MP Motion Sensor (AMN2, 3, 4)
Passive infrared
human detection sensor
with built-in amp.
Standard
type
Slight motion
detection type
Spot type
10 m detection
type
MP MOTION SENSOR
‘
’
3. Lenses can be miniaturized because the pyroelectric
element is small
A short focal length is all that’s required even when
detecting at the same distance, because the size of the
pyroelectric element is so small. This means that
high precision is maintained even though the lens is small
and the sensor itself has been miniaturized.
Small
movement
RoHS compliant
1.
pyroelectric sensor modules contain the
necessary functions in a small package (TO-5). These
miniature, high-performance infrared human detection
sensors take the trouble out of circuit design and mounting.
Lens
IC
PIR element
Chip parts
Lens
Capacitor
Sensor module
PC board
4. Small temperature differences also detected.
detects the temperature difference between the
detection target and its surroundings, and the lowest
required temperature difference to the background is 4°C
7.2°F.
This means that temperature differences can be accurately
detected not only in winter, when the temperature
differences are large, but also in summer, when
temperature differences are slight.
Shielded plate
2. Ideal for small-movement detection thanks to quad-type
pyroelectric element.
The quad-type pyroelectric element contained in
has four receptors. Since the detection zone within the
detection range is so precise, even small movements can
be detected.
Representation of detection
Winter
Summer
Floor temperature:
22°C 71.6°F
Floor temperature:
30°C 86.0°F
Large
temperature
difference
Small temperature
differences mean
difficult detection.
Temperature
difference:
12°C 53.6°F
Temperature
difference:
4°C 7.2°F
Surface temperature: 34°C 93.2°F
Lens
Quad-type
pyroelectric
element
Focal length
(distance between element and lens)
Detection zone
5. Excellent noise resistance (radiation noise, power supply noise)
The entire
circuitry is enclosed in a metal package, which means it has extremely high electromagnetic shielding
capabilities. With proven resistance against power supply noise, it is also resistant against power supply superimposed
noise.
Radiation
Power supply
noise
superimposed
Vd
noise
OUT
GND
ASCTB240E 201201-T
Panasonic Corporation
Automation Controls Business Unit
industrial.panasonic.com/ac/e
Motion sensors
FEATURES
MP Motion Sensor (AMN2, 3, 4)
TYPICAL APPLICATIONS
4. Anti-crime device market: crime prevention sensor,
simple anti-crime devices, surveillance cameras
1. Home appliance market: Air conditioner, air purifier and
fan heater
2. Construction equipment: lighting, automatic switches
3. Commercial equipment: vending machines, facilities for
designated smoking areas
ORDERING INFORMATION
AMN
Output type
2: Analog output
3: Digital output
4: Low current consumption
(digital output)
Detection performance
1: Standard detection type
2: Slight motion detection type
3: Spot detection type
4: 10m detection type
1
Motion sensors
Feature
1: PC board mounting type
Operating voltage
1: 5V DC
2: 3V DC
Lens color
1: Black
2: White
PRODUCT TYPES
Output type
Digital output
Low current consumption type
Digital output
Analog output
Black
White
Black
White
Black
White
AMN31111
AMN31112
AMN32111
AMN32112
AMN33111
AMN33112
AMN41121
AMN41122
AMN42121
AMN42122
AMN43121
AMN43122
AMN21111
AMN21112
AMN22111
AMN22112
AMN23111
AMN23112
Black
White
AMN34111
AMN34112
AMN44121
AMN44122
AMN24111
AMN24112
Detection performance
Lens color
Standard detection type
Slight motion detection type
Spot detection type
10m detection type
Standard packing: Carton: 50 pcs.; Case: 1,000 pcs.
RATING
1. Detection performance
Standard
detection type
Slight motion
detection type
Spot detection
type
10m detection
type
Max.
5m 16.404ft
Max.
2m 6.562ft
Max.
5m 16.404ft
Max.
10m 32.808ft
Horizontal
Note 2)
100°
91°
38°
110°
Vertical
Note 2)
82°
91°
22°
93°
64 zones
104 zones
24 zones
80 zones
Items
Rated detection distance
Note 1)
Detection
range
Detection zone
Note 3)
Conditions of objects to be detected
1. Detectable difference in temperature between the target and
background is more than 4°C 7.2°F.
2. Movement speed
1) Digital output type
• Standard detection type/Spot detection type/
10m detection type: 0.8 to 1.2 m/s
• Slight motion detection type: 0.5 m/s
2) Analog output and low current consumption types
• Standard detection type/Spot detection type/
10m detection type: 0.5 to 1.5 m/s
• Slight motion detection type: 0.3 to 1.0 m/s
3. Detection object = human body (size is 700mm × 250mm
27.559inch × 9.843inch, but for the slight motion detection
type the size is 200mm × 200mm 7.874inch × 7.874inch)
Notes: 1. Depending on the difference in temperature between the background and detection target and the speed at which the target moves, these sensors may be capable
of detection beyond the detection distances stated above. Nevertheless, they should be used within the prescribed detection distances. For further details, refer to
the detection range diagram on page 24.
2.
This angle represents the center point of the detection zone
Vertical
Vertical
created by the outermost lens.
Horizontal
Cut out
(Standard detection/
Slight motion detection type)
Horizontal
Cut out
This point
(Spot detection type/
10 m detection type)
3. Regarding of detection zone, please refer to “DETECTION PERFORMANCE” on page 24.
Panasonic Corporation
Automation Controls Business Unit
industrial.panasonic.com/ac/e
ASCTB240E 201201-T
MP Motion Sensor (AMN2, 3, 4)
2. Absolute maximum ratings (Measuring condition: ambient temperature = 25°C 77°F) (Common to All types)
Items
Power supply voltage
Usable ambient temperature
Storage temperature
Absolute maximum ratings
–0.3 to 7 V DC
–20 to 60°C –4 to +140°F (No freezing and condensing at low temperature.)
–20 to 70°C –4 to +158°F
3. Electrical characteristics (Common to All types)
1) Digital output
Items
Symbol
Minimum
Electrical characteristics
*( ) is low current consumption type
Measured conditions
*( ) is low current consumption type
3.0 V DC (2.2 V DC)
Vdd
Rated operating voltage
Maximum
6.0 V DC (3.0 V DC)
170 µA (46 µA)
Rated consumption current
(Standby) Note)
Typical
Output current (when detecting)
Maximum
Iout
100 µA
Output voltage (when detecting)
Minimum
Vout
Vdd –0.5
Iw
Maximum
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Iout = 0
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Vout Vdd–0.5
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Open when not detecting
300 µA (60 µA)
Typical
7s
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Twu
Circuit stability time
Maximum
30 s
Note: The current which is consumed during detection consists of the standby consumed current plus the output current.
Items
Symbol
Specified value
Minimum
Operating voltage
Motion sensors
2) Analog output
Measured conditions
4.5 V DC
Vdd
Maximum
5.5 V DC
170 µA
Typical
Consumption current
Iw
Maximum
Output current
Maximum
Iout
Minimum
Output voltage renge
300 µA
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Iout = 0
50 µA
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
0V
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Vout
Output offset average voltage
Maximum
Vdd
Minimum
2.3 V
Typical
Voff
Maximum
2.7 V
Typical
Steady-state noise
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Steady-state output voltage when not detecting
2.5 V
155 m Vp-p
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Vn
Maximum
300 m Vp-p
Detection sensitivity
Minimum
Vh or Vl
0.45 V
Circuit stability time
Maximum
Twu
45 s
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Temperature difference with background: 4°C 39.2°F
Please refer to conditions of other detection objects.
Ambient temperature = 25°C 77°F
Operating voltage = 5V (3V)
Note: To set to the same detection performance as the digital output type, set the output voltage to the offset voltage (2.5V) ±0.45V (i.e. 2.95V or more and 2.05V or less).
TIMING CHART
1. Digital output
2. Analog output
ON
Vdd
Power supply
Power supply
GND
OFF
Detect
Detect
Detection state
Detection state
Not
detect
(Comparator
decision output)
ON
Output waveform
V out
Sensor output
Not
detect
Body
movement
Vdd
Voff
Vh
Threshold voltage 1
(comparator)
Vn
GND
OFF
Vl
Circuit stability time
2.5V
Note: Circuit stability time: 30s max.
While the circuitry is stabilizing after the power is turned on, the sensor output
is not fixed in the “on” state or “off” state. This is true regardless of whether or
not the sensor has detected anything.
ASCTB240E 201201-T
Panasonic Corporation
Circuit stability time
Threshold voltage 2
(comparator)
Note: Circuit stability time: 45s max.
While the circuitry is stabilizing after the power is turned on, the sensor output
is not fixed in the “on” state or “off” state. This is true regardless of whether or
not the sensor has detected anything.
Automation Controls Business Unit
industrial.panasonic.com/ac/e
MP Motion Sensor (AMN2, 3, 4)
DETECTION PERFORMANCE
1. Standard detection type
TOP VIEW
5m
16.404ft
SIDE VIEW
(56°)
5m
16.404ft
X
50°
Y
(49°)
41°
2.5m
8.202ft
2.5m
8.202ft
0°
0°
2.5m
8.202ft
2.5m
8.202ft
Motion sensors
41°
50°
5m
16.404ft
5m
16.404ft
(49°)
(56°)
X-Y cross section
Y
3m
9.843ft
Detection zone
2
6.562
1
3.281
4m
3
13.123ft 9.843
2
6.562
1
3.281
1
3.281
(Max. 5.66m)
(Max. 18.570ft)
X
3
4m
9.843 13.123ft
2
6.562
Notes: 1. The X-Y cross-sectional diagram shows the detection area.
2. The differences in the detection zone patterns are indicative of the projections
of the 16 lenses with single focal point and with five optical axes.
An object whose temperature differs from the background temperature and
which crosses inside the detection zone will be detected.
1
3.281
2
6.562
3m
9.843ft
(Max. 7.42m)
(Max. 24.344ft)
2. Slight motion detection type
X-Y cross section
(51°)
Y
2.5m
8.202ft
Y
2.5m
8.202ft
46°
2
6.562
2
6.562
1.5
4.921
1.5
4.921
1
3.281
1
3.281
0.5
1.640
0.5
1.640
0
1m
3.281ft
2m
6.562ft
0°
–0.5
–1.640
–2
–1.5
–1
–0.5
–6.562 –4.921 –3.281 –1.640
–0.5
–1.640
–1
–3.281
–1
–3.281
–1.5
–4.921
–1.5
–4.921
–2.5m
–8.202ft
0.5
1
1.5
2
1.640 3.281 4.921 6.562
X
2.5m
8.202ft
–2
–6.562
–2
–6.562
–2.5m
–8.202ft
Detection zone
46°
1m
3.281ft
–2.5m
–8.202ft
2m
6.562ft
(51°)
(Max. 5m dia.)
(Max. 16.404ft dia.)
Notes: 1. The X-Y cross-sectional diagram shows the detection area.
2. The differences in the detection zone patterns are indicative of the projections of the 26 lenses with single focal point and with three optical axes.
An object whose temperature differs from the background temperature and which crosses inside the detection zone will be detected.
Panasonic Corporation
Automation Controls Business Unit
industrial.panasonic.com/ac/e
ASCTB240E 201201-T
MP Motion Sensor (AMN2, 3, 4)
3. Spot detection type
TOP VIEW
X
2.5
8.202
2.5
8.202
19°
5m
16.404ft
2.5
8.202
0°
0
19°
5m
16.404ft
2m
5.562ft
2.5m
8.202ft
(27°)
1m
3.281ft
(20°)
0.5
1.640
11°
2.5
8.202
5m
16.404ft
0°
1m
3.281ft
0.5
1.640
11°
1.25
4.101
1.25
4.101
2.5m
8.202ft
Y
Y
1.25
4.101
1.25
4.101
0
X-Y cross section
SIDE VIEW
(27°)
0.5
1.640
X (Max. 1.4m)
1m (Max. 4.593ft)
3.281ft
0.5
1.640
(20°)
2m
5.562ft
1m
3.281ft
5m
16.404ft
(Max. 2m)
(Max. 6.562ft)
Notes: 1. The X-Y cross-sectional diagram shows the detection area.
2. The differences in the detection zone patterns are indicative of the projections of the 6 lenses with single focal point and with two optical axes.
An object whose temperature differs from the background temperature and which crosses inside the detection zone will be detected.
4. 10m detection type
TOP VIEW
X
10m
32.808ft
SIDE VIEW
Y
10m
32.808ft
(58°)
(50°)
5m
16.404ft
5m
16.404ft
5m
16.404ft
5m
16.404ft
Motion sensors
46.5°
46.5°
55°
10m
32.808ft
(50°)
10m
32.808ft
(58°)
X-Y cross section
Y (15.9m)
(52.165ft)
Detection zone
6m
19.685ft
4
13.123
2
6.562
2
6
4
10m
8
32.808ft 26.247 19.685 13.123 6.562
X
10m
8
6
4
2
6.562 13.123 19.685 26.247 32.808ft
2
6.562
4
13.123
(12.3m)
(40.354ft)
Notes: 1. The X-Y cross-sectional diagram shows the detection area.
2. The differences in the detection zone patterns are indicative of the projections
of the 20 lenses with single focal point and with five optical axes.
An object whose temperature differs from the background temperature and
which crosses inside the detection zone will be detected.
6m
19.685ft
5. Notes regarding the detection zone
The detection zone has the polarity shown in the diagram
on the right.
When targets enter both the + and – zones with the same
timing, the signals are cancelled each other, thus in this
case there is a possibility that the object cannot be detected
at the maximum specified detection distance.
• Sensor output
Detection target Detection zone
Target
Movement
Threshold value
Output (Analog)
Detection
zone
Threshold value
Output (Digital)
*Threshold value: Level at which digital output turns on.
ASCTB240E 201201-T
Panasonic Corporation
Automation Controls Business Unit
industrial.panasonic.com/ac/e
MP Motion Sensor (AMN2, 3, 4)
HOW TO USE
1. Block diagram output circuit
1) Block diagram of the digital output circuit
2) Block diagram of the analog output circuit
TO5 metal package
(9.8mm × 9mm .386inch × .354inch dia.)
TO5 metal package
(9.8mm × 9mm .386inch × .354inch dia.)
Infrared
radiation
Infrared
radiation
Single-chip
Stabilized
IC
power
supply
Comparator
output
circuit
Amplifier
circuit
Multi lens
Output
Output
Gnd
Quad type
PIR element
Optical filter
2. Wiring diagram
1) Digital output
Vdd
Amplifier
circuit
Multi lens
Gnd
Quad type
PIR element
Optical filter
Single-chip
Stabilized
IC
power
supply
Vdd
2) Analog output
Sensor
Sensor
Vdd
Vdd
+
Load
GND
GND
+
S
G
Out
Motion sensors
D
Microcomputer,
A/D converter
etc.
Out
OP
AMP
Iout: Max.100 µA
Vdd: Input power source (DC)
GND: GND
Out: Output (Comparator)
3. Timer circuit example
1) Digital output
Input voltage
10 µ
2) Analog output
5V
REG
+
0.1 µ
47 µ
+
(5VDC)
0.1 µ
Input voltage
Vdd
5V
REG
+
0.1 µ
0.1 µ
GND
47 µ
Vdd
(5VDC)
+
0.1 µ
0.1 µ
GND
47k
Relay
10 µ
10 µ
Connection
to motion
sensor
10k
0.1 µ
+
3 2 16
1
9
10
11
13
The transistor
turns on when
the sensor
detects
something
Out
R
0.1 µ
74HC
123 etc. 15
8
3 2 16
9 1
10
13 11
The transistor
turns on when
the sensor
detects
something
Window
comparator
C
8
Timer time = RXC
Out
0.1 µ
R
74HC
123 etc.15
GND
14
Timer IC
0.1 µ
10 µ +
C
Select a transistor
to match the relay
Connection
to motion
sensor
10k
47k
Relay
Select a
transistor
to match
the relay
14
GND
Timer IC
Timer time = RXC
Note: This is the reference circuit which drives the MP motion sensor. Install a noise filter for applications requiring enhanced detection reliability and noise withstanding
capability.
Differences in the specifications of electronic components to which the units are connected sometimes affect their correct operation; please check the units’
performance and reliability for each application.
Panasonic Corporation accepts no responsibility for damages resulting from the use of this circuit.
4. Installation
Install the sensor so that people will be entering from the X direction
shown below.
(If persons approch the sensor from the Z direction, detection distance
will be shortened.
X direction
Y direction
Z
Z direction
X direction
Panasonic Corporation
Automation Controls Business Unit
industrial.panasonic.com/ac/e
ASCTB240E 201201-T
MP Motion Sensor (AMN2, 3, 4)
DIMENSIONS (mm inch)
The CAD data of the products with a
CAD Data
mark can be downloaded from: http://industrial.panasonic.com/ac/e
1. Standard detection type
Recommended panel mounting hole
CAD Data
10+0.2
0 dia.
.394 +.008
dia.
0
Sensing area
9.5 dia.
Molding gate .374 dia.
Note 2)
Notes 3)
11.0
.433
14.5
11 .571
.433
0.45±0.05 dia.
.018±.002 dia.
Note 1)
4.5
.177
45°
GND
OUT
Notes: 1. In order to ensure proper detection, install it with the
lens exposed at least 3.5mm .138inch.
2. As for panel mounting hole, tapering or making a
large size hole should be done.
3. The height dimension does not include the
remaining molding gate.
P.C.D. 5.08±0.2 dia.
.200±.008 dia.
Vdd
General tolerance ±0.5 ±.020
.
±0.1 dia
5.08 ±.004 dia.
.200
3-0.6 +0
.1
3-.02 5+.0 dia.
6 0004
dia.
45°
11 dia.
.433 dia.
45° ±4
±4°
45°
°
2. Slight motion detection type
0 dia.
12.4 +0.2
0
.488 +.008
dia.
12.7 dia.
.500 dia.
11.9 dia.
.469 dia. 7.4 dia.
.291 dia.
Molding gate
OUT
45°
11 dia.
.433 dia.
GND
Notes: 1. In order to ensure proper detection, install it with the
lens exposed at least 2.4mm .094inch.
2. As for panel mounting hole, tapering or making a
large size hole should be done.
3. The height dimension does not include the
remaining molding gate.
P.C.D. 5.08±0.2 dia.
.200±.008 dia.
45° ±4
°
±4°
45°
4. 10m detection type
CAD Data
2.4
.094
Note 1)
.
±0.1 dia
5.08 ±.004 dia.
0
0
.2
3-0.6 +0.1
5
3-.02 +.0 dia.
6 0004
dia.
45°
4.5 .177
Vdd
3. Spot detection type
12.8
.504
15.2
12.8 .598
.504
8.9
.350
0.45±0.05 dia.
.018±.002 dia.
Sensing area
Note 2)
Note 3)
CAD Data
Recommended panel
mounting hole
8.9 dia.
Molding gate .350 dia.
Note 2)
17.4 dia.
.685 dia.
17.0 dia.
.670 dia.
P.C.D. 5.08 dia.
.200 ±.008 dia.
Vdd
0.45±0.05 dia.
.018±.002 dia.
4.5
.177
GND
Note 1)
±4°
Notes: 1. As for panel mounting hole, tapering or
making a large size hole should be done.
2. The height dimension does not include the
remaining molding gate.
±0.1 dia.
4
5.08 ±.00 dia.
.200
3-0.6 +0.1
5
3-.02 +.-0004dia.
6 -0
dia.
Sensing area
11 dia.
.433 dia.
OUT
45°
° 45°
8.6
.339
45
±0.1 dia.
4
5.08 ±.00 dia.
0
.2 0
3-0.6 +0.1
5
3-.02 +.-0004dia.
6 -0
dia.
18.53
.730
5.6
° 45°
45
GND
±0.2
45° ±4°
12.9
.508
Note 3)
4.5
.177
11
.433
OUT
17.9 -0+0.2 dia.
.705 +.008
-0
dia.
Molding
gate
15.1
.594
0.45 ±0.05 dia.
.018 ±.002 dia.
Recommended panel
mounting hole
9.4 +0.2
-0 dia.
.370 +.008
-0 dia.
Note 1)
Note 2)
Motion sensors
Recommended panel mounting hole
CAD Data
P.C.D. 5.08 ±0.2 dia.
.200 ±.008 dia.
Vdd
45° ±4°
±4°
45°
Notes: 1. In order to ensure proper detection, install it with the lens exposed at least 5.6mm .220inch.
2. As for panel mounting hole, tapering or making a large size hole should be done.
3. The height dimension does not include the remaining molding gate.
ASCTB240E 201201-T
Panasonic Corporation
Automation Controls Business Unit
industrial.panasonic.com/ac/e
MP Motion Sensor (AMN2, 3, 4)
Motion sensors
NOTES
1. Checkpoints relating to principle of
operation
MP motion sensors are passive infrared
sensors which detect changes in the
infrared rays. They may fail to detect
successfully if a heat source other than a
human being is detected or if there are
no temperature changes in or movement
of a heat source. Care must generally be
taken in the following cases. The
performance and reliability of the sensors
must be checked out under conditions of
actual use.
1) Cases where a heat source other
than a human being is detected.
(1) When a small animal enters the
detection range.
(2) When the sensor is directly exposed
to sunlight, a vehicle’s headlights, an
incandescent light or some other source
of far infrared rays.
(3) When the temperature inside the
detection range has changed suddenly
due to the entry of cold or warm air from
an air-conditioning or heating unit, water
vapor from a humidifier, etc.
2) Cases where it is difficult to detect
the heat source
(1) When an object made of glass, acrylic
or other subject which far infrared rays
have difficulty passing through is located
between the sensor and what is to be
detected.
(2) When the heat source inside the
detection range hardly moves or when it
moves at high speed; for details on the
movement speed, refer to the section on
the performance ratings.
2. When the detection area becomes
larger
When the difference between the
ambient temperature and body
temperature is large (more than 20°C
68°F), detection may occur in isolated
areas outside the specified detection
range.
3. Other handling cautions
1) Be careful not to allow dust or dirt to
accumulate on the lens as this will
adversely affect the detection sensitivity.
2) The lens is made of a soft material
(polyethylene).
Avoid applying a load or impact since this
will deform or scratch the lens, making
proper operation impossible and causing
a deterioration in its performance.
3) The sensor may be damaged if it is
exposed to static with a voltage
exceeding ±200V. Therefore, do not
touch its terminals directly, and exercise
adequate care in the handling of the
sensor.
4) When the leads are to be soldered,
solder them by hand for less than 3
seconds at a temperature of less than
350°C 662°F at the tip of the soldering
iron. Avoid using a solder bath since this
will causing a deterioration in the
sensor’s performance.
5) Do not attempt to clean the sensor.
Cleaning fluid may enter inside the lens
area causing a deterioration in
performance.
6) When using the sensors with cables, it
is recommended that cables which are
shielded and as short as possible be
used in order to safeguard against the
effects of noise.
For Cautions for Use.
Panasonic Corporation
Automation Controls Business Unit
industrial.panasonic.com/ac/e
ASCTB240E 201201-T