MB1261-000 [ETC]
ULTRASONIC SENSOR XL-MAXSONAR-EZ;型号: | MB1261-000 |
厂家: | ETC |
描述: | ULTRASONIC SENSOR XL-MAXSONAR-EZ |
文件: | 总17页 (文件大小:2452K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
XL-MaxSonar® - EZ/AE™ Series
XL-MaxSonar®- EZ™ Series
High Performance Sonar Range Finder
MB1200, MB1210, MB1220, MB1230, MB1240, MB1260, MB1261
MB1300, MB1310, MB1320, MB1330, MB1340, MB1360, MB13618
The XL-MaxSonar-EZ series has high power output along with real-time auto sensitivity
adjustments for changing conditions (temperature, voltage and acoustic or electrical noise)
that ensure you receive the most reliable (in air) ranging data for every reading taken. The XL-MaxSonar
-EZ/AE sensors have a low power requirement of 3.3V – 5.5V and operation provides very short to long-range detection and ranging,
in a tiny and compact form factor. The MB1200 and MB1300 sensor series detects objects from 0-cm1 to 765-cm (25.1 feet) or
1068cm (35 feet) (select models) and provide sonar range information from 20-cm2,3 out to765-cm or 1068-cm (select models) with
1-cm resolution. Objects from 0-cm1 to 20-cm2,3 typically range as 20-cm2,3. The interface output formats included are pulse width
output (MB1200 series), real-time analog voltage envelope (MB1300 series), analog voltage output, and serial digital output.
1Objects from 0-mm to 1-mm may not be detected. 2For the MB1200/MB1300, MB1210/1310, MB1260/MB1360, and MB1261/MB1361, this distance is 25-cm. 3Please see Close Range Operation
• Robot ranging sensor
Features
Benefits
• Acoustic and electrical noise
resistance
• Reliable and stable range data
• Low cost
• Quality controlled beam
characteristics
• Very low power range, excellent for
multiple sensor or battery based
systems
• Autonomous navigation
• Environments with acoustic and
electrical noise
• Multi-sensor arrays
• Distance measuring
• High acoustic power output
• Real-time auto sensitivity
adjustments and noise rejection for
every ranging cycle
• Calibrated beam angle
• Long range object detection
• Continuously variable gain
• Object detection as close as 1-mm
from the sensor
• Users who prefer to process the
analog voltage envelope (MB1300
series)
• 3.3V to 5.5V supply with very low
average current draw6,7
• Ranging can be triggered externally
or internally
• Sensor reports the range reading
directly, frees up user processor
• -40°C to +65°C operation (+85°C
limited operation) (40°C to 0°C
recommended operation in
• Readings can occur up to every
100mS, (10-Hz rate)
• Free run operation can
continually measure and output range • Fast measurement cycle
information
• Triggered operation provides the
range reading as desired
• Pulse Width (MB1200 series)
• Real-time analog envelope (MB1300
series)
• All interfaces are active
simultaneously
• Sensor operates at 42KHz
• Serial, 0 to Vcc, 9600Baud, 81N
• Analog, (Vcc/1024) / cm4
• Analog, (Vcc/1024) / 2cm5
environments that are non-frosting,
non-condensation, and indoor only)7
• User can choose any of the sensor
outputs
• Easy mounting
• No power up calibration required
• Perfect for objects that may be
directly in front of the sensor during
power up
Notes:
1 Objects from 0-mm to 1-mm may not be detected.
2 For the MB1200/MB1300, MB1210/1310,
MB1260/MB1360, and MB1261/MB1361, this
distance is 25-cm.
3 Please see Close Range Operation.
4 MB1200 through MB1240 and MB1300 through
MB1340.
5 MB1260, MB1261, MB1360, MB1361.
6 See page 2, Pin 6 Vcc Operation.
7 Please reference page 4 for minimum
operating voltage verses temperature
information.
Applications and Uses
• Bin level measurement
• Proximity zone detection
• People detection
8 Please reference page 16 for part number key.
Close Range Operation
Applications requiring 100% reading-to-reading reliability should not use MaxSonar sensors at a distance closer than
20cm. Although most users find MaxSonar sensors to work reliably from 0 to 20cm2,3 for detecting objects in many
applications, MaxBotix® Inc. does not guarantee operational reliability for objects closer than the minimum reported
distance. Because of ultrasonic physics, these sensors are unable to achieve 100% reliability at close distances.
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Warning: Personal Safety Applications
We do not recommend or endorse this product be used as a component in any personal safety applications. This product
is not designed, intended or authorized for such use. These sensors and controls do not include the self-checking
redundant circuitry needed for such use. Such unauthorized use may create a failure of the MaxBotix® Inc. product which
may result in personal injury or death. MaxBotix® Inc. will not be held liable for unauthorized use of this component.
Page 1
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MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
PD11840j
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
About Ultrasonic Sensors
Our ultrasonic sensors are in air, non-contact object detection and ranging sensors that detect objects within an area. These
sensors are not affected by the color or other visual characteristics of the detected object. Ultrasonic sensors use high
frequency sound to detect and localize objects in a variety of environments. Ultrasonic sensors measure the time of flight
for sound that has been transmitted to and reflected back from nearby objects. Based upon the time of flight, the sensor
then outputs a range reading.
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Pin Out
Pin 1-BW-Leave open (or high) for serial output on the Pin 5 output. When Pin 1 is held low the Pin 5 output sends a
pulse (instead of serial data), suitable for low noise chaining.
Pin 2-PW– For the MB1200 (EZ) sensor series, this pin outputs a pulse width representation of range. To calculate
distance, use the scale factor of 58uS per cm.
For the MB1300 (AE) sensor series, this pin outputs the analog voltage envelope of the acoustic wave form. The output
allows the user to process the raw waveform of the sensor.
Pin 3-AN– For the 7.6 meter sensors (all sensors except for MB1260, MB1261, MB1360, and MB1361), this pin outputs
analog voltage with a scaling factor of (Vcc/1024) per cm. A supply of 5V yields ~4.9mV/cm., and 3.3V yields ~3.2mV/
cm. Hardware limits the maximum reported range on this output to ~700cm at 5V and ~600cm at 3.3V. The output is
buffered and corresponds to the most recent range data.
For the 10 meter sensors (MB1260, MB1261, MB1360, MB1361), this pin outputs analog voltage with a scaling factor of
(Vcc/1024) per 2cm. A supply of 5V yields ~4.9mV/2cm., and 3.3V yields ~3.2mV/2cm. The output is buffered and
corresponds to the most recent range data.
Pin 4-RX– This pin is internally pulled high. The XL-MaxSonar-EZ sensors will continually measure range and output if
the pin is left unconnected or held high. If held low the will stop ranging. Bring high 20uS or more for range reading.
Pin 5-TX- When Pin 1 is open or held high, the Pin 5 output delivers asynchronous serial with an RS232 format, except
voltages are 0-Vcc. The output is an ASCII capital “R”, followed by three ASCII character digits representing the range in
centimeters up to a maximum of 765cm, followed by a carriage return (ASCII 13). The baud rate is 9600, 8 bits, no parity,
with one stop bit. Although the voltage of 0-Vcc is outside the RS232 standard, most RS232 devices have sufficient
margin to read 0-Vcc serial data. If standard voltage level RS232 is desired, invert, and connect an RS232 converter such
as a MAX232.
When Pin 1 is held low, the Pin 5 output sends a single pulse, suitable for low noise chaining (no serial data).
Pin 6-+5V- Vcc – Operates on 3.3V - 5V. The average (and peak) current draw for 3.3V operation is 2.1mA (50mA peak)
and at 5V operation is 3.4mA (100mA peak) respectively. Peak current is used during sonar pulse transmit. Please
reference page 4 for minimum operating voltage verses temperature information.
Pin 7-GND- Return for the DC power supply. GND (& V+) must be ripple and noise free for best operation.
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Product Release Notes
For all MB1260/MB1360 sensors sold after Feb 20, 2013, the minimum reported distance is 25cm.
For all MB1261/MB1361 sensors sold after Feb 20, 2013, the minimum reported distance is 25cm.
For all MB1200/MB1300 sensors sold after Oct 01, 2013, the minimum reported distance is 25cm.
For all MB1210/MB1310 sensors sold after Oct 01, 2013, the minimum reported distance is 25cm.
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MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
PD11840j
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
Sensor Minimum Distance
The sensor minimum reported distance is 20cm1 (7.87 inches). However, the XL-MaxSonar-EZ will range and report
targets to the front sensor face. Large targets closer than 20cm1 will typically range as 20cm1.
1For the MB1200/MB1300, MB1210/1310, MB1260/MB1360, and MB1261/MB1361, this distance is 25-cm.
Sensor Operation from 6-inches to 20-inches
Because of acoustic phase effects in the near field, objects between 20cm and 50cm may experience acoustic phase
cancellation of the returning waveform resulting in inaccuracies. These effects become less prevalent as the target distance
increases, and has not been observed past 50cm. For this reason, industrial users that require the highest sensor accuracy
are encouraged to mount the XL-MaxSonar-EZ from objects that are farther than 50cm.
Range “0” Location
The XL-MaxSonar-EZ reports the range to distant targets starting from the front of the sensor as shown in the
diagram below.
The range is measured from front of the sensor
Range Zero
Target Face
0.0 mm
In general, the XL-MaxSonar-EZ will report the range to the leading edge of the closest detectable object. Target
detection has been characterized in the sensor beam patterns.
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Mechanical Dimensions
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Real-Time Auto Adjustment
Each time before the XL-MaxSonar sensor takes a range reading, it adjusts itself. The sensor then uses this data to range
to objects. If the temperature, humidity, or applied voltage changes during operation, the sensor will continue to function
normally. The sensor does not apply compensation for the speed of sound change versus temperature to any range
readings.
Temperature Compensation
The speed of sound in air increases about 0.6 meters per second, per degree centigrade. The XL-MaxSonar-EZ sensors are
not equipped with an internal temperature compensation. If temperature compensation is desired, contact MaxBotix and
request the temperature compensation formula PDF. This will allow users to compensation for speed of sound changes.
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MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
PD11840j
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
Voltage vs Temperature
The graph below shows minimum operating voltage of the sensor verses temperature.
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MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
Real-time Noise Rejection
While the XL-MaxSonar® is designed to operate in the presence of noise, best operation is obtained when noise strength is
low and desired signal strength is high. Hence, the user is encouraged to mount the sensor in such a way that minimizes
outside acoustic noise pickup. In addition, keep the DC power to the sensor free of noise. This will let the sensor deal
with noise issues outside of the users direct control (in general, the sensor will still function well even if these things are
ignored). Users are encouraged to test the sensor in their application to verify usability.
For every ranging cycle, individual filtering for that specific cycle is applied. In general, noise from regularly occurring
periodic noise sources such as motors, fans, vibration, etc., will not falsely be detected as an object. This holds true even if
the periodic noise increases or decreases (such as might occur in engine throttling or an increase/decrease of wind
movement over the sensor). Even so, it is possible for sharp non-periodic noise sources to cause false target detection. In
addition, *(because of dynamic range and signal to noise physics,) as the noise level increases, at first only small
targets might be missed, but if noise increases to very high levels, it is likely that even large targets will be missed.
*In high noise environments, if needed, use 5V power to keep acoustic signal power high. In addition, a high acoustic noise
environment may use some of the dynamic range of the sensor, so consider a part with less gain such as the MB1220/MB1320
MB1230/MB1330 or MB1240/MB1340. For applications with large targets, consider a part with ultra clutter rejection like the
MB7369.
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Typical Performance to Target
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Typical Performance in clutter
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MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
PD11840j
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
Sensor Timing Diagrams
Power Up Timing
Sensor Free-Run Timing
Real-Time Operation
Timing Description
175mS after power-up, the XL-MaxSonar is ready to begin ranging. If Pin-4 is left open or held high (20uS or greater),
the sensor will take a range reading. The XL-MaxSonar checks the Pin-4 at the end of every cycle. Range data can be
acquired once every 99mS. Each 99mS period starts by Pin-4 being high or open, after which the XL-MaxSonar calibrates
and calculates for 20.5mS, and after which, twenty 42KHz waves are sent.
At this point, for the MB1260, the pulse width (PW) Pin-2 is set high and until an object is detected after which the pin is
set low. If no target is detected the PW pin will be held high for up to 44.4mS1 (i.e. 58uS * 765cm) or 62.0mS2 (i.e. 58uS
* 1068cm). (For the most accurate range data, use the PW output.)
For the MB1300 sensor series, the analog envelope output, Pin-2, will show the real-time signal return information of the
analog waveform.
For both parts, the remainder of the 99mS time (less 4.7mS) is spent adjusting the analog voltage to the correct level, (and
allowing the high acoustic power to dissipate). During the last 4.7mS, the serial data is sent.
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Web: www.maxbotix.com
MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
PD11840j
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
Using Multiple Sensors in a single system
When using multiple ultrasonic sensors in a single system, there can be interference (cross-talk) from the other sensors.
MaxBotix Inc., has engineered a solution to this problem for the XL-MaxSonar-EZ sensors. The solution is referred to as
chaining. We have 3 methods of chaining that work well to avoid the issue of cross-talk.
The first method is AN Output Commanded Loop. The first sensor will range, then trigger the next sensor to range and so
on for all the sensor in the array. Once the last sensor has ranged, the array stops until the first sensor is triggered to range
again. Below is a diagram on how to set this up.
The next method is AN Output Constantly Looping. The first sensor will range, then trigger the next sensor to range and
so on for all the sensor in the array. Once the last sensor has ranged, it will trigger the first sensor in the array to range
again and will continue this loop indefinitely. Below is a diagram on how to set this up.
The final method is AN Output Simultaneous Operation. This method does not work in all applications and is sensitive to
how the other sensors in the array are positioned in comparison to each other. Testing is recommend to verify this method
will work for your application. All the sensors RX pins are conned together and triggered at the same time causing all the
sensor to take a range reading at the same time. Once the range reading is complete, the sensors stop ranging until
triggered next time. Below is a diagram on how to set this up.
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MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
PD11840j
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
Independent Sensor Operation
The XL-MaxSonar-EZ sensors have the capability to operate independently when the user desires. When using the
XL-MaxSonar-EZ sensors in single or independent sensor operation, it is easiest to allow the sensor to free-run. Free-run
is the default mode of operation for all of the MaxBotix Inc., sensors. The XL-MaxSonar-EZ sensors have three separate
outputs that update the range data simultaneously: Analog Voltage, Pulse Width, and RS232 Serial. Below are diagrams
on how to connect the sensor for each of the three outputs when operating in a single or independent sensor operating
environment.
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Selecting a XL-MaxSonar-EZ/AE
Different applications require different sensors. The XL-MaxSonar-EZ/AE product line offers varied sensitivity to allow
you to select the best sensor to meet your needs.
The XL-MaxSonar-EZ Sensors At a Glance
People Detection
Wide Beam
High Sensitivity
Large Targets
Narrow Beam
Noise Tolerance
Best Balance
MB1200/MB1300
MB1260/MB1261
MB1210/MB1310 MB1220/MB1320
MB1261/MB1361
MB1230/MB1330
MB1240/MB1340
The diagram above shows how each product balances sensitivity and noise tolerance. This does not affect the maximum
range, pin outputs, or other operations of the sensor. To view how each sensor will function to different sized targets
reference the XL-MaxSonar-EZ Beam Patterns.
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Beam Characteristics
Background Information Regarding our Beam Patterns
Each XL-MaxSonar-EZ sensor has a calibrated beam pattern. Each sensor is matched to provide the approximate
detection pattern shown in this datasheet. This allows end users to select the part number that
matches their given sensing application. Each part number has a consistent field of detection so
People Sensing:
For users that
additional units of the same part number will have similar beam patterns. The beam plots are
desire to detect
provided to help identify an estimated detection zone for an application based on the acoustic
people, the
properties of a target versus the plotted beam patterns.
detection area to
Each beam pattern is a 2D representation of the detection area of the sensor. The beam pattern is
the 1-inch
diameter dowel, in
actually shaped like a 3D cone (having the same detection pattern both vertically and horizontally).
Detection patterns for dowels are used to show the beam pattern of each sensor. Dowels are long
general, represents
cylindered targets of a given diameter. The dowels provide consistent target detection characteristics
the area that the
for a given size target which allows easy comparison of one MaxSonar sensor to another MaxSonar
sensor will
sensor.
reliably detect
people.
For each part number, the four patterns (A, B, C, and D) represent the detection zone for a given
target size. Each beam pattern shown is determined by the sensor’s part number and target size.
The actual beam angle changes over the full range. Use the beam pattern for a specific target at any
given distance to calculate the beam angle for that target at the specific distance. Generally, smaller targets are detected
over a narrower beam angle and a shorter distance. Larger targets are detected over a wider beam angle and a longer
range.
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PD11840j
MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
MB1200/MB1300: XL-MaxSonar-EZ/AE0
The XL-MaxSonar-EZ/AE0 is the highest sensitivity and widest beam sensor of the XL-MaxSonar-EZ/AE sensor series.
The wide beam makes this sensor ideal for a variety of applications including people detection, autonomous navigation,
and wide beam applications.
Note: All sensors sold after Oct 01, 2013 have a minimum reported distance of 25cm. All sensors sold
before this date have a 20cm minimum reported distance.
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• Best sensor to detect soft object in
MB1200/MB1300
Features and Benefits
• Widest and most sensitive beam
pattern in XL-MaxSonar-EZ/AE
line
MB1200/MB1300
Applications and Uses
• Great for people detection
• Security
XL-MaxSonar-EZ line
• Requires use of less sensors to do
same job
• Can detect people up to
approximately 18 feet
• Motion detection
• Low power consumption
• Used with battery power
• Autonomous navigation
• Educational and hobby robotics
• Collision avoidance
• 3.3v to 5.5v operational voltage
• Easy to use interface
• Will pick up the most noise clutter
of any of the sensors in
XL-MaxSonar-EZ/AE line
• Detects smaller objects
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PD11840j
MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
MB1210/MB1310: XL-MaxSonar-EZ/AE1
The XL-MaxSonar-EZ/AE1 has slightly less sensitivity and narrower beam than the MB1200/MB1300 sensors. This
makes the MB1210/MB1310 an ideal sensor for applications in which the MB1200/MB1300 are too sensitive.
Note: All sensors sold after Oct 01, 2013 have a minimum reported distance of 25cm. All sensors sold
before this date have a 20cm minimum reported distance.
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______________________________________________________________________________________________________________________________________
MB1210/MB1310
Features and Benefits
• Great for applications in which the
MB1200/MB1300 are too sensitive
• Low power consumption
• Easy to use interface
MB1210/MB1310
Applications and Uses
• Great for people detection
• Security
• Motion detection
• Used with battery power
• Autonomous navigation
• Educational and hobby robotics
• Collision avoidance
• Detects small objects
• Can detect people up to
approximately 11 feet
• 3.3v to 5.5v operational voltage
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PD11840j
MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
MB1220/MB1320: XL-MaxSonar-EZ/AE2
The XL-MaxSonar-EZ/AE2 is the recommended sensor for users unsure of which XL-MaxSonar-EZ/AE sensor to use.
This sensor balances sensitivity and detection to targets of different sizes. This sensor is a good comprise between
sensitivity and side object rejection.
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_______________________________________________________________________________________________________________________________________
MB1220/MB1320
MB1220/MB1320
Features and Benefits
• Recommended for users unsure of
• Great for people detection
which sensor to use in their
Applications and Uses
• Security
application
• Motion detection
• Low power consumption
• Landing flying objects
• Easy to use interface
• Used with battery power
• Good balance of sensitivity and side
• Autonomous navigation
object rejection
• Educational and hobby robotics
• Can detect people up to
• Collision avoidance
approximately 10 feet
• 3.3v to 5.5v operational voltage
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MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
PD11840j
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
MB1230/MB1330: XL-MaxSonar-EZ/AE3
The XL-MaxSonar-EZ/AE3 is a narrow beam, and is slightly more sensitive then the MB1240/MB1340. This makes the
MB1230/MB1330 sensor a good choice in applications where the MB1240/MB1340 do not have enough sensitivity
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MB1230/MB1330
MB1230/MB1330
Features and Benefits
• Slightly more sensitive then the
• Great for people detection
MB1240/MB1340
Applications and Uses
• Security
• Low power consumption
• Motion detection
• Easy to use interface
• Landing flying objects
• Large Object detection
• Used with battery power
• Requires use of less sensors to do
• Autonomous navigation
same job
• Educational and hobby robotics
• Can detect people up to
• Collision avoidance
approximately 8 feet
• 3.3v to 5.5v operational voltage
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MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
PD11840j
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
MB1240/MB1340: XL-MaxSonar-EZ/AE4
The XL-MaxSonar-EZ/AE4 is the least sensitive and narrowest beam pattern in the XL-MaxSonar-EZ/AE sensor series.
This makes the senor great for applications in which there is a large amount of acoustic. The MB1240/MB1340 sensor is
also recommended in applications where only large target detection is required.
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_______________________________________________________________________________________________________________________________________
MB1240/MB1340
Features and Benefits
MB1240/MB1340
Applications and Uses
• Great for people detection
• Security
• Narrowest beam in the
XL-MaxSonar-EZ/AE sensor line
• Low power consumption
• Easy to use interface
• Motion detection
• Recommended for multi-copters and
UAV’s
• Large target detection
• Acoustic noise rejection
• 3.3v to 5.5v operational voltage
• Used with battery power
• Autonomous navigation
• Educational and hobby robotics
• Collision avoidance
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PD11840j
MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
MB1260/MB1360: XL-MaxSonar-EZ/AEL0
The XL-MaxSonar-EZL/AEL0 has the same gain and sensitive as the MB1200/MB1300. This sensor features a longer
range of 1068cm to large targets. This sensor is recommended for long range measurement to large targets.
Note: Firmware rev 1.6b and newer have a 25cm minimum reported distance. This applies to all sensors
sold after February 20, 2013. All sensors sold before this date have a 20cm minimum reported distance.
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MB1260/MB1360
Features and Benefits
• Shares same beam pattern with
MB1200/MB1300
MB1260/MB1360
Applications and Uses
• Great for people detection
• Security
• Maximum range of 1068cm to large
targets
• Motion detection
• Used with battery power
• Autonomous navigation
• Educational and hobby robotics
• Collision avoidance
• Low power consumption
• Easy to use interface
• Can detect people to approximately
18feet
• Long range detection
• 3.3v to 5v operational voltage
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PD11840j
MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
MB1261/MB1361: XL-MaxSonar-EZL/AEL1
The XL-MaxSonar-EZL/AEL1 is the long range version of the MB1210/MB1310 ultrasonic sensor. This sensor features a
longer maximum range of 1068cm to large targets. This sensor is recommended for applications in which the MB1210/
MB1310 do not have a long enough detection distance.
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• Can detect people up to
MB1261/MB1361
Features and Benefits
• Same beam pattern as the MB1210/
MB1310
MB1261/MB1361
Applications and Uses
• Great for people detection
• Security
approximately 11 feet
• 3.3v to 5v operational voltage
• Long range of 1068cm to large
targets
• Motion detection
• Used with battery power
• Autonomous navigation
• Educational and hobby robotics
• Collision avoidance
• Low power consumption
• Easy to use interface
• Detects smaller objects
• Requires use of less sensors to do
same job
• Long range detection
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MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
Part Numbers
All part numbers are a combination of a six-character base followed by a dash and a three-digit product code.
Please review the following table for more information on the three-digit product code.
M B 1 2 0 0 -
0
0
0
Base
Housing
Options
Wire
0
1
No Wire
Wire Attached
0
1
2
3
4
5
6
7
8
Not Applicable
3/4” NPS WR
3/4” NPS WRC
Ultra Compact
Ultra Compact Flush Mount
1” NPS
0
1
2
3
4
5
6
No Options (Bagged)
F-Option
P-Option
F-Option and P-Option
No Options (Trayed)
TTL (Bagged)
TTL (Trayed)
1” BSPP
30MM 1.5
Extended Horn
The following table displays all of the active and valid part numbers for this product.
Active Part Numbers for
MB1200, MB1210, MB1220, MB1230, MB1240, MB1260 and MB1261
MB1200-000 MB1210-000 MB1220-000
MB1200-040 MB1210-040 MB1220-040
MB1230-000 MB1240-000 MB1260-000 MB1261-000
MB1230-040 MB1240-040 MB1260-040 MB1261-040
Active Part Numbers for
MB1300, MB1310, MB1320, MB1330, MB1340, MB1360 and MB1361
MB1300-000 MB1310-000 MB1320-000
MB1300-040 MB1310-040 MB1320-040
MB1330-000 MB1340-000 MB1360-000 MB1361-000
MB1330-040 MB1340-040 MB1360-040 MB1361-040
Page 16
Web: www.maxbotix.com
PD11840j
MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
Patent 7,679,996
XL-MaxSonar® - EZ/AE™ Series
After reviewing this datasheet, do you have any more questions?
We offer Technical Support on all of our products even if you purchased them through one of our many vendors
worldwide.
You can fill out a Technical Support form for assistance on a sensor here --> Technical Support
Not sure which sensor you need for your application?
We offer Sensor Selection Assistance, click the link here to fill out a form for support --> Sensor Selection Help
Looking for tutorials to help you get started?
Frequently Asked Questions about Our Sensors
We receive many questions about our products and services. This resource offers answers to common inquiries
we receive about our product lines and their application.
Fully Calibrated Beam Patterns
All of our sensors are factory calibrated to provide consistent beam patterns, detection zones, to fit into a wide
variety of applications. In our product lines, each model number comes with a different beam pattern that reflects
the sensitivity and the detection zone of how it sees a target. Additionally, we strive to maintain consistency be-
tween our finished products, and you will see little to no deviation between sensors of the same model. This al-
lows you to have confidence in your final application when using multiple sensors.
Understanding Range Readings
The success of an application may hinge upon knowing the exact location of a target. However, a sensor may
report one meter even if the target is not exactly one meter away from the sensor. Sensor specifications, such as
resolution, precision, and accuracy, help you to understand sensor performance.
How to Use Multiple Ultrasonic Sensors
This guide covers three ways to run your sensors in a Multiple Sensor environment and issues you may face.
Contact us now with any questions at sales@maxbotix.com or call +1-218-454-0766.
Please call during our preferred business hours of 8:00 am – 4:30 pm EST on Monday through Thursday and 8:00 am –
2:00 pm EST on Friday, or you may leave us a voicemail anytime.
Page 17
Web: www.maxbotix.com
MaxBotix® Inc.
MaxBotix Inc., products are engineered and assembled in the USA.
Copyright 2005 - 2015 MaxBotix Incorporated
PD11840j
Patent 7,679,996
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