256
1.8
0.071
654
3.0
0.118
0.2
5
0.0
1
0.5
0.20
2.5
0.098
2.5
0.098
JAPAN
Vcc NU Vout
7.0
0.276
7.2
0.283
Atmospheric GND NU NU
pressure
inlet hole
10.0
0.394
0.5
0.020
2.5
0.098
2.5
0.098
unit : mm inch
General tolerance : ±0.3 ±0.012
Terminal No.
1
2
3
4
5
6
Name
Vcc (Power supply [+])
NU (Not usable)
Vout (Output)
NU (Not usable)
NU (Not usable)
GND (Ground)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
Dimensions
The CAD data of the products with a
mark can be downloaded from: http://industrial.panasonic.com/
● Standard/Economy
type M Package (Terminal direction : DIP terminal Pressure inlet hole length : 5 mm 0.197 inch)
ADP51□1/ADP51A11
Vcc NU Vout
Pressure
inlet hole
7.2Max.
0.283Max.
7.0Max.
0.276Max.
Recommended PC board pattern
6-f0.9
6-f0.035
.7 8
R0 02
4- -R0.
4
GND NU NU
f3.0
f0.118
R0.28
R0.0
GND
1.8
0.071
8.5
0.256
5.0
0.197
2.5
0.98
2.5
0.98
2.5
0.98
unit : mm inch
General tolerance : ±0.3 ±0.012
9.5
0.374
GND NU NU
0.25
0.010
Terminal No.
1
2
3
4
5
6
7.2
0.283
Atmospheric
pressure
inlet hole
C
654
0.5
0.020
2.5
0.98
123
Vcc（DC 5V） Vout
7.5
0.295
f2.2
f0.087
JAPAN
Terminal connection
diagram
Vcc NU Vout
7.0
0.276
Name
Vcc (Power supply [+])
NU (Not usable)
Vout (Output)
NU (Not usable)
NU (Not usable)
GND (Ground)
● Standard
type M Package (Terminal direction : SMD terminal Pressure inlet hole length : 5 mm 0.197 inch)
ADP52□1
Vcc NC Vout
Pressure
inlet hole
7.2Max.
0.283Max.
7.0Max.
0.276Max.
Recommended PC board pattern
Terminal connection
diagram
1.1
0.043
123
Vcc（DC 5V） Vout
GND NC NC
0.5
0.20
2.5
0.098
GND NC NC
JAPAN
Vcc NC Vout
7.0
0.276
7.2
0.283
Atmospheric
pressure
inlet hole
GND
0.2
5
0.0
1
2.5
0.098
C
654
0.15
0.059
8.5
0.335
5.0
0.197
R0.2 8
0
R0.0
1.8
0.071
f3.0
f0.118
9.5
0.374
.7 8
R0 02
4- -R0.
4
1.9
0.075
f2.2
f0.087
10.0
0.394
0.5
0.020
2.5
0.098
2.5
0.098
unit : mm inch
General tolerance : ±0.3 ±0.012
Terminal No.
1
2
3
4
5
6
Name
Vcc (Power supply [+])
NU (Not usable)
Vout (Output)
NU (Not usable)
NU (Not usable)
GND (Ground)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
Dimensions
The CAD data of the products with a
Low pressure type M Package (Terminal direction : DIP terminal, Pressure inlet hole length : 5 mm 0.197 inch) ADP51B61
P2.54×3=7.62
P0.100×3=0.300
2.54
0.100
Recommended PC board pattern
(BOTTOM VIEW)
10.4
0.409
Pressure
inlet hole
10.4
0.409
14.0
0.551
10.7
0.421
1B61
70124
.2
f1 47
8- f0.0
8
f3.0
f0.118
1 2 3 4
0.01 μF
1.0 μF
2.54
0.100
JAPAN
unit : mm inch
General tolerance : ±0.3 ±0.012
0.76
0.030
2.7
0.106
0.25
0.010
8 7 6 5
P2.54×3=7.62
P0.100×3=0.300
5.0
0.197
R0
R0. .5
020
P/N,Lot
Terminal connection
diagram
13.97
0.550
●
mark can be downloaded from: http://industrial.panasonic.com/
NU VccGnd Vout
Atmospheric
pressure inlet hole
Terminal No.
1
2
3
4
NU NU NU NU
Name
NU (Not usable)
Vcc (Power supply [+])
GND (Ground)
Vout (Output)
Terminal No.
5
6
7
8
Name
NU (Not usable)
NU (Not usable)
NU (Not usable)
NU (Not usable)
● Low pressure type L Package (Terminal direction : DIP terminal, Pressure inlet hole length : 13.5 mm 0.531 inch) ADP51B62
10.4
0.409
Recommended PC board pattern
(BOTTOM VIEW)
10.4
0.409
（13.5）
19.3
0.760
3
0. 12
C 0.0
C
P/N,Lot
f5.45
f0.215
（0.535）
R0
.
R0 5
.02
0
14.0
0.551
.2
f1 47
8- f0.0
8-
1 2 3 4
0.01 μF
1.0 μF
2.54
0.100
unit : mm inch
General tolerance : ±0.3 ±0.012
1B61
70124
2.7
0.106
0.76
0.030
NU VccGnd Vout
Atmospheric
pressure inlet hole
NU NU NU NU
8 7 6 5
P2.54×3=7.62
P0.100×3=0.300
JAPAN
0.25
0.010
Terminal connection
diagram
13.97
0.550
P2.54×3=7.62
P0.100×3=0.300
2.54
0.100
Pressure
inlet hole
Terminal No.
1
2
3
4
Name
NU (Not usable)
Vcc (Power supply [+])
GND (Ground)
Vout (Output)
Terminal No.
5
6
7
8
Name
NU (Not usable)
NU (Not usable)
NU (Not usable)
NU (Not usable)
● Low pressure type P Package (Terminal direction : DIP terminal, Pressure inlet hole length : 15.6 mm 0.614 inch) ADP51B63
P/N , Lot
f3.00
f0.118
1234
3.3
0.130
0.76
0.030
NU NU NU NU
0.01 μF
1.0 μF
unit : mm inch
General tolerance : ±0.3 ±0.012
JAPAN
NU Vcc Gnd Vout
8765
2.54
0.100
1B63
120215
0.25
0.010
Terminal connection
diagram
P2.54×3=7.62
P0.100×3=0.300
.2 47
f1 .0
8- -f0
8
10.4
0.409
5.6
0.220
20.2
0.795
f5.45
f0.215
15.6
0.614
14.0
0.551
10.4
0.409
Atmospheric
pressure inlet hole
Recommended PC board pattern
(BOTTOM VIEW)
13.97
0.550
P2.54×3=7.62
P0.100×3=0.300
2.54
0.100
Pressure
inlet hole
Terminal No.
1
2
3
4
Name
NU (Not usable)
Vcc (Power supply [+])
GND (Ground)
Vout (Output)
Terminal No.
5
6
7
8
Name
NU (Not usable)
NU (Not usable)
NU (Not usable)
NU (Not usable)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
NOTES
■ Mounting
■ Environment
Use the land of the printed-circuit board on which the sensor is
securely fixed.
■ Soldering
Temperature
Avoid the external thermal influence as the product has a limited
thermal capacity due to its compact structure. Heat deformation
may damage the sensor or deteriorate its performance. Use the
non-corrosive rosin flux. Prevent the flux from entering into the
inside of the product as the sensor is exposed to the atmosphere.
1) Manual soldering
• Raise the temperature of the soldering tip between 260 and
300 °C 500 and 572 °F (30 W) and solder within 5 seconds.
• The sensor output may vary if the load is applied on the
terminal during soldering.
• Keep the soldering tip clean.
2) DIP soldering (DIP Terminal)
• Keep the temperature of the DIP solder tank below 260 °C
572 °F and solder within 5 seconds.
• To avoid heat deformation, do not perform DIP soldering
when mounting on the circuit board which has a small
thermal capacity.
3) Reflow soldering (SMD Terminal)
• The recommended reflow temperature profile conditions are
given below.
4)
5)
6)
7)
8)
9)
10)
230 °C
446 °F
150 °C
302 °F
Main heating
■ Quality check under actual use conditions
These specifications are for individual components. Before use,
carefully check the performance and quality under actual use
conditions to enhance stability.
Preheating
With in 60 sec.
1) Avoid use and storage in the corrosive gas (organic solvent,
sulfurous acid and hydrogen sulfide gases) which negatively
affects the product.
2) Install the capacitor on the power supply terminal of the sensor
and stabilize supply voltage to maintain a superimposed noise
resistance. Recommended installation is to arrange 0.1 μF and
1,000 pF in parallel. Before use, check the noise resistance and
select/add the optimal capacitor.
3) Use surge absorbers as applying the external surge voltage may
damage the internal circuit.
4) Malfunction may occur near electric noises from static electricity,
lightning, broadcast or amateur radio stations and mobile phones.
5) Avoid use in a place where these products come in contact with
water as the sensor does not have a splash-proof construction.
6) Avoid use in an environment where these products cause dew
condensation. When water attached to the sensor chip freezes,
the sensor output may be fluctuated or damaged.
7) Due to the structure of the pressure sensor chip, the output
varies under light. Do not expose the sensor chip to light when
applying a voltage by using a transparent tube.
8) Do not apply high-frequency oscillation, such as ultrasonic
waves, to the product.
With in
10 sec.
■ Other precautions
Time
• We recommend the screen solder printing method as the
method of cream.
• Please refer to the recommended PC board specification
diagram for the PC board foot pattern.
• Self alignment may not always work as expected, therefore,
please carefully the position of the terminals and pattern.
• The temperature of the profile is assumed to be a value
measured with the printed wiring board of the terminal
neighborhood.
• Please evaluate solderbility under the actual mounting
conditions since welding and deformation of the pressure
inlet port may occur due to heat stress depending on
equipments or conditions.
Rework soldering
• Complete rework at a time.
• Use a flattened soldering tip when performing rework on the
solder bridge. Do not add the flux.
• Keep the soldering tip below the temperature described in
the specifications.
Avoid drop and rough handling as excessive force may deform
the terminal and damage soldering characteristics.
Keep the circuit board warpage within 0.05 mm of the full width
of the sensor.
After soldering, do not apply stress on the soldered part when
cutting or bending the circuit board.
Prevent human hands or metal pieces from contacting with the
sensor terminal. Such contact may cause anomalous outlets as
the terminal is exposed to the atmosphere.
After soldering, prevent chemical agents from adhering to the
sensor when applying coating to avoid insulation deterioration of
the circuit board.
Please consult us concerning leadfree soldering.
1) The wrong mounting method and the pressure range may invite
the risk of accidents.
2) Only applicable pressure medium is dry air. Avoid use in the
corrosive gas (organic solvent, sulfurous acid and hydrogen
sulfide gases) or other mediums containing moisture or foreign
substances. Such mediums may damage or break the product.
3) The pressure sensor chip is located inside the pressure
introduction port. Do not insert foreign substances, such as
wires, into the port as those substances may damage the chip
and close the port. Do not block the atmosphere introduction
port.
4) Use electric power within the rated power range. Use beyond
the range may damage the product.
5) Follow below instructions as static electricity may damage the
product:
(1) For Storage, short the circuit between terminals by using
conductive substances or wrap the whole chip with
aluminum foil. For storage and transportation, avoid plastic
containers which are easily electrified.
(2) Before use, connect electrified materials on desk and
operators to the ground in order to safely discharge static
electricity.
6) Carefully select and fix tubes, introduction pipes and products
based on the working voltage. Please contact us for any inquires.
7) After mounding the pressure sensor, prevent the potting agent
from entering the pressure and the atmosphere introduction ports
when coating the circuit board. Use the elastic resin as the heated
resin may expand, contract and apply pressure to the sensor. After
coating, carefully check if the sensor can be used.
■ Wire connection
1) Correctly wire as in the connection diagram. Reverse connection
may damage the product and degrade the performance.
2) Do not use idle terminals to prevent damages to the sensor.
■ Cleaning
• Prevent cleaning liquid from entering the inside of the product
as the sensor is exposed to the atmosphere.
• Do not perform ultrasonic cleaning in order to prevent damages
to the product.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS-A (ADP5)
Safety precautions
Accidents occur at certain probability for Electronic components and equipment in spite that we keep working on a
improvement in quality and reliability. In order that accidents result in injury or death, fire accidents and social damages do not
occur, please pay enough attention to safety design such as redundancy design, fire spread preventing design and malfunction
preventing design etc.
Our quality standards fall into the following three categories depending on the applications of the products:
Reference Standards, Special Standards, and Specified Standards that meet the quality assurance program designated by the
customer. These quality standards have been established so that our products will be used for the applications listed below.
Reference Standards: Computers, office automation equipment, communications equipment, audio-video products, home
electrical appliances, machine tools, personal devices, industrial robots
Special Standards: Transportation equipment (automobiles, trains, ships, etc.), traffic signal equipment, crime and disaster
prevention devices, electric power equipment, various safety devices, and medical equipment not directly targeted for life
support
Specified Standards: Aircraft equipment, aeronautical and space equipment, seabed relay equipment, nuclear power control
systems, and medical equipment, devices and systems for life support
Before considering the use of our products under the following conditions, you must contact one of our customer service
representatives without fail and exchange written specifications.
(1) When our products are to be used in any of the applications listed for the Special Standards or Specified Standards
(2) When, even for any of the applications listed for the Reference Standards, our products may possibly be used beyond
the range of the specifications, environment or conditions listed in the document or when you are considering the use of
our products in any conditions or an environment that is not listed in the document
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS(ADP4), PF(ADP1)
Pressure Sensor
PS/PF
PS Pressure Sensor
PF Pressure Sensor
High precision pressure sensor (without amp.)
Features
● Compact size (PS type)
● High accuracy and liner
● Broad line-up
● RoHS compliant
characteristic
Typical Applications
● Industrial use: pressure switches and pneumatic components, compressed air pressure measuring devices and airbeds
● Medical use: blood pressure meters, oxygen generator and airbeds
● Others: pressure sensing devices for air pressure mediums
Ordering Information
ADP
Product name
1 : PF pressure sensor
4 : PS pressure sensor
Terminal profile and direction
1 : DIP terminal
(Direction opposite to the
pressure inlet direction)
Type
Bridge resistance
Rated pressure
1 : Standard type
Nil : PF 5 kΩ
0 : 4.9 kPa
0 : PS 5 kΩ
(With glass base)
2 : 34.3 kPa
3 : 3.3 kΩ
2 : Economy type
3 : 49.0 kPa
(Without glass base)
4 : 98.1 kPa
5 : 196.1 kPa
6 : 343.2 kPa
7 : 490.3 kPa
8 : 833.6 kPa
9 : 980.7 kPa Note : Some part numbers may not be available
A : 40.0 kPa
depending on the combination.
Please refer to the Table of Product Types.
2 : DIP terminal
(Pressure inlet direction)
Types
Part No.
Brige resistance
PS pressure sensor
5 kΩ
PF pressure sensor
5 kΩ
3.3 kΩ
3.3 kΩ
Terminal
Pressure
4.9kPa
34.3kPa
49.0kPa
Standard type 98.1kPa
196.1kPa
(with glass
base)
343.2kPa
490.3kPa
833.6kPa
980.7kPa
Economy type
(without glass
base)
40.0kPa
DIP terminal:
Direction opposite
to the pressure
inlet direction
ADP41010
ADP41210
ADP41310
ADP41410
ADP41510
ADP41610
ADP41710
ADP41810
ADP41910
–
DIP terminal: SMD terminal DIP terminal:
Direction opposite
Pressure inlet
to the pressure
direction
inlet direction
–
ADP42010
–
–
ADP42210
–
–
ADP42310
–
ADP42410 ADP4932 ADP41413
–
ADP42510
–
–
ADP42610
–
–
ADP42710
–
–
ADP42810
–
ADP42910 ADP4933 ADP41913
–
–
DIP terminal: DIP terminal:
Pressure inlet Direction opposite
to the pressure
direction
inlet direction
–
ADP1101
–
ADP1121
–
ADP1131
ADP42413 ADP1141
–
ADP1151
–
ADP1161
–
ADP1171
–
ADP1181
ADP42913 ADP1191
ADP41A23 ADP42A23
–
DIP terminal: DIP terminal: DIP terminal:
Pressure inlet Direction opposite Pressure inlet
to the pressure direction
direction
inlet direction
ADP1201
–
–
ADP1221
–
–
ADP1231
–
–
ADP1241
–
–
ADP1251
–
–
ADP1261
–
–
ADP1271
–
–
ADP1281
–
–
ADP1291
–
–
–
ADP11A23 ADP12A23
Standard packing : Carton : 100 pcs.; Case : 1,000 pcs.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS(ADP4), PF(ADP1)
Rating
Type
Economy type
(Without glass base)
Standard type (With glass base)
Type of pressure
Pressure medium
Rated pressure (Unit: kPa)
Max. applied pressure
Bridge resistance
Gauge pressure
Air ✽2
4.9
34.3 to 343.2 490.3
833.6
980.7
98.1 ✽3 980.7 ✽3
1.5 times of the
Twice of the 1.5 times of the
Twice of the rated pressure
rated pressure rated pressure rated pressure
5,000 Ω ±1,000 Ω
3,300 Ω ±700 Ω
±1.0 %FS
±1.0 %FS
40.0
Twice of the
rated pressure
3,300 Ω ±600 Ω
−5 °C to +50 °C
23 °F to +122 °F
−20 °C to +70 °C
−4 °F to +158 °F
25 °C 77 °F
5 °C to 45 °C
41 °F to +113 °F
1.5 mA.DC
43.5±22.5 mV
±15 mV
±0.3 %FS
±0.7 %FS
±3.5 %FS
±10 %FS
Ambient temperature
−20 °C to +100 °C −4 °F to +212 °F (no freezing or condensation)
Storage temperature
−40 °C to +120 °C −40 °F to +248 °F (no freezing or condensation)
Standard temperature
25 °C 77 °F
Temperature compensation range
Drive current (constant current)
Output span voltage
Offset voltage
Linearity
Pressure hysteresis
Offset voltage-temperature
characteristics ✽4
Sensitivity-temperature
characteristics ✽4
0 °C to 50 °C 32 °F to +122 °F
1.5 mA.DC
100±40 mV
±20 mV
±0.7 %FS ±0.3 %FS ±0.5 %FS
±0.6 %FS
±0.6 %FS ±0.2 %FS
±0.4 %FS
40±20 mV
±15 %FS
30 °C 86 °F
0 °C to 60 °C
32 °F to +140 °F
1.0 mA.DC
65±25 mV
±5.0 %FS
±10 %FS
±2.5 %FS
±1.3 %FS
Notes : ✽1 Unless otherwise speciﬁed, measurements were taken with a drive current of ±0.01 mA.DC and humidity ranging from 25% to 85%.
✽2 Please consult us if a pressure medium other than air is to be used.
✽3 For PS pressure sensor only
✽4 This is the regulation which applies within the compensation temperature range.
✽5 Please consult us if the intended use involves a negative pressure.
Reference Data
[PS pressure sensor]
data
1.-(1) Output characteristics
1.-(2) Offset voltage - temperature
characteristics
60
Output voltage (mV)
ADP41913
Drive current : 1.0 mA.DC; rating ±3.5 %FS
Offset voltage-temperature characteristics (%FS)
ADP41913
Drive current : 1.0 mA.DC ; temperature : 30 °C 86 °F
50
40
30
20
10
0
0
● Pressure
980.7/2{5}
Pressure(kPa)
1.-(3) Sensitivity -temperature
characteristics
4
3
2
1
0
−1
−2
0 32
980.7{10}
ADP41913
Drive current : 1.0 mA.DC; rating ±2.5 %FS
Sensitivity-temperature characteristics(%FS)
● Characteristics
30 86
Temperature (°C °F)
60 140
4
3
2
1
0
−1
−2
0 32
30 86
Temperature (°C °F)
60 140
cycle range (0 to rated pressure)
Tested sample : ADP41913, temperature : 100 °C 212 °F, No. of cycle: 1×106
Offset voltage range
Output span voltage range
Output span voltage range(%FS)
Offset voltage range(%FS)
3
2
1
0
−1
−2
−3
0
1×106
5×105
Pressure cycle(cycle)
3
2
Even after testing for 1 million
times, the variations in the offset
voltage and output span voltage
are minimal.
1
0
−1
−2
−3
0
1×106
5×105
Pressure cycle(cycle)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS(ADP4), PF(ADP1)
[PF pressure sensor]
data
1.-(1) Output characteristics
1.-(2) Offset voltage - temperature
characteristics
ADP1141
Drive current : 1.5 mA.DC; temperature : 30 °C 86 °F
ADP1141
Drive current : 1.5 mA.DC; rating ±5 %FS
Offset voltage-temperature characteristics (%FS)
100
Output voltage (mV)
80
60
40
20
0
−20
−40
0
● Pressure
49{0.5}
Pressure(kPa)
1.-(2) Sensitivity - temperature
characteristics
98.1{1}
4
ADP1141
Drive current : 1.5 mA.DC; rating ±2.5 %FS
Sensitivity-temperature characteristics(%FS)
● Characteristics
3
2
1
0
-1
-2
0 32
25 77
Temperature (°C °F)
50 122
4
3
2
1
0
−1
−2
0 32
30 86
Temperature (°C °F)
60 140
cycle range (0 to rated pressure)
Tested sample : ADP1131, temperature : 25 °C 77 °F
Offset voltage range
Output span voltage range
Output span voltage range(%FS)
Offset voltage range(%FS)
2
1
0
−1
−2
0
1×105
5×105 1×106
Pressure cycle(cycle)
Even after testing for 1 million
times, the variations in the offset
voltage and output span voltage
are minimal.
2
1
0
−1
−2
0
1×105
5×1051×106
Pressure cycle(cycle)
Evaluation Test
Classiﬁcation
Environmental
characteristics
Tested item
Storage at high
temperature
Storage at low
temperature
Tested condition
Temperature : Left in a 120 °C 248 °F constant temperature bath
Time : 1,000 hrs.
Temperature : Left in a −40 °C –40 °F constant temperature bath
Time : 1,000 hrs.
Temperature/humidity : Left at 40 °C 104 °F, 90 % RH
Time : 1,000 hrs.
Temperature : –40 °C to 120 °C –40 °F to 248 °F
1 cycle : 30 Min.
Times of cycle : 100
Temperature/humidity : 40°C 104 °F, 90% RH
Operation times : 106, rated voltage applied.
Double amplitude : 1.5 mm 0.059 inch
Vibration : 10 to 55 Hz
Applied vibration direction : X, Y, Z 3 directions
Times : 2 hrs each
Dropping height : 75 cm 29.528 inch
Times : 2 times
Pulling strength : 9.8 N {1 kgf}, 10 sec.
Bending strength : 4.9 N {0.5 kgf}, left and right 90 ° 1 time
Temperature : 230 °C 446 °F
Time : 5 sec.
Temperature : 260°C 500 °F
Time : 10 sec.
Humidity
Temperature cycle
Endurance
characteristics
High temperature/
high humidity operation
Vibration resistance
Mechanical
characteristics
Dropping resistance
Terminal strength
Soldering
resistance
Soldered
in DIP soldering bath
Temperature
Result
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Passed
Note: For details other than listed above, please consult us.
Items
Offset valtage
Output span voltage
Criteria
Variation amount
within ±5.0%FS of value
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS(ADP4), PF(ADP1)
Dimensions
The CAD data of the products with a
mark can be downloaded from: http://industrial.panasonic.com/
[PS pressure sensor]
● Terminal
direction : DIP terminal Direction opposite to the pressure inlet direction ADP41□□□
Recommended PC board pattern
(BOTTOM VIEW)
7.2
0.283
7.5
0.295
R
7.2
f2.5
f0.098
8.2Max.
0.323Max.
4
0.157
5
0.197
3.5
0.138
6
0.25
0.010
9.5
0.374
unit : mm inch
General tolerance : ±0.3 ±0.012
4
Name
Terminal No.
Power supply (+)
1
Output (+)
2
Power supply (–)
3
Power supply (–)
4
Output (–)
5
No connection
6
Note: Leave terminal 6 unconnected.
direction : DIP terminal Pressure inlet direction ADP42□□□
7.2
0.283
Recommended PC board pattern
(BOTTOM VIEW)
7.2
0.283
Pressure
inlet hole
9.5
0.374
f4
f1.1
f0.043
2.5
0.098
f0.157
0.25
0.010
0.197
4
0.157
5
2.5
0.098
0.5
0.020
f2.5
f0.098
f5
f0.1
9
7
3.5
0.138
3
6
5
R1
3
4
R3
2.5
0.098
8.2Max.
0.323Max.
unit : mm inch
General tolerance : ±0.3 ±0.012
−Input
R4
5 −Output
.2
R0 008
.
R0
JAPAN
2
2 +Output
R2
+Input 1
2.5
0.098
1
Terminal connection
diagram
6-f0.9
6-f0.035
3.7
0.164
Atmospheric
pressure inlet hole
● Terminal
R4
2.5
0.098
7.5
0.295
● Terminal
5
R3
−Input
6 is no connection
4.6
0.181
3
0.5
2.5 0.020
0.020
JAPAN
2
3
4
R
Atmospheric
pressure inlet hole
1
R1
+Input 1
5 −Output
2.5
0.098
2.5
0.020
2 +Output
R2
2
0. .08
0
f4
f0.157
Terminal connection
diagram
6-f0.9
6-f0.035
0.283
Pressure
inlet hole
f1.1
f0.043
6 is no connection
Name
Terminal No.
Power
supply (+)
1
Output (+)
2
Power supply (–)
3
Power supply (–)
4
Output (–)
5
No connection
6
Note: Leave terminal 6 unconnected.
4
direction : SMD terminal ADP4932, ADP4933
7.2
0.283
7.2
0.283
Recommended PC board pattern
(BOTTOM VIEW)
Pressure
inlet hole
f1.1
f0.043
Terminal connection
diagram
1.1
0.043
2 +Output
R2
2.5
0.098
1
2
3
JAPAN
Atmospheric
pressure inlet hole
6
5
4
0.5 0.020
2.5
0.098
3
+Input 1
9.5
0.374
1.9
0.075
R1
4
R3
−Input
R4
6 is no connection
5 −Output
0.15
0.006
45 8
0. 1
R 0.0
R
4.0
0.016
5.0
0.020
8.5
0.335
f4.0 f0.157
f2.5 f0.098
10.0
0.394
0.5
0.020
2.5
0.098
2.5
0.098
unit : mm inch
General tolerance : ±0.3 ±0.012
Name
Terminal No.
Power supply (+)
1
Output (+)
2
Power supply (–)
3
Power supply (–)
4
Output (–)
5
No connection
6
Note: Leave terminal 6 unconnected.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS(ADP4), PF(ADP1)
Dimensions
The CAD data of the products with a
mark can be downloaded from: http://industrial.panasonic.com/
[PF pressure sensor]
● Terminal direction : DIP terminal Direction opposite to the pressure inlet direction ADP11□□(□)
Recommended PC board pattern
(BOTTOM VIEW)
10
0.394
Atmospheric
pressure inlet hole
Pressure inlet hole
f0.8 f0.031
+Input
2
C
C0 0.5
.0 2
0
R0
R0 .5
.02
0
2.54
0.100
−Input
Tolerance : ±0.1
15
°
Terminal No.
Name
1
Output (–)
2
Power supply (+)
3
Output (+)
4
No connection
5
Power supply (–)
6
Output (–)
0
4
unit : mm inch
General tolerance : ±0.3 ±0.012
JAPAN
1
2
R4
5
2.54
0.100
5
−Output
6
5.08
0.200
0.25
0.010
6
1
R3
to
0.5
0.020
1.2
0.047
2.54
0.100
R1
+Output 3
2.54
0.100
6
4.9
3.3
1.1
0.043
0.6
0.024
0.193 0.130 0.236
f3
f0.118
R2
10.16
0.400
8.6
0.339
6-f0.9
6-f0.035
10.16
0.400
● Terminal
Terminal connection
diagram
Note: Leave terminal 4 unconnected.
3
direction : DIP terminal Pressure inlet direction ADP12□□(□)
Recommended PC board pattern
(BOTTOM VIEW)
10
0.394
Pressure inlet hole
f0.8 f0.031
+Input
10.16
0.400
f6
36
f0.2
0 to
0.25
0.010
4
0.157
3.3
6
0.130 0.236
0.6
0.024
0.25
0.010
6
5
4
JAPAN
1
2
15°
2.54
0.100
5.08
0.200
R2
R1
1
+Output 3
6
R3
2.54
0.100
f3
f0.118
2.54
0.100
C0 C0
.02 .5
0
2.54
0.100
1.2
0.047
0.5
0.020
2
6-f0.9
6-f0.035
8.6
0.339
Atmospheric
pressure inlet hole
Terminal connection
diagram
−Output
R4
5
−Input
Tolerance : ±0.1
Terminal No.
Name
1
Power supply (+)
2
Output (+)
3
Power supply (–)
4
Power supply (–)
5
Output (–)
6
No connection
R0
R0 .5
.02
0
10.16
0.400
unit : mm inch
General tolerance : ±0.3 ±0.012
Note: Leave terminal 4 unconnected.
3
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Pressure Sensor/PS(ADP4), PF(ADP1)
NOTES
■ Mounting
9) After soldering, prevent chemical agents from adhering to the
sensor when applying coating to avoid insulation deterioration of
the circuit board.
10) Please consult us concerning leadfree soldering.
Use the land of the printed-circuit board on which the sensor is
securely fixed.
■ Soldering
Temperature
Avoid the external thermal influence as the product has a limited
thermal capacity due to its compact structure. Heat deformation
may damage the sensor or deteriorate its performance. Use the
non-corrosive rosin flux. Prevent the flux from entering into the
inside of the product as the sensor is exposed to the atmosphere.
1) Manual soldering
• Raise the temperature of the soldering tip between 260 and
300 °C 500 and 572 °F (30 W) and solder within 5 seconds.
• The sensor output may vary if the load is applied on the
terminal during soldering.
• Keep the soldering tip clean.
2) DIP soldering (DIP Terminal)
• Keep the temperature of the DIP solder tank below 260 °C
500 °F and solder within 5 seconds.
• To avoid heat deformation, do not perform DIP soldering
when mounting on the circuit board which has a small
thermal capacity.
3) Reflow soldering (SMD Terminal)
• The recommended reflow temperature profile conditions are
given below.
4)
5)
6)
7)
8)
230 °C
446 °F
150 °C
302 °F
■ Cleaning
• Prevent cleaning liquid from enteringthe inside of the product as
the sensor isexposed to the atmosphere.
• Do not perform ultrasonic cleaning in order to prevent
damages to the product.
■ Environment
1) Avoid use and storage in the corrosive gas (organic solvent,
sulfurous acid and hydrogen sulfide gases) which negatively
affects the product.
2) Avoid use in a place where these products come in contact
with water as the sensor does not have a splash-proof
construction.
3) Avoid use in an environment where these products cause dew
condensation.
When water attached to the sensor chip freezes, the sensor
output may be fluctuated or damaged.
4) Due to the structure of the pressure sensor chip, the output
varies under light.
Do not expose the sensor chip to light when applying a voltage
by using a transparent tube.
5) Do not apply high-frequency oscillation, such as ultrasonic
waves, to the product.
Main heating
Preheating
With in 60 sec.
With in
10 sec.
Time
• We recommend the screen solder printing method as the
method of cream.
• Please refer to the recommended PC board specification
diagram for the PC board foot pattern.
• Self alignment may not always work as expected, therefore,
please carefully the position of the terminals and pattern.
• The temperature of the profile is assumed to be a value
measured with the printed wiring board of the terminal
neighborhood.
• Please evaluate solderbility under the actual mounting
conditions since welding and deformation of the pressure
inlet port may occur due to heat stress depending on
equipments or conditions.
Rework soldering
• Complete rework at a time.
• Use a flattened soldering tip when performing rework on the
solder bridge. Do not add the flux.
• Keep the soldering tip below the temperature described in
the specifications.
Avoid drop and rough handling as excessive force may deform
the terminal and damage soldering characteristics.
Keep the circuit board warpage within 0.05 mm of the full width
of the sensor.
After soldering, do not apply stress on the soldered part when
cutting or bending the circuit board.
Prevent human hands or metal pieces from contacting with the
sensor terminal.
Such contact may cause anomalous outlets as the terminal is
exposed to the atmosphere.
■ Quality check under actual use conditions
These specifications are for individual components.
Before use, carefully check the performance and quality
under actual use conditions to enhance stability.
■ Other precautions
1) The wrong mounting method and the pressure range may invite
the risk of accidents.
2) Only applicable pressure medium is dry air. Avoid use in the
corrosive gas (organic solvent, sulfurous acid and hydrogen
sulfide gases) or other mediums containing moisture or foreign
substances. Such mediums may damage or break the product.
3) The pressure sensor chip is located inside the pressure
introduction port. Do not insert foreign substances, such as
wires, into the port as those substances may damage the chip
and close the port. Do not block the atmosphere introduction
port.
4) Use electric power within the rated power range. Use beyond
the range may damage the product.
5) Follow below instructions as static electricity may damage the
product:
(1) For Storage, short the circuit between terminals by using
conductive substances or wrap the whole chip with aluminum
foil. For storage and transportation, avoid plastic containers
which are easily electrified.
(2) Before use, connect electrified materials on desk and
operators to the ground in order to safely discharge static
electricity.
6) Carefully select and fix tubes, introduction pipes and products based
on the working voltage. Please contact us for any inquires.
APPLICATION CIRCUIT DIAGRAM (EXAMPLE)
Constant current
Pressure
circuit unit
sensor
The pressure sensor converts a voltage by constant
current drive and if necessary, amplifies the voltage.
The circuit on the right is a typical use example.
Ampliﬁer circuit unit
OP
AMP
OP
AMP
OP
AMP
MOUNTING METHOD
The general method of air pressure transmission varies depending
on the low/high pressure condition.
• Usage note
(1) Select a study pressure introduction pipe to avoid pressure leak.
(2) Securely fix the pressure introduction pipe to avoid pressure leak.
(3) Do not block the pressure introduction pipe.
Methods
of transmitting
air pressures
When the pressure is low
When the pressure is high
（4.9k Pa to 98.1 kPa）
（196.1 kPa to 980.7 kPa）
PC board
Tube
PC board
O-ring
Pressure
inlet pipe
If a tube is used as the pressure inlet pipe,
it may become disengaged. Use a sturdy
tube and secure it using O-rings.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
Glossary of Common Terms for Pressure Sensors
EXPLANATION OF TERMS
■ Pressure object
■ Offset voltage temperature characteristic
This is what can be used to activate the pressure
sensor.
(The Panasonic Corporation pressure sensor can be
used with gas.)
■ Rated pressure
The pressure value up to which the specifications of
the pressure sensor are guaranteed.
■ Maximum applied pressure
The maximum pressure that can be applied to the
pressure sensor, after which, when the pressure
is returned to below the rated pressure range,
the specifications of the pressure sensor are
guaranteed.
■ Temperature compensation range
The temperature range across which the
specification values of the pressure sensor are
guaranteed.
■ Drive current (voltage)
The variation of the offset voltage with changes
in ambient temperature. The difference between
the offset voltage at the standard temperature
and the offset values at the compensation lower
limit temperature (low temperature) (D1) and
compensation upper limit temperature (high
temperature) (D2) are obtained, and the offset
voltage temperature characteristic is expressed
as the ratio of the larger of these two differences
(absolute) with respect to the full scale voltage (FS).
■ Temperature sensitivity characteristic
The variation of the sensitivity with changes in
ambient temperature (variation in full scale (FS)).
The difference between the full scale voltage at the
standard temperature (FS) and the full scale values
at the compensation lower limit temperature (low
temperature) (FS1) and compensation upper limit
temperature (high temperature) (FS2) are obtained,
and the offset voltage temperature characteristic is
expressed as the ratio of the larger of these two
differences (FS1 - FS and FS2 - FS (absolute)) with
respect to the full scale voltage (FS).
Output voltage
The supply current (voltage) required to drive a
pressure sensor.
■ Output span voltage
The difference between the rated output voltage and
the offset voltage. The output span voltage is also
called the full-scale voltage (FS).
Compensation upper
limit temperature
No
Compensation
lower limit temperature
Δ2
Δ1
■ Offset voltage
The output voltage of a pressure sensor when no
pressure is applied.
■ Rated pressure output voltage
Output voltage when rated pressure is applied.
■ Linearity
When the pressure is varied from no load to the
rated pressure, the linearity is the amount of shift
between the straight line that joins the no-load
voltage value and the rated pressure voltage value
(expressed as the ratio of the amount of shift (D1)
at half of the rated pressure value with respect to
the full scale voltage (FS)).
FS2
Standard temperature
FS
FS1
No load
No load
■ Bridge resistance
Refers to the resistance value of a piezoresistance
formed on a monolithic silicon substrate.
For example, the values of the resistances R1 to R4
in the bridge are typically 5 kΩ each.
✽ When the resistances of the resistive elements R1
to R4 that comprise the bridge are 5 kΩ each, the
equivalent composite resistance of the bridge is 5
kΩ (3 kΩ bridges are also available).
■ Output hysteresis
FS
D1
D2
Offset
voltage
No load
1/2 rated Rated
Rated pressure
Rated pressure output voltage
Output voltage
The ratio of the difference (D2) in the noload output
voltages when the pressure is varied from no load
to the rated pressure then reduced back to no load,
with respect to the full scale voltage (FS).
R2
R1
R3
R4
The bridge resistance is
the resistance of the four
resistive elements that
make up the bridge
expressed as one
combined resistance.
■ Overall accuracy
Accuracy of offset voltage and rated pressure output
voltage within the temperature compensation range.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
ISO14001, ISO9001, ISO/TS16949 Certificate of approval
ISO14001
Certificate of approval
ISO9001
Certificate of approval
ISO/TS16949
Certificate of approval
The Necessity and
Pursuit of ISO Certification
Panasonic Automation Controls Business Unit,
which develops, manufactures and sells such as
relays and switches, is certified according to the
ISO 14001 environmental management system
standard established by the International Standards
for Organization (ISO).
Through our business activities, which objectives
are to live in harmony with the global environment
and contribute to the realization of a sustainable
society, we have been making efforts to reduce
greenhouse gases and promote recycling of
resources. Furthermore, with due consideration to
biodiversity, we have been working for improving the
global environment and living in harmony with the
international community.
Our Switching Device Division has been accredited
for ISO/TS16949, covering our quality management
system for an entire spectrum of automotive products
ranging from mechanical to semiconductor relays.
ISO/TS16949 is a standard based on ISO9001 that
adds items necessary for the automobile industry.
It calls for a comprehensive quality management
system that includes CS, cost performance, ongoing
improvement, and many other aspects of quality
management.
■ Certification Status
• Switching Device Division approved
• Panasonic Industrial Devices Obihiro Co., Ltd. approved
• Panasonic Industrial Devices Taiko Co., Ltd. approved
• Panasonic Manufacturing (Thailand) Co., Ltd. approved
• Panasonic Industrial Devices Mexicana S.A. de C.V.
approved
• Panasonic Electric Works Taiko Device (Shenzhen) Co.,
Ltd. approved
Our Switching Device Division, which handles from
development to production and marketing, has been
approved for certification of the ISO9001 quality
assurance standard established by the International
Standards for Organization (ISO).
This achievement was officially registered by
the certification organizations United Kingdom
Accreditation Service (UK AS) and the Dutch
accreditation council Raad voor Accreditatie
(RVA) on Jun 29, 1993, and additionally certified
by the German accreditation system Deutscher
Akkreditierungs Rat (DAR) and Joint Accreditation
System of Australia & New Zealand (JASANZ) on
January 17, 1995 in our comprehensive product
range from mechanical to semiconductor relays.
• Expanding to other
overseas bases
• Expanding to affiliated
companies and
cooperating companies
• ISO9000
Certification Acquisition
AP
C D
• Switching Device Division certified for
ISO9001 UKAS and RVA registration
(October, 1993)
• Panasonic Industrial Devices Obihiro
Co., Ltd. certified for ISO9001
• Panasonic Electric Works Europe AG
certified for ISO9001
• Panasonic Electric Works Europe AG.
German Factory certified for ISO9001
• Panasonic Industrial Devices (Beijing)
Co., Ltd. certified for ISO9001
• Panasonic Manufacturing (Thailand)
Co., Ltd. certified for ISO9001
• Panasonic Electric Works, Mexicana
S.A. de C.V. certified for ISO9001
• Instructional activities
relating to ISO
• Preparation of quality
manuals and quality
planning manuals
• Establishment of new
quality systems and
expanding them to
business operations
• Upgrading internal
quality monitoring
Advantages
• Strengthening and upgrading quality assurance
organizational structures applicable on an international
basis
• Technology can be accumulated and disseminated
through documentation and records
• Leads to improved reliability of the manufacturer’s
quality and improved CS (customer satisfaction)
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
00 Aug. 2015
industrial.panasonic.com/ww/

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