Inertial Navigation Sensors
`
`Precision Accelerometers for Aerospace,
`Marine and Industrial
`
`Page 1 of 4
`Page 1 of 4
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`HAPTIC EX2016
`
`

`

`Precision Accelerometers for
`Aerospace, Marine and Industrial
`
`Honeywell
`Accelerometer Benefits:
`
`■■
`
`■■
`
`■■
`
` Industry leading
`accelerometer
`performance at a
`competitive price
` Unparalleled domain
`knowledge
` Demonstrated reliability
`and robustness
`
`Inertial navigation systems are critical to aircraft navigation;
`space and satellite navigation; surface and underwater vehicle
`navigation; and missiles and munition navigation. Additionally,
`inertial systems provide key orientation information for
`measurement-while-drilling* (MWD); precision pointing and
`altitude determination for vehicles; platform stabilization; and
`target location and surveying. Cost effective, robust, and reliable
`accelerometers able to perform in the requisite environment are
`critical elements of these navigation systems.
`
`Honeywell provides a portfolio of precision accelerometers with
`performance, at an affordable price, to meet our customers’ needs.
`
` Specific product information about Honeywell’s accelerometers for Energy Services, including MWD, may be found in
`“Precision Accelerometers for Energy Applications”.
`
` *
`
`
`
`Performance Characteristics
`Performance
`Input Range [g]
`Bias [mg]
`– One-year Composite Repeatability [μg]
`– Temperature Sensitivity [μg/°C]
`Scale Factor [mA/g]
`– One-year Composite Repeatability [ppm]
`– Temperature Sensitivity [ppm/°C]
`Axis Misalignment [μrad]
`Vibration Rectification [μg/g2rms]
`Intrinsic Noise [μg-rms]
`Environmental
`Operating Temperature Range [°C]
`Shock [g]
`Vibration Peak Sine [Hz]
`Resolution/Threshold [μg]
`Bandwidth [Hz]
`Thermal Modeling
`
`Electrical
`Quiescent Current per Supply [mA]
`Quiescent Power [mW] @ ±15 VDC
`Input Voltage
`Physical
`Weight [g]
`Diameter below mounting surface [in.]
`Height - bottom to mounting surface [in.]
`Case Material [Stainless Steel]
`
`QA750
`QA700
`QA650
`±30
`±30
`±30
`<8
`<8
`<15
`<1000
`<1200
`<2500
`<60
`<70
`<100
`1.20 to 1.40
`1.23 to 1.43
`1.20 to 1.40
`<1000
`<1200
`<2500
`<190
`<200
`<200
`<7000
`<2000
`<15000
`<60 (50-100 Hz) 
`<50 (50-200 Hz) 
`<100 (50-500 Hz) 
`<3000 (0-10,000 Hz) <1500 (0-10,000 Hz) <1500 (0-10,000 Hz)
`
`-55 to +96
`100
`25 @ 30-500 Hz
`<10
`>300
`
`-55 to +95
`250
`25 @ 30-500 Hz
`<1
`>300
`
`-55 to +95
`200
`20 @ 30-500 Hz
`<1
`>300
`
`YES
`
`-01 NO; -02 YES
`
`-01 NO; -02 YES
`
`<16
`<480
`±13 to ±18
`
`<16
`<480
`±13 to ±18
`
`51 Nominal, 65 Max. 46
`Ø1.045 ±0.005
`Ø1.07 ±0.01
`0.617 Max.
`0.660 Max.
`300 Series
`300 Series
`
`<16
`<480
`±13 to ±18
`
`52.5
`Ø1.07 ±0.01
`0.600 Max.
`300 Series
`
`Q-Flex® Accelerometers
`
`Honeywell’s precision accelerometers
`are based on its patented Q-Flex®
`etched quartz flexure seismic system. An
`amorphous quartz proof-mass structure
`provides excellent bias, scale factor,
`and axis alignment stability. The integral
`electronics develops an acceleration-
`proportional output current providing
`both static and dynamic acceleration
`measurements. By use of a customer
`supplied output load resistor, appropriately
`scaled for the acceleration range of
`the application, the output current can
`be converted into a voltage. Q-Flex®
`accelerometers are available in several
`models designed to meet application needs.
`
`Q-Flex® QA650/QA700/QA750
`Accelerometer
`For Q-Flex technology in an economical
`package, Honeywell produces the
`QA650/QA700/QA750 for industrial
`grade applications including: automotive
`test instrumentation, braking system
`deceleration, bridge and building sway
`and tilt monitoring, industrial and robotic
`control, land vehicle navigation, subway and
`high-speed train ride comfort control, and
`offshore drilling platform motion monitoring.
`
`Page 2 of 4
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`

`

`Q-Flex® QA2000 Accelerometer
`As the inertial navigation standard by which
`others are measured, Honeywell produces
`the QA2000. It is the predominant sensor
`used in today’s commercial and military
`aircraft strap-down inertial navigation systems.
`The long-term repeatability and superior
`reliability characteristics of the QA2000
`make it the best value inertial-grade
`accelerometer available on the market today.
`
`Features
`
`■■ Excellent turn-on repeatability
`performance
`■■ Environmentally rugged
`■■ Analog output
`■■ Field-adjustable range
`■■ Three fastener precision mounting flange
`■■ Internal temperature sensor for thermal
`compensation
`■■ Dual built-in self-test
`
`Q-Flex® QA3000 Accelerometer
`For the highest inertial navigation-grade
`performance available in today’s market,
`Honeywell produces the Q-Flex® QA3000.
`Built on the same production line as the
`industry-standard QA2000 Accelerometer,
`the QA3000 Accelerometer has the same
`inherent quality, reliability, and long-term
`performance characteristics of the QA2000
`Accelerometer. Primary applications include
`spacecraft navigation and control systems.
`
`Performance Characteristics
`Performance
`Input Range [g]
`Bias [mg]
`– One-year Repeatability [μg]
`– Temperature Sensitivity [μg/°C]
`Scale Factor [mA/g]
`– One-year Repeatability [ppm]
`– Temperature Sensitivity [ppm/°C]
`Axis Misalignment [μrad]
`– One-year Repeatability [µrad]
`Vibration Rectification [μg/g2rms]
`
`Intrinsic Noise [μg-rms]
`
`QA2000-010
`QA2000-020
`QA2000-030
`±60
`±60
`±60
`<4
`<4
`<4
`<550
`<220
`<160
`<30
`<30
`<30
`1.20 to 1.46
`1.20 to 1.46
`1.20 to 1.46
`<600
`<500
`<310
`<180
`<180
`<180
`<2000 μrad
`<2000 μrad
`<2000 μrad
`<100 µrad
`<100 µrad
`<100 µrad
`<40 (50-500 Hz) 
`<40 (50-500 Hz) 
`<20 (50-500 Hz) 
`<150 (500-2000 Hz)
`<60 (500-2000 Hz)
`<60 (500-2000 Hz)
`<7 (0-10 Hz)
`<7 (0-10 Hz)
`<7 (0-10 Hz)
`<70 (10-500 Hz)
`<70 (10-500 Hz)
`<70 (10-500 Hz)
`<1500 (500-10,000 Hz) <1500 (500-10,000 Hz) <1500 (500-10,000 Hz)
`QA2000-030
`QA2000-020
`QA2000-010
`-55 to +95
`-55 to +95
`-55 to +95
`250
`250
`250
`15 @ 20-2000 Hz
`15 @ 20-2000 Hz
`15 @ 20-2000 Hz
`<1
`<1
`<1
`>300
`>300
`>300
`QA2000-030
`QA2000-020
`QA2000-010
`YES
`YES
`YES
`QA2000-030
`QA2000-020
`QA2000-010
`<16
`<16
`<16
`<480
`<480
`<480
`Temp Sensor
`Temp Sensor
`Temp Sensor
`Voltage Self Test
`Voltage Self Test
`Voltage Self Test
`Current Self Test
`Current Self Test
`Current Self Test
`Power/Signal Ground Power/Signal Ground Power/Signal Ground
`-10 VDC Output
`-10 VDC Output
`-10 VDC Output
`+10 VDC Output
`+10 VDC Output
`+10 VDC Output
`±13 to ±28
`±13 to ±28
`±13 to ±28
`Input Voltage
`QA2000-030
`QA2000-020
`QA2000-010
`Physical
`71±4
`71±4
`71±4
`Weight [g]
`Ø1.005 Max.
`Ø1.005 Max.
`Ø1.005 Max.
`Diameter below mounting surface [in.]
`Height - bottom to mounting surface [in.] 0.585 Max.
`0.585 Max.
`0.585 Max.
`Case Material [Stainless Steel]
`300 Series
`300 Series
`300 Series
`
`Environmental
`Operating Temperature Range [°C]
`Shock [g]
`Vibration Peak Sine [g]
`Resolution/Threshold [μg]
`Bandwidth [Hz]
`Thermal Modeling
`
`Electrical
`Quiescent Current per Supply [mA]
`Quiescent Power [mA] @ ±15 VDC
`Electrical Interface
`
`Performance Characteristics
`Performance
`Input Range [g]
`Bias [mg]
`– One-year Repeatability [μg]
`– Temperature Sensitivity [μg/°C]
`Scale Factor [mA/g]
`– One-year Repeatability [ppm]
`– Temperature Sensitivity [ppm/°C]
`Axis Misalignment [μrad]
`– One-year Repeatability [µrad]
`Vibration Rectification [μg/g2rms]
`
`Intrinsic Noise [μg-rms]
`
`QA3000-010
`QA3000-020
`QA3000-030
`±60
`±60
`±60
`<4
`<4
`<4
`<125
`<80
`<40
`<25
`<15
`<15
`1.20 to 1.46
`1.20 to 1.46
`1.20 to 1.46
`<250
`<160
`<80
`<120
`<120
`<120
`<1500
`<1000
`<1000
`<100
`<80
`<70
`<20 (50-500 Hz) 
`<15 (50-500 Hz) 
`<10 (50-500 Hz) 
`<50 (500-2000 Hz)
`<40 (500-2000 Hz)
`<35 (500-2000 Hz)
`<7 (0-10 Hz)
`<7 (0-10 Hz)
`<7 (0-10 Hz)
`<70 (10-500 Hz)
`<70 (10-500 Hz)
`<70 (10-500 Hz)
`<1500 (500-10,000 Hz) <1500 (500-10,000 Hz) <1500 (500-10,000 Hz)
`QA3000-030
`QA3000-020
`QA3000-010
`-28 to +78
`-55 to +95
`-55 to +95
`100
`150
`150
`15 @ 20-2000 Hz
`15 @ 20-2000 Hz
`15 @ 20-2000 Hz
`<1
`<1
`<1
`>300
`>300
`>300
`QA3000-030
`QA3000-020
`QA3000-010
`YES
`YES
`YES
`QA3000-030
`QA3000-020
`QA3000-010
`<16
`<16
`<16
`<480
`<480
`<480
`Temp Sensor
`Temp Sensor
`Temp Sensor
`Voltage Self Test
`Voltage Self Test
`Voltage Self Test
`Current Self Test
`Current Self Test
`Current Self Test
`Power/Signal Ground Power/Signal Ground Power/Signal Ground
`-10 VDC Output
`-10 VDC Output
`-10 VDC Output
`+10 VDC Output
`+10 VDC Output
`+10 VDC Output
`±13 to ±28
`±13 to ±28
`±13 to ±28
`Input Voltage
`QA3000-030
`QA3000-020
`QA3000-010
`Physical
`71±4
`71±4
`71±4
`Weight [g]
`Ø1.005 Max.
`Ø1.005 Max.
`Ø1.005 Max.
`Diameter below mounting surface [in.]
`Height - bottom to mounting surface [in.] 0.585 Max.
`0.585 Max.
`0.585 Max.
`Case Material [Stainless Steel]
`300 Series
`300 Series
`300 Series
`
`Environmental
`Operating Temperature Range [°C]
`Shock [g]
`Vibration Peak Sine [g]
`Resolution/Threshold [μg]
`Bandwidth [Hz]
`Thermal Modeling
`
`Electrical
`Quiescent Current per Supply [mA]
`Quiescent Power [mA] @ ±15 VDC
`Electrical Interface
`
`Page 3 of 4
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`

`

`Accelerex RBA500 Accelerometer
`For a frequency output sensor, Honeywell
`produces the Accelerex RBA500
`accelerometer. It is primarily used to
`supplement GPS navigation systems.
`It is a good choice where frequency
`output, high-g, small size, low power,
`and light weight are necessary.
`
`Features
`
`■■ Frequency output for direct interface
`to digital electronics
`■■ High-g capability
`■■ Integral 2 fastener mounting flange
`■■ Hermetically sealed case
`■■ Internal temperature sensor for
`thermal compensation
`
`Performance Characteristics
`Performance
`Input Range [g]
`Bias
`
`– One-year Repeatability [mg]
`Scale Factor [Hz/g]
`– One-year Repeatability [ppm]
`Axis Misalignment [µrad]
`– One-year Repeatability [µrad]
`Resolution/Threshold [μg]
`Bandwidth [Hz]
`Environmental
`Operating Temperature Range [°C]
`Shock [g]
`Vibration [Hz]
`Electrical
`Input Voltage
`Current [mA]
`Power [mW] @ ±15 VDC
`Physical
`Weight [g]
`Size [in.]
`Case Material
`
`RBA500
`±70
`
`<4
`80
`<450
`<12
`<400
`<1
`>400
`
`-55 to +105
`250
`20 g, peak, DC-2000
`
`+14 to +16 VDC
`<5
`<75
`
`12
`0.80 dia. x 0.42 high
`Stainless Steel
`
`Our History
`
`Why Honeywell?
`
`Honeywell has been a recognized world
`leader in Inertial Sensors, including
`accelerometers, for more than 100 years.
`Our precision accelerometers have been
`the industry standard since the early 1980s
`and are used across a wide number of
`applications, including aircraft navigation;
`space and satellite navigation; missile
`and munition navigation; surface and
`underwater navigation; marine navigation;
`as well as measurement-while-drilling and
`numerous industrial applications.
`
`■■ Over 100 years of inertial sensor
`experience
`
`■■ Delivery of more than 1M tactical grade
`accelerometers and over 600K navigation
`grade accelerometers
`
`■■ Proven performance in more than
`100K INS systems for commercial
`and military aircraft
`
`■■ Proven performance in more than
`300K tactical IMUs
`
`■■ Advanced manufacturing, production
`and material processes
`
`■■ Extensive domain knowledge in navigation
`
`■■ Proven in aircraft, missile, satellite,
`surface, MWD, UAV, UUV, guided
`munition and other applications
`
`Global Network of Support Services
`
`Honeywell’s comprehensive support
`network, spanning the Americas, Europe,
`Middle East, Africa, Asia and the South
`Pacific, delivers fully integrated service
`solutions and 24/7/365 support to meet
`the needs of the aerospace industry. As
`a world leader of aviation aftermarket
`services, Honeywell provides the
`knowledge and resources to take care
`of all your service needs – whenever and
`wherever you require maintenance and
`repair services.
`
`Find out more
`
`For more information about Honeywell's
`Inertial Sensors, please visit
`aerospace.honeywell.com/
`accelerometers or contact us at
`InertialSensors@honeywell.com.
`
`Honeywell Aerospace
`1944 E Sky Harbor Circle
`Phoenix, AZ 85034
`aerospace.honeywell.com
`
`N61-1434-000-000
`October 2015
`© 2015 Honeywell International Inc.
`
`Page 4 of 4
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