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N2, N3, N4 N2, N3, N4

The N2, N3 and N4 are capacitive, liquid based inclinometers with integrated sensor electronics.

They are manufactured with an analog DC output. The sensor electronics require only minimal power and are in conjunction with the capacitive primary transformer characterized by high accuracy, a high signal-to-noise ratio and high long-term stability.

The measurement technique enables a linear relationship between the angle to be measured and the output signal. The determined angle is independent of the local gravitational acceleration, that means that no matter where the measurement is being taken, whether in Europe, Australia, on Mount Everest or on the moon, the inclination will be measured correctly anywhere.


Features
• Linear output characteristics
• High measurement accuracy
• High long-term stability
• Hysteresis free output signal
• Minimal zero point drift
• Integrated sensor electronics
• Low power consumption
• Small housing
• Light weight
• Different output signal options
• No interference by ambient electromagnetic fields
• Shockproof as without moving mechanical parts
• Hermetically sealed
• Sensor electrically isolated from point of measurement using high quality plastic
• Housing - no ground connections
• Zero point adjustable through 360° using clamping ring

   
   
 
 

NA2-05, NA2-10, NA3-30, NA4-45, NA4-70

NA2-05, NA2-10, NA3-30, NA4-45, NA4-70

The capacitive, dielectric liquid based inclinometers NA2-05, NA2-10, NA3-30, NA4-45 and NA4-70 contain new sensor electronics.  These are made up of a highly stable, laser-trimmed signal conditioner with electronic compensation for temperature drift, highly stable supply voltage regulation circuitry and low-pass filtering of the measurement signal to eliminate unwanted noise.

The capacitive measurement principle guarantees a very stable, linear relationship between the inclination being measured and the normalised output signal.

The sensor electronics require minimal power and, together with the capacitive primary transformer, are characterised by low errors, high signal-to-noise ratio and high long-term stability.

Contrary to measuring inclinations using accelerometers, this measurement principle enables a linear relationship between the inclination to be measured and the output signal, independent of the constant of gravity at the place of measurement, i.e. Independently of where the measurement is taking place, whether in Europe, Australia, on Mount Everest or the Moon.

Features
• Small size light weight
• Linear output response
• High measurement accuracy
• Small zero drift
• Small cross sensitivity
• High long term stability - virtually infinite lifespan
• Hysteresis-free output signal
• Integrated sensor electronics including signal conditioner and low-pass filter
• No data memory with memory loss
• Temperature compensated, conditioned 0...5V output signal
• Highly stable internal voltage regulation
• Optional 5 Volt reference voltage output
• Unconditioned operating voltage between 9V and 30V
• Low power consumption
• Protection against reverse supply voltage polarity
• EMC certified CE certified
• No interference by surrounding electromagnetic fields
• Shockproof as without moving mechanical parts
• Hermetically sealed
• Sensor electrically isolated from point of measurement by high quality plastic
housing – No ground connection
• Zero point adjustable through 360° using clamping ring

   
   
   
   

NB3

NB3

The inclinometer NB3 is a static accelerometer preferably employed for measuring small inclinations.

The sensor's primary transformer consists of a capacitive spring-mass system with gas-dynamic damping.

The sensor is manufactured either with an analog DC or a pulse width modulated output. The integrated sensor electronics require only minimal power and are in conjunction with the capacitive primary transformer characterized by high accuracy and long-term stability.

Features
• Linear output characteristics
• High measurement accuracy
• High long-term stability
• Hysteresis free output signal
• Minimal zero point drift
• Integrated sensor electronics
• Low power consumption
• Small housing
• Light weight
• Different output signal options
• No interference by ambient electromagnetic fields
• Minimal transverse sensitivity over whole measuring range!
• Hermetically sealed

   
   
 
 

NG2, NG3, NG4 NG2, NG3, NG4

The NG2, NG3 and NG4 are capacitive, liquid based inclinometers with integrated sensor electronics. They are manufactured with an analog DC output. The sensor electronics require only minimal power and are in conjunction with the capacitive primary transformer characterized by high accuracy and high long-term stability.
The measurement technique enables a linear relationship between the angle to be measured and the output signal. The determined angle is independent of the local gravitational acceleration, that means that no matter where the measurement is being taken, whether in Europe, Australia, on Mount Everest or on the moon, the inclination will be measured correctly anywhere.


Features
• Linear output characteristics
• High measurement accuracy
• Minimal linearity deviation
• High long-term stability
• Hysteresis free output signal
• Minimal zero point drift
• Integrated sensor electronics
• Low power consumption
• Different output signal options
• No interference by ambient electromagnetic fields
• Shockproof as without moving mechanical parts
• Hermetically sealed
• Sensor electrically isolated within the housing from point of measurement -
no ground connections
• zero point adjustable through 360° using clamping ring

   
   
 
 

NG2I, NG3I, NG4I NG2I, NG3I, NG4I

The NG2I, NG3I and NG4I are capacitive and liquid based inclinometers with integrated sensor electronics and current amplifier. Electronic temperature compensation makes up for the temperature drift of the sensitivity of the primary transformer. An integrated, highly stable voltage regulator ensures stable operation for a range of supply voltages.
The measurement technique provides a linear relationship between the angle to be measured (up to 80 degrees for the NG4I) and the output signal that is calibrated during manufacture. The measuring time constant can be matched to the requirements of the measurement task by appropriate hardware programming.
The power is obtained from the measurement current loop, thereby eliminating the need for a separate power supply and enabling operation with two wire connection.


Features
• Linear output characteristics
• High measurement accuracy
• Minimal linearity deviation
• High long-term stability
• Hysteresis free output signal
• Minimal zero point drift
• Integrated sensor electronics
• Low power consumption
• Different output signal options
• No interference by ambient electromagnetic fields
• Shockproof as without moving mechanical parts
• Hermetically sealed
• Sensor electrically isolated within the housing from point of measurement - no
ground connections
• Zero point adjustable through 360° using clamping ring
   
   
 
 

NG2U, NG3U, NG4U NG2U, NG3U, NG4U

The NG2U, NG3U and NG4U are capacitive, liquid based inclinometers with integrated sensor electronics and signal conditioner. Electronic temperature compensation makes up for the temperature drift of the sensitivity of the primary transformer. An integrated, highly stable voltage regulator ensures stable operation for a range of supply voltages.
The measurement technique provides a linear relationship between the angle to be measured (up to (80 degrees for the NG4U) and the output signal that is calibrated during manufacture. The measuring time constant can be matched to the requirements of the measurement task by appropriate hardware programming.


Features
• Temperature compensated, normalized 0 ... 5V output signal
• Non-regulated supply voltage in range of 9V ... 30V
• Integrated sensor electronics including signal conditioner
• Linear output characteristics
• High measurement accuracy
• Minimal linearity deviation
• High long-term stability
• Hysteresis free output signal
• No interference by ambient electromagnetic fields
• Shockproof as without moving mechanical parts
• Hermetically sealed
• Sensor electrically isolated from point of measurement - no ground connections
• Zero point adjustable through 360° using clamping ring EMC certified
   
   
 
 

NG360 NG360

The NG360 is a capacitive, liquid based inclinometer with integrated sensor electronics and 16 bit microprocessor. The measurement result is transmitted via a RS485 port for further processing. Up to 78 sensors can be operated using a single communications line.
The measurement method provides a linear relationship between the angle to be measured and the output signal. The determined angle is independent of the local gravitational acceleration, that means that no matter where the measurement is being taken, whether in Europe, Australia, on Mount Everest or on the moon, the inclination will be measured correctly anywhere. Temperature related inaccuracies are corrected by the integrated microprocessor.


Features
• Integrated 16bit microprocessor
• RS485 bus output signal
• No measuring range limitation
• 0.01 degree resolution
• Minimal linearity deviation
• High long-term stability
• Hysteresis free output signal
• Minimal zero point drift
• No interference by ambient electromagnetic fields
• Shockproof as without moving mechanical parts
• Hermetically sealed
• Sensor electrically isolated from point of measurement - no ground connection
• zero point adjustable through 360° using clamping ring
• Integrated temperature measurements rectify any temperature related measuring
inaccuracies
   
   
 
 
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