MXA2050A

Low Cost, ±10 g Dual Axis Accelerometer with Analog Outputs

The Memsic MXA2050A is a low cost, dual axis accelerometer fabricated on a standard, submicron CMOS process. The MXA2050A measures acceleration with a full-scale range of ±10 g and a sensitivity of 50mV/g @5V at 25°C. It can measure both dynamic acceleration (e.g., vibration) and static acceleration (e.g., gravity). The MXA2050A design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle problems associated with competitive devices and provides shock survival up to 50,000 g, leading to significantly lower failure rates and lower loss due to handling during assembly.

For more information please email memsic@broadband.uk.com

MXA2500G/M

Low Cost, +/-1.7g Dual Axis Accelerometer with Absolute Outputs

The Memsic MXA2500G/M is a low cost, dual axis accelerometer fabricated on a standard, submicron CMOS process. It is a complete sensing system with on-chip mixed mode signal processing. The MXA2500G/M measures acceleration with a full-scale range of +/-1.7g and a sensitivity of 500mV/g @5V at 25°. It can measure both dynamic acceleration (e.g. vibration) and static acceleration (e.g. gravity). The MXA2500G/M design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle problems associated with competitive devices and provides shock survival of 50,000 g, leading to significantly lower failure rate and lower loss due to handling during assembly.

For more information please email memsic@broadband.uk.com

MXA6500G/M

Low Cost, Low Noise ±1 g Dual Axis Accelerometer with Absolute Analog Outputs

The Memsic MXA6500G/M is a low cost, dual axis accelerometer fabricated on a standard, submicron CMOS process. It is a complete sensing system with on-chip mixed signal processing. The MXA6500G/M measures acceleration with a full-scale range of ±1 g and a sensitivity of 500mV/g @3V at 25°C. It can measure both dynamic acceleration (e.g. vibration) and static acceleration (e.g. gravity). The MXA6500G/M design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle problems associated with competitive devices and provides shock survival greater than 50,000 g, leading to significantly lower failure rate and lower loss due to handling during assembly and at customer field application.

The max noise floor is 1 mg allowing signals below 1mg to be resolved at 1 Hz bandwidth. The MXA6500G/M is packaged in a hermetically sealed LCC surface mount package (5 mm x 5 mm x 1.55 mm height).

It is operational over a -40°C to 85°C (M) and 0°C to 70°C (G) temperature range.

For more information please email memsic@broadband.uk.com

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MXC6202G/H/M/N

Low Power, Low Profile +/- 2g Dual Axis Accelerometer with I2C Interface

The Memsic MXC6202G/H/M/N are low cost, dual axis accelerometers fabricated on a standard, submicron CMOS process. It is a complete sensing system with on-chip mixed signal processing and integrated I2C bus, allowing the device to be connected directly to a microprocessor eliminating the need for A/D converters or timing resources. The MXC6202G/H/M/N measures acceleration with a full-scale range of +/- 2 g and a sensitivity of 512counts/g (G/M) or 128counts/g (H/N) @3.0 V at 25°. It can measure both dynamic acceleration (e.g. vibration) and static acceleration (e.g. gravity). The MXC6202G/H/M/N design is based on heat convection and requires no solid proof mass.

This design eliminates the stiction problems associated with legacy technologies and provides shock survival greater than 50,000g's. Memsic's solid state design leads to significantly lower failure rates in customer applications and lower loss due to handling during manufacturing and assembly processes

The MXC6202G/H/M/N is packaged in a hermetically sealed, low profile LCC surface mount package (5 mm x 5 mm x 1.55 mm) and is available in operating temperature ranges of 0° to +70° (G/H) and-40° to +85° (M/N).

For more information please email memsic@broadband.uk.com

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MXD2020E/F

Low Cost, low noise, low offset drift +/-1g Dual Axis Accelerometer with Digital Outputs

The Memsic MXD2020E/F is an ultra low noise and low cost, dual axis accelerometer built on a standard, submicron CMOS process. The MXD2020E/F measures acceleration with a full-scale range of +/- 1 g and a sensitivity of 20%/g @5V at 25°. It can measure both dynamic acceleration (e.g., vibration) and static acceleration (e.g., gravity). The MXD2020E/F design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle problems associated with competitive devices and provides shock survival up to 50,000 g, leading to significantly lower failure rates and lower losses due to handling during assembly.

The MXD2020E/F provides two digital outputs. The outputs are digital signals with duty cycles (ratio of pulse width to period) that are proportional to acceleration. The duty cycles outputs can be directly interfaced to a micro-processor.

The typical noise floor is 0.2mg allowing signals below 1 milli-g to be resolved at 1 Hz bandwidth. The MXD2020E/F is available in a LCC surface mount package (5mm x 5mm x 2mm height). It is hermetically sealed and operational over a -40° to +105° temperature range.

Due to the standard CMOS structure of the MXD2020E/F, additional circuitry can easily be incorporated into custom versions for high volume applications. Contact the factory for more information.

For more information please email memsic@broadband.uk.com

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MXD6025Q

Ultra High Performance ±1g Dual Axis Accelerometer with Digital Outputs

The Memsic MXD6025Q is a low noise, low profile, dual axis accelerometer fabricated on a standard CMOS process. It is a complete sensing system with on-chip mixed mode signal processing. The MXD6025Q measures acceleration with a full-scale range of ±1 g and a sensitivity of 25%/g @3V at 25°C. It can measure both dynamic acceleration (e.g., vibration) and static acceleration (e.g., gravity). The MXD6025Q design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle issues normally found with capacitive based technology, and significantly lowers field failure rate and in-line loss due to handling during assembly.

The MXD6025Q provides two digital outputs that are set to 50% duty cycle at zero g acceleration. The maximum noise floor is 0.18 mg allowing signals below 0.5 mg to be resolved at 1 Hz bandwidth and the 3dB rolloff of the device occurs at 8 Hz. The MXD6025Q is available in a hermetically sealed low profile LCC surface mount package measuring 5mm x 5mm x 1.55mm.

For more information please email memsic@broadband.uk.com

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MXD6125Q

Ultra High Performance +/- 1g Dual Axis Accelerometer with Digital Outputs

The Memsic MXD6125Q is a low noise, low profile, dual axis accelerometer fabricated on a standard CMOS process. It is a complete sensing system with on-chip mixed mode signal processing. The MXD6125Q measures acceleration with a full-scale range of +/- 1 g and a sensitivity of 12.5%/g @3V at 25°. It can measure both dynamic acceleration (e.g., vibration) and static acceleration (e.g., gravity). The MXD6125Q design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle issues normally found with capacitive based technology, and significantly lowers field failure rate and in-line loss due to handling during assembly.

The MXD6125Q provides two ratiometric analog outputs. The maximum noise floor is 0.18 mg/ allowing signals below 0.5 mg to be resolved at 1 Hz bandwidth and the 3dB rolloff of the device occurs at 8 Hz. The MXD6125Q is available in a hermetically sealed low profile LCC surface mount package measuring 5mm x 5mm x 1.55m.

For more information please email memsic@broadband.uk.com

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MXR2010A

Low Cost, ±35g Dual Axis Accelerometer with Ratiometric Outputs

The Memsic MXR2010A is a low cost, dual axis accelerometer fabricated on a standard, submicron CMOS process. The MXR2010A measures acceleration with a full-scale range of ±35 g and a sensitivity of 10mV/g @5V at 25°C. It can measure both dynamic acceleration (e.g., vibration) and static acceleration (e.g., gravity). The MXR2010A design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle problems associated with competitive devices and provides shock survival up to 50,000 g, leading to significantly lower failure rates and lower loss due to handling during assembly.

The MXR2010A provides two ratiometric analog outputs proportional to 50% of the supply voltage at zero g acceleration. (ref. other MEMSIC data sheets for absolute analog or digital outputs). The typical noise floor is 1.25 mg allowing signals below 2mg to be resolved at 1 Hz bandwidth. The 3dB rolloff of the device occurs at 30 Hz but is expandable to >160 Hz (reference Application note AN-00MX-003). The MXR2010A is available in a small surface mount package (5mm X 5mm X 2mm). It is hermetically sealed and operational over a -40°C to +105°C temperature range.

For more information please email memsic@broadband.uk.com

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MXR6150G/M

Low Profile, Low Power ±5g Dual Axis Accelerometer with Ratiometric Outputs

The Memsic MXR6150G/M is an low noise and low profile, dual axis accelerometer fabricated on a standard, submicron CMOS process. It is a complete sensing system with on-chip mixed mode signal processing. The MXR6150G/M measures acceleration with a full-scale range of ±5 g and a sensitivity of 150mV/g @3V at 25°C. It can measure both dynamic acceleration (e.g., vibration) and static acceleration (e.g., gravity). The MXR6150G/M design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle problems associated with competitive devices and provides shock survival up to 50,000 g, leading to significantly lower failure rates and lower loss due to handling during assembly.

The MXR6150G/M provides two ratiometric analog outputs.

The maximum noise floor is 1 mg allowing signals below 1mg to be resolved at 1 Hz bandwidth. The MXR6150G/M is available in a hermetically sealed low profile LCC surface mount package (5mm x 5mm x 1.55mm). It is operational over a -40°C to 85°C (M) and 0°C to 70°C (G) temperature range.
For more information please email memsic@broadband.uk.com

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MXR6400Q

Ultra High Performance ±1g Dual Axis Accelerometer with Ratiometric Outputs

The Memsic MXR6400Q is a low noise, low profile, dual axis accelerometer fabricated on a standard CMOS process. It is a complete sensing system with on-chip mixed mode signal processing. The MXR6400Q measures acceleration with a full-scale range of ±1 g and a sensitivity of 400mV/g at 25°C. It can measure both dynamic acceleration (e.g., vibration) and static acceleration (e.g., gravity). The MXR6400Q design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle issues normally found with capacitive based technology, and significantly lowers field failure rate and in-line loss due to handling during assembly.

The MXR6400Q provides two ratiometric analog outputs.

The maximum noise floor is 0.18 mg allowing signals below 0.5 mg to be resolved at 1 Hz bandwidth and the 3dB rolloff of the device occurs at 8 Hz. The MXR6400Q is available in a hermetically sealed low profile LCC surface mount package measuring 5mm x 5mm x 1.55m.

For more information please email memsic@broadband.uk.com

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MXR6500G/M

Low Profile, Low Power +/- 1.7g Dual Axis Accelerometer with Ratiometric Output

The Memsic MXR6500G/M is an low noise and low profile, dual axis accelerometer fabricated on a standard, submicron CMOS process. It is a complete sensing system with on-chip mixed mode signal processing. The MXR6500G/M measures acceleration with a full-scale range of +/- 1.7 g and a sensitivity of 500mV/g @3V at 25°. It can measure both dynamic acceleration (e.g., vibration) and static acceleration (e.g., gravity). The MXR6500G/M design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle problems associated with competitive devices and provides shock survival up to 50,000 g, leading to significantly lower failure rates and lower loss due to handling during assembly.

The MXR6500G/M provides two ratiometric analog outputs.
The maximum noise floor is 1 mg/ <!--[if !vml]--><!--[endif]-->allowing signals below 1 milli-g to be resolved at 1 Hz bandwidth. The MXR6500G/M is available in a hermetically sealed low profile LCC surface mount package (5mm x 5mm x 1.55mm). It is operational over a -40° to 85° (M) and 0° to 70° (G) temperature range.

For more information please email memsic@broadband.uk.com

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MXR9150G/M

Low Cost ±5 g Tri Axis Accelerometer with Ratiometric Outputs

The Memsic MXR9150G/M is a low cost, tri axis accelerometer fabricated on a standard, submicron CMOS process. It is a complete sensing system with on-chip mixed signal processing. The MXR9150G/M measures acceleration with a full-scale range of ±5.0 g and a sensitivity of 150mV/g @3.0V at 25°C. It can measure both dynamic acceleration (e.g. vibration) and static acceleration (e.g. gravity). The MXR9150G/M design is based on heat convection and requires no solid proof mass. This eliminates stiction and particle problems associated with competitive devices and provides shock survival greater than 50,000 g, leading to significantly lower failure rate and lower loss due to handling during PCB assembly and at customer field application.

The MXR9150G/M provides three ratiometric analog outputs that are set to 50% of the power supply voltage at zero g.

The Max. noise floor is 1 mg/  allowing signals below 1mg to be resolved at 1 Hz bandwidth. The MXR9150G/M is packaged in a hermetically sealed, surface mount LCC 16pins package (7 mm x 7 mm x 1.8 mm height) and is operational over a -40°C to +85°C (M) and 0°C to +70°C (G) temperature range.

I2C fast mode interface is soon available in the next generation chip.

For more information please email memsic@broadband.uk.com

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